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LD.SO(8)                            Linux Programmer's Manual                            LD.SO(8)

NAME
       ld.so, ld-linux.so - dynamic linker/loader

SYNOPSIS
       The dynamic linker can be run either indirectly by running some dynamically linked program
       or shared object (in which case no command-line options  to  the  dynamic  linker  can  be
       passed  and, in the ELF case, the dynamic linker which is stored in the .interp section of
       the program is executed) or directly by running:

       /lib/ld-linux.so.*  [OPTIONS] [PROGRAM [ARGUMENTS]]

DESCRIPTION
       The programs ld.so and ld-linux.so* find and load the shared  objects  (shared  libraries)
       needed by a program, prepare the program to run, and then run it.

       Linux binaries require dynamic linking (linking at run time) unless the -static option was
       given to ld(1) during compilation.

       The program ld.so handles a.out binaries, a binary format  used  long  ago.   The  program
       ld-linux.so*  (/lib/ld-linux.so.1  for libc5, /lib/ld-linux.so.2 for glibc2) handles bina-
       ries that are in the more modern ELF format.  Both programs have the  same  behavior,  and
       use the same support files and programs (ldd(1), ldconfig(8), and /etc/ld.so.conf).

       When  resolving  shared object dependencies, the dynamic linker first inspects each depen-
       dency string to see if it contains a slash (this can occur if  a  shared  object  pathname
       containing  slashes was specified at link time).  If a slash is found, then the dependency
       string is interpreted as a (relative or absolute)  pathname,  and  the  shared  object  is
       loaded using that pathname.

       If  a  shared  object  dependency does not contain a slash, then it is searched for in the
       following order:

       o  Using the directories specified in the DT_RPATH dynamic section attribute of the binary
          if present and DT_RUNPATH attribute does not exist.  Use of DT_RPATH is deprecated.

       o  Using  the  environment variable LD_LIBRARY_PATH, unless the executable is being run in
          secure-execution mode (see below), in which case this variable is ignored.

       o  Using the directories specified in the DT_RUNPATH dynamic section attribute of the  bi-
          nary  if present.  Such directories are searched only to find those objects required by
          DT_NEEDED (direct dependencies) entries and do not apply to  those  objects'  children,
          which  must  themselves  have  their  own DT_RUNPATH entries.  This is unlike DT_RPATH,
          which is applied to searches for all children in the dependency tree.

       o  From the cache file /etc/ld.so.cache, which  contains  a  compiled  list  of  candidate
          shared objects previously found in the augmented library path.  If, however, the binary
          was linked with the -z nodeflib linker option, shared objects in the default paths  are
          skipped.   Shared  objects installed in hardware capability directories (see below) are
          preferred to other shared objects.

       o  In the default path /lib, and then /usr/lib.  (On some 64-bit  architectures,  the  de-
          fault  paths for 64-bit shared objects are /lib64, and then /usr/lib64.)  If the binary
          was linked with the -z nodeflib linker option, this step is skipped.

   Dynamic string tokens
       In several places, the dynamic linker expands dynamic string tokens:

       o  In the environment variables LD_LIBRARY_PATH, LD_PRELOAD, and LD_AUDIT,

       o  inside the values of the dynamic section tags DT_NEEDED, DT_RPATH,  DT_RUNPATH,  DT_AU-
          DIT, and DT_DEPAUDIT of ELF binaries,

       o  in  the  arguments  to  the  ld.so  command  line  options --audit, --library-path, and
          --preload (see below), and

       o  in the filename arguments to the dlopen(3) and dlmopen(3) functions.

       The substituted tokens are as follows:

       $ORIGIN (or equivalently ${ORIGIN})
              This expands to the directory containing the program or shared  object.   Thus,  an
              application located in somedir/app could be compiled with

                  gcc -Wl,-rpath,'$ORIGIN/../lib'

              so that it finds an associated shared object in somedir/lib no matter where somedir
              is located in the directory hierarchy.  This facilitates the creation of "turn-key"
              applications that do not need to be installed into special directories, but can in-
              stead be unpacked into any directory and still find their own shared objects.

       $LIB (or equivalently ${LIB})
              This expands to lib or lib64 depending on the architecture (e.g., on x86-64, it ex-
              pands to lib64 and on x86-32, it expands to lib).

       $PLATFORM (or equivalently ${PLATFORM})
              This  expands  to  a  string corresponding to the processor type of the host system
              (e.g., "x86_64").  On some architectures, the Linux kernel doesn't provide a  plat-
              form  string  to  the  dynamic  linker.  The value of this string is taken from the
              AT_PLATFORM value in the auxiliary vector (see getauxval(3)).

       Note that the dynamic string tokens have to be quoted properly when set from a  shell,  to
       prevent their expansion as shell or environment variables.

OPTIONS
       --audit list
              Use  objects  named  in  list  as  auditors.   The objects in list are delimited by
              colons.

       --inhibit-cache
              Do not use /etc/ld.so.cache.

       --library-path path
              Use path instead of LD_LIBRARY_PATH environment variable setting (see below).   The
              names ORIGIN, LIB, and PLATFORM are interpreted as for the LD_LIBRARY_PATH environ-
              ment variable.

       --inhibit-rpath list
              Ignore RPATH and RUNPATH information in object names in list.  This option  is  ig-
              nored  when  running in secure-execution mode (see below).  The objects in list are
              delimited by colons or spaces.

       --list List all dependencies and how they are resolved.

       --preload list (since glibc 2.30)
              Preload the objects specified in list.  The objects in list are delimited by colons
              or  spaces.   The  objects  are  preloaded  as  explained in the description of the
              LD_PRELOAD environment variable below.

              By contrast with LD_PRELOAD,  the  --preload  option  provides  a  way  to  perform
              preloading  for  a  single executable without affecting preloading performed in any
              child process that executes a new program.

       --verify
              Verify that program is dynamically linked and this dynamic linker can handle it.

ENVIRONMENT
       Various environment variables influence the operation of the dynamic linker.

   Secure-execution mode
       For security reasons, if the dynamic linker determines that a binary should be run in  se-
       cure-execution mode, the effects of some environment variables are voided or modified, and
       furthermore those environment variables are stripped from the  environment,  so  that  the
       program does not even see the definitions.  Some of these environment variables affect the
       operation of the dynamic linker itself, and are described below.  Other environment  vari-
       ables treated in this way include: GCONV_PATH, GETCONF_DIR, HOSTALIASES, LOCALDOMAIN, LOC-
       PATH, MALLOC_TRACE, NIS_PATH, NLSPATH, RESOLV_HOST_CONF, RES_OPTIONS, TMPDIR, and TZDIR.

       A binary is executed in secure-execution mode if the AT_SECURE entry in the auxiliary vec-
       tor (see getauxval(3)) has a nonzero value.  This entry may have a nonzero value for vari-
       ous reasons, including:

       *  The process's real and effective user IDs differ, or the real and effective  group  IDs
          differ.   This  typically occurs as a result of executing a set-user-ID or set-group-ID
          program.

       *  A process with a non-root user ID executed a binary that conferred capabilities to  the
          process.

       *  A nonzero value may have been set by a Linux Security Module.

   Environment variables
       Among the more important environment variables are the following:

       LD_ASSUME_KERNEL (since glibc 2.2.3)
              Each  shared object can inform the dynamic linker of the minimum kernel ABI version
              that it requires.  (This requirement is encoded in an  ELF  note  section  that  is
              viewable via readelf -n as a section labeled NT_GNU_ABI_TAG.)  At run time, the dy-
              namic linker determines the ABI version of the running kernel and will reject load-
              ing shared objects that specify minimum ABI versions that exceed that ABI version.

              LD_ASSUME_KERNEL  can be used to cause the dynamic linker to assume that it is run-
              ning on a system with a different kernel ABI version.  For example,  the  following
              command  line causes the dynamic linker to assume it is running on Linux 2.2.5 when
              loading the shared objects required by myprog:

                  $ LD_ASSUME_KERNEL=2.2.5 ./myprog

              On systems that provide multiple versions of a shared object (in different directo-
              ries  in  the  search path) that have different minimum kernel ABI version require-
              ments, LD_ASSUME_KERNEL can be used to select the version of  the  object  that  is
              used (dependent on the directory search order).

              Historically,  the  most common use of the LD_ASSUME_KERNEL feature was to manually
              select the older LinuxThreads POSIX threads implementation on systems that provided
              both  LinuxThreads  and  NPTL  (which latter was typically the default on such sys-
              tems); see pthreads(7).

       LD_BIND_NOW (since glibc 2.1.1)
              If set to a nonempty string, causes the dynamic linker to resolve  all  symbols  at
              program  startup  instead  of  deferring function call resolution to the point when
              they are first referenced.  This is useful when using a debugger.

       LD_LIBRARY_PATH
              A list of directories in which to search for ELF libraries at execution time.   The
              items  in  the  list  are separated by either colons or semicolons, and there is no
              support for escaping either separator.  A zero-length directory name indicates  the
              current working directory.

              This variable is ignored in secure-execution mode.

              Within  the  pathnames specified in LD_LIBRARY_PATH, the dynamic linker expands the
              tokens $ORIGIN, $LIB, and $PLATFORM (or the versions using curly braces around  the
              names) as described above in Dynamic string tokens.  Thus, for example, the follow-
              ing would cause a library to be searched for in either the lib or  lib64  subdirec-
              tory below the directory containing the program to be executed:

                  $ LD_LIBRARY_PATH='$ORIGIN/$LIB' prog

              (Note  the  use  of  single  quotes, which prevent expansion of $ORIGIN and $LIB as
              shell variables!)

       LD_PRELOAD
              A list of additional, user-specified, ELF shared objects to be  loaded  before  all
              others.  This feature can be used to selectively override functions in other shared
              objects.

              The items of the list can be separated by spaces or colons, and there is no support
              for  escaping either separator.  The objects are searched for using the rules given
              under DESCRIPTION.  Objects are searched for and added to the link map in the left-
              to-right order specified in the list.

              In  secure-execution  mode, preload pathnames containing slashes are ignored.  Fur-
              thermore, shared objects are preloaded only from the  standard  search  directories
              and only if they have set-user-ID mode bit enabled (which is not typical).

              Within  the  names specified in the LD_PRELOAD list, the dynamic linker understands
              the tokens $ORIGIN, $LIB, and $PLATFORM (or the versions using curly braces  around
              the  names)  as described above in Dynamic string tokens.  (See also the discussion
              of quoting under the description of LD_LIBRARY_PATH.)

              There are various methods of specifying libraries to be preloaded,  and  these  are
              handled in the following order:

              (1) The LD_PRELOAD environment variable.

              (2) The --preload command-line option when invoking the dynamic linker directly.

              (3) The /etc/ld.so.preload file (described below).

       LD_TRACE_LOADED_OBJECTS
              If  set  (to any value), causes the program to list its dynamic dependencies, as if
              run by ldd(1), instead of running normally.

       Then there are lots of more or less obscure variables, many obsolete or only for  internal
       use.

       LD_AUDIT (since glibc 2.4)
              A  list  of  user-specified, ELF shared objects to be loaded before all others in a
              separate linker namespace (i.e., one that does not intrude upon the  normal  symbol
              bindings  that  would  occur in the process) These objects can be used to audit the
              operation of the dynamic linker.  The items in the list  are  colon-separated,  and
              there is no support for escaping the separator.

              LD_AUDIT is ignored in secure-execution mode.

              The  dynamic  linker  will  notify  the  audit shared objects at so-called auditing
              checkpoints--for example, loading a new shared object, resolving a symbol, or call-
              ing  a symbol from another shared object--by calling an appropriate function within
              the audit shared object.  For details, see rtld-audit(7).  The  auditing  interface
              is largely compatible with that provided on Solaris, as described in its Linker and
              Libraries Guide, in the chapter Runtime Linker Auditing Interface.

              Within the names specified in the LD_AUDIT list, the dynamic linker understands the
              tokens  $ORIGIN, $LIB, and $PLATFORM (or the versions using curly braces around the
              names) as described above in Dynamic string tokens.  (See also  the  discussion  of
              quoting under the description of LD_LIBRARY_PATH.)

              Since  glibc  2.13,  in secure-execution mode, names in the audit list that contain
              slashes are ignored, and only shared objects in  the  standard  search  directories
              that have the set-user-ID mode bit enabled are loaded.

       LD_BIND_NOT (since glibc 2.1.95)
              If  this  environment  variable  is set to a nonempty string, do not update the GOT
              (global offset table) and PLT (procedure linkage table) after resolving a  function
              symbol.   By  combining the use of this variable with LD_DEBUG (with the categories
              bindings and symbols), one can observe all run-time function bindings.

       LD_DEBUG (since glibc 2.1)
              Output verbose debugging information about operation of the  dynamic  linker.   The
              content  of  this variable is one of more of the following categories, separated by
              colons, commas, or (if the value is quoted) spaces:

              help        Specifying help in the value of this variable does not run  the  speci-
                          fied program, and displays a help message about which categories can be
                          specified in this environment variable.

              all         Print all debugging information (except statistics and unused; see  be-
                          low).

              bindings    Display information about which definition each symbol is bound to.

              files       Display progress for input file.

              libs        Display library search paths.

              reloc       Display relocation processing.

              scopes      Display scope information.

              statistics  Display relocation statistics.

              symbols     Display search paths for each symbol look-up.

              unused      Determine unused DSOs.

              versions    Display version dependencies.

              Since  glibc  2.3.4,  LD_DEBUG is ignored in secure-execution mode, unless the file
              /etc/suid-debug exists (the content of the file is irrelevant).

       LD_DEBUG_OUTPUT (since glibc 2.1)
              By default, LD_DEBUG output is written to standard error.   If  LD_DEBUG_OUTPUT  is
              defined,  then  output  is written to the pathname specified by its value, with the
              suffix "." (dot) followed by the process ID appended to the pathname.

              LD_DEBUG_OUTPUT is ignored in secure-execution mode.

       LD_DYNAMIC_WEAK (since glibc 2.1.91)
              By default, when searching shared libraries to resolve a symbol reference, the  dy-
              namic linker will resolve to the first definition it finds.

              Old glibc versions (before 2.2), provided a different behavior: if the linker found
              a symbol that was weak, it would remember that symbol and keep searching in the re-
              maining shared libraries.  If it subsequently found a strong definition of the same
              symbol, then it would instead use that  definition.   (If  no  further  symbol  was
              found, then the dynamic linker would use the weak symbol that it initially found.)

              The old glibc behavior was nonstandard.  (Standard practice is that the distinction
              between weak and strong symbols should have effect only at static link  time.)   In
              glibc  2.2,  the dynamic linker was modified to provide the current behavior (which
              was the behavior that was provided by most other implementations at that time).

              Defining the LD_DYNAMIC_WEAK environment variable (with any value) provides the old
              (nonstandard)  glibc  behavior,  whereby a weak symbol in one shared library may be
              overridden by a strong symbol subsequently discovered in  another  shared  library.
              (Note that even when this variable is set, a strong symbol in a shared library will
              not override a weak definition of the same symbol in the main program.)

              Since glibc 2.3.4, LD_DYNAMIC_WEAK is ignored in secure-execution mode.

       LD_HWCAP_MASK (since glibc 2.1)
              Mask for hardware capabilities.

       LD_ORIGIN_PATH (since glibc 2.1)
              Path where the binary is found.

              Since glibc 2.4, LD_ORIGIN_PATH is ignored in secure-execution mode.

       LD_POINTER_GUARD (glibc from 2.4 to 2.22)
              Set to 0 to disable pointer guarding.  Any other value  enables  pointer  guarding,
              which  is  also the default.  Pointer guarding is a security mechanism whereby some
              pointers to code stored in writable  program  memory  (return  addresses  saved  by
              setjmp(3)  or  function pointers used by various glibc internals) are mangled semi-
              randomly to make it more difficult for an attacker to hijack the pointers  for  use
              in  the  event  of  a  buffer  overrun or stack-smashing attack.  Since glibc 2.23,
              LD_POINTER_GUARD can no longer be used to disable pointer guarding,  which  is  now
              always enabled.

       LD_PROFILE (since glibc 2.1)
              The name of a (single) shared object to be profiled, specified either as a pathname
              or a soname.  Profiling output is appended to the file  whose  name  is:  "$LD_PRO-
              FILE_OUTPUT/$LD_PROFILE.profile".

              Since glibc 2.2.5, LD_PROFILE is ignored in secure-execution mode.

       LD_PROFILE_OUTPUT (since glibc 2.1)
              Directory  where  LD_PROFILE output should be written.  If this variable is not de-
              fined, or is defined as an empty string, then the default is /var/tmp.

              LD_PROFILE_OUTPUT is ignored in secure-execution mode; instead /var/profile is  al-
              ways  used.  (This detail is relevant only before glibc 2.2.5, since in later glibc
              versions, LD_PROFILE is also ignored in secure-execution mode.)

       LD_SHOW_AUXV (since glibc 2.1)
              If this environment variable is defined (with any value), show the auxiliary  array
              passed up from the kernel (see also getauxval(3)).

              Since glibc 2.3.4, LD_SHOW_AUXV is ignored in secure-execution mode.

       LD_TRACE_PRELINKING (since glibc 2.4)
              If  this environment variable is defined, trace prelinking of the object whose name
              is assigned to this environment variable.  (Use ldd(1) to get a list of the objects
              that  might  be traced.)  If the object name is not recognized, then all prelinking
              activity is traced.

       LD_USE_LOAD_BIAS (since glibc 2.3.3)
              By default (i.e., if this variable  is  not  defined),  executables  and  prelinked
              shared  objects  will  honor  base  addresses of their dependent shared objects and
              (nonprelinked) position-independent executables (PIEs)  and  other  shared  objects
              will  not  honor  them.  If LD_USE_LOAD_BIAS is defined with the value 1, both exe-
              cutables and PIEs will honor the base addresses.  If  LD_USE_LOAD_BIAS  is  defined
              with the value 0, neither executables nor PIEs will honor the base addresses.

              Since glibc 2.3.3, this variable is ignored in secure-execution mode.

       LD_VERBOSE (since glibc 2.1)
              If set to a nonempty string, output symbol versioning information about the program
              if the LD_TRACE_LOADED_OBJECTS environment variable has been set.

       LD_WARN (since glibc 2.1.3)
              If set to a nonempty string, warn about unresolved symbols.

       LD_PREFER_MAP_32BIT_EXEC (x86-64 only; since glibc 2.23)
              According to the Intel Silvermont software optimization guide, for 64-bit  applica-
              tions,  branch prediction performance can be negatively impacted when the target of
              a branch is more than 4 GB away from the branch.  If this environment  variable  is
              set (to any value), the dynamic linker will first try to map executable pages using
              the mmap(2) MAP_32BIT flag, and fall back to mapping without that flag if that  at-
              tempt  fails.   NB:  MAP_32BIT  will  map to the low 2 GB (not 4 GB) of the address
              space.

              Because MAP_32BIT reduces the address range available for address space layout ran-
              domization  (ASLR), LD_PREFER_MAP_32BIT_EXEC is always disabled in secure-execution
              mode.

FILES
       /lib/ld.so
              a.out dynamic linker/loader

       /lib/ld-linux.so.{1,2}
              ELF dynamic linker/loader

       /etc/ld.so.cache
              File containing a compiled list of directories in which to search  for  shared  ob-
              jects and an ordered list of candidate shared objects.  See ldconfig(8).

       /etc/ld.so.preload
              File  containing a whitespace-separated list of ELF shared objects to be loaded be-
              fore the program.  See the discussion of LD_PRELOAD above.  If both LD_PRELOAD  and
              /etc/ld.so.preload  are  employed,  the  libraries specified by LD_PRELOAD are pre-
              loaded first.  /etc/ld.so.preload has a system-wide effect, causing  the  specified
              libraries  to be preloaded for all programs that are executed on the system.  (This
              is usually undesirable, and is typically employed only as an emergency remedy,  for
              example, as a temporary workaround to a library misconfiguration issue.)

       lib*.so*
              shared objects

NOTES
   Hardware capabilities
       Some  shared  objects are compiled using hardware-specific instructions which do not exist
       on every CPU.  Such objects should be installed in directories whose names define the  re-
       quired hardware capabilities, such as /usr/lib/sse2/.  The dynamic linker checks these di-
       rectories against the hardware of the machine and selects the most suitable version  of  a
       given  shared object.  Hardware capability directories can be cascaded to combine CPU fea-
       tures.  The list of supported hardware capability names depends on the CPU.  The following
       names are currently recognized:

       Alpha  ev4, ev5, ev56, ev6, ev67

       MIPS   loongson2e, loongson2f, octeon, octeon2

       PowerPC
              4xxmac,  altivec,  arch_2_05,  arch_2_06, booke, cellbe, dfp, efpdouble, efpsingle,
              fpu, ic_snoop, mmu, notb, pa6t, power4, power5, power5+,  power6x,  ppc32,  ppc601,
              ppc64, smt, spe, ucache, vsx

       SPARC  flush, muldiv, stbar, swap, ultra3, v9, v9v, v9v2

       s390   dfp,  eimm,  esan3,  etf3enh,  g5,  highgprs, hpage, ldisp, msa, stfle, z900, z990,
              z9-109, z10, zarch

       x86 (32-bit only)
              acpi, apic, clflush, cmov, cx8, dts, fxsr, ht, i386, i486, i586,  i686,  mca,  mmx,
              mtrr, pat, pbe, pge, pn, pse36, sep, ss, sse, sse2, tm

SEE ALSO
       ld(1),  ldd(1),  pldd(1),  sprof(1),  dlopen(3),  getauxval(3),  elf(5),  capabilities(7),
       rtld-audit(7), ldconfig(8), sln(8)

COLOPHON
       This page is part of release 5.10 of the Linux man-pages project.  A  description  of  the
       project,  information  about  reporting  bugs, and the latest version of this page, can be
       found at https://www.kernel.org/doc/man-pages/.

GNU                                         2020-08-13                                   LD.SO(8)

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