When you use cc(1) to link a program, it will invoke a default linker command. For instance, your version of the compiler may have been built to use /usr/bin/ld by default on a unix-like platform.

Is there a way to specify a different linker command that cc(1) (or c++(1)) should use (e.g., /usr/local/bin/ld instead of /usr/bin/ld)? I'm interested mostly in gcc and clang.

I'm not looking for methods that involve running the various compilation steps separately (e.g., pre-process, compile, assemble, link).

For example, I was hoping something like this might do the job:

env LD=/usr/local/bin/ld cc foo.c -o foo

But that doesn't work for gcc or clang. It would work, of course, if you had a makefile that built an object file first, then invoked ${LD} to link (e.g., env LD=/usr/local/bin/ld make)

Update (with one possible motivation): To easily test with a different linker than the default linker. For example, it would be nice to be able to do this:

cc --linker=/usr/local/bin/ld foo.c -o foo

Instead, you have to do generate the object file, run cc -v to figure out the arguments to ld, manually run the ld you want with those arguments:

cc -c foo.c
cc -v foo.c -o /dev/null

Now look at the linker invocation and manually copy/paste replacing linker and temporary object file. Something like this (example taken from a test on fedora 23) where you replace /usr/libexec/gcc/x86_64-redhat-linux/5.3.1/collect2 with /usr/local/bin/ld (although it's not exactly the same as collect2):

/usr/local/bin/ld -plugin /usr/libexec/gcc/x86_64-redhat-linux/5.3.1/liblto_plugin.so -plugin-opt=/usr/libexec/gcc/x86_64-redhat-linux/5.3.1/lto-wrapper -plugin-opt=-fresolution=/tmp/jhein/ccM2XKIg.res -plugin-opt=-pass-through=-lgcc -plugin-opt=-pass-through=-lgcc_s -plugin-opt=-pass-through=-lc -plugin-opt=-pass-through=-lgcc -plugin-opt=-pass-through=-lgcc_s --build-id --no-add-needed --eh-frame-hdr --hash-style=gnu -m elf_x86_64 -dynamic-linker /lib64/ld-linux-x86-64.so.2 -o c /usr/lib/gcc/x86_64-redhat-linux/5.3.1/../../../../lib64/crt1.o /usr/lib/gcc/x86_64-redhat-linux/5.3.1/../../../../lib64/crti.o /usr/lib/gcc/x86_64-redhat-linux/5.3.1/crtbegin.o -L/usr/lib/gcc/x86_64-redhat-linux/5.3.1 -L/usr/lib/gcc/x86_64-redhat-linux/5.3.1/../../../../lib64 -L/lib/../lib64 -L/usr/lib/../lib64 -L/usr/lib/gcc/x86_64-redhat-linux/5.3.1/../../.. c.o -lgcc --as-needed -lgcc_s --no-as-needed -lc -lgcc --as-needed -lgcc_s --no-as-needed /usr/lib/gcc/x86_64-redhat-linux/5.3.1/crtend.o /usr/lib/gcc/x86_64-redhat-linux/5.3.1/../../../../lib64/crtn.o

As you can see, that's not easy. Note there is documentation in the gcc info page about how collect2 looks for a linker program. But according to those docs, the first place it looks is not an environment variable or something you can specify on the command line (e.g., --linker). The docs say it looks first for a "a hard coded linker file name". If that documentation is correct, to coerce it not to use that linker (i.e., trick it), you would have to rename the default linker (e.g., sudo mv /usr/bin/ld /usr/bin/ld.tmp-disable).

Update 2: Using -B seems to work well enough for my needs. See below where I posted an answer. I can't accept my own answer, but I would if I could - it seems to solve the issue well.

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    cc is just an alias for gcc, clang, or whatever default C compiler your system uses. – Eli Sadoff Nov 7 '16 at 17:23
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    @BasileStarynkevitch: I ask because I want to test a different linker than the one installed in /usr/bin. No XY problem here. Just testing against a different version of the linker. – Juan Nov 7 '16 at 18:12
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    @Olaf: Yes, I know what cc is. I specifically mentioned that I am already aware of methods to split up compiler/linker steps. This question is specifically about how to tell cc (which can execute all build stages with a single invocation of cc) how to use a different linker than the one that is specified by default when cc is built. Maybe you weren't aware that cc can invoke the linker (try building a simple C program with cc -v helloworld.c). – Juan Nov 7 '16 at 18:19
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    Looks like an XY problem. Why do you want to use a different than the default linker? For normal compilation, that should be what you want, for cross-compilation, you should use the appropriate toolchain which also includes the correct linker. – too honest for this site Nov 7 '16 at 20:19
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    Comments are not part of the question. You should edit the question, see How to Ask and read the FAQ. But yes, I oversaw that Basil already suspected the same. Still, I don't see what your problem is. cc is meant for default compilation/build. For any larger program you should use a build-tool anyway and they always allow to specify compiler and linker seperately. – too honest for this site Nov 7 '16 at 20:35

The -B option allows you to specify an alternate search path for executables, libraries, include files & data files that the compiler will use. This works for some versions of gcc [1] and for clang (currently undocumented - in man pages of at least clang 3.7 & 3.8):

cc -B/usr/local/bin foo.c -o foo

Note that this will cause cc to search for other tools (e.g., the assembler) in the path specified by -B. So supposing you have a different version of binutils installed in /usr/local/bin, if you only want to use that linker (rather than /usr/local/bin/as, et. al.), you could do something like this:

mkdir /tmp/usemyld
ln -s /usr/local/bin/ld /tmp/usemyld
cc -B/tmp/usemyld foo.c -o foo

-B has its own set of rules that allow you to override different files that the gcc compiler tries to use (programs, libraries, include files, data files). This is documented as far back as at least gcc 2.95 - read the gcc man / info pages. I don't know how compatible the behavior of -B is for clang. As mentioned, it's not currently documented in the clang man page. But it worked well enough to allow me to select an alternate linker as shown above.

gcc also supports calling a script/program as specified by -wrapper. clang does not (currently). You could also use that and point at a wrapper script that alters what program the compiler is calling. I don't know if collect2 heeds the -wrapper option (and for gcc, collect2 is what calls the linker when compiling c/c++ programs at least).

[1] The linker search order documented in the gcc info page for collect2 says that it will search first for "a hard coded linker file name if GCC was configured with the '--with-ld' option"). So if your gcc was not configured with '--with-ld', then it will eventually search in the path specified by -B (if it doesn't find real-ld first). If your gcc was configured with --with-ld, then the -B option will not help you specify an alternate linker of your choosing.

  • used gcc -v -B/usr/bin … and still got a call to /opt/local/bin/ld -syslibroot … — so this didn't work either. – Martin Nov 4 '20 at 10:02
  • @Martin - Which gcc version? Is there a valid 'ld' in /usr/bin? Consider using a tracing tool (ktrace, strace) to see if gcc tries /usr/bin first. Was your gcc built --with-ld (see the footnote)? – Juan Jan 7 at 17:13

Certain linkers are easy to use - just gcc -fuse-ld=lld main.c. This appears to have been added somewhere in gcc version 4. -fuse-ld also works with clang 10.0.1.

Supported linkers are listed on https://gcc.gnu.org/onlinedocs/gcc/Link-Options.html


Use the bfd linker instead of the default linker.


Use the gold linker instead of the default linker.


Use the LLVM lld linker instead of the default linker.

Hopefully this helps people coming from searches, as OP long ago had their question answered.

  • This is a good find. gcc does not allow you to specify a path to a linker, however: gcc9 -fuse-ld=/opt/ld.bfd x.c -o /dev/null gcc9: error: unrecognized command line option '-fuse-ld=/opt/ld.bfd' . Sorry that should be split into two lines - I don't know how to do that in a comment. clang does allow a full path specification for -fuse-ld, however. That's nice. Note that -fuse-ld does not even show up with clang --help. I have not found where it is documented for llvm/clang yet. (as of llvm90). – Juan Feb 28 '20 at 16:33
  • That didn't work: gcc: error: unrecognized command line option '-fuse-ld=/usr/bin/ld' — continue looking. – Martin Nov 4 '20 at 9:58
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    As I mentioned in my answer, this only works in a few special cases. If you want to use bfd, you must -fuse-ld=bfd, and cannot use the whole path to the bfd linker. – asky Nov 5 '20 at 5:39
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    @Martin - As asky indicated, the argument to some of the current implementations of -fuse-ld is special. As mentioned in my earlier comment above, for gcc's implementation (e.g., gcc 9), it doesn't take an arbitrary path, but rather it takes the extension after ld (e.g. -fuse-ld=bfd in the example in my comment above). As mentioned, a path works for clang, though. The answer could be tweaked to make that a little more clear. – Juan Jan 7 at 17:24

GCC uses internally spec files (to decide how the gcc program behaves, in particular how it is linking and with what linker). You can configure or change that with -specs= so have your own spec file and use it. Or use the -T option (of gcc which explicitly passes it to ld) to give a linker script.

The default spec is obtained with gcc -dumpspecs

Also, by strace(1)-ing some gcc command, you'll find out that it tries to access e.g. /usr/lib/gcc/x86_64-linux-gnu/specs; so put your own spec file there.

Those spec files are textual, so you should be able to write your own.

But I am not sure it is a good idea.

BTW, /usr/bin/cc is on Linux distribution a symlink (on Debian: /usr/bin/cc -> /etc/alternatives/cc -> /usr/bin/gcc), either to some gcc or to some clang. AFAIK, cc (and c99) is specified in POSIX (but of course, nothing is told about its relation to ld)

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    The -T option is for ld(1), not for cc(1). I'll look at -specs. Looks like it is gcc-specific. And I agree it doesn't feel like the right solution. – Juan Nov 7 '16 at 18:07
  • The -T option is for gcc – Basile Starynkevitch Nov 7 '16 at 21:29
  • -T is for ld(1). Similar to passing other options to the linker (such as --startgroup, for instance), to pass -T' on to the linker using gcc` (or clang), you can use -Wl,-T -Wl,your_link_script_file.ld. As it turns out, as a shortcut (similar to -L), you can pass -T to gcc or clang, but it's not documented anywhere that I see (man pages, info pages, --help). So, yes, you are right. Sorry - I made the mistake of looking in the docs for it. But, the linker script is read by ld, not cc - too late to point to a different command even if there were a way to specify it. – Juan Nov 7 '16 at 23:56
  • No, -T is documented as a gcc option (follow the link). Of course it is passed to ld, but gcc knows about it – Basile Starynkevitch Nov 8 '16 at 5:10
  • Yes, I see it in the online documentation now. It's still just passed directly to /usr/bin/ld (rather than parsed by cc) or whatever default linker was specified when cc was built. So it doesn't help solve the original problem. – Juan Nov 8 '16 at 13:25

Put the directory which contains the alternative linker ld to the front of PATH environment variable.

For example, if an alternative ld is in ~/local/bin. export PATH=~/local/bin:$PATH will cause cc to use ~/local/bin/ld.

  • Changing the PATH around is not always a very convenient. I'm here to look for a different solution. – Martin Nov 4 '20 at 9:54

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