Most of the sources online state that you can statically link glibc, but discourage from doing so; e.g. centos package repo:

The glibc-static package contains the C library static libraries
for -static linking.  You don't need these, unless you link statically,
which is highly discouraged.

These sources rarely (or never) say why that would be a bad idea.

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    Ironic that CentOS's package repo is so outdated that it sometimes forces developers to link statically. – nada Aug 13 at 15:01

The reasons given in other answers are correct, but they are not the most important reason.

The most important reason why glibc should not be statically linked, is that it makes extensive internal use of dlopen, to load NSS (Name Service Switch) modules and iconv conversions. The modules themselves refer to C library functions. If the main program is dynamically linked with the C library, that's no problem. But if the main program is statically linked with the C library, dlopen has to go load a second copy of the C library to satisfy the modules' load requirements.

This means your "statically linked" program still needs a copy of libc.so.6 to be present on the file system, plus the NSS or iconv or whatever modules themselves, plus other dynamic libraries that the modules might need, like ld-linux.so.2, libresolv.so.2, etc. This is not what people usually want when they statically link programs.

It also means the statically linked program has two copies of the C library in its address space, and they might fight over whose stdout buffer is to be used, who gets to call sbrk with a nonzero argument, that sort of thing. There is a bunch of defensive logic inside glibc to try to make this work, but it's never been guaranteed to work.

You might think your program doesn't need to worry about this because it doesn't ever call getaddrinfo or iconv, but locale support uses iconv internally, which means any stdio.h function might trigger a call to dlopen, and you don't control this, the user's environment variable settings do.

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    Note that the need for a second copy of glibc is a design decision. If the static glibc library had linked in NSS and iconv statically, it wouldn't have been necessary. The downside of course would be that you could only use those NSS modules and iconv conversions that were linked in statically, but that's pretty obvious from the definition of static linking. – MSalters Aug 13 at 13:52
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    @MSalters There has been some discussion recently on the glibc development list about doing just that. This design decision was made in the 1990s, and there's a strong argument that we don't need quite so much flexibility in character encoding for terminal output anymore, especially not in the kinds of programs that people want to link statically. NSS flexibility is still important but there are alternative ways to handle that (e.g. nscd). – zwol Aug 13 at 14:01
  • This is not quite right; I discovered that staticly linked C programs using stdio.h work with no libraries in /lib. The program I had to do this with was lilo. – Joshua Aug 13 at 20:13
  • @Joshua Did you try it with LANG set to a locale that requires use of an unusual character set? – zwol Aug 13 at 20:21
  • @zwol: It just switches to LANG=C if it can't load the library. This behavior is necessary for early boot. – Joshua Aug 13 at 20:23

One of the reason is bug fixes and security patches. When you link statically the system updated glibc and other libraries don't benefit your application, your application stays vulnerable.


Bug fixes in glibc aren't included in a statically linked application when you upgrade glibc unless you rebuild the application.

Also, NSS (Name Service Switch) doesn't work unless you use dynamic linking.

  • 1
    what do you mean by NSS? – pzelasko Aug 13 at 12:23
  • @pzelasko Name Service Switch. – JL2210 Aug 13 at 14:53

The program/glibc interface is standardized and documented by POSIX, the C and C++ standards, and others. For example, the fopen() function behaves per the C standard, and pthread_mutex_lock() per POSIX.

The glibc/kernel interface is not standardized. Does fopen() use open() under the hood? Or does it use openat()? Or something else? What will it use next year? You don't know.

If the glibc/kernel interface changes, a program that uses whatever changed but statically links glibc won't work any more.

15+ years ago, Solaris removed all static versions of libc for this very reason.

Static Linking - where did it go?

With Solaris 10 you can no longer build a static executable. It's not that ld(1) doesn't allow static linking, or using archives, it's just that libc.a, the archive version of libc.so.1, is no longer provided. This library provides the interfaces between user land and the kernel, and without this library it is rather hard to create any form of application.

We've been warning users against static linking for some time now, and linking against libc.a has been especially problematic. Every solaris release, or update (even some patches) has resulted in some application that was built against libc.a, failing. The problem is that libc is supposed to isolate an application from the user/kernel boundary, a boundary which can undergo changes from release to release.

If an application is built against libc.a, then any kernel interface it references is extracted from the archive and becomes a part of the application. Thus, this application can only run on a kernel that is in-sync with the kernel interfaces used. Should these interfaces change, the application is treading on shaky ground.



There seems to be serious overestimation of the stability of the Linux kernel interface. See Linux kernel API changes/additions for details. To summarize:

enter image description here

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    yarchive.net/comp/linux/gcc_vs_kernel_stability.html: We care about user-space interfaces to an insane degree. We go to extreme lengths to maintain even badly designed or unintentional interfaces. Breaking user programs simply isn't acceptable. – Maxim Egorushkin Aug 13 at 11:37
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    @MaximEgorushkin Reality is different. The Linux ABI isn't very stable, to the point it's been mocked relatively recently: "It's not a secret that there are two basic ways of running a Linux distribution on your hardware. Either you use a stable distro which has quite an outdated kernel release which might not support your hardware or you run the most recent stable version but you lose stability and you are prone to regressions." – Andrew Henle Aug 13 at 11:46
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    The quote you cited is about in-kernel driver APIs, not the user-space API. – Maxim Egorushkin Aug 13 at 11:50
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    "The glibc interface is standardized. By POSIX. By the C standard. And others." the programming interface is, but the binary interface is not! – plugwash Aug 13 at 19:58
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    The kernel's binary interface is not standardised, but neither is glibc's binary interface. – plugwash Aug 13 at 20:18

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