I need to deploy a C++ application built on Ubuntu 12.10 with GCC 4.7's libstdc++ to systems running Ubuntu 10.04, which comes with a considerably older version of libstdc++.

Currently, I'm compiling with -static-libstdc++ -static-libgcc, as suggested by this blog post: Linking libstdc++ statically. The author warns against using any dynamically-loaded C++ code when compiling libstdc++ statically, which is something I haven't yet checked. Still, everything seems to be going smoothly so far: I can make use of C++11 features on Ubuntu 10.04, which is what I was after.

I note that this article is from 2005, and perhaps much has changed since then. Is its advice still current? Are there any lurking issues I should be aware of?

  • No, linking statically to libstdc++ does not imply that. If it did imply that then there would be no point to the -static-libstdc++ option, you would just use -static – Jonathan Wakely Dec 29 '12 at 13:48
  • @JonathanWakely -static will get kernel too old error in some ubuntu 1404 system. The glibc.so is like kernel32.dll in window, it is part of operation system interface, we should not embed it in our binary. You can use objdump -T [binary path] to see it dynamically-loaded libstdc++.so or not. For golang programer, you can add #cgo linux LDFLAGS: -static-libstdc++ -static-libgcc before import "C" – bronze man Oct 10 '18 at 11:01
  • @bronzeman, but we're talking about -static-libstdc++ not -static so libc.so will not be statically linked. – Jonathan Wakely Oct 10 '18 at 11:04
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    @NickHutchinson the linked-to blog post is gone. This SO question is a popular search hit for the relevant terms here. Can you reproduce the critical info from that blog post in your question, or offer a new link if you know where it's moved to? – Brian Cain Oct 22 '18 at 18:22
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    @BrianCain The internet archive has it: web.archive.org/web/20160313071116/http://www.trilithium.com/… – Rob Keniger Aug 30 '19 at 5:31

That blog post is pretty inaccurate.

As far as I know C++ ABI changes have been introduced with every major release of GCC (i.e. those with different first or second version number components).

Not true. The only C++ ABI changes introduced since GCC 3.4 have been backward-compatible, meaning the C++ ABI has been stable for nearly nine years.

To make matters worse, most major Linux distributions use GCC snapshots and/or patch their GCC versions, making it virtually impossible to know exactly what GCC versions you might be dealing with when you distribute binaries.

The differences between distributions' patched versions of GCC are minor, and not ABI changing, e.g. Fedora's 4.6.3 20120306 (Red Hat 4.6.3-2) is ABI compatible with the upstream FSF 4.6.x releases and almost certainly with any 4.6.x from any other distro.

On GNU/Linux GCC's runtime libraries use ELF symbol versioning so it's easy to check the symbol versions needed by objects and libraries, and if you have a libstdc++.so that provides those symbols it will work, it doesn't matter if it's a slightly different patched version from another version of your distro.

but no C++ code (or any code using the C++ runtime support) may be linked dynamically if this is to work.

This is not true either.

That said, statically linking to libstdc++.a is one option for you.

The reason it might not work if you dynamically load a library (using dlopen) is that libstdc++ symbols it depends on might not have been needed by your application when you (statically) linked it, so those symbols will not be present in your executable. That can be solved by dynamically-linking the shared library to libstdc++.so (which is the right thing to do anyway if it depends on it.) ELF symbol interposition means symbols that are present in your executable will be used by the shared library, but others not present in your executable will be found in whichever libstdc++.so it links to. If your application doesn't use dlopen you don't need to care about that.

Another option (and the one I prefer) is to deploy the newer libstdc++.so alongside your application and ensure it is found before the default system libstdc++.so, which can be done by forcing the dynamic linker to look in the right place, either using $LD_LIBRARY_PATH environment variable at run-time, or by setting an RPATH in the executable at link-time. I prefer to use RPATH as it doesn't rely on the environment being set correctly for the application to work. If you link your application with '-Wl,-rpath,$ORIGIN' (note the single quotes to prevent the shell trying to expand $ORIGIN) then the executable will have an RPATH of $ORIGIN which tells the dynamic linker to look for shared libraries in the same directory as the executable itself. If you put the newer libstdc++.so in the same directory as the executable it will be found at run-time, problem solved. (Another option is to put the executable in /some/path/bin/ and the newer libstdc++.so in /some/path/lib/ and link with '-Wl,-rpath,$ORIGIN/../lib' or any other fixed location relative to the executable, and set the RPATH relative to $ORIGIN)

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    This explanation, especially about RPATH, is glorious. – nilweed Aug 1 '14 at 23:31
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    Shipping libstdc++ with your app on Linux is bad advice. Google for "steam libstdc++" to see all the drama that this brings. In short, if your exe loads external libs (like, opengl) that want to dlopen libstdc++ again (like, radeon drivers), those libs will be using your libstdc++ because it's already loaded, instead of their own, which is what they need and expect. So you're back to square one. – user519179 Mar 31 '15 at 0:08
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    @cap, the OP is specifically asking about deploying to a distro where the system libstdc++ is older. The Steam problem is that they bundled a libstdc++.so that was older than the system one (presumably it was newer at the time they bundled it, but distros moved on to even newer ones). That can be solved by having the RPATH point to a directory containing a libstdc++.so.6 symlink that is set at installation time to point to the bundled lib or to the system one if it's newer. There are more complicated mixed-linkage models, as used by Red Hat DTS, but they're hard to do yourself. – Jonathan Wakely Mar 31 '15 at 9:53
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    hey man, I'm sorry if I don't want my model for shipping backwards-compat binaries to include "trusting other people to keep libstdc++ ABI compat" or "conditionally linking libstdc++ at runtime"... if that ruffles some feathers here and there, what can I do, I mean no disrespect. And if you remember the memcpy@GLIBC_2.14 drama, you can't really fault me for having trust issues with this :) – user519179 Mar 31 '15 at 22:41
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    I had to use '-Wl,-rpath,$ORIGIN' (note the '-' in front of rpath). I can't edit the answer because edits must be at least 6 characters .... – user368507 Jun 18 '16 at 12:00

One addition to Jonathan Wakely's excellent answer, why dlopen() is problematic:

Due to the new exception handling pool in GCC 5 (see PR 64535 and PR 65434), if you dlopen and dlclose a library that is statically linked to libstdc++, you will get a memory leak (of the pool object) each time. So if there's any chance that you'll ever use dlopen, it seems like a really bad idea to statically link libstdc++. Note that this is a real leak as opposed to the benign one mentioned in PR 65434.

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    The function __gnu_cxx::__freeres() seems to provide at least some help with this issue, since it frees the internal buffer of the pool object. But for me it is rather unclear which implication a call to this function has with respect to exceptions accidentally thrown afterwards. – phlipsy Aug 24 '18 at 8:46

Add-on to Jonathan Wakely's answer regarding the RPATH:

RPATH will only work if the RPATH in question is the RPATH of the running application. If you have a library which dynamically links to any library through its own RPATH, the library's RPATH will be overwritten by the RPATH of the application which loads it. This is a problem when you cannot guarantee that the RPATH of the application is the same as that of your library, e.g. if you expect your dependencies to be in a particular directory, but that directory is not part of the application's RPATH.

For example, let us say you have an application App.exe which has a dynamically-linked dependency on libstdc++.so.x for GCC 4.9. The App.exe has this dependency resolved through the RPATH, i.e.

App.exe (RPATH=.:./gcc4_9/libstdc++.so.x)

Now let's say there is another library Dependency.so, which has a dynamically-linked dependency on libstdc++.so.y for GCC 5.5. The dependency here is resolved through the RPATH of the library, i.e.

Dependency.so (RPATH=.:./gcc5_5/libstdc++.so.y)

When App.exe loads Dependency.so, it neither appends nor prepends the RPATH of the library. It doesn't consult it at all. The only RPATH which is considered will be that of the running application, or App.exe in this example. That means that if the library relies on symbols which are in gcc5_5/libstdc++.so.y but not in gcc4_9/libstdc++.so.x, then the library will fail to load.

This is just as a word of warning, since I've run into these issues myself in the past. RPATH is a very useful tool but its implementation still has some gotchas.

  • so RPATH for shared libraries is kind of pointless! And I was hoping, that they improved Linux a bit in this respect in the last 2 decades... – Frank Puck Aug 6 '20 at 15:16

You might also need to make sure that you don't depend on the dynamic glibc. Run ldd on your resulting executable and note any dynamic dependencies (libc/libm/libpthread are usal suspects).

Additional exercise would be building a bunch of involved C++11 examples using this methodology and actually trying the resulting binaries on a real 10.04 system. In most cases, unless you do something weird with dynamic loading, you'll know right away whether the program works or it crashes.

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    What is the problem with depending on the dynamic glibc? – Nick Hutchinson Dec 8 '12 at 3:38
  • I believe at least some time ago libstdc++ implied dependency on glibc. Not sure where things stand today. – Alexander L. Belikoff Dec 10 '12 at 21:55
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    libstdc++ does depend on glibc (e.g. iostreams are implemented in terms of printf) but as long as the glibc on Ubuntu 10.04 provides all the features needed by the newer libstdc++ there's no problem with depending on the dynamic glibc, in fact it's highly recommended never to link statically to glibc – Jonathan Wakely Dec 29 '12 at 13:47

I'd like to add to Jonathan Wakely's answer the following.

Playing around -static-libstdc++ on linux, I've faced the problem with dlclose(). Suppose we have an application 'A' statically linked to libstdc++ and it loads dynamically linked to libstdc++ plugin 'P' at runtime. That's fine. But when 'A' unloads 'P', segmentation fault occurs. My assumption is that after unloading libstdc++.so, 'A' no longer can use symbols related to libstdc++. Note that if both 'A' and 'P' are statically linked to libstdc++, or if 'A' is linked dynamically and 'P' statically, the problem does not occur.

Summary: if your application loads/unloads plugins that may dynamically link to libstdc++, the app must also be linked to it dynamically. This is just my observation and I'd like to get your comments.

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    This is probably akin to mixing libc implementations (say dynamically linking to a plugin that in turn dynamically links glibc, whereas the application itself is statically linked to musl-libc). Rich Felker, author of musl-libc, claims that the issue in such a scenario is that the glibc memory management (using sbrk) makes certain assumption and pretty much expects to be alone within one process ... not sure if this is limited to a particular glibc version or whatever, though. – 0xC0000022L May 13 '19 at 12:33
  • and people still don't see the advantages of the windows heap interface, which is able to deal with multiple independent copies of libc++/libc inside a single process. Such people should not design software. – Frank Puck Aug 6 '20 at 15:20
  • @FrankPuck having a decent amount of both Windows and Linux experience I can tell you that the way "Windows" does it won't help you when MSVC is the party that decides what allocator gets used and how. The main advantage I see with heaps on Windows is that you can hand out bits and pieces and then free them in one fell swoop. But with MSVC you will still run into pretty much the problem described above, e.g. when passing around pointers allocated by another VC runtime (release vs. debug or statically vs. dynamically linked). So "Windows" isn't immune. Care has to be taken on both systems. – 0xC0000022L Aug 26 '20 at 8:16

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