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I'm adding two classes and libraries to a system, parent.so and child.so deriving from it.

The problem is when the program is loading child.so it cannot find parent's virtual function's definition from parent.so.

What happens,

nm -D child.so will gives something like (I just changed the names)

U _ZN12PARENT15virtualFunctionEv

The program will crash running

_handle = dlopen(filename, RTLD_NOW|RTLD_GLOBAL); //filename is child.so

it'll give an error with LD_DEBUG = libs

symbol lookup error: undefined symbol: _ZN12PARENT15virtualFunctionEv (fatal)

The thing I cannot explain is, I tried LD_DEBUG = symbols using GDB, when running dlopen, the log shows it tried to look up basically in all libaries in the system except parent.so, where the symbol is defined. But from libs log parent.so is already loaded and code is run, and it is at the same path of all other libraries.

 27510:     symbol=_ZN12PARENT15virtualFunctionEv;  lookup in file=/lib/tls/libm.so.6
 27510:     symbol=_ZN12PARENT15virtualFunctionEv;  lookup in file=/lib/tls/libc.so.6
 27510:     symbol=_ZN12PARENT15virtualFunctionEv;  lookup in file=/lib/ld-linux.so.2
 27510:     child.so: error: symbol lookup error: undefined symbol: _ZN12PARENT15virtualFunctionEv(fatal)

How the program or system is managing which library to look for a symbol's definition?

I'm new to Linux, can anybody point me some directions to work on?



The command used to generate parent.so file is

c++  -shared  -o parent.so parent.o

Similar for child.so. Is any information missing for linking here? Looks like child is only including parent's header file.


After another test, calling

_handle = dlopen("parent.so", RTLD_NOW|RTLD_GLOBAL);

before the crashing line will solve the problem, which I think means originally parent.so was not loaded. But I'm still not very clear about the cause.

share|improve this question
Can you load them at build time instead of runtime? Can you paste the command you are using to build? –  imreal Oct 18 '12 at 0:42
Sorry but how exactly do I load them at build time? Thanks. –  Derek Oct 18 '12 at 1:13
And which library you want the build command? Parent or child? –  Derek Oct 18 '12 at 1:14
@Derek You need to use readelf -d to see the dynamic section of a dynamic object, that will show you the DT_NEEDED entries of that dynamic objects, as well as the linker script, the RUNPATH, etc. –  wich Oct 19 '12 at 0:43
You have two choices, either you dlopen libparent before libchild or you indicate to the linker script that libchild needs libparent with a DT_NEEDED dynamic entry, (this is what the -lparent option to g++ does.) And ldd and readelf -d are not the same. ldd runs the linker script and shows all requested libraries recursively, while readelf -d only shows the direct needed libraries. For example if A needs B and B needs C, then ldd A will show B and C, but readelf -d A will show only B. –  wich Oct 22 '12 at 2:01

3 Answers 3

up vote 4 down vote accepted

You need to tell the linker that your library libchild.so uses functionality in libparent.so. You do this when you are creating the child library:

g++ -shared -o libchild.so child_file1.o child_file2.o -Lparent_directory -lparent

Note that order is important. Specify the -lparent after all of your object files. You might also need to pass additional options to the linker via the -Wl option to g++.

That still might not be good enough. You might need to add the library that contains libparent.so to the LD_LIBRARY_PATH environment variable.

A couple of gotchas: If you aren't naming those libraries with a lib prefix you will confuse the linker big time. If you aren't compiling your source files with either -fPIC or -fpic you will not have relocatable objects.

There's a big potential problem with libraries that depend on other libraries. Suppose you use version 1.5 of the parent package when your compile your child library source files. You manage to get past all of the library dependencies problems. You've specified that your libchild.so depends on libparent.so. Your stuff just works. That is until version 2.0 of the parent package comes out. Now your stuff breaks everywhere it's used, and you haven't changed one line of code.

The way to overcome this problem is to specify at the time you build your child library that the resultant shared library depends specifically on version 1.5 of libparent.so`.

To do this you will need to pass options from g++/gcc to the linker via the -Wl option. Use -Wl,<linker_option>,<linker_option>,... If those linker options need spaces you'll need to backslash-escape them in the command to g++. A couple of key options are -rpath and -soname. For example, -rpath=/path/to/lib,-soname=libparent.so.1.5.

Note very well: You need to use the -soname=libparent.so.1.5 option when you are building libparent.so. This is what lets the system denote that your libchild.so (version 1.0) depends on libparent.so (version 1.5). And you don't build libparent.so. You build libparent.so.1.5. What about libparent.so? That needs to exist to, but it should be a symbolic link to some numbered numbered version (preferably the most recent version) of libparent.so.

Now suppose non-backward compatible parent version 2.0 is compiled and built into a shiny new libparent.so.2.0 and libparent.so is symbolically linked to this shiny new version. An application that uses your clunky old libchild.so (version 1.0) will happily use the clunky old version of libparent.so instead of the shiny new one that breaks everything.

share|improve this answer
Please don't use LD_LIBRARY_PATH, use RUNPATH instead –  wich Oct 18 '12 at 4:55
@wich: Yes, LD_LIBRARY_PATH is a heavy handed kludge. It's better to tell the linker where that other library lives and to build that path into the library. I was answering in the context of someone who is "new to Linux". (And someone new to Linux probably shouldn't be using runtime dynamic libraries.) –  David Hammen Oct 18 '12 at 12:32
Thank you very much for your answer @DavidHammen, I think at least I get a better picture now. So allow me to ask this clarification question. Dynamically loading libraries (dlopen and dlsym) doesn't require the main program link with .so files, but if different .so have dependencies between each other then they need to link with them during building, is this statement correct? Or am I missing farther? –  Derek Oct 18 '12 at 17:53
And although I'm no Linux guru, but the system I'm adding stuff into is quite complicated. And I do see other similar libraries got built the say way (no additional linking libraries in build command). So is there any other place that might handle this but I was missing? –  Derek Oct 18 '12 at 17:55
Yes. See my updated answer. –  David Hammen Oct 18 '12 at 20:18

It looks like you're not telling the linker that child.so needs parent.so, use something like the following:

g++ -shared -o libparent.so parent.o
g++ -shared -o libchild.so -lparent child.o
share|improve this answer

When you build your main program, you have to tell the compiler that it links with those libraries; that way, when it starts, linux will load them for it.

Change their names to libparent.so and libchild.so.

Then compile with something like this:

g++ <your files and flags> -L<folder where the .so's are> -lparent -lchild


Maybe it would be a smaller change to try loading parent.so before child.so. Did you try that already?

share|improve this answer
Actually the names are libparent.so and libchild.so, I changed it due to unfamiliar with Linux. –  Derek Oct 18 '12 at 1:27
Besides, when running with LD_DEBUG = libs, the log showed parent.so is loaded, and some of its code is running, does it mean the building is correct? or not necessary? –  Derek Oct 18 '12 at 1:28
What is your build command for the main program? –  imreal Oct 18 '12 at 1:31
-1 for you have to tell the compiler that it links with those libraries No, you don't. That's the point of dlopen and dlsym. –  David Hammen Oct 18 '12 at 4:21
@DavidHammen it is not necessary to load a shared object explicitly at runtime with dlopen. You can do it at compile time which is more common. –  imreal Oct 18 '12 at 5:31

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