Background: I have application which part is used as library for other independent application. They link to that library (lets say lib.so) in linking time. Problem with such approach is that we have to use same external libraries like boost, ace etc or we will have duplicated symbols which in the end will cause crash. We want to resolve this problem.
I know two techniques - one is hiding all symbols (not sure about orders of scopes global/local for shared library) and other is to use dynamic linking. We chose 2nd options (dynamic linking) as it gave client opportunity to do easy testing with stubbed lib.so. and we have very simple api.
I wrote below small example of application which load example shared library and it crash (I want to understand why it crashed and how it should be written). Crash is in dlopen, exactly in initialization of global variable on assignment to std::string (constructor of Aclass type). From our testing it looks that any access to std library while ongoing initialization of library will result in crash.
We managed to remove crash by adding -fPIC flag to EXECUTABLE (why this resolved our problem, I thought it should be set for shared library, may anyone explain me that more precisely)? Unnecessary to my understanding this flag is problematic as it slow down application and in my case (low latency applications) it is quite problematic.
To summary: 1. Why this crash occur? 2. Why -fPIC flag is enough to resolve this crash? 3. Why it is enough to set -fPIC flag to executable? 4. Is it possible to resolve my problem in other way so shared library and client application could use different versions of libraries (like boost, ace etc, compiler, linux version and std libraries are guarantee to be same)? 5. Removing flag RTLD_DEEPBIND will fix crash too but from gcc man it looks that I should use this flag as it will change symbol scope order for shared library - first it will search symbols in local scope then in global - looks as must have for me as shared library will use different external libraries than executable (and dynamic loading will protect executable with polluting its symbol scope). Why removing this flag fix crash in this simple case?
Shared library dynLib.cpp:
#include <string>
class Aclass
{
std::string s;
s = "123";
}
Aclass a;
Exacutable main.cpp:
#include <stdlib.h>
#include <dlfcn.h>
#include <string>
#include <unistd.h>
#include <iostream>
int main()
{
std::string dummyCrasher;
dlerror();
void* handle = dlopen("./libdynLib.so", RTLD_LAZY | RTLD_LOCAL | RTLD_DEEPBIND);
if(!handle)
{
std::cout << "handle is null" << dlerror();
}
usleep(1000 * 1000 * 10);
}
Makefile: makefile
CXXFLAGS=-m32 -march=x86-64 -Wl,v -g -O3 -Wformat -Werror=format -c
CLINKFLAGS=-Wl,-Bstatic -Wl,Bdynamic -ldl -m32 -march=x86-64
all: dynLib.so dynamiclinking
dynLib.so: dynLib.o
g++44 $(CLINKFLAGS) -shared -o libdynLib.so dynLib.o
dynLib.o: dynLib.cpp
g++44 $(CXXFLAGS) dynLib.cpp
dynamiclinking: main.o
g++44 $(CLINKFLAGS) -o dynamiclinking main.o -ldl
main.o: main.cpp
g++44 (CXXFLAGS) main.cpp
.PHONY: clean
clean:
rm dynLib.o main.o dynamiclinking libdynLib.so
PS. I write that code by hand (could did some spell errors) PS 2. with -fPIC flag it will work:
main.o: main.cpp
g++44 (CXXFLAGS) main.cpp -fPIC
UPDATE It is possible to resolve this problem by static linkage of libstdc++. But still my questions are not answered :( Maybe someone have some time to look at it?
UPDATE2 Same problem occur on GCC 4.4.6 and 4.8.1.
