Consider the following setup consisting of two shared libraries which both use a static library:
static.cpp
#include "static.h"
static int a = 0;
int getA()
{
return a++;
}
static.h
#pragma once
int getA();
shareda.cpp
#include <iostream>
#include "shareda.h"
#include "static.h"
void printA()
{
std::cout << getA() << std::endl;
}
shareda.h
#pragma once
void printA();
sharedb.cpp
#include <iostream>
#include "sharedb.h"
#include "static.h"
void printB()
{
std::cout << getA() << std::endl;
}
sharedb.h
#pragma once
void printB();
main.cpp
#include "shareda.h"
#include "sharedb.h"
int main()
{
printA();
printA();
printB();
printA();
printB();
return 0;
}
I compiled and ran these files with the following commands (using Clang 3.8.0, compiled from source, and 64-bit Debian with GNU ld 2.25):
clang++ -c static.cpp -o static.o -fPIC
ar rcs libstatic.a static.o
clang++ -c shareda.cpp -o shareda.o -fPIC
clang++ -shared -o libshareda.so shareda.o libstatic.a
clang++ -c sharedb.cpp -o sharedb.o -fPIC
clang++ -shared -o libsharedb.so sharedb.o libstatic.a
clang++ -L. -lshareda -lsharedb -o main main.cpp
LD_LIBRARY_PATH=.:$LD_LIBRARY_PATH ./main
To my surprise, the output was the following:
0
1
2
3
4
My expectation was this:
0
1
0
2
1
Apparently, despite the static keyword in front of a in static.cpp, only one instance of a exists. Is there a way to have two instances of a, one for each of the shared libraries?
Apparently, despite the static keyword in front of a in static.cpp, only one instance of a exists.
That is incorrect: two instances of a exist, but only one is actually used.
And that is happening because (contrary to your expectations) printB calls the first getA available to it (the one from libshareda.so, not the one from libsharedb.so). That is one major difference between UNIX shared libraries and Windows DLLs. UNIX shared libraries emulate what would have happened if your link was:
clang++ -L. -o main main.cpp shareda.o sharedb.o libstatic.a
So what can you do to "fix" this?
You could link libsharedb.so to prefer its own getA, by using -Bsymbolic.
You could hide getA inside libsharedb.so completely (as if it's a private implementation detail):
clang++ -c -fvisibility=hidden -fPIC static.cpp
ar rcs libstatic.a static.o
clang++ -shared -o libsharedb.so sharedb.o libstatic.a
You could achieve similar result using linker version script.
P.S. Your link command:
clang++ -L. -lshareda -lsharedb -o main main.cpp
is completely backwards. It should be:
clang++ -L. -o main main.cpp -lshareda -lsharedb
The order of sources/object files and libraries on command line matters, and libraries should follow object files that reference them.
Related
I want to write a shared library and I want to get a compiler/linker error if I forgot to implement some functions.
Consider the following case:
test.h
class Test {
public:
Test();
};
test.cpp
#include "test.h"
main.cpp
#include "test.h"
int main() {
new Test();
}
If I create a library with this command gcc -c -fpic test.cpp && g++ -shared -o libtest.so -Wl,--no-undefined -Wl,--no-allow-shlib-undefined test.o there is no error message, but the library is broken. Is there a way to force the creation of a not broken library?
Edit: adding additional flag, but doesn't change result
These codes have been modified:
test.h :
class Test {
public:
Test();
};
test.cpp :
#include "test.h"
Test::Test(){} // you must implement the constructor
You must have to implement the constructor, and if not, you get an error "undefined reference to `Test::Test()'".
main.cpp :
#include <iostream>
#include "test.h"
using namespace std;
int main(void)
{
Test* t = new Test(); // you must define a pointer
cout << "test* was created: " << t << endl;
delete t;
t = nullptr;
return 0;
}
Now all the code is OK. Then we create a shared-library with the following command:
g++ -shared -o test.so -fPIC test.cpp
Finally, we compile the main.cpp file at the same time as referring to the test.so shared-library and get the exe output, by the command below:
g++ -g main.cpp test.so -o test.exe
I created a shared library "A" that use an other shared library "B".
I have a problem when I link my program with the shared library "A".
When I use some function from the other shared library ("B") inside cpp file of the shared library "A", all is fine.
But when I use these functions inside .h file (inside a templated method or an inlined method) of the shared library "A", the symbol is not loaded and I get an error "undefined reference to symbol".
I used g++ 7.2.
I think the option -l forget to load the symbols used in header file.
Do you have an idea to avoid this?
Update 2:
Here a full reproducible example:
A.cpp
#include "A.h"
A.h
#ifndef A_H
# define A_H
#include <type_traits>
#include "B.h"
class A
{
public:
template <typename Type>
std::enable_if_t<std::is_arithmetic<Type>::value,void> funcA(Type value);
};
template <typename Type>
std::enable_if_t<std::is_arithmetic<Type>::value,void> A::funcA(Type value)
{
B tmp;
tmp.funcB(value);
}
#endif
B.cpp
#include "B.h"
#include <iostream>
void B::example()
{
std::cout << "works" << std::endl;
}
B.h
#ifndef B_H
# define B_H
class B
{
public:
void funcB(int value);
private:
void example();
};
inline void B::funcB(int value)
{
value += 1;
example();
}
#endif
main.cpp
#include "A.h"
int main()
{
A tmp;
tmp.funcA(5);
return 1;
}
Compile
g++ -std=c++17 -m64 -O2 -DNDEBUG -Wall -Wextra -Werror -fPIC -o A.o -c A.cpp
g++ -std=c++17 -m64 -O2 -DNDEBUG -Wall -Wextra -Werror -fPIC -o B.o -c B.cpp
g++ -std=c++17 -m64 -O2 -DNDEBUG -Wall -Wextra -Werror -fPIC -o main.o -c main.cpp
g++ -o libB.so B.o -shared
g++ -o libA.so A.o -shared -L. -lB
g++ -o application main.o -L . -lA
Error
main.o: In function `main':
main.cpp:(.text.startup+0x1a): undefined reference to `B::example()'
collect2: error: ld returned 1 exit status
Thank you,
SOLVED:
Finally, I solved my problem with this thread:
GCC 4.5 vs 4.4 linking with dependencies
Thank you!
i'm having something like these files:
libfoo.h
class foo
{
public:
foo() = default;
virtual ~foo();
};
libfoo.cpp
#include "libfoo.h"
foo::~foo() { /* code here */ }
test.cpp
#include <libfoo.h>
int main()
{
foo f;
}
i compile libfoo.h and libfoo.cpp into a shared library and all that is fine.
but when i then try to use the library in test.cpp i get undefined reference to the destructor ~foo().
this error however does not occur if i define the destructor directly in libfoo.h. i have this problem with all functions defined outside the class in my library so im guessing it has something to do with the compilation process (it compiles fine however)
i compile the library like this:
g++ -std=c++0x -Wall -Werror -fPIC -c -o libfoo.o libfoo.cpp
g++ -shared libfoo.o -o libfoo.so
any ideas as to what i might be doing wrong?
(all the functions that i declare inclass, like template functions works fine and causes no undefined reference)
I tried to reproduce the error, but I failed.
I created the files (with slight modifications):
// libfoo.h
struct foo { virtual ~foo(); };
// libfoo.cpp
#include "libfoo.h"
foo::~foo() {}
// test.cpp
#include "libfoo.h"
int main() { foo f; }
Built like this:
$ g++ -std=c++0x -Wall -Werror -fPIC -c -o libfoo.o libfoo.cpp
$ g++ -shared libfoo.o -o libfoo.so
$ g++ test.cpp -L. -lfoo
And ran like this:
$ env LD_LIBRARY_PATH=. ./a.out
I got no errors. Are you sure there is a problem with your code?
I have a question about making static libraries that use other static libraries.
I set up an example with 3 files - main.cpp, slib1.cpp and slib2.cpp. slib1.cpp and slib2.cpp are both compiled as individual static libraries (e.g. I end up with slib1.a and slib2.a) main.cpp is compiled into a standard ELF executable linked against both libraries.
There also exists a header file named main.h which prototypes the functions in slib1 and slib2.
main.cpp calls a function called lib2func() from slib2. This function in turn calls lib1func() from slib1.
If I compile the code as is, g++ will return with a linker error stating that it could not find lib1func() in slib1. However, if I make a call to lib1func() BEFORE any calls to any functions in slib2, the code compiles and works correctly.
My question is simply as follows: is it possible to create a static library that depends on another static library? It would seem like a very severe limitation if this were not possible.
The source code for this problem is attached below:
main.h:
#ifndef MAIN_H
#define MAIN_H
int lib1func();
int lib2func();
#endif
slib1.cpp:
#include "main.h"
int lib1func() {
return 1;
}
slib2.cpp:
#include "main.h"
int lib2func() {
return lib1func();
}
main.cpp:
#include <iostream>
#include "main.h"
int main(int argc, char **argv) {
//lib1func(); // Uncomment and compile will succeed. WHY??
cout << "Ans: " << lib2func() << endl;
return 0;
}
gcc output (with line commented out):
g++ -o src/slib1.o -c src/slib1.cpp
ar rc libslib1.a src/slib1.o
ranlib libslib1.a
g++ -o src/slib2.o -c src/slib2.cpp
ar rc libslib2.a src/slib2.o
ranlib libslib2.a
g++ -o src/main.o -c src/main.cpp
g++ -o main src/main.o -L. -lslib1 -lslib2
./libslib2.a(slib2.o): In function `lib2func()':
slib2.cpp:(.text+0x5): undefined reference to `lib1func()'
collect2: ld returned 1 exit status
gcc output (with line uncommented)
g++ -o src/slib1.o -c src/slib1.cpp
ar rc libslib1.a src/slib1.o
ranlib libslib1.a
g++ -o src/slib2.o -c src/slib2.cpp
ar rc libslib2.a src/slib2.o
ranlib libslib2.a
g++ -o src/main.o -c src/main.cpp
g++ -o main src/main.o -L. -lslib1 -lslib2
$ ./main
Ans: 1
Please, try g++ -o main src/main.o -L. -Wl,--start-group -lslib1 -lslib2 -Wl,--end-group.
Group defined with --start-group, --end-group helps to resolve circular dependencies between libraries.
See also: GCC: what are the --start-group and --end-group command line options?
The order make the difference. Here's from gcc(1) manual page:
It makes a difference where in the command you write this option; the linker searches and processes libraries and object files in the order they are specified. Thus, foo.o -lz bar.o searches library z after file foo.o but before bar.o. If bar.o refers to functions in z, those functions may not be loaded.
I have got a f2.cpp file
// f2.cpp
#include <iostream>
void f2()
{
std::cout << "It's a call of f2 function" << std::endl;
}
I use cygwin with crosstool compiler gcc.
g++ -fPIC -c f2.cpp
g++ -shared -o libf2.so f2.o
I have got a libf2.so file. Now I want to call f2 function in f1 library (shared object too) libf1.so.
It's a f1.cpp and i want take f1.so
// f1.cpp
#include <iostream>
void f1()
{
std::cout << "f1 function is calling f2()..." << std::endl;
f2();
}
How i must compile f1.cpp? I don't want to use dlclose, dlerror, dlopen, dlsym...
Аt last i want to use f1.so in main.cpp as a shared object library too... without using use dlclose, dlerror, dlopen, dlsym. How I must compile main.cpp, when i will have a f1.so ?
// main.cpp
#include <iostream>
int main()
{
f1();
return 0;
}
declare f2() in a header file. and compile libf1.so similar to libf2.
Now compile main linking against f1 and f2.
It should look something like this
g++ -lf2 -lf1 -L /path/to/libs main.o
You can simply link them together (if f2 is compiled into libf2.so, you pass -lf2 to the linker). The linker will take care of connecting calls from f1 to f2. Naturally, at runtime f1 will expect to find f2 in the SO load path and the dynamic loader will load it.
Here's a more complete sample, taken from a portion of a Makefile I found lying around. Here, mylib stands for your f2, and main_linked is f1:
mylib: mylib.c mylib.h
gcc $(CFLAGS) -fpic -c mylib.c
gcc -shared -o libmylib.so mylib.o
main_linked: main_linked.c mylib.h mylib.c
gcc $(CFLAGS) -L. -lmylib main_linked.c -o main_linked
Note:
mylib is compiled into a shared library with -shared
main_linked is then built with a single gcc call passing -lmylib to specify the library to link and -L. to say where to find it (in this case - current dir)
Check the -L and -l flags to g++.