다음의 예제들은 모든 3가지 방법들(정적, 공유, 동적 적재 라이브러리)의 예제들이다. libhello.c는 보통의 라이브러리이고, libhello.h는 헤더파일이다. demo_use.c는 보통의 라이브러리 호출 파일이다. 다음으로, 정적, 공유 라이브러리를 어떻게 사용하는지 보여주는 script_static, script_dynamic 스크립트가 나온다. 그리고, 공유 라이브러리를 동적 적재 라이브러리로 어떻게 사용하는지 보여주는 demo_dynamic.c, script_dynamic이 나온다.
/* libhello.c - demonstrate library use. */
#include <stdio.h>
void hello(void) {
printf("Hello, library world.\n");
}
|
/* libhello.h - demonstrate library use. */ void hello(void); |
/* demo_use.c -- demonstrate direct use of the "hello" routine */
#include "libhello.h"
int main(void) {
hello();
return 0;
} |
#!/bin/sh # Static library demo # Create static library's object file, libhello-static.o. # I'm using the name libhello-static to clearly # differentiate the static library from the # dynamic library examples, but you don't need to use # "-static" in the names of your # object files or static libraries. gcc -Wall -g -c -o libhello-static.o libhello.c # Create static library. ar rcs libhello-static.a libhello-static.o # At this point we could just copy libhello-static.a # somewhere else to use it. # For demo purposes, we'll just keep the library # in the current directory. # Compile demo_use program file. gcc -Wall -g -c demo_use.c -o demo_use.o # Create demo_use program; -L. causes "." to be searched during # creation of the program. Note that this command causes # the relevant object file in libhello-static.a to be # incorporated into file demo_use_static. gcc -g -o demo_use_static demo_use.o -L. -lhello-static # Execute the program. ./demo_use_static |
#!/bin/sh
# Shared library demo
# Create shared library's object file, libhello.o.
gcc -fPIC -Wall -g -c libhello.c
# Create shared library.
# Use -lc to link it against C library, since libhello
# depends on the C library.
gcc -g -shared -Wl,-soname,libhello.so.0 \
-o libhello.so.0.0 libhello.o -lc
# At this point we could just copy libhello.so.0.0 into
# some directory, say /usr/local/lib.
# Now we need to call ldconfig to fix up the symbolic links.
# Set up the soname. We could just execute:
# ln -sf libhello.so.0.0 libhello.so.0
# but let's let ldconfig figure it out.
/sbin/ldconfig -n .
# Set up the linker name.
# In a more sophisticated setting, we'd need to make
# sure that if there was an existing linker name,
# and if so, check if it should stay or not.
ln -sf libhello.so.0 libhello.so
# Compile demo_use program file.
gcc -Wall -g -c demo_use.c -o demo_use.o
# Create program demo_use.
# The -L. causes "." to be searched during creation
# of the program; note that this does NOT mean that "."
# will be searched when the program is executed.
gcc -g -o demo_use demo_use.o -L. -lhello
# Execute the program. Note that we need to tell the program
# where the shared library is, using LD_LIBRARY_PATH.
LD_LIBRARY_PATH="." ./demo_use
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/* demo_dynamic.c -- demonstrate dynamic loading and
use of the "hello" routine */
/* Need dlfcn.h for the routines to
dynamically load libraries */
#include <dlfcn.h>
#include <stdlib.h>
#include <stdio.h>
/* Note that we don't have to include "libhello.h".
However, we do need to specify something related;
we need to specify a type that will hold the value
we're going to get from dlsym(). */
/* The type "simple_demo_function" describes a function that
takes no arguments, and returns no value: */
typedef void (*simple_demo_function)(void);
int main(void) {
const char *error;
void *module;
simple_demo_function demo_function;
/* Load dynamically loaded library */
module = dlopen("libhello.so", RTLD_LAZY);
if (!module) {
fprintf(stderr, "Couldn't open libhello.so: %s\n",
dlerror());
exit(1);
}
/* Get symbol */
dlerror();
demo_function = dlsym(module, "hello");
if ((error = dlerror())) {
fprintf(stderr, "Couldn't find hello: %s\n", error);
exit(1);
}
/* Now call the function in the DL library */
(*demo_function)();
/* All done, close things cleanly */
dlclose(module);
return 0;
} |
#!/bin/sh # Dynamically loaded library demo # Presume that libhello.so and friends have # been created (see dynamic example). # Compile demo_dynamic program file into an object file. gcc -Wall -g -c demo_dynamic.c # Create program demo_use. # Note that we don't have to tell it where to search for DL libraries, # since the only special library this program uses won't be # loaded until after the program starts up. # However, we DO need the option -ldl to include the library # that loads the DL libraries. gcc -g -o demo_dynamic demo_dynamic.o -ldl # Execute the program. Note that we need to tell the # program where get the dynamically loaded library, # using LD_LIBRARY_PATH. LD_LIBRARY_PATH="." ./demo_dynamic |