我完全按照本网站上的说明进行操作
http://www.newosxbook.com/src.jl?tree=listings&file=4-5-interpose.c
这是该页面的代码
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <stdlib.h>
#include <malloc/malloc.h> // for malloc_printf()
// Note: Compile with GCC, not cc (important)
//
//
// This is the expected interpose structure
typedef struct interpose_s { void *new_func;
void *orig_func; } interpose_t;
// Our prototypes - requires since we are putting them in
// the interposing_functions, below
void *my_malloc(int size); // matches real malloc()
void my_free (void *); // matches real free()
static const interpose_t interposing_functions[] \
__attribute__ ((section("__DATA, __interpose"))) = {
{ (void *)my_free, (void *)free },
{ (void *)my_malloc, (void *)malloc }
};
void *
my_malloc (int size) {
// In our function we have access to the real malloc() -
// and since we don’t want to mess with the heap ourselves,
// just call it
//
void *returned = malloc(size);
// call malloc_printf() because the real printf() calls malloc()
// // internally - and would end up calling us, recursing ad infinitum
malloc_printf ( "+ %p %d\n", returned, size); return (returned);
}
void
my_free (void *freed) {
// Free - just print the address, then call the real free()
malloc_printf ( "- %p\n", freed); free(freed);
}
#if 0
From output 4-11:
morpheus@Ergo(~)$ gcc -dynamiclib l.c -o libMTrace.dylib -Wall // compile to dylib
morpheus@Ergo(~)$ DYLD_INSERT_LIBRARIES=libMTrace.dylib ls // force insert into ls
ls(24346) malloc: + 0x100100020 88
ls(24346) malloc: + 0x100800000 4096
ls(24346) malloc: + 0x100801000 2160
ls(24346) malloc: - 0x100800000
ls(24346) malloc: + 0x100801a00 3312 ... // etc.
#endif
最新版本的 OSX 或此处编写的代码有什么不同吗?它似乎没有拦截任何东西。