Click here to Skip to main content
13,560,192 members
Click here to Skip to main content
Add your own
alternative version

Tagged as


9 bookmarked
Posted 26 Apr 2011
Licenced CPOL

Redirection of Imported Functions in Mach-O

Rate this:
Please Sign up or sign in to vote.
The article covers the interception and redirection of calls to the third-party dynamically linked libraries in the program under Mac OS X.

Table of Contents


In the previous article, we examined the mechanism of dynamic linking of functions in Mach-O. Now let’s move to practice.

We have a program under Mac OS X that is used by a number of third-party dynamically linked libraries, which, in their turn, also use functions of each other.

The task is as follows: we need to intercept the call of a certain function from one library to another and call the original in the handler.

Test Example

Let’s take an imaginary example. Supposing we have a program called «test» written in C language (test.c file) and a shared library (libtest.c file) with constant contents and compiled beforehand. This library implements one libtest() function. In their implementation, both the program and the library use the puts() function from a standard library of C language (it is provided together with Mac OS and contains in libSystem.B.dylib). Let’s look at the schematic view of the described situation:


The task is the following:

  1. We need to replace the call of the puts() function for the libtest.dylib library with the call of the hooked_puts() function that is implemented in the main program (test.c file). The last, in its turn, can use the original puts() function:


  2. We need to cancel the performed changes, i.e., to make so that the repeated call of libtest() lead to the call of the original puts().


It is not allowed to change the code or recompile the libraries, only the main program. The call redirection itself should be performed only for a specific library and on the fly, without the program restart.

Redirection Algorithm

Let’s describe all actions in words because the code can turn out not so clear despite the number of comments:

  1. Find the symbol table and table of strings using data from the LC_SYMTAB loader command.
  2. From the LC_DYSYMTAB loader command, find out, from which element of the symbol table a subset of undefined symbols (iundefsym field) begins.
  3. Find the target symbol by its name among the subset of undefined symbols in the symbol table.
  4. Remember the index of the target symbol from the beginning of the symbol table.
  5. Find the table of indirect symbols by data from the LC_DYSYMTAB loader command (indirectsymoff field).
  6. Find out the index, starting from which mapping of the import table (contents of the __DATA, __la_symbol_ptr section; or __IMPORT, __jump_table — there will be one of these) to the table of indirect symbols (reserved1 field) begins.
  7. Starting from this index, we look through the table of indirect symbols and search for the value that corresponds to the index of the target symbol in the symbol table.
  8. Remember the number of the target symbol from the beginning of the mapping of the import table to the table of indirect symbols. The saved value is the index of the required element in the import table.
  9. Find the import table (offset field) using data from the __la_symbol_ptr section (or __jump_table).
  10. Having the index of the target element in it, rewrite the address (for __la_symbol_ptr) to a required value (or just change the CALL/JMP instruction to JMP with an operand — address of the required function (for __jump_table)).

I will note that you should work with tables of symbols, strings, and indirect symbols only after loading them from the file. Also, you should read the contents of sections that describe import tables as well as perform the redirection itself in memory. It is connected with the fact that tables of symbols and tables of strings can be absent or cannot display the real state in the target Mach-O. It is because the dynamic loader worked there before us and it successfully saved all necessary data about symbols without allocating the tables themselves.

Redirection Implementation

It’s time to turn our thoughts into the code. Let’s divide all operation into three stages for the optimization of search of the required Mach-O elements:

1. void  *mach_hook_init(char const *library_filename, void const *library_address);

Basing on the Mach-O file and its displaying in memory, this function returns some non-clear descriptor. Behind this descriptor, offsets of the import table, symbol table, table of strings, and the mapping of indirect symbols from the table of dynamic symbols as well as a number of useful indexes for this module stand. The descriptor is the following:

struct mach_hook_handle
    void const *library_address;  		//base address of a library in memory
    char const *string_table;  		//buffer to read string_table table 
					//from file
    struct nlist const *symbol_table; 	//buffer to read symbol table from file
    uint32_t const *indirect_table; 	//buffer to read the indirect symbol 
					//table in dynamic symbol table from file
    uint32_t undefined_symbols_count;  	//number of undefined symbols in the 
					//symbol table
    uint32_t undefined_symbols_index;  	//position of undefined symbols in the 
					//symbol table
    uint32_t indirect_symbols_count;  	//number of indirect symbols in the 
					//indirect symbol table of DYSYMTAB
    uint32_t indirect_symbols_index;  	//index of the first imported symbol 
					//in the indirect symbol table of 
    uint32_t import_table_offset;  	//the offset of (__DATA, __la_symbol_ptr)
					// or (__IMPORT, __jump_table)
    uint32_t jump_table_present;  		//special flag to show if we work 
					//with (__IMPORT, __jump_table)
2. mach_substitution mach_hook(void const *handle, 
char const *function_name, mach_substitution substitution);

This function performs the redirection by the algorithm described above using the existing library descriptor, name of the target symbol, and address of the interceptor.

3. void  mach_hook_free(void *handle);

In this way, cleanup of any descriptor returned by mach_hook_init() is performed.

Taking into account these prototypes, we need to rewrite the test program:

#include <stdio.h>
#include <dlfcn.h>

#include "mach_hook.h"

#define LIBTEST_PATH "libtest.dylib"

void libtest();  //from libtest.dylib

int hooked_puts(char const *s)
    puts(s);  	//calls the original puts() from libSystem.B.dylib, 
		//because our main executable module called "test" remains intact

    return puts("HOOKED!");

int main()
    void *handle = 0;  //handle to store hook-related info
    mach_substitution original;  //original data for restoration
    Dl_info info;

    if (!dladdr((void const *)libtest, &info))  //gets an address of a 
				//library which contains libtest() function
        fprintf(stderr, "Failed to get the base address of a library!\n", 

        goto end;

    handle = mach_hook_init(LIBTEST_PATH, info.dli_fbase);

    if (!handle)
        fprintf(stderr, "Redirection init failed!\n");

        goto end;

    libtest();  //calls puts() from libSystem.B.dylib


    original = mach_hook(handle, "puts", (mach_substitution)hooked_puts);

    if (!original)
        fprintf(stderr, "Redirection failed!\n");

        goto end;

    libtest();  //calls hooked_puts()


    original = mach_hook(handle, "puts", original);	//restores the original 

    if (!original)
        fprintf(stderr, "Restoration failed!\n");

        goto end;

    libtest();  //again calls puts() from libSystem.B.dylib


    handle = 0;  	//no effect here, but just a good advice to 
		//prevent double freeing

    return 0;

Test Start

We can test it in the following way:

user@mac$ arch -i386 ./test
libtest: calls the original puts()
libtest: calls the original puts()
libtest: calls the original puts()

user@mac$ arch -x86_64 ./test
libtest: calls the original puts()
libtest: calls the original puts()
libtest: calls the original puts()

The program output indicates the full execution of the task that was formulated in the beginning.

The full implementation of the test example together with the redirection algorithm and the project file are attached to the article.


  • 26th April, 2011: Initial post


This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)


About the Authors

Apriorit Inc
Apriorit Inc.
Hungary Hungary
This member doesn't quite have enough reputation to be able to display their biography and homepage.
Group type: Organisation

32 members

Anthony Shoumikhin
Software Developer Google
United States United States
No Biography provided

You may also be interested in...

Comments and Discussions

GeneralDoes this work on an iphone? Pin
bthomasy30-Apr-11 19:01
memberbthomasy30-Apr-11 19:01 
Very cool. Does this work on an iphone? If not, is there any similar technique you know of that will work on an non jailbroken iphone?

General General    News News    Suggestion Suggestion    Question Question    Bug Bug    Answer Answer    Joke Joke    Praise Praise    Rant Rant    Admin Admin   

Use Ctrl+Left/Right to switch messages, Ctrl+Up/Down to switch threads, Ctrl+Shift+Left/Right to switch pages.

Permalink | Advertise | Privacy | Cookies | Terms of Use | Mobile
Web02-2016 | 2.8.180527.3 | Last Updated 26 Apr 2011
Article Copyright 2011 by Apriorit Inc, Anthony Shoumikhin
Everything else Copyright © CodeProject, 1999-2018
Layout: fixed | fluid