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It feels like I'm abusing Stackoverflow with all my questions, but it's a Q&A forum after all :) Anyhow, I have been using detours for a while now, but I have yet to implement one of my own (I've used wrappers earlier). Since I want to have complete control over my code (who doesn't?) I have decided to implement a fully functional detour'er on my own, so I can understand every single byte of my code.

The code (below) is as simple as possible, the problem though, is not. I have successfully implemented the detour (i.e a hook to my own function) but I haven't been able to implement the trampoline.

Whenever I call the trampoline, depending on the offset I use, I get either a "segmentation fault" or an "illegal instruction". Both cases ends the same though; 'core dumped'. I think it is because I've mixed up the 'relative address' (note: I'm pretty new to Linux so I have far from mastered GDB).

As commented in the code, depending on sizeof(jmpOp)(at line 66) I either get an illegal instruction or a segmentation fault. I'm sorry if it's something obvious, I'm staying up way too late...

// Header files
#include <stdio.h>
#include <sys/mman.h>
#include <unistd.h>
#include "global.h" // Contains typedefines for byte, ulong, ushort etc...
#include <cstring>

bool ProtectMemory(void * addr, int flags)
    // Constant holding the page size value
    const size_t pageSize = sysconf(_SC_PAGE_SIZE);

    // Calculate relative page offset
    size_t temp = (size_t) addr;
    temp -= temp % pageSize;

    // Update address
    addr = (void*) temp;

    // Update memory area protection
    return !mprotect(addr, pageSize, flags);

const byte jmpOp[] = { 0xE9, 0x00, 0x00, 0x00, 0x00 };

int Test(void)
    printf("This is testing\n");
    return 5;

int MyTest(void)
    printf("This is ******\n");
    return 9;

typedef int (*TestType)(void);

int main(int argc, char * argv[])
    // Fetch addresses
    byte * test = (byte*) &Test;
    byte * myTest = (byte*) &MyTest;

    // Call original

    // Update memory access for 'test' function
    ProtectMemory((void*) test, PROT_EXEC | PROT_WRITE | PROT_READ);

    // Allocate memory for the trampoline
    byte * trampoline = new byte[sizeof(jmpOp) * 2];

    // Do copy operations
    memcpy(trampoline, test, sizeof(jmpOp));
    memcpy(test, jmpOp, sizeof(jmpOp));

    // Setup trampoline
    trampoline += sizeof(jmpOp);
    *trampoline = 0xE9;

    // I think this address is incorrect, how should I calculate it? With the current
    // status (commented 'sizeof(jmpOp)') the compiler complains about "Illegal Instruction".
    // If I uncomment it, and use either + or -, a segmentation fault will occur...
    *(uint*)(trampoline + 1) = ((uint) test - (uint) trampoline)/* + sizeof(jmpOp)*/;
    trampoline -= sizeof(jmpOp);

    // Make the trampoline executable (and read/write)
    ProtectMemory((void*) trampoline, PROT_EXEC | PROT_WRITE | PROT_READ);

    // Setup detour
    *(uint*)(test + 1) = ((uint) myTest - (uint) test) - sizeof(jmpOp);

    // Call 'detoured' func

    // Call trampoline (crashes)
    ((TestType) trampoline)();
    return 0;

In case of interest, this is the output during a normal run (with the exact code above):

This is testing
This is **
Illegal instruction (core dumped)
And this is the result if I use +/- sizeof(jmpOp) at line 66:

This is testing
This is ******
Segmentation fault (core dumped)

NOTE: I'm running Ubuntu 32 bit and compile with g++ global.cpp main.cpp -o main -Iinclude

share|improve this question
Some people build microprocessors from transistors, too. Fun, yeah. Productive? Not a chance. –  Amardeep May 5 '12 at 1:40
What is that supposed to mean? :) Detours make up the foundation pillar of reverse-engineering, and they are an invaluable tool for tons programming environments (IMHO)... –  Elliott Darfink May 5 '12 at 1:44
@Amardeep detours have so many applications it's not even funny. Writing your own teaches you the basics of computer architecture too, so don't knock it. –  Seth Carnegie May 5 '12 at 1:53
This is not a forum. –  Puppy May 5 '12 at 1:53
@MahmoudAl-Qudsi you can't make a cheat for a game with transistors. –  Seth Carnegie May 5 '12 at 1:59

1 Answer 1

up vote 10 down vote accepted

You're not going to be able to indiscriminately copy the first 5 bytes of Test() into your trampoline, followed by a jump to the 6th instruction byte of Test(), because you don't know if the first 5 bytes comprise an integral number of x86 variable-length instructions. To do this, you're going to have to do at least a minimal amount of automated disassembling of the Test() function in order to find an instruction boundary that's 5 or more bytes past the beginning of the function, then copy an appropriate number of bytes to your trampoline, and THEN append your jump (which won't be at a fixed offset within your trampoline). Note that on a typical RISC processor (like PPC), you wouldn't have this problem, as all instructions are the same width.

share|improve this answer
Aaah, I see. So you mean I should use a library like libudis86 which can calculate instructions (so I can know where they end and begin)? –  Elliott Darfink May 5 '12 at 1:59
@ElliottDarfink yes, exactly. There's also one called BEAEngine which is really good. –  Seth Carnegie May 5 '12 at 2:00
@SethCarnegie Nice tip! I'll definitely check it out. I have a small bit of experience with libudis86 though, so I think I'll try that out first :) –  Elliott Darfink May 5 '12 at 2:02
@ElliottDarfink: To be completely correct, yes, but if you want a solution that works "most of the time" and you can afford to make adjustments when it doesn't work, consider: Compiler-generated functions begin with a finite number of prologue patterns that you can examine with a disassembler or debugger. Find what patterns are most likely and you can build a primitive disassembler hack that will probably take much less time to integrate into your code and will take up a whole lot less codespace in your final executable. –  phonetagger May 5 '12 at 2:04
That might be true, but I have this fine piece of code which will probably help me out. The problem is, I don't want to touch anything from that code unless I understand everything. For example; I have no idea how he calculates buffer_size in create_detour (or better put; why he uses those specific values). Doesn't make sense to me... –  Elliott Darfink May 5 '12 at 2:12

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