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i need to understand HOW longjmp function works; i know what it does, but i need to know how it does..

I tried to disas the code in gdb but i cant understand some steps, the code is:

0xb7ead420 <siglongjmp+0>:      push   %ebp
0xb7ead421 <siglongjmp+1>:      mov    %esp,%ebp
0xb7ead423 <siglongjmp+3>:      sub    $0x18,%esp
0xb7ead426 <siglongjmp+6>:      mov    %ebx,-0xc(%ebp)
0xb7ead429 <siglongjmp+9>:      call   0xb7e9828f <_Unwind_Find_FDE@plt+119>
0xb7ead42e <siglongjmp+14>:     add    $0x12bbc6,%ebx
0xb7ead434 <siglongjmp+20>:     mov    %esi,-0x8(%ebp)
0xb7ead437 <siglongjmp+23>:     mov    0xc(%ebp),%esi
0xb7ead43a <siglongjmp+26>:     mov    %edi,-0x4(%ebp)
0xb7ead43d <siglongjmp+29>:     mov    0x8(%ebp),%edi
0xb7ead440 <siglongjmp+32>:     mov    %esi,0x4(%esp)
0xb7ead444 <siglongjmp+36>:     mov    %edi,(%esp)
0xb7ead447 <siglongjmp+39>:     call   0xb7ead4d0
0xb7ead44c <siglongjmp+44>:     mov    0x18(%edi),%eax
0xb7ead44f <siglongjmp+47>:     test   %eax,%eax
0xb7ead451 <siglongjmp+49>:     jne    0xb7ead470 <siglongjmp+80>
0xb7ead453 <siglongjmp+51>:     test   %esi,%esi
0xb7ead455 <siglongjmp+53>:     mov    $0x1,%eax
0xb7ead45a <siglongjmp+58>:     cmove  %eax,%esi
0xb7ead45d <siglongjmp+61>:     mov    %esi,0x4(%esp)
0xb7ead461 <siglongjmp+65>:     mov    %edi,(%esp)
0xb7ead464 <siglongjmp+68>:     call   0xb7ead490
0xb7ead469 <siglongjmp+73>:     lea    0x0(%esi,%eiz,1),%esi
0xb7ead470 <siglongjmp+80>:     lea    0x1c(%edi),%eax
0xb7ead473 <siglongjmp+83>:     movl   $0x0,0x8(%esp)
0xb7ead47b <siglongjmp+91>:     mov    %eax,0x4(%esp)
0xb7ead47f <siglongjmp+95>:     movl   $0x2,(%esp)
0xb7ead486 <siglongjmp+102>:    call   0xb7ead890 <sigprocmask>
0xb7ead48b <siglongjmp+107>:    jmp    0xb7ead453 <siglongjmp+51>

Can someone briefly explain me the code, or indicate where i can find the source code in the system?

I really thanks you for the attention,

regards.

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1  
You should look at the source to longjmp, not siglongjmp. The latter is probably compiled C code to restore the signal mask, followed by a call or jump to the actual longjmp asm. –  R.. May 26 '11 at 21:49
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4 Answers

Mostly, it restores the registers and stack as they were at the time of the corresponding setjmp(). There is some additional cleanup required (fixing signal handling and unwinding pending stack handlers), as well as returning a different value as the apparent return value of setjmp, but restoring the state is the essence of the operation.

For it to work, the stack cannot be below the point at which setjmp was called. Longjmp is a brutish way to just forget everything that has been called below it down to the same level in the call stack (or function call nesting sequence) mostly by simply setting the stack pointer to the same frame it was when setjmp was called.

For it to work cleanly, longjmp() calls all the exit handlers for intermediate functions, so they can delete variables, and whatever other cleanup is normally done when a function returns. Resetting the stack to a point less deep releases all the auto variables but if one of those is a FILE *, the file needs to be closed and the i/o buffer freed too.

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Thank for your answer.. That is what it does..i need to understand in the detail HOW it does...i mean, it does not simply copies the saved register in the actual register...but did it in a different way.. –  Aslan986 May 26 '11 at 21:24
3  
The C longjmp function does not call "exit handlers for intermediate functions", which do not exist in the C language. This answer incorrectly implies that allocated resources in said "intermediate functions" will be de-allocated, which is completely impossible in C. –  R.. May 26 '11 at 21:50
2  
And they have undefined behavior if they jump over any destructors, etc. –  R.. May 26 '11 at 21:57
1  
Unwinding stack frames is not part of the standard behavior of longjmp. It's a harmful extension that makes an operation that should be O(1) suddenly O(n). The only way it would need to unwind stack frames is if the platform implements its call stack as a complex structure rather than simply incrementing and decrementing a stack pointer. –  R.. May 26 '11 at 22:00
2  
Furthermore, I would think calling destructors could potentially limit longjmp() usefulness, e.g. if you are using it as a building block for a poor's man setcontext() (if that's doable at all, I haven't thought carefully about it). –  ninjalj May 26 '11 at 22:22
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Here is the i386 code for longjmp, in the standard i386 ABI, without any crazy extensions for interaction with C++, exceptions, cleanup functions, signal mask, etc.:

    mov 4(%esp),%edx
    mov 8(%esp),%eax
    test %eax,%eax
    jnz 1f
    inc %eax
1:
    mov (%edx),%ebx
    mov 4(%edx),%esi
    mov 8(%edx),%edi
    mov 12(%edx),%ebp
    mov 16(%edx),%ecx
    mov %ecx,%esp
    mov 20(%edx),%ecx
    jmp *%ecx
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@R: Which i386 code? That resembles the implementation used in Unix V6 which had all kinds of problems, like not cleaning up. The i386 code for gcc is much better behaved. See the source at glibc.sourcearchive.com/documentation/2.7-18lenny7/… –  wallyk May 26 '11 at 22:03
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That's not the code for gcc, but for glibc. And there is no "cleanup" to be done in C. The longjmp function is specified as a pure jump. If you jump over anything that would require cleanup, then at best your program has a resource leak and at worst it invokes undefined behavior. This is the C language. If you don't like it, don't use longjmp. Don't insist that longjmp be changed to meet your requirements based on another language. –  R.. May 26 '11 at 22:28
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I think you need to see Procedure Activation Records and Call Stacks and Setjmp.h 's jmp_buf 's structure.

Quoted from Expect C Programming Deep C Secrets:

Setjmp saves a copy of the program counter and the current pointer to the top of the stack. This saves some initial values, if you like. Then longjmp restores these values effectively transferring control and resetting the state back to where you were when you did the save. It's termed "unwinding the stack", because you unroll activation records from the stack until you get to the saved one.

have a look at page 153 also Here

The stackframe will be highly dependent on the machine and the executable, but the idea is the same.

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You pass setjmp() a buffer parameter. It then stores the current register info etc. into this buffer. The call to longjmp() then restores these values from the buffer. Furthermore, what wallyk said.

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