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At some places, I have read that stacks grow from a higher address to a lower address, but when I checked it out myself, I noticed that it grows from a lower to a higher address. For example, I allocated stack for a thread at address 2aba5ab06010 and at some point found out its value to be 2aba5b7050f0, which is clearly greater than the top of the stack.

But when I check the disassembly, I can see that function prologues subtract %rsp and epilogues add it, so in that sense, shouldn't be the value of %rsp less than the top of the stack. Why these contradictory results?

Note that I am using Linux on an x86 64 bit machine and the gcc compiler.

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7  
It depends, and why should it matter to anybody? –  duffymo Nov 14 '11 at 14:22
    
It usually grows downwards. –  Seth Carnegie Nov 14 '11 at 14:25
2  
If you convert your addr (2aba5b7050f0) to a decimal value: 46979886371056 -- And do the same for the other addr: (2aba5ab06010)->46979873792016 => 46979886371056 - 46979873792016 = 12579040 --- So your allocated address is larger then the address at a later point. Which means, stack went from a higher value to a lower value. –  w00 Nov 14 '11 at 14:28
    
Provide more details about your checks. It is not clear what exactly you checked. Also, 2aba5ab06010 is smaller than 2aba5b7050f0, not greater. Why did you conclude that it grows upwards? –  AndreyT Nov 14 '11 at 14:29
    
Sorry Andrey and w00, I had put the values in reverse order, now I've corrected it. –  MetallicPriest Nov 14 '11 at 14:41

5 Answers 5

up vote 6 down vote accepted

The thread stack can grow upwards or downwards depending on the platform. A typically way to check this is let A call B function and with

void FunctionB( int* FromFunctionA )
{
   int localStackVariableB;
   //Compare &localStackVariableB and FromFunctionA addresses
}


 void FunctionA( )
{
   int localStackVariableA;
   FunctionB( &localStackVariableA) 
}

now compare the address of localStackVariableB and FromFunctionA and determine the direction. Make sure the optimization is turned off completely.

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Agreed on platform. But x86 Linux grows down - if that wasn't changed in 3.x kernel. –  gnometorule Nov 14 '11 at 14:31

In the old DOS days, it used to be that the code and data segments were loaded at the start of the memory segment, and the heap was above that. Then the stack was at the top of the memory segment and grew down towards the heap, while the heap grew up against the stack. Modern systems seldom has it this way.

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Discard the common prefix (2ABA), and you seem to be claiming 0x5A... > 0x5B.... It isn't, so the stack grew downwards.

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Had put it in reverse order accidentally, now I've corrected it. –  MetallicPriest Nov 14 '11 at 14:46

It is usual, when you pass a stack address to a thread creation function, for you to pass the start of the allocated block of memory - this is the lowest address, and on a system like x86-64 where the stack grows downwards, this is the bottom of the stack. However, the new thread will then start using the stack from the top - the highest address.

From your numbers, we can conclude that your allocated stack started at 0x2aba5ab06010 and was at least 12MB big - say, finishing at 0x2aba5b706010. If so, this would mean that 3872 bytes were in use when you took your measurements.

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When you say you allocated the stack at 2aba5ab06010, do you mean that you gave it a chunk of stack memory starting at that address? Then your reference point would be above the start of allocated memory, but with only one reference point you can't really tell which way it is growing.

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