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In linux kernel source code, added this lines in tasklet_action code:

printk("tasklet_action = %p\n" , *tasklet_action);
printk("tasklet_action = %p\n" , &tasklet_action);
printk("tasklet_action = %p\n" , tasklet_action);

In the output I get:

tasklet_action = c03441a1
tasklet_action = c03441a1
tasklet_action = c03441a1

But when searching it in the file the tasklet_action address is at c03441a0 so there is an offset of 1 byte.

  • Why do I have this offset?
  • Is it always an one byte offset?
share|improve this question
Maybe it's a NOP? Does it end at the same address? – szx Jan 2 '13 at 11:07
The number 1234567 is the real result, or a mock-up number for illustrative purposes? – user1284631 Jan 2 '13 at 11:26
My first guess would be that you aren't looking at the file which correspond to the running kernel. – AProgrammer Jan 2 '13 at 13:59
Not sure why you get the same output for the three different lines of code. – Maxim Egorushkin Jan 2 '13 at 14:11
What architecture are you running the kernel on? – ams Jan 2 '13 at 15:04
up vote 18 down vote accepted

My guess is that you are running on ARM in Thumb mode, or on some other architecture that uses the bottom bit of the function pointer to indicate which mode to run in.

If so, the answer is that your function really is located at the address in the

The value you get at run time is the location and the mode.

Instructions, on these kinds of architectures, always must be 2- or 4-byte aligned, which would leave the bottom bit always zero. When the architecture grew an extra mode the designers made use of the 'wasted' bit to encode the mode. It's clever, but confusing, and not just for you: a lot of software, like debuggers, broke in many nasty ways when this was first invented.

The concept is particularly confusing for x86 programmers who are used to variable-length instructions with any random alignment.

share|improve this answer
(+1) Out of interest, what exactly is the "mode" encoded by the bottom bit? – NPE Jan 2 '13 at 16:49
It's ARM mode vs. Thumb mode. – ams Jan 3 '13 at 16:40
Originally there was only ARM mode, then a whole different instruction set was invented called "Thumb" and was meant to make programs smaller (at the expense of some speed). Obviously, it's very important that you know what sort of instructions are used in a function before you get there (or else the program will crash hard) so the bottom bit of the function pointer is set to a 1. This means functions coded in ARM can call functions coded in Thumb, and it all just works. – ams Jan 3 '13 at 16:46
The BX instruction (and BLX) uses the bottom bit of the address to encode the target mode. Since thumb is always 2 or 4 byte aligned (thumb/thumb2) and arm is always 4 byte aligned the lsbit is a dont care, so they choose to use that bit to mode switch (for the architectures that have both, not cortex-m). The BX instruction strips the bit and the pc has the lsbit clean, it is just the execution that uses it. Likewise a bl from thumb mode will add that bit to the lr so that the bx lr at the end of the called function works – dwelch Apr 2 '13 at 13:52
Not just BX; in this case it's function pointers that have the bottom bit set. – ams Apr 2 '13 at 16:38

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