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Immediately before this instruction is executed fs contains 0x0.

Also I'd like to know how I can read from this memory area in GDB, what would the command for that be?

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See stackoverflow.com/questions/10325713/… for the first part –  Anton Kovalenko Jan 19 '13 at 13:18
Thanks, from similar instructions I've seen it looks like it simply reads from [fs+0x28] into rax. Since fs is 0x0 this should translate to simply 0x28, however when I try to read from 0x28 in GDB I'm not allowed to do this, yet the program itself can execute this instruction. Hence it is probably not the correct understanding of what this instruction does? –  ioctlvoid Jan 19 '13 at 13:27
As we speak of protected mode, "since fs is 0x0 it should fail" would be more correct, BUT: in 64-bit mode, no segmentation is used: there is a hidden "fs base" register instead, and the value of fs is irrelevant. –  Anton Kovalenko Jan 19 '13 at 13:33
In Windows, FS is used to point at the beginning of thread information block. Reading from offsets at FS is a dirt cheap way of getting current thread ID, current time, last error, etc. Are you sure it's Linux code, not Windows? See en.wikipedia.org/wiki/Win32_Thread_Information_Block Also, FS value zero is perfectly legal in protected mode. As long as there's a segment descriptor at xDT[0]. –  Seva Alekseyev Jan 19 '13 at 14:14

1 Answer 1

The fs and gs registers in modern OSes like Linux and Windows point to thread-specific and other OS-defined structures. Modifying the segment register is a protected instruction, so only the OS can set these up for you.

This question should help explain what exactly the point to: amd64 fs/gs registers in linux.

The actual value of the fs register isn't an address. It is a selector - an offset into the GDT, that describes what that segment can/cannot be used for. You cannot see what the values of the hidden fs base and limit registers are - they are internal CPU registers that are only updated by writing a new "selector" to fs (at which point the base/limit registers are updated from the GDT).

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Thanks, however how can I read this memory myself from within GDB? –  ioctlvoid Jan 21 '13 at 14:34

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