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Given the following x86-64 AT&T assembly line:

cmpl $0x7,0xc(%rsp)

This is accessing the 12th offset from $rsp in memory. So is it accessing 12*4 = 48, 48th byte after rsp in memory or 12*8 = 96 96th byte after rsp? Since this is 64-bit architecture, then a register would be 8 bytes long and therefore 96?

In any case, to access that position in gdb, would I do x/96s $rsp? Is there an easy way to just print that without the whole list of offsets?

If I write x/12s $rsp, then I get memory addresses from 0x7FFFFFFFE1F0 to 0x7FFFFFFFE20D. So the offset difference between start and end is 29 bytes. How is that logical, when I specified 12?

Thank you

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1 Answer 1

up vote 4 down vote accepted

The offset within assembly is a byte offset, so that instruction is looking at the data 12 bytes above rsp. This is because x86 allows access to any address, except in the case of SSE instructions, some of which require 16 byte alignment.

In gdb, the number after the / indicates how many pieces of data you want to see, not an offset. If you want to offset the register, you need to add it to the location. Also, you are seeing 30 bytes because you are using the s type specifier, which means gdb is showing you a null-terminated string. To see data, you will want to use a different format. Some options are: o (octal), x (hexadecimal), d (decimal), t (binary), and i (instruction). (Use help x to see the full list). You also should specify the size of data you want to see for any of the numeric types. Use b (byte), h (2 bytes), w (4 bytes), or g (8 bytes).

For example, if you want to see 2 4-byte words starting 12 bytes after rsp, and have them shown in hexadecimal, you would use:

x/2wx $rsp + 12
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IIrc, cmpl instruction is for 32-bit wide values (cmpb would be for a byte, cmpw for a 16-bit value), so I'm not surprised to see it using +3*4 as an offset ... it would use cmpq for a 64-bit value, wouldn't it ? –  PypeBros Jan 24 '12 at 12:44

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