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You can use the command x
(for “examine”) to examine memory in
any of several formats, independently of your program's data types.
x/
nfu addrx
addrx
x
command to examine memory.
n, f, and u are all optional parameters that specify how much memory to display and how to format it; addr is an expression giving the address where you want to start displaying memory. If you use defaults for nfu, you need not type the slash `/'. Several commands set convenient defaults for addr.
print
(`x', `d', `u', `o', `t', `a', `c',
`f', `s'), and in addition `i' (for machine instructions).
The default is `x' (hexadecimal) initially. The default changes
each time you use either x
or print
.
b
h
w
g
Each time you specify a unit size with x
, that size becomes the
default unit the next time you use x
. For the `i' format,
the unit size is ignored and is normally not written. For the `s' format,
the unit size defaults to `b', unless it is explicitly given.
Use x /hs to display 16-bit char strings and x /ws to display
32-bit strings. The next use of x /s will again display 8-bit strings.
Note that the results depend on the programming language of the
current compilation unit. If the language is C, the `s'
modifier will use the UTF-16 encoding while `w' will use
UTF-32. The encoding is set by the programming language and cannot
be altered.
info breakpoints
(to
the address of the last breakpoint listed), info line
(to the
starting address of a line), and print
(if you use it to display
a value from memory).
For example, `x/3uh 0x54320' is a request to display three halfwords
(h
) of memory, formatted as unsigned decimal integers (`u'),
starting at address 0x54320
. `x/4xw $sp' prints the four
words (`w') of memory above the stack pointer (here, `$sp';
see Registers) in hexadecimal (`x').
Since the letters indicating unit sizes are all distinct from the letters specifying output formats, you do not have to remember whether unit size or format comes first; either order works. The output specifications `4xw' and `4wx' mean exactly the same thing. (However, the count n must come first; `wx4' does not work.)
Even though the unit size u is ignored for the formats `s'
and `i', you might still want to use a count n; for example,
`3i' specifies that you want to see three machine instructions,
including any operands. For convenience, especially when used with
the display
command, the `i' format also prints branch delay
slot instructions, if any, beyond the count specified, which immediately
follow the last instruction that is within the count. The command
disassemble
gives an alternative way of inspecting machine
instructions; see Source and Machine Code.
All the defaults for the arguments to x
are designed to make it
easy to continue scanning memory with minimal specifications each time
you use x
. For example, after you have inspected three machine
instructions with `x/3i addr', you can inspect the next seven
with just `x/7'. If you use <RET> to repeat the x
command,
the repeat count n is used again; the other arguments default as
for successive uses of x
.
When examining machine instructions, the instruction at current program
counter is shown with a =>
marker. For example:
(gdb) x/5i $pc-6 0x804837f <main+11>: mov %esp,%ebp 0x8048381 <main+13>: push %ecx 0x8048382 <main+14>: sub $0x4,%esp => 0x8048385 <main+17>: movl $0x8048460,(%esp) 0x804838c <main+24>: call 0x80482d4 <puts@plt>
The addresses and contents printed by the x
command are not saved
in the value history because there is often too much of them and they
would get in the way. Instead, gdb makes these values available for
subsequent use in expressions as values of the convenience variables
$_
and $__
. After an x
command, the last address
examined is available for use in expressions in the convenience variable
$_
. The contents of that address, as examined, are available in
the convenience variable $__
.
If the x
command has a repeat count, the address and contents saved
are from the last memory unit printed; this is not the same as the last
address printed if several units were printed on the last line of output.
When you are debugging a program running on a remote target machine
(see Remote Debugging), you may wish to verify the program's image in the
remote machine's memory against the executable file you downloaded to
the target. The compare-sections
command is provided for such
situations.
compare-sections
[section-name]"qCRC"
remote request.