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196 lines
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<title>ARM Unwinding Tutorial - Using as</title>
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This file documents the GNU Assembler "as".
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Copyright (C) 1991, 92, 93, 94, 95, 96, 97, 98, 99, 2000, 2001, 2002,
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2006, 2007 Free Software Foundation, Inc.
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<div class="node">
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<p>
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<a name="ARM-Unwinding-Tutorial"></a>Previous: <a rel="previous" accesskey="p" href="ARM-Mapping-Symbols.html#ARM-Mapping-Symbols">ARM Mapping Symbols</a>,
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Up: <a rel="up" accesskey="u" href="ARM_002dDependent.html#ARM_002dDependent">ARM-Dependent</a>
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<hr><br>
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</div>
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<h4 class="subsection">9.3.7 Unwinding</h4>
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<p>The ABI for the ARM Architecture specifies a standard format for
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exception unwind information. This information is used when an
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exception is thrown to determine where control should be transferred.
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In particular, the unwind information is used to determine which
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function called the function that threw the exception, and which
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function called that one, and so forth. This information is also used
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to restore the values of callee-saved registers in the function
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catching the exception.
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<p>If you are writing functions in assembly code, and those functions
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call other functions that throw exceptions, you must use assembly
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pseudo ops to ensure that appropriate exception unwind information is
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generated. Otherwise, if one of the functions called by your assembly
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code throws an exception, the run-time library will be unable to
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unwind the stack through your assembly code and your program will not
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behave correctly.
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<p>To illustrate the use of these pseudo ops, we will examine the code
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that G++ generates for the following C++ input:
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<pre class="verbatim">
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void callee (int *);
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int
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caller ()
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{
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int i;
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callee (&i);
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return i;
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}
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</pre>
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<p>This example does not show how to throw or catch an exception from
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assembly code. That is a much more complex operation and should
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always be done in a high-level language, such as C++, that directly
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supports exceptions.
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<p>The code generated by one particular version of G++ when compiling the
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example above is:
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<pre class="verbatim">
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_Z6callerv:
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.fnstart
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.LFB2:
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@ Function supports interworking.
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@ args = 0, pretend = 0, frame = 8
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@ frame_needed = 1, uses_anonymous_args = 0
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stmfd sp!, {fp, lr}
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.save {fp, lr}
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.LCFI0:
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.setfp fp, sp, #4
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add fp, sp, #4
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.LCFI1:
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.pad #8
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sub sp, sp, #8
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.LCFI2:
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sub r3, fp, #8
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mov r0, r3
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bl _Z6calleePi
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ldr r3, [fp, #-8]
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mov r0, r3
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sub sp, fp, #4
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ldmfd sp!, {fp, lr}
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bx lr
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.LFE2:
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.fnend
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</pre>
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<p>Of course, the sequence of instructions varies based on the options
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you pass to GCC and on the version of GCC in use. The exact
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instructions are not important since we are focusing on the pseudo ops
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that are used to generate unwind information.
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<p>An important assumption made by the unwinder is that the stack frame
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does not change during the body of the function. In particular, since
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we assume that the assembly code does not itself throw an exception,
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the only point where an exception can be thrown is from a call, such
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as the <code>bl</code> instruction above. At each call site, the same saved
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registers (including <code>lr</code>, which indicates the return address)
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must be located in the same locations relative to the frame pointer.
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<p>The <code>.fnstart</code> (see <a href="arm_005ffnstart.html#arm_005ffnstart">.fnstart pseudo op</a>) pseudo
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op appears immediately before the first instruction of the function
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while the <code>.fnend</code> (see <a href="arm_005ffnend.html#arm_005ffnend">.fnend pseudo op</a>) pseudo
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op appears immediately after the last instruction of the function.
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These pseudo ops specify the range of the function.
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<p>Only the order of the other pseudos ops (e.g., <code>.setfp</code> or
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<code>.pad</code>) matters; their exact locations are irrelevant. In the
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example above, the compiler emits the pseudo ops with particular
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instructions. That makes it easier to understand the code, but it is
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not required for correctness. It would work just as well to emit all
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of the pseudo ops other than <code>.fnend</code> in the same order, but
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immediately after <code>.fnstart</code>.
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<p>The <code>.save</code> (see <a href="arm_005fsave.html#arm_005fsave">.save pseudo op</a>) pseudo op
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indicates registers that have been saved to the stack so that they can
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be restored before the function returns. The argument to the
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<code>.save</code> pseudo op is a list of registers to save. If a register
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is “callee-saved” (as specified by the ABI) and is modified by the
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function you are writing, then your code must save the value before it
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is modified and restore the original value before the function
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returns. If an exception is thrown, the run-time library restores the
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values of these registers from their locations on the stack before
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returning control to the exception handler. (Of course, if an
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exception is not thrown, the function that contains the <code>.save</code>
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pseudo op restores these registers in the function epilogue, as is
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done with the <code>ldmfd</code> instruction above.)
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<p>You do not have to save callee-saved registers at the very beginning
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of the function and you do not need to use the <code>.save</code> pseudo op
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immediately following the point at which the registers are saved.
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However, if you modify a callee-saved register, you must save it on
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the stack before modifying it and before calling any functions which
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might throw an exception. And, you must use the <code>.save</code> pseudo
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op to indicate that you have done so.
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<p>The <code>.pad</code> (see <a href="arm_005fpad.html#arm_005fpad">.pad</a>) pseudo op indicates a
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modification of the stack pointer that does not save any registers.
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The argument is the number of bytes (in decimal) that are subtracted
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from the stack pointer. (On ARM CPUs, the stack grows downwards, so
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subtracting from the stack pointer increases the size of the stack.)
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<p>The <code>.setfp</code> (see <a href="arm_005fsetfp.html#arm_005fsetfp">.setfp pseudo op</a>) pseudo op
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indicates the register that contains the frame pointer. The first
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argument is the register that is set, which is typically <code>fp</code>.
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The second argument indicates the register from which the frame
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pointer takes its value. The third argument, if present, is the value
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(in decimal) added to the register specified by the second argument to
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compute the value of the frame pointer. You should not modify the
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frame pointer in the body of the function.
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<p>If you do not use a frame pointer, then you should not use the
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<code>.setfp</code> pseudo op. If you do not use a frame pointer, then you
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should avoid modifying the stack pointer outside of the function
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prologue. Otherwise, the run-time library will be unable to find
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saved registers when it is unwinding the stack.
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<p>The pseudo ops described above are sufficient for writing assembly
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code that calls functions which may throw exceptions. If you need to
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know more about the object-file format used to represent unwind
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information, you may consult the <cite>Exception Handling ABI for the
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ARM Architecture</cite> available from <a href="http://infocenter.arm.com">http://infocenter.arm.com</a>.
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<!-- Copyright 2006 -->
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