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356 lines
16 KiB
TeX
356 lines
16 KiB
TeX
\documentclass{article}
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\usepackage[fancyhdr,pdf]{latex2man}
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\input{common.tex}
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\begin{document}
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\begin{Name}{3}{libunwind}{David Mosberger-Tang}{Programming Library}{Introduction to libunwind}libunwind -- a (mostly) platform-independent unwind API
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\end{Name}
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\section{Synopsis}
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\File{\#include $<$libunwind.h$>$}\\
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\noindent
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\Type{int} \Func{unw\_getcontext}(\Type{unw\_context\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_init\_local}(\Type{unw\_cursor\_t~*}, \Type{unw\_context\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_init\_remote}(\Type{unw\_cursor\_t~*}, \Type{unw\_addr\_space\_t}, \Type{void~*});\\
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\noindent
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\Type{int} \Func{unw\_step}(\Type{unw\_cursor\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_get\_reg}(\Type{unw\_cursor\_t~*}, \Type{unw\_regnum\_t}, \Type{unw\_word\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_get\_fpreg}(\Type{unw\_cursor\_t~*}, \Type{unw\_regnum\_t}, \Type{unw\_fpreg\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_set\_reg}(\Type{unw\_cursor\_t~*}, \Type{unw\_regnum\_t}, \Type{unw\_word\_t});\\
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\noindent
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\Type{int} \Func{unw\_set\_fpreg}(\Type{unw\_cursor\_t~*}, \Type{unw\_regnum\_t}, \Type{unw\_fpreg\_t});\\
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\noindent
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\Type{int} \Func{unw\_resume}(\Type{unw\_cursor\_t~*});\\
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\noindent
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\Type{unw\_addr\_space\_t} \Var{unw\_local\_addr\_space};\\
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\noindent
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\Type{unw\_addr\_space\_t} \Func{unw\_create\_addr\_space}(\Type{unw\_accessors\_t}, \Type{int});\\
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\noindent
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\Type{void} \Func{unw\_destroy\_addr\_space}(\Type{unw\_addr\_space\_t});\\
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\noindent
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\Type{unw\_accessors\_t} \Func{unw\_get\_accessors}(\Type{unw\_addr\_space\_t});\\
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\noindent
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\Type{void} \Func{unw\_flush\_cache}(\Type{unw\_addr\_space\_t}, \Type{unw\_word\_t}, \Type{unw\_word\_t});\\
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\noindent
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\Type{int} \Func{unw\_set\_caching\_policy}(\Type{unw\_addr\_space\_t}, \Type{unw\_caching\_policy\_t});\\
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\noindent
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\Type{const char *}\Func{unw\_regname}(\Type{unw\_regnum\_t});\\
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\noindent
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\Type{int} \Func{unw\_get\_proc\_info}(\Type{unw\_cursor\_t~*}, \Type{unw\_proc\_info\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_get\_save\_loc}(\Type{unw\_cursor\_t~*}, \Type{int}, \Type{unw\_save\_loc\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_is\_fpreg}(\Type{unw\_regnum\_t});\\
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\Type{int} \Func{unw\_is\_signal\_frame}(\Type{unw\_cursor\_t~*});\\
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\noindent
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\Type{int} \Func{unw\_get\_proc\_name}(\Type{unw\_cursor\_t~*}, \Type{char~*}, \Type{size\_t}, \Type{unw\_word\_t~*});\\
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\noindent
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\Type{void} \Func{\_U\_dyn\_register}(\Type{unw\_dyn\_info\_t~*});\\
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\noindent
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\Type{void} \Func{\_U\_dyn\_cancel}(\Type{unw\_dyn\_info\_t~*});\\
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\section{Local Unwinding}
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\Prog{Libunwind} is very easy to use when unwinding a stack from
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within a running program. This is called \emph{local} unwinding. Say
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you want to unwind the stack while executing in some function
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\Func{F}(). In this function, you would call \Func{unw\_getcontext}()
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to get a snapshot of the CPU registers (machine-state). Then you
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initialize an \emph{unwind~cursor} based on this snapshot. This is
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done with a call to \Func{unw\_init\_local}(). The cursor now points
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to the current frame, that is, the stack frame that corresponds to the
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current activation of function \Func{F}(). The unwind cursor can then
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be moved ``up'' (towards earlier stack frames) by calling
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\Func{unw\_step}(). By repeatedly calling this routine, you can
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uncover the entire call-chain that led to the activation of function
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\Func{F}(). A positive return value from \Func{unw\_step}() indicates
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that there are more frames in the chain, zero indicates that the end
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of the chain has been reached, and any negative value indicates that
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some sort of error has occurred.
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While it is not possible to directly move the unwind cursor in the
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``down'' direction (towards newer stack frames), this effect can be
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achieved by making copies of an unwind cursor. For example, a program
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that sometimes has to move ``down'' by one stack frame could maintain
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two cursor variables: ``\Var{curr}'' and ``\Var{prev}''. The former
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would be used as the current cursor and \Var{prev} would be maintained
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as the ``previous frame'' cursor by copying the contents of \Var{curr}
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to \Var{prev} right before calling \Func{unw\_step}(). With this
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approach, the program could move one step ``down'' simply by copying
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back \Var{prev} to \Var{curr} whenever that is necessary. In the most
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extreme case, a program could maintain a separate cursor for each call
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frame and that way it could move up and down the callframe-chain at
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will.
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Given an unwind cursor, it is possible to read and write the CPU
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registers that were preserved for the current stack frame (as
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identified by the cursor). \Prog{Libunwind} provides several routines
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for this purpose: \Func{unw\_get\_reg}() reads an integer (general)
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register, \Func{unw\_get\_fpreg}() reads a floating-point register,
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\Func{unw\_set\_reg}() writes an integer register, and
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\Func{unw\_set\_fpreg}() writes a floating-point register. Note that,
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by definition, only the \emph{preserved} machine state can be accessed
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during an unwind operation. Normally, this state consists of the
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\emph{callee-saved} (``preserved'') registers. However, in some
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special circumstances (e.g., in a signal handler trampoline), even the
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\emph{caller-saved} (``scratch'') registers are preserved in the stack
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frame and, in those cases, \Prog{libunwind} will grant access to them
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as well. The exact set of registers that can be accessed via the
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cursor depends, of course, on the platform. However, there are two
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registers that can be read on all platforms: the instruction pointer
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(IP), sometimes also known as the ``program counter'', and the stack
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pointer (SP). In \Prog{libunwind}, these registers are identified by
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the macros \Const{UNW\_REG\_IP} and \Const{UNW\_REG\_SP},
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respectively.
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Besides just moving the unwind cursor and reading/writing saved
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registers, \Prog{libunwind} also provides the ability to resume
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execution at an arbitrary stack frame. As you might guess, this is
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useful for implementing non-local gotos and the exception handling
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needed by some high-level languages such as Java. Resuming execution
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with a particular stack frame simply requires calling
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\Func{unw\_resume}() and passing the cursor identifying the target
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frame as the only argument.
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Normally, \Prog{libunwind} supports both local and remote unwinding
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(the latter will be explained in the next section). However, if you
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tell libunwind that your program only needs local unwinding, then a
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special implementation can be selected which may run much faster than
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the generic implementation which supports both kinds of unwinding. To
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select this optimized version, simply define the macro
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\Const{UNW\_LOCAL\_ONLY} before including the headerfile
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\File{$<$libunwind.h$>$}. It is perfectly OK for a single program to
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employ both local-only and generic unwinding. That is, whether or not
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\Const{UNW\_LOCAL\_ONLY} is defined is a choice that each source-file
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(compilation-unit) can make on its own. Independent of the setting(s)
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of \Const{UNW\_LOCAL\_ONLY}, you'll always link the same library into
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the program (normally \Opt{-l}\File{unwind}). Furthermore, the
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portion of \Prog{libunwind} that manages unwind-info for dynamically
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generated code is not affected by the setting of
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\Const{UNW\_LOCAL\_ONLY}.
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If we put all of the above together, here is how we could use
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\Prog{libunwind} to write a function ``\Func{show\_backtrace}()''
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which prints a classic stack trace:
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\begin{verbatim}
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#define UNW_LOCAL_ONLY
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#include <libunwind.h>
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void show_backtrace (void) {
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unw_cursor_t cursor; unw_context_t uc;
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unw_word_t ip, sp;
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unw_getcontext(&uc);
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unw_init_local(&cursor, &uc);
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while (unw_step(&cursor) > 0) {
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unw_get_reg(&cursor, UNW_REG_IP, &ip);
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unw_get_reg(&cursor, UNW_REG_SP, &sp);
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printf ("ip = %%lx, sp = %%lx\n", (long) ip, (long) sp);
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}
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}
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\end{verbatim}
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\section{Remote Unwinding}
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\Prog{Libunwind} can also be used to unwind a stack in a ``remote''
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process. Here, ``remote'' may mean another process on the same
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machine or even a process on a completely different machine from the
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one that is running \Prog{libunwind}. Remote unwinding is typically
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used by debuggers and instruction-set simulators, for example.
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Before you can unwind a remote process, you need to create a new
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address-space object for that process. This is achieved with the
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\Func{unw\_create\_addr\_space}() routine. The routine takes two
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arguments: a pointer to a set of \emph{accessor} routines and an
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integer that specifies the byte-order of the target process. The
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accessor routines provide \Func{libunwind} with the means to
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communicate with the remote process. In particular, there are
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callbacks to read and write the process's memory, its registers, and
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to access unwind information which may be needed by \Func{libunwind}.
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With the address space created, unwinding can be initiated by a call
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to \Func{unw\_init\_remote}(). This routine is very similar to
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\Func{unw\_init\_local}(), except that it takes an address-space
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object and an opaque pointer as arguments. The routine uses these
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arguments to fetch the initial machine state. \Prog{Libunwind} never
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uses the opaque pointer on its own, but instead just passes it on to
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the accessor (callback) routines. Typically, this pointer is used to
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select, e.g., the thread within a process that is to be unwound.
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Once a cursor has been initialized with \Func{unw\_init\_remote}(),
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unwinding works exactly like in the local case. That is, you can use
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\Func{unw\_step}() to move ``up'' in the call-chain, read and write
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registers, or resume execution at a particular stack frame by calling
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\Func{unw\_resume}.
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\section{Cross-platform and Multi-platform Unwinding}
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\Prog{Libunwind} has been designed to enable unwinding across
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platforms (architectures). Indeed, a single program can use
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\Prog{libunwind} to unwind an arbitrary number of target platforms,
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all at the same time!
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We call the machine that is running \Prog{libunwind} the \emph{host}
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and the machine that is running the process being unwound the
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\emph{target}. If the host and the target platform are the same, we
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call it \emph{native} unwinding. If they differ, we call it
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\emph{cross-platform} unwinding.
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The principle behind supporting native, cross-platform, and
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multi-platform unwinding is very simple: for native unwinding, a
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program includes \File{$<$libunwind.h$>$} and uses the linker switch
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\Opt{-l}\File{unwind}. For cross-platform unwinding, a program
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includes \File{$<$libunwind-}\Var{PLAT}\File{.h$>$} and uses the linker
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switch \Opt{-l}\File{unwind-}\Var{PLAT}, where \Var{PLAT} is the name
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of the target platform (e.g., \File{ia64} for IA-64, \File{hppa-elf}
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for ELF-based HP PA-RISC, or \File{x86} for 80386). Multi-platform
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unwinding works exactly like cross-platform unwinding, the only
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limitation is that a single source file (compilation unit) can include
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at most one \Prog{libunwind} header file. In other words, the
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platform-specific support for each supported target needs to be
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isolated in separate source files---a limitation that shouldn't be an
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issue in practice.
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Note that, by definition, local unwinding is possible only for the
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native case. Attempting to call, e.g., \Func{unw\_local\_init}() when
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targeting a cross-platform will result in a link-time error
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(unresolved references).
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\section{Thread- and Signal-Safety}
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All \Prog{libunwind} routines are thread-safe. What this means is
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that multiple threads may use \Prog{libunwind} simulatenously.
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However, any given cursor may be accessed by only one thread at
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any given time.
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To ensure thread-safety, some \Prog{libunwind} routines may have to
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use locking. Such routines \emph{must~not} be called from signal
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handlers (directly or indirectly) and are therefore \emph{not}
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signal-safe. The manual page for each \Prog{libunwind} routine
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identifies whether or not it is signal-safe, but as a general rule,
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any routine that may be needed for \emph{local} unwinding is
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signal-safe (e.g., \Func{unw\_step}() for local unwinding is
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signal-safe). For remote-unwinding, \emph{none} of the
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\Prog{libunwind} routines are guaranteed to be signal-safe.
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\section{Unwinding Through Dynamically Generated Code}
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\Func{Libunwind} provides the routines \Func{\_U\_dyn\_register}() and
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\Func{\_U\_dyn\_cancel}() to register/cancel the information required to
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unwind through code that has been generated at runtime (e.g., by a
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just-in-time (JIT) compiler). It is important to register the
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information for \emph{all} dynamically generated code because
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otherwise, a debugger may not be able to function properly or
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high-level language exception handling may not work as expected.
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The interface for registering and canceling dynamic unwind info has
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been designed for maximum efficiency, so as to minimize the
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performance impact on JIT-compilers. In particular, both routines are
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guaranteed to execute in ``constant time'' (O(1)) and the
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data-structure encapsulating the dynamic unwind info has been designed
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to facilitate sharing, such that similar procedures can share much of
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the underlying information.
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For more information on the \Prog{libunwind} support for dynamically
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generated code, see \SeeAlso{libunwind-dynamic(3)}.
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\section{Caching of Unwind Info}
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To speed up execution, \Prog{libunwind} may aggressively cache the
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information it needs to perform unwinding. If a process changes
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during its lifetime, this creates a risk of \Prog{libunwind} using
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stale data. For example, this would happen if \Prog{libunwind} were
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to cache information about a shared library which later on gets
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unloaded (e.g., via \Cmd{dlclose}{3}).
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To prevent the risk of using stale data, \Prog{libunwind} provides two
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facilities: first, it is possible to flush the cached information
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associated with a specific address range in the target process (or the
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entire address space, if desired). This functionality is provided by
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\Func{unw\_flush\_cache}(). The second facility is provided by
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\Func{unw\_set\_caching\_policy}(), which lets a program
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select the exact caching policy in use for a given address-space
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object. In particular, by selecting the policy
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\Const{UNW\_CACHE\_NONE}, it is possible to turn off caching
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completely, therefore eliminating the risk of stale data alltogether
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(at the cost of slower execution). By default, caching is enabled for
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local unwinding only.
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\section{Files}
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\begin{Description}
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\item[\File{libunwind.h}] Headerfile to include for native (same
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platform) unwinding.
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\item[\File{libunwind-}\Var{PLAT}\File{.h}] Headerfile to include when
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the unwind target runs on platform \Var{PLAT}. For example, to unwind
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an IA-64 program, the header file \File{libunwind-ia64.h} should be
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included.
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\item[\Opt{-l}\File{unwind}] Linker-switch to add when building a
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program that does native (same platform) unwinding.
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\item[\Opt{-l}\File{unwind-}\Var{PLAT}] Linker-switch to add when
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building a program that unwinds a program on platform \Var{PLAT}.
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For example, to (cross-)unwind an IA-64 program, the linker switch
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\File{-lunwind-ia64} should be added. Note: multiple such switches
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may need to be specified for programs that can unwind programs on
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multiple platforms.
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\end{Description}
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\section{See Also}
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\SeeAlso{libunwind-dynamic(3)},
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\SeeAlso{libunwind-ia64(3)},
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\SeeAlso{libunwind-ptrace(3)},
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\SeeAlso{libunwind-setjmp(3)},
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\SeeAlso{unw\_create\_addr\_space(3)},
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\SeeAlso{unw\_destroy\_addr\_space(3)},
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\SeeAlso{unw\_flush\_cache(3)},
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\SeeAlso{unw\_get\_accessors(3)},
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\SeeAlso{unw\_get\_fpreg(3)},
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\SeeAlso{unw\_get\_proc\_info(3)},
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\SeeAlso{unw\_get\_proc\_name(3)},
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\SeeAlso{unw\_get\_reg(3)},
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\SeeAlso{unw\_getcontext(3)},
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\SeeAlso{unw\_init\_local(3)},
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\SeeAlso{unw\_init\_remote(3)},
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\SeeAlso{unw\_is\_fpreg(3)},
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\SeeAlso{unw\_is\_signal\_frame(3)},
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\SeeAlso{unw\_regname(3)},
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\SeeAlso{unw\_resume(3)},
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\SeeAlso{unw\_set\_caching\_policy(3)},
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\SeeAlso{unw\_set\_fpreg(3)},
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\SeeAlso{unw\_set\_reg(3)},
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\SeeAlso{unw\_step(3)},
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\SeeAlso{\_U\_dyn\_register(3)},
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\SeeAlso{\_U\_dyn\_cancel(3)}
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\section{Author}
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\noindent
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David Mosberger-Tang\\
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Hewlett-Packard Labs\\
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Palo-Alto, CA 94304\\
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Email: \Email{davidm@hpl.hp.com}\\
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WWW: \URL{http://www.hpl.hp.com/research/linux/libunwind/}.
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\LatexManEnd
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\end{document}
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