libunwind/doc/unw_resume.tex - nest-cam/4320010/libunwind - Git at Google

 \documentclass{article}
 \usepackage[fancyhdr,pdf]{latex2man}

 \input{common.tex}

 \begin{document}

 \begin{Name}{3}{unw\_resume}{David Mosberger-Tang}{Programming Library}{unw\_resume}unw\_resume -- resume execution in a particular stack frame
 \end{Name}

 \section{Synopsis}

 \File{\#include $<$libunwind.h$>$}\\

 \Type{int} \Func{unw\_resume}(\Type{unw\_cursor\_t~*}\Var{cp});\\

 \section{Description}

 The \Func{unw\_resume}() routine resumes execution at the stack frame
 identified by \Var{cp}.  The behavior of this routine differs
 slightly for local and remote unwinding.

 For local unwinding, \Func{unw\_resume}() restores the machine state
 and then directly resumes execution in the target stack frame.  Thus
 \Func{unw\_resume}() does not return in this case.  Restoring the
 machine state normally involves restoring the ``preserved''
 (callee-saved) registers.  However, if execution in any of the stack
 frames younger (more deeply nested) than the one identified by
 \Var{cp} was interrupted by a signal, then \Func{unw\_resume}() will
 restore all registers as well as the signal mask.  Attempting to call
 \Func{unw\_resume}() on a cursor which identifies the stack frame of
 another thread results in undefined behavior (e.g., the program may
 crash).

 For remote unwinding, \Func{unw\_resume}() installs the machine state
 identified by the cursor by calling the \Func{access\_reg} and
 \Func{access\_fpreg} accessor callbacks as needed.  Once that is
 accomplished, the \Func{resume} accessor callback is invoked.  The
 \Func{unw\_resume} routine then returns normally (that is, unlikely
 for local unwinding, \Func{unw\_resume} will always return for remote
 unwinding).

 Most platforms reserve some registers to pass arguments to exception
 handlers (e.g., IA-64 uses \texttt{r15}-\texttt{r18} for this
 purpose).  These registers are normally treated like ``scratch''
 registers.  However, if \Prog{libunwind} is used to set an exception
 argument register to a particular value (e.g., via
 \Func{unw\_set\_reg}()), then \Func{unw\_resume}() will install this
 value as the contents of the register.  In other words, the exception
 handling arguments are installed even in cases where normally only the
 ``preserved'' registers are restored.

 Note that \Func{unw\_resume}() does \emph{not} invoke any unwind
 handlers (aka, ``personality routines'').  If a program needs this, it
 will have to do so on its own by obtaining the \Type{unw\_proc\_info\_t}
 of each unwound frame and appropriately processing its unwind handler
 and language-specific data area (lsda).  These steps are generally
 dependent on the target-platform and are regulated by the
 processor-specific ABI (application-binary interface).

 \section{Return Value}

 For local unwinding, \Func{unw\_resume}() does not return on success.
 For remote unwinding, it returns 0 on success.  On failure, the
 negative value of one of the errors below is returned.

 \section{Thread and Signal Safety}

 \Func{unw\_resume}() is thread-safe.  If cursor \Var{cp} is in the
 local address-space, this routine is also safe to use from a signal
 handler.

 \section{Errors}

 \begin{Description}
 \item[\Const{UNW\_EUNSPEC}] An unspecified error occurred.
 \item[\Const{UNW\_EBADREG}] A register needed by \Func{unw\_resume}() wasn't
   accessible.
 \item[\Const{UNW\_EINVALIDIP}] The instruction pointer identified by
   \Var{cp} is not valid.
 \item[\Const{UNW\_BADFRAME}] The stack frame identified by
   \Var{cp} is not valid.
 \end{Description}

 \section{See Also}

 \SeeAlso{libunwind(3)},
 \SeeAlso{unw\_set\_reg(3)},
 sigprocmask(2)

 \section{Author}

 \noindent
 David Mosberger-Tang\\
 Email: \Email{dmosberger@gmail.com}\\
 WWW: \URL{http://www.nongnu.org/libunwind/}.
 \LatexManEnd

 \end{document}
	\documentclass{article}
	\usepackage[fancyhdr,pdf]{latex2man}

	\input{common.tex}

	\begin{document}

	\begin{Name}{3}{unw\_resume}{David Mosberger-Tang}{Programming Library}{unw\_resume}unw\_resume -- resume execution in a particular stack frame
	\end{Name}

	\section{Synopsis}

	\File{\#include $<$libunwind.h$>$}\\

	\Type{int} \Func{unw\_resume}(\Type{unw\_cursor\_t~*}\Var{cp});\\

	\section{Description}

	The \Func{unw\_resume}() routine resumes execution at the stack frame
	identified by \Var{cp}. The behavior of this routine differs
	slightly for local and remote unwinding.

	For local unwinding, \Func{unw\_resume}() restores the machine state
	and then directly resumes execution in the target stack frame. Thus
	\Func{unw\_resume}() does not return in this case. Restoring the
	machine state normally involves restoring the ``preserved''
	(callee-saved) registers. However, if execution in any of the stack
	frames younger (more deeply nested) than the one identified by
	\Var{cp} was interrupted by a signal, then \Func{unw\_resume}() will
	restore all registers as well as the signal mask. Attempting to call
	\Func{unw\_resume}() on a cursor which identifies the stack frame of
	another thread results in undefined behavior (e.g., the program may
	crash).

	For remote unwinding, \Func{unw\_resume}() installs the machine state
	identified by the cursor by calling the \Func{access\_reg} and
	\Func{access\_fpreg} accessor callbacks as needed. Once that is
	accomplished, the \Func{resume} accessor callback is invoked. The
	\Func{unw\_resume} routine then returns normally (that is, unlikely
	for local unwinding, \Func{unw\_resume} will always return for remote
	unwinding).

	Most platforms reserve some registers to pass arguments to exception
	handlers (e.g., IA-64 uses \texttt{r15}-\texttt{r18} for this
	purpose). These registers are normally treated like ``scratch''
	registers. However, if \Prog{libunwind} is used to set an exception
	argument register to a particular value (e.g., via
	\Func{unw\_set\_reg}()), then \Func{unw\_resume}() will install this
	value as the contents of the register. In other words, the exception
	handling arguments are installed even in cases where normally only the
	``preserved'' registers are restored.

	Note that \Func{unw\_resume}() does \emph{not} invoke any unwind
	handlers (aka, ``personality routines''). If a program needs this, it
	will have to do so on its own by obtaining the \Type{unw\_proc\_info\_t}
	of each unwound frame and appropriately processing its unwind handler
	and language-specific data area (lsda). These steps are generally
	dependent on the target-platform and are regulated by the
	processor-specific ABI (application-binary interface).

	\section{Return Value}

	For local unwinding, \Func{unw\_resume}() does not return on success.
	For remote unwinding, it returns 0 on success. On failure, the
	negative value of one of the errors below is returned.

	\section{Thread and Signal Safety}

	\Func{unw\_resume}() is thread-safe. If cursor \Var{cp} is in the
	local address-space, this routine is also safe to use from a signal
	handler.

	\section{Errors}

	\begin{Description}
	\item[\Const{UNW\_EUNSPEC}] An unspecified error occurred.
	\item[\Const{UNW\_EBADREG}] A register needed by \Func{unw\_resume}() wasn't
	accessible.
	\item[\Const{UNW\_EINVALIDIP}] The instruction pointer identified by
	\Var{cp} is not valid.
	\item[\Const{UNW\_BADFRAME}] The stack frame identified by
	\Var{cp} is not valid.
	\end{Description}

	\section{See Also}

	\SeeAlso{libunwind(3)},
	\SeeAlso{unw\_set\_reg(3)},
	sigprocmask(2)

	\section{Author}

	\noindent
	David Mosberger-Tang\\
	Email: \Email{dmosberger@gmail.com}\\
	WWW: \URL{http://www.nongnu.org/libunwind/}.
	\LatexManEnd

	\end{document}