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libunwind-eh_elf/doc/unw_create_addr_space.tex

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\documentclass{article}
\usepackage[fancyhdr,pdf]{latex2man}
\input{common.tex}
\begin{document}
\begin{Name}{3}{unw\_create\_addr\_space}{David Mosberger-Tang}{Programming Library}{unw\_create\_addr\_space}unw\_create\_addr\_space -- create address space for remote unwinding
\end{Name}
\section{Synopsis}
\File{\#include $<$libunwind.h$>$}\\
\Type{unw\_addr\_space\_t} \Func{unw\_create\_addr\_space}(\Type{unw\_accessors\_t~*}\Var{ap}, \Type{int} \Var{byteorder});\\
\section{Description}
The \Func{unw\_create\_addr\_space}() routine creates a new unwind
address-space and initializes it based on the call-back routines
passed via the \Var{ap} pointer and the specified \Var{byteorder}.
The call-back routines are described in detail below. The
\Var{byteorder} can be set to 0 to request the default byte-order of
the unwind target. To request a particular byte-order,
\Var{byteorder} can be set to any constant defined by
\File{$<$endian.h$>$}. In particular, \Const{\_\_LITTLE\_ENDIAN} would
request little-endian byte-order and \Const{\_\_BIG\_ENDIAN} would
request big-endian byte-order. Whether or not a particular byte-order
is supported depends on the target platform.
\section{Call-back Routines}
\Prog{Libunwind} uses a set of call-back routines to access the
information it needs to unwind a chain of stack-frames. These
routines are specified via the \Var{ap} argument, which points to a
variable of type \Type{unw\_accessors\_t}. The contents of this
variable is copied into the newly-created address space, so the
variable must remain valid only for the duration of the call to
\Func{unw\_create\_addr\_space}().
The first argument to every call-back routine is an address-space
identifier (\Var{as}) and the last argument is an arbitrary,
application-specified void-pointer (\Var{arg}). When invoking a
call-back routine, \Prog{libunwind} sets the \Var{as} argument to the
address-space on whose behalf the invocation is made and the \Var{arg}
argument to the value that was specified when
\Func{unw\_init\_remote}(3) was called.
The synopsis and a detailed description of every call-back routine
follows below.
\subsection{Call-back Routine Synopsis}
\Type{int} \Func{find\_proc\_info}(\Type{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_word\_t} \Var{ip}, \Type{unw\_proc\_info\_t~*}\Var{pip},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{int} \Var{need\_unwind\_info}, \Type{void~*}arg);\\
\Type{void} \Func{put\_unwind\_info}(\Type{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_proc\_info\_t~*}pip, \Type{void~*}\Var{arg});\\
\Type{int} \Func{get\_dyn\_info\_list\_addr}(\Type{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_word\_t~*}\Var{dilap}, \Type{void~*}\Var{arg});\\
\Type{int} \Func{access\_mem}(\Var{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_word\_t} \Var{addr}, \Type{unw\_word\_t~*}\Var{valp},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{int} \Var{write}, \Type{void~*}\Var{arg});\\
\Type{int} \Func{access\_reg}(\Var{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_regnum\_t} \Var{regnum}, \Type{unw\_word\_t~*}\Var{valp},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{int} \Var{write}, \Type{void~*}\Var{arg});\\
\Type{int} \Func{access\_fpreg}(\Var{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_regnum\_t} \Var{regnum}, \Type{unw\_fpreg\_t~*}\Var{fpvalp},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{int} \Var{write}, \Type{void~*}\Var{arg});\\
\Type{int} \Func{resume}(\Var{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_cursor\_t~*}\Var{cp}, \Type{void~*}\Var{arg});\\
\Type{int} \Func{get\_proc\_name}(\Type{unw\_addr\_space\_t} \Var{as},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{unw\_word\_t} \Var{addr}, \Type{char~*}\Var{bufp},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{size\_t} \Var{buf\_len}, \Type{unw\_word\_t~*}\Var{offp},\\
\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\SP\Type{void~*}\Var{arg});\\
\subsection{find\_proc\_info}
\Prog{Libunwind} invokes the \Func{find\_proc\_info}() call-back to
locate the information need to unwind a particular procedure. The
\Var{ip} argument is an instruction-address inside the procedure whose
information is needed. The \Var{pip} argument is a pointer to the
variable used to return the desired information. The type of this
variable is \Type{unw\_proc\_info\_t}. See
\Func{unw\_get\_proc\_info(3)} for details. Argument
\Var{need\_unwind\_info} is zero if the call-back does not need to
provide values for the following members in the
\Type{unw\_proc\_info\_t} structure: \Var{format},
\Var{unwind\_info\_size}, and \Var{unwind\_info}. If
\Var{need\_unwind\_info} is non-zero, valid values need to be returned
in these members. Furthermore, the contents of the memory addressed
by the \Var{unwind\_info} member must remain valid until the info is
released via the \Func{put\_unwind\_info} call-back (see below).
On successful completion, the \Func{find\_proc\_info}() call-back must
return zero. Otherwise, the negative value of one of the
\Type{unw\_error\_t} error-codes may be returned. In particular, this
call-back may return -\Const{UNW\_ESTOPUNWIND} to signal the end of
the frame-chain.
\subsection{put\_unwind\_info}
\Prog{Libunwind} invokes the \Func{put\_unwind\_info}() call-back to
release the resources (such as memory) allocated by a previous call to
\Func{find\_proc\_info}() with the \Var{need\_unwind\_info} argument
set to a non-zero value. The \Var{pip} argument has the same value as
the argument of the same name in the previous matching call to
\Func{find\_proc\_info}(). Note that \Prog{libunwind} does \emph{not}
invoke \Func{put\_unwind\_info} for calls to \Func{find\_proc\_info}()
with a zero \Var{need\_unwind\_info} argument.
\subsection{get\_dyn\_info\_list\_addr}
\Prog{Libunwind} invokes the \Func{get\_dyn\_info\_list\_addr}()
call-back to obtain the address of the head of the dynamic unwind-info
registration list. The variable stored at the returned address must
have a type of \Type{unw\_dyn\_info\_list\_t} (see
\Func{\_U\_dyn\_register}(3)). The \Var{dliap} argument is a pointer
to a variable of type \Type{unw\_word\_t} which is used to return the
address of the dynamic unwind-info registration list. If no dynamic
unwind-info registration list exist, the value pointed to by
\Var{dliap} must be cleared to zero. \Prog{Libunwind} will cache the
value returned by \Func{get\_dyn\_info\_list\_addr}() if caching is
enabled for the given address-space. The cache can be cleared with a
call to \Func{unw\_flush\_cache}().
On successful completion, the \Func{get\_dyn\_info\_list\_addr}()
call-back must return zero. Otherwise, the negative value of one of
the \Type{unw\_error\_t} error-codes may be returned.
\subsection{access\_mem}
\Prog{Libunwind} invokes the \Func{access\_mem}() call-back to read
from or write to a word of memory in the target address-space. The
address of the word to be accessed is passed in argument \Var{addr}.
To read memory, \Prog{libunwind} sets argument \Var{write} to zero and
\Var{valp} to point to the word that receives the read value. To
write memory, \Prog{libunwind} sets argument \Var{write} to a non-zero
value and \Var{valp} to point to the word that contains the value to
be written. The word that \Var{valp} points to is always in the
byte-order of the host-platform, regardless of the byte-order of the
target. In other words, it is the responsibility of the call-back
routine to convert between the target's and the host's byte-order, if
necessary.
On successful completion, the \Func{access\_mem}()
call-back must return zero. Otherwise, the negative value of one of
the \Type{unw\_error\_t} error-codes may be returned.
\subsection{access\_reg}
\Prog{Libunwind} invokes the \Func{access\_reg}() call-back to read
from or write to a scalar (non-floating-point) CPU register. The
index of the register to be accessed is passed in argument
\Var{regnum}. To read a register, \Prog{libunwind} sets argument
\Var{write} to zero and \Var{valp} to point to the word that receives
the read value. To write a register, \Prog{libunwind} sets argument
\Var{write} to a non-zero value and \Var{valp} to point to the word
that contains the value to be written. The word that \Var{valp}
points to is always in the byte-order of the host-platform, regardless
of the byte-order of the target. In other words, it is the
responsibility of the call-back routine to convert between the
target's and the host's byte-order, if necessary.
On successful completion, the \Func{access\_reg}() call-back must
return zero. Otherwise, the negative value of one of the
\Type{unw\_error\_t} error-codes may be returned.
\subsection{access\_fpreg}
\Prog{Libunwind} invokes the \Func{access\_fpreg}() call-back to read
from or write to a floating-point CPU register. The index of the
register to be accessed is passed in argument \Var{regnum}. To read a
register, \Prog{libunwind} sets argument \Var{write} to zero and
\Var{fpvalp} to point to a variable of type \Type{unw\_fpreg\_t} that
receives the read value. To write a register, \Prog{libunwind} sets
argument \Var{write} to a non-zero value and \Var{fpvalp} to point to
the variable of type \Type{unw\_fpreg\_t} that contains the value to
be written. The word that \Var{fpvalp} points to is always in the
byte-order of the host-platform, regardless of the byte-order of the
target. In other words, it is the responsibility of the call-back
routine to convert between the target's and the host's byte-order, if
necessary.
On successful completion, the \Func{access\_fpreg}() call-back must
return zero. Otherwise, the negative value of one of the
\Type{unw\_error\_t} error-codes may be returned.
\subsection{resume}
\Prog{Libunwind} invokes the \Func{resume}() call-back to resume
execution in the target address space. Argument \Var{cp} is the
unwind-cursor that identifies the stack-frame in which execution
should resume. By the time \Prog{libunwind} invokes the \Func{resume}
call-back, it has already established the desired machine- and
memory-state via calls to the \Func{access\_reg}(),
\Func{access\_fpreg}, and \Func{access\_mem}() call-backs. Thus, all
the call-back needs to do is perform whatever action is needed to
actually resume execution.
The \Func{resume} call-back is invoked only in response to a call to
\Func{unw\_resume}(3), so applications which never invoke
\Func{unw\_resume}(3) need not define the \Func{resume} callback.
On successful completion, the \Func{resume}() call-back must return
zero. Otherwise, the negative value of one of the
\Type{unw\_error\_t} error-codes may be returned. As a special case,
when resuming execution in the local address space, the call-back will
not return on success.
\subsection{get\_proc\_name}
\Prog{Libunwind} invokes the \Func{get\_proc\_name}() call-back to
obtain the procedure-name of a static (not dynamically generated)
procedure. Argument \Var{addr} is an instruction-address within the
procedure whose name is to be obtained. The \Var{bufp} argument is a
pointer to a character-buffer used to return the procedure name. The
size of this buffer is specified in argument \Var{buf\_len}. The
returned name must be terminated by a NUL character. If the
procedure's name is longer than \Var{buf\_len} bytes, it must be
truncated to \Var{buf\_len}\Prog{-1} bytes, with the last byte in the
buffer set to the NUL character and -\Const{UNW\_ENOMEM} must be
returned. Argument \Var{offp} is a pointer to a word which is used to
return the byte-offset relative to the start of the procedure whose
name is being returned. For example, if procedure \Func{foo}() starts
at address 0x40003000, then invoking \Func{get\_proc\_name}() with
\Var{addr} set to 0x40003080 should return a value of 0x80 in the word
pointed to by \Var{offp} (assuming the procedure is at least 0x80
bytes long).
On successful completion, the \Func{get\_proc\_name}() call-back must
return zero. Otherwise, the negative value of one of the
\Type{unw\_error\_t} error-codes may be returned.
\section{Return Value}
On successful completion, \Func{unw\_create\_addr\_space}() returns a
non-\Const{NULL} value that represents the newly created
address-space. Otherwise, \Const{NULL} is returned.
\section{Thread and Signal Safety}
\Func{unw\_create\_addr\_space}() is thread-safe but \emph{not}
safe to use from a signal handler.
\section{See Also}
\SeeAlso{\_U\_dyn\_register(3)},
\SeeAlso{libunwind(3)},
\SeeAlso{unw\_destroy\_addr\_space(3)},
\SeeAlso{unw\_get\_proc\_info(3)},
\SeeAlso{unw\_init\_remote(3)},
\SeeAlso{unw\_resume(3)}
\section{Author}
\noindent
David Mosberger-Tang\\
Hewlett-Packard Labs\\
Palo-Alto, CA 94304\\
Email: \Email{davidm@hpl.hp.com}\\
WWW: \URL{http://www.hpl.hp.com/research/linux/libunwind/}.
\LatexManEnd
\end{document}