/usr/include/xbt/ex.h is in libsimgrid-dev 3.11.1-9.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/* Copyright (c) 2005-2014. The SimGrid Team.
* All rights reserved. */
/* Copyright (c) 2002-2004 Ralf S. Engelschall <rse@engelschall.com> */
/* Copyright (c) 2002-2004 The OSSP Project <http://www.ossp.org/> */
/* Copyright (c) 2002-2004 Cable & Wireless <http://www.cw.com/> */
/* All rights reserved. */
/* This code is inspirated from the OSSP version (as retrieved back in 2004)*/
/* It was heavily modified to fit the SimGrid framework. */
/* The OSSP version has the following copyright notice:
** OSSP ex - Exception Handling
** Copyright (c) 2002-2004 Ralf S. Engelschall <rse@engelschall.com>
** Copyright (c) 2002-2004 The OSSP Project <http://www.ossp.org/>
** Copyright (c) 2002-2004 Cable & Wireless <http://www.cw.com/>
**
** This file is part of OSSP ex, an exception handling library
** which can be found at http://www.ossp.org/pkg/lib/ex/.
**
** Permission to use, copy, modify, and distribute this software for
** any purpose with or without fee is hereby granted, provided that
** the above copyright notice and this permission notice appear in all
** copies.
**
** THIS SOFTWARE IS PROVIDED `AS IS'' AND ANY EXPRESSED OR IMPLIED
** WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
** MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHORS AND COPYRIGHT HOLDERS AND THEIR
** CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
** SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
** LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
** USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
** ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
** OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
** OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
** SUCH DAMAGE.
*/
/* The extensions made for the SimGrid project can either be distributed */
/* under the same license, or under the LGPL v2.1 */
#ifndef __XBT_EX_H__
#define __XBT_EX_H__
#include "xbt/sysdep.h"
#include "xbt/misc.h"
#include "xbt/virtu.h"
SG_BEGIN_DECL()
/*-*-* Emergency debuging: define this when the exceptions get crazy *-*-*/
#undef __EX_MAYDAY
#ifdef __EX_MAYDAY
# include <stdio.h>
#include <errno.h>
# define MAYDAY_SAVE(m) printf("%d %s:%d save %p\n", \
xbt_getpid(), __FILE__, __LINE__, \
(m)->jb \
),
# define MAYDAY_RESTORE(m) printf("%d %s:%d restore %p\n", \
xbt_getpid(), __FILE__, __LINE__, \
(m)->jb \
),
# define MAYDAY_CATCH(e) printf("%d %s:%d Catched '%s'\n", \
xbt_getpid(), __FILE__, __LINE__, \
(e).msg \
),
#else
# define MAYDAY_SAVE(m)
# define MAYDAY_RESTORE(m)
# define MAYDAY_CATCH(e)
#endif
/*-*-* end of debugging stuff *-*-*/
#if defined(__EX_MCTX_MCSC__)
#include <ucontext.h> /* POSIX.1 ucontext(3) */
#define __ex_mctx_struct ucontext_t uc;
#define __ex_mctx_save(mctx) (getcontext(&(mctx)->uc) == 0)
#define __ex_mctx_restored(mctx) /* noop */
#define __ex_mctx_restore(mctx) (void)setcontext(&(mctx)->uc)
#elif defined(__EX_MCTX_SSJLJ__)
#include <setjmp.h> /* POSIX.1 sigjmp_buf(3) */
#define __ex_mctx_struct sigjmp_buf jb;
#define __ex_mctx_save(mctx) (sigsetjmp((mctx)->jb, 1) == 0)
#define __ex_mctx_restored(mctx) /* noop */
#define __ex_mctx_restore(mctx) (void)siglongjmp((mctx)->jb, 1)
#elif defined(__EX_MCTX_SJLJ__) || !defined(__EX_MCTX_CUSTOM__) || defined(__EX_MAYDAY)
#include <setjmp.h> /* ISO-C jmp_buf(3) */
#define __ex_mctx_struct jmp_buf jb;
#define __ex_mctx_save(mctx) ( MAYDAY_SAVE(mctx) setjmp((mctx)->jb) == 0)
#define __ex_mctx_restored(mctx) /* noop */
#define __ex_mctx_restore(mctx) ( MAYDAY_RESTORE(mctx) (void)longjmp((mctx)->jb, 1))
#endif
/* declare the machine context type */
typedef struct {
__ex_mctx_struct} __ex_mctx_t;
/** @addtogroup XBT_ex
* @brief A set of macros providing exception a la C++ in ANSI C (grounding feature)
*
* This module is a small ISO-C++ style exception handling library
* for use in the ISO-C language. It allows you to use the paradigm
* of throwing and catching exceptions in order to reduce the amount
* of error handling code without hindering program robustness.
*
* This is achieved by directly transferring exceptional return codes
* (and the program control flow) from the location where the exception
* is raised (throw point) to the location where it is handled (catch
* point) -- usually from a deeply nested sub-routine to a parent
* routine. All intermediate routines no longer have to make sure that
* the exceptional return codes from sub-routines are correctly passed
* back to the parent.
*
* These features are brought to you by a modified version of the libex
* library, one of the numerous masterpiece of Ralf S. Engelschall.
*
* \htmlonly <div class="toc">\endhtmlonly
*
* @section XBT_ex_toc TABLE OF CONTENTS
*
* - \ref XBT_ex_intro
* - \ref XBT_ex_base
* - \ref XBT_ex_pitfalls
*
* \htmlonly </div> \endhtmlonly
*
* @section XBT_ex_intro DESCRIPTION
*
* In SimGrid, an exception is a triple <\a msg , \a category , \a value>
* where \a msg is a human-readable text describing the exceptional
* condition, \a code an integer describing what went wrong and \a value
* providing a sort of sub-category. (this is different in the original libex).
*
* @section XBT_ex_base BASIC USAGE
*
* \em TRY \b TRIED_BLOCK [\em TRY_CLEANUP \b CLEANUP_BLOCK] \em CATCH (variable) \b CATCH_BLOCK
*
* This is the primary syntactical construct provided. It is modeled after the
* ISO-C++ try-catch clause and should sound familiar to most of you.
*
* Any exception thrown directly from the TRIED_BLOCK block or from called
* subroutines is caught. Cleanups which must be done after this block
* (whenever an exception arose or not) should be placed into the optionnal
* CLEANUP_BLOCK. The code dealing with the exceptions when they arise should
* be placed into the (mandatory) CATCH_BLOCK.
*
*
* In absence of exception, the control flow goes into the blocks TRIED_BLOCK
* and CLEANUP_BLOCK (if present); The CATCH_BLOCK block is then ignored.
*
* When an exception is thrown, the control flow goes through the following
* blocks: TRIED_BLOCK (up to the statement throwing the exception),
* CLEANUP_BLOCK (if any) and CATCH_BLOCK. The exception is stored in a
* variable for inspection inside the CATCH_BLOCK. This variable must be
* declared in the outter scope, but its value is only valid within the
* CATCH_BLOCK block.
*
* Some notes:
* - TRY, CLEANUP and CATCH cannot be used separately, they work
* only in combination and form a language clause as a whole.
* - In contrast to the syntax of other languages (such as C++ or Jave) there
* is only one CATCH block and not multiple ones (all exceptions are
* of the same \em xbt_ex_t C type).
* - the variable of CATCH can naturally be reused in subsequent
* CATCH clauses.
* - it is possible to nest TRY clauses.
*
* The TRY block is a regular ISO-C language statement block, but
*
* <center><b>it is not
* allowed to jump into it via "goto" or longjmp(3) or out of it via "break",
* "return", "goto" or longjmp(3)</b>.</center>
*
* This is because there is some hidden setup and
* cleanup that needs to be done regardless of whether an exception is
* caught. Bypassing these steps will break the exception handling facility.
* The symptom are likely to be a segfault at the next exception raising point,
* ie far away from the point where you did the mistake. If you suspect
* that kind of error in your code, have a look at the little script
* <tt>tools/xbt_exception_checker</tt> in the CVS. It extracts all the TRY
* blocks from a set of C files you give it and display them (and only
* them) on the standard output. You can then grep for the forbidden
* keywords on that output.
*
* The CLEANUP and CATCH blocks are regular ISO-C language statement
* blocks without any restrictions. You are even allowed to throw (and, in the
* CATCH block, to re-throw) exceptions.
*
* There is one subtle detail you should remember about TRY blocks:
* Variables used in the CLEANUP or CATCH clauses must be declared with
* the storage class "volatile", otherwise they might contain outdated
* information if an exception is thrown.
*
*
* This is because you usually do not know which commands in the TRY
* were already successful before the exception was thrown (logically speaking)
* and because the underlying ISO-C setjmp(3) facility applies those
* restrictions (technically speaking). As a matter of fact, value changes
* between the TRY and the THROW may be discarded if you forget the
* "volatile" keyword.
*
* \section XBT_ex_pitfalls PROGRAMMING PITFALLS
*
* Exception handling is a very elegant and efficient way of dealing with
* exceptional situation. Nevertheless it requires additional discipline in
* programming and there are a few pitfalls one must be aware of. Look the
* following code which shows some pitfalls and contains many errors (assuming
* a mallocex() function which throws an exception if malloc(3) fails):
*
* \dontinclude ex.c
* \skip BAD_EXAMPLE
* \until end_of_bad_example
*
* This example raises a few issues:
* -# \b variable \b scope \n
* Variables which are used in the CLEANUP or CATCH clauses must be
* declared before the TRY clause, otherwise they only exist inside the
* TRY block. In the example above, cp1, cp2 and cp3 only exist in the
* TRY block and are invisible from the CLEANUP and CATCH
* blocks.
* -# \b variable \b initialization \n
* Variables which are used in the CLEANUP or CATCH clauses must
* be initialized before the point of the first possible THROW is
* reached. In the example above, CLEANUP would have trouble using cp3
* if mallocex() throws a exception when allocating a TOOBIG buffer.
* -# \b volatile \b variable \n
* Variables which are used in the CLEANUP or CATCH clauses MUST BE
* DECLARED AS "volatile", otherwise they might contain outdated
* information when an exception is thrown.
* -# \b clean \b before \b catch \n
* The CLEANUP clause is not only place before the CATCH clause in
* the source code, it also occures before in the control flow. So,
* resources being cleaned up cannot be used in the CATCH block. In the
* example, c3 gets freed before the printf placed in CATCH.
* -# \b variable \b uninitialization \n
* If resources are passed out of the scope of the
* TRY/CLEANUP/CATCH construct, they naturally shouldn't get
* cleaned up. The example above does free(3) cp1 in CLEANUP although
* its value was affected to globalcontext->first, invalidating this
* pointer.
* The following is fixed version of the code (annotated with the pitfall items
* for reference):
*
* \skip GOOD_EXAMPLE
* \until end_of_good_example
*
* @{
*/
/** @brief different kind of errors */
typedef enum {
unknown_error = 0, /**< unknown error */
arg_error, /**< Invalid argument */
bound_error, /**< Out of bounds argument */
mismatch_error, /**< The provided ID does not match */
not_found_error, /**< The searched element was not found */
system_error, /**< a syscall did fail */
network_error, /**< error while sending/receiving data */
timeout_error, /**< not quick enough, dude */
cancel_error, /**< an action was canceled */
thread_error, /**< error while [un]locking */
host_error, /**< host failed */
tracing_error, /**< error during the simulation tracing */
io_error, /**< disk or file error */
vm_error /**< vm error */
} xbt_errcat_t;
XBT_PUBLIC(const char *) xbt_ex_catname(xbt_errcat_t cat);
/** @brief Structure describing an exception */
typedef struct {
char *msg; /**< human readable message */
xbt_errcat_t category; /**< category like HTTP (what went wrong) */
int value; /**< like errno (why did it went wrong) */
/* throw point */
char *procname; /**< Name of the process who thrown this */
int pid; /**< PID of the process who thrown this */
char *file; /**< Thrown point */
int line; /**< Thrown point */
char *func; /**< Thrown point */
/* Backtrace */
int used;
char **bt_strings; /* only filed on display (or before the network propagation) */
void *bt[XBT_BACKTRACE_SIZE];
} xbt_ex_t;
/* declare the running context type
* (that's where we get the process name for the logs and the exception storage)
* -- do not mess with it --
*/
typedef struct {
__ex_mctx_t *ctx_mctx; /* permanent machine context of enclosing try/catch */
int ctx_caught; /* temporary flag whether exception was caught */
volatile xbt_ex_t exception; /* temporary exception storage */
} xbt_running_ctx_t;
/* the static and dynamic initializers for a context structure */
#define XBT_RUNNING_CTX_INITIALIZER \
{ NULL, 0, { /* content */ NULL, unknown_error, 0, \
/* throw point*/ NULL, 0, NULL, 0, NULL, \
/* backtrace */ 0, NULL, /* bt[] */ } }
XBT_PUBLIC_DATA(const xbt_running_ctx_t) __xbt_ex_ctx_initializer;
#define XBT_RUNNING_CTX_INITIALIZE(ctx) (*(ctx) = __xbt_ex_ctx_initializer)
/* the exception context */
typedef xbt_running_ctx_t *(*xbt_running_ctx_fetcher_t) (void);
XBT_PUBLIC_DATA(xbt_running_ctx_fetcher_t) __xbt_running_ctx_fetch;
XBT_PUBLIC( xbt_running_ctx_t *)__xbt_ex_ctx_default(void);
/* the termination handler */
typedef void (*ex_term_cb_t) (xbt_ex_t *);
XBT_PUBLIC_DATA(ex_term_cb_t) __xbt_ex_terminate;
XBT_PUBLIC( void )__xbt_ex_terminate_default(xbt_ex_t * e);
/** @brief Introduce a block where exception may be dealed with
* @hideinitializer
*/
#define TRY \
{ \
xbt_running_ctx_t *__xbt_ex_ctx_ptr = __xbt_running_ctx_fetch(); \
int __ex_cleanup = 0; \
__ex_mctx_t *__ex_mctx_en; \
__ex_mctx_t __ex_mctx_me; \
__ex_mctx_en = __xbt_ex_ctx_ptr->ctx_mctx; \
__xbt_ex_ctx_ptr->ctx_mctx = &__ex_mctx_me; \
if (__ex_mctx_save(&__ex_mctx_me)) { \
if (1)
/** @brief optional(!) block for cleanup
* @hideinitializer
*/
#define TRY_CLEANUP \
else { \
} \
__xbt_ex_ctx_ptr->ctx_caught = 0; \
} else { \
__ex_mctx_restored(&__ex_mctx_me); \
__xbt_ex_ctx_ptr->ctx_caught = 1; \
} \
__xbt_ex_ctx_ptr->ctx_mctx = __ex_mctx_en; \
__ex_cleanup = 1; \
if (1) { \
if (1)
#ifndef DOXYGEN_SKIP
# ifdef __cplusplus
# define XBT_EX_T_CPLUSPLUSCAST (xbt_ex_t&)
# else
# define XBT_EX_T_CPLUSPLUSCAST
# endif
#endif
/** @brief the block for catching (ie, deal with) an exception
* @hideinitializer
*/
#define CATCH(e) \
DO_CATCH((e) = XBT_EX_T_CPLUSPLUSCAST __xbt_running_ctx_fetch()->exception)
/** @brief like CATCH(e) but without argument
* @hideinitializer
*
* Useful if you only want to rethrow the exception caught, and do not want to
* bother with an unused variable.
*/
#define CATCH_ANONYMOUS DO_CATCH(0)
#define DO_CATCH(_xbt_do_catch_set_e) \
else { \
} \
if (!(__ex_cleanup)) \
__xbt_ex_ctx_ptr->ctx_caught = 0; \
} else { \
if (!(__ex_cleanup)) { \
__ex_mctx_restored(&__ex_mctx_me); \
__xbt_ex_ctx_ptr->ctx_caught = 1; \
} \
} \
__xbt_ex_ctx_ptr->ctx_mctx = __ex_mctx_en; \
} \
if ( !(__xbt_running_ctx_fetch()->ctx_caught) \
|| ((void)(_xbt_do_catch_set_e), \
MAYDAY_CATCH(__xbt_running_ctx_fetch()->exception) 0)) { \
} \
else
#define DO_THROW(running_ctx) \
do { /* deal with the exception */ \
xbt_running_ctx_t *ctx = (running_ctx); \
if (ctx->ctx_mctx == NULL) \
__xbt_ex_terminate((xbt_ex_t*)&(ctx->exception)); /* not catched */ \
else \
__ex_mctx_restore(ctx->ctx_mctx); /* catched somewhere */ \
abort(); /* nope, stupid GCC, we won't survive a THROW */ \
/* (this won't be reached) */ \
} while(0)
/** @brief Helper macro for THROW and THROWF
* @hideinitializer
*
* @param _throw_ctx: the throwing context in which we should construct the exception
* @param c: category code (integer)
* @param v: value (integer)
* @param m: message text
*
* If called from within a TRY/CATCH construct, this exception
* is copied into the CATCH relevant variable program control flow
* is derouted to the CATCH (after the optional sg_cleanup).
*
* If no TRY/CATCH construct embeds this call, the program calls
* abort(3).
*
* The THROW can be performed everywhere, including inside TRY,
* CLEANUP and CATCH blocks.
*/
#define THROW_PREPARE(_throw_ctx, c, v, m) \
/* build the exception */ \
_throw_ctx->exception.msg = (m); \
_throw_ctx->exception.category = (xbt_errcat_t)(c); \
_throw_ctx->exception.value = (v); \
_throw_ctx->exception.procname = (char*)xbt_procname(); \
_throw_ctx->exception.pid = xbt_getpid(); \
_throw_ctx->exception.file = (char*)__FILE__; \
_throw_ctx->exception.line = __LINE__; \
_throw_ctx->exception.func = (char*)_XBT_FUNCTION; \
_throw_ctx->exception.bt_strings = NULL; \
xbt_backtrace_current((xbt_ex_t *)&(_throw_ctx->exception));
#define _THROW(c, v, m) \
do { /* change this sequence into one block */ \
xbt_running_ctx_t *_throw_ctx = __xbt_running_ctx_fetch(); \
THROW_PREPARE(_throw_ctx, c, v, m); \
DO_THROW(_throw_ctx); \
} while (0)
/** @brief Builds and throws an exception
@hideinitializer */
#define THROW(c, v) _THROW(c, v, NULL)
/** @brief Builds and throws an exception with a printf-like formatted message
@hideinitializer */
#define THROWF(c, v, ...) _THROW(c, v, bprintf(__VA_ARGS__))
#define THROW_IMPOSSIBLE \
THROWF(unknown_error, 0, "The Impossible Did Happen (yet again)")
#define THROW_UNIMPLEMENTED \
THROWF(unknown_error, 0, "Function %s unimplemented",_XBT_FUNCTION)
#define DIE_IMPOSSIBLE xbt_die("The Impossible Did Happen (yet again)")
/** @brief re-throwing of an already caught exception (ie, pass it to the upper catch block)
* @hideinitializer
*/
#define RETHROW DO_THROW(__xbt_running_ctx_fetch())
/** @brief like THROWF, but adding some details to the message of an existing exception
* @hideinitializer
*/
#define RETHROWF(...) \
do { \
char *_xbt_ex_internal_msg = __xbt_running_ctx_fetch()->exception.msg; \
__xbt_running_ctx_fetch()->exception.msg = bprintf(__VA_ARGS__, \
_xbt_ex_internal_msg); \
free(_xbt_ex_internal_msg); \
RETHROW; \
} while (0)
/** @brief Exception destructor */
XBT_PUBLIC(void) xbt_ex_free(xbt_ex_t e);
/** @brief Shows a backtrace of the current location */
XBT_PUBLIC(void) xbt_backtrace_display_current(void);
/** @brief reimplementation of glibc backtrace based directly on gcc library, without implicit malloc */
XBT_PUBLIC(int) xbt_backtrace_no_malloc(void**bt, int size);
/** @brief Captures a backtrace for further use */
XBT_PUBLIC(void) xbt_backtrace_current(xbt_ex_t * e);
/** @brief Display a previously captured backtrace */
XBT_PUBLIC(void) xbt_backtrace_display(xbt_ex_t * e);
/** @brief Get current backtrace with libunwind */
XBT_PUBLIC(int) xbt_libunwind_backtrace(void *bt[XBT_BACKTRACE_SIZE], int size);
#ifdef XBT_USE_DEPRECATED
/* Kept for backward compatibility. */
#define THROW0(c, v, m) \
do { if (m) THROWF(c, v, m); else THROW(c, v); } while (0)
#define THROW1(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define THROW2(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define THROW3(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define THROW4(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define THROW5(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define THROW6(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define THROW7(c, v, ...) THROWF(c, v, __VA_ARGS__)
#define RETHROW0(...) RETHROWF(__VA_ARGS__)
#define RETHROW1(...) RETHROWF(__VA_ARGS__)
#define RETHROW2(...) RETHROWF(__VA_ARGS__)
#define RETHROW3(...) RETHROWF(__VA_ARGS__)
#define RETHROW4(...) RETHROWF(__VA_ARGS__)
#define RETHROW5(...) RETHROWF(__VA_ARGS__)
#endif
SG_END_DECL()
/** @} */
#endif /* __XBT_EX_H__ */
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