coregrind/m_demangle/demangle.c - platform/external/valgrind - Git at Google


 /*--------------------------------------------------------------------*/
 /*--- Demangling of C++ mangled names.                  demangle.c ---*/
 /*--------------------------------------------------------------------*/

 /*
    This file is part of Valgrind, a dynamic binary instrumentation
    framework.

    Copyright (C) 2000-2013 Julian Seward
       jseward@acm.org

    This program is free software; you can redistribute it and/or
    modify it under the terms of the GNU General Public License as
    published by the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful, but
    WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
    02111-1307, USA.

    The GNU General Public License is contained in the file COPYING.
 */

 #include "pub_core_basics.h"
 #include "pub_core_demangle.h"
 #include "pub_core_libcassert.h"
 #include "pub_core_libcbase.h"
 #include "pub_core_libcprint.h"
 #include "pub_core_mallocfree.h"
 #include "pub_core_options.h"

 #include "vg_libciface.h"
 #include "demangle.h"

 /* The demangler's job is to take a raw symbol name and turn it into
    something a Human Bean can understand.  There are two levels of
    mangling.

    1. First, C++ names are mangled by the compiler.  So we'll have to
       undo that.

    2. Optionally, in relatively rare cases, the resulting name is then
       itself encoded using Z-escaping (see pub_core_redir.h) so as to
       become part of a redirect-specification.

    Therefore, VG_(demangle) first tries to undo (2).  If successful,
    the soname part is discarded (humans don't want to see that).
    Then, it tries to undo (1) (using demangling code from GNU/FSF).

    Finally, change the name of all symbols which are known to be
    functions below main() to "(below main)".  This helps reduce
    variability of stack traces, something which has been a problem for
    the testsuite for a long time.

    --------
    If do_cxx_demangle == True, does all the above stages:
    - undo (2) [Z-encoding]
    - undo (1) [C++ mangling]
    - do the below-main hack

    If do_cxx_demangle == False, the middle stage is skipped:
    - undo (2) [Z-encoding]
    - do the below-main hack
 */

 /* Note that the C++ demangler is from GNU libiberty and is almost
    completely unmodified.  We use vg_libciface.h as a way to
    impedance-match the libiberty code into our own framework.

    The libiberty code included here was taken from the GCC repository
    and is released under the LGPL 2.1 license, which AFAICT is compatible
    with "GPL 2 or later" and so is OK for inclusion in Valgrind.

    To update to a newer libiberty, use the "update-demangler" script
    which is included in the valgrind repository. */

 /* This is the main, standard demangler entry point. */

 void VG_(demangle) ( Bool do_cxx_demangling, Bool do_z_demangling,
                      HChar* orig, HChar* result, Int result_size )
 {
 #  define N_ZBUF 4096
    HChar* demangled = NULL;
    HChar z_demangled[N_ZBUF];

    /* Possibly undo (2) */
    /* Z-Demangling was requested.
       The fastest way to see if it's a Z-mangled name is just to attempt
       to Z-demangle it (with NULL for the soname buffer, since we're not
       interested in that). */
    if (do_z_demangling) {
       if (VG_(maybe_Z_demangle)( orig, NULL,0,/*soname*/
                                  z_demangled, N_ZBUF, NULL, NULL, NULL )) {
          orig = z_demangled;
       }
    }

    /* Possibly undo (1) */
    if (do_cxx_demangling && VG_(clo_demangle)) {
       demangled = ML_(cplus_demangle) ( orig, DMGL_ANSI | DMGL_PARAMS );
    } else {
       demangled = NULL;
    }
    if (demangled) {
       VG_(strncpy_safely)(result, demangled, result_size);
       VG_(arena_free) (VG_AR_DEMANGLE, demangled);
    } else {
       VG_(strncpy_safely)(result, orig, result_size);
    }

    // 13 Mar 2005: We used to check here that the demangler wasn't leaking
    // by calling the (now-removed) function VG_(is_empty_arena)().  But,
    // very rarely (ie. I've heard of it twice in 3 years), the demangler
    // does leak.  But, we can't do much about it, and it's not a disaster,
    // so we just let it slide without aborting or telling the user.
 #  undef N_ZBUF
 }


 /*------------------------------------------------------------*/
 /*--- DEMANGLE Z-ENCODED NAMES                             ---*/
 /*------------------------------------------------------------*/

 /* Demangle a Z-encoded name as described in pub_tool_redir.h.
    Z-encoded names are used by Valgrind for doing function
    interception/wrapping.

    Demangle 'sym' into its soname and fnname parts, putting them in
    the specified buffers.  Returns a Bool indicating whether the
    demangled failed or not.  A failure can occur because the prefix
    isn't recognised, the internal Z-escaping is wrong, or because one
    or the other (or both) of the output buffers becomes full.  Passing
    'so' as NULL is acceptable if the caller is only interested in the
    function name part. */

 Bool VG_(maybe_Z_demangle) ( const HChar* sym,
                              /*OUT*/HChar* so, Int soLen,
                              /*OUT*/HChar* fn, Int fnLen,
                              /*OUT*/Bool* isWrap,
                              /*OUT*/Int*  eclassTag,
                              /*OUT*/Int*  eclassPrio )
 {
 #  define EMITSO(ch)                           \
       do {                                     \
          if (so) {                             \
             if (soi >= soLen) {                \
                so[soLen-1] = 0; oflow = True;  \
             } else {                           \
                so[soi++] = ch; so[soi] = 0;    \
             }                                  \
          }                                     \
       } while (0)
 #  define EMITFN(ch)                           \
       do {                                     \
          if (fni >= fnLen) {                   \
             fn[fnLen-1] = 0; oflow = True;     \
          } else {                              \
             fn[fni++] = ch; fn[fni] = 0;       \
          }                                     \
       } while (0)

    Bool error, oflow, valid, fn_is_encoded, is_VG_Z_prefixed;
    Int  soi, fni, i;

    vg_assert(soLen > 0 || (soLen == 0 && so == NULL));
    vg_assert(fnLen > 0);
    error = False;
    oflow = False;
    soi = 0;
    fni = 0;

    valid =     sym[0] == '_'
            &&  sym[1] == 'v'
            &&  sym[2] == 'g'
            && (sym[3] == 'r' || sym[3] == 'w')
            &&  VG_(isdigit)(sym[4])
            &&  VG_(isdigit)(sym[5])
            &&  VG_(isdigit)(sym[6])
            &&  VG_(isdigit)(sym[7])
            &&  VG_(isdigit)(sym[8])
            &&  sym[9] == 'Z'
            && (sym[10] == 'Z' || sym[10] == 'U')
            &&  sym[11] == '_';

    if (valid
        && sym[4] == '0' && sym[5] == '0' && sym[6] == '0' && sym[7] == '0'
        && sym[8] != '0') {
       /* If the eclass tag is 0000 (meaning "no eclass"), the priority
          must be 0 too. */
       valid = False;
    }

    if (!valid)
       return False;

    fn_is_encoded = sym[10] == 'Z';

    if (isWrap)
       *isWrap = sym[3] == 'w';

    if (eclassTag) {
       *eclassTag =    1000 * ((Int)sym[4] - '0')
                    +  100 * ((Int)sym[5] - '0')
                    +  10 * ((Int)sym[6] - '0')
                    +  1 * ((Int)sym[7] - '0');
       vg_assert(*eclassTag >= 0 && *eclassTag <= 9999);
    }

    if (eclassPrio) {
       *eclassPrio = ((Int)sym[8]) - '0';
       vg_assert(*eclassPrio >= 0 && *eclassPrio <= 9);
    }

    /* Now check the soname prefix isn't "VG_Z_", as described in
       pub_tool_redir.h. */
    is_VG_Z_prefixed =
       sym[12] == 'V' &&
       sym[13] == 'G' &&
       sym[14] == '_' &&
       sym[15] == 'Z' &&
       sym[16] == '_';
    if (is_VG_Z_prefixed) {
       vg_assert2(0, "symbol with a 'VG_Z_' prefix: %s.\n"
                     "see pub_tool_redir.h for an explanation.", sym);
    }

    /* Now scan the Z-encoded soname. */
    i = 12;
    while (True) {

       if (sym[i] == '_')
       /* Found the delimiter.  Move on to the fnname loop. */
          break;

       if (sym[i] == 0) {
          error = True;
          goto out;
       }

       if (sym[i] != 'Z') {
          EMITSO(sym[i]);
          i++;
          continue;
       }

       /* We've got a Z-escape. */
       i++;
       switch (sym[i]) {
          case 'a': EMITSO('*'); break;
          case 'c': EMITSO(':'); break;
          case 'd': EMITSO('.'); break;
          case 'h': EMITSO('-'); break;
          case 'p': EMITSO('+'); break;
          case 's': EMITSO(' '); break;
          case 'u': EMITSO('_'); break;
          case 'A': EMITSO('@'); break;
          case 'D': EMITSO('$'); break;
          case 'L': EMITSO('('); break;
          case 'R': EMITSO(')'); break;
          case 'Z': EMITSO('Z'); break;
          default: error = True; goto out;
       }
       i++;
    }

    vg_assert(sym[i] == '_');
    i++;

    /* Now deal with the function name part. */
    if (!fn_is_encoded) {

       /* simple; just copy. */
       while (True) {
          if (sym[i] == 0)
             break;
          EMITFN(sym[i]);
          i++;
       }
       goto out;

    }

    /* else use a Z-decoding loop like with soname */
    while (True) {

       if (sym[i] == 0)
          break;

       if (sym[i] != 'Z') {
          EMITFN(sym[i]);
          i++;
          continue;
       }

       /* We've got a Z-escape. */
       i++;
       switch (sym[i]) {
          case 'a': EMITFN('*'); break;
          case 'c': EMITFN(':'); break;
          case 'd': EMITFN('.'); break;
          case 'h': EMITFN('-'); break;
          case 'p': EMITFN('+'); break;
          case 's': EMITFN(' '); break;
          case 'u': EMITFN('_'); break;
          case 'A': EMITFN('@'); break;
          case 'D': EMITFN('$'); break;
          case 'L': EMITFN('('); break;
          case 'R': EMITFN(')'); break;
          case 'Z': EMITFN('Z'); break;
          default: error = True; goto out;
       }
       i++;
    }

   out:
    EMITSO(0);
    EMITFN(0);

    if (error) {
       /* Something's wrong.  Give up. */
       VG_(message)(Vg_UserMsg,
                    "m_demangle: error Z-demangling: %s\n", sym);
       return False;
    }
    if (oflow) {
       /* It didn't fit.  Give up. */
       VG_(message)(Vg_UserMsg,
                    "m_demangle: oflow Z-demangling: %s\n", sym);
       return False;
    }

    return True;
 }


 /*--------------------------------------------------------------------*/
 /*--- end                                                          ---*/
 /*--------------------------------------------------------------------*/

	/--------------------------------------------------------------------/
	/--- Demangling of C++ mangled names. demangle.c ---/
	/--------------------------------------------------------------------/

	/*
	This file is part of Valgrind, a dynamic binary instrumentation
	framework.

	Copyright (C) 2000-2013 Julian Seward
	jseward@acm.org

	This program is free software; you can redistribute it and/or
	modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 2 of the
	License, or (at your option) any later version.

	This program is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
	02111-1307, USA.

	The GNU General Public License is contained in the file COPYING.
	*/

	#include "pub_core_basics.h"
	#include "pub_core_demangle.h"
	#include "pub_core_libcassert.h"
	#include "pub_core_libcbase.h"
	#include "pub_core_libcprint.h"
	#include "pub_core_mallocfree.h"
	#include "pub_core_options.h"

	#include "vg_libciface.h"
	#include "demangle.h"

	/* The demangler's job is to take a raw symbol name and turn it into
	something a Human Bean can understand. There are two levels of
	mangling.

	1. First, C++ names are mangled by the compiler. So we'll have to
	undo that.

	2. Optionally, in relatively rare cases, the resulting name is then
	itself encoded using Z-escaping (see pub_core_redir.h) so as to
	become part of a redirect-specification.

	Therefore, VG_(demangle) first tries to undo (2). If successful,
	the soname part is discarded (humans don't want to see that).
	Then, it tries to undo (1) (using demangling code from GNU/FSF).

	Finally, change the name of all symbols which are known to be
	functions below main() to "(below main)". This helps reduce
	variability of stack traces, something which has been a problem for
	the testsuite for a long time.

	--------
	If do_cxx_demangle == True, does all the above stages:
	- undo (2) [Z-encoding]
	- undo (1) [C++ mangling]
	- do the below-main hack

	If do_cxx_demangle == False, the middle stage is skipped:
	- undo (2) [Z-encoding]
	- do the below-main hack
	*/

	/* Note that the C++ demangler is from GNU libiberty and is almost
	completely unmodified. We use vg_libciface.h as a way to
	impedance-match the libiberty code into our own framework.

	The libiberty code included here was taken from the GCC repository
	and is released under the LGPL 2.1 license, which AFAICT is compatible
	with "GPL 2 or later" and so is OK for inclusion in Valgrind.

	To update to a newer libiberty, use the "update-demangler" script
	which is included in the valgrind repository. */

	/* This is the main, standard demangler entry point. */

	void VG_(demangle) ( Bool do_cxx_demangling, Bool do_z_demangling,
	HChar* orig, HChar* result, Int result_size )
	{
	# define N_ZBUF 4096
	HChar* demangled = NULL;
	HChar z_demangled[N_ZBUF];

	/* Possibly undo (2) */
	/* Z-Demangling was requested.
	The fastest way to see if it's a Z-mangled name is just to attempt
	to Z-demangle it (with NULL for the soname buffer, since we're not
	interested in that). */
	if (do_z_demangling) {
	if (VG_(maybe_Z_demangle)( orig, NULL,0,/soname/
	z_demangled, N_ZBUF, NULL, NULL, NULL )) {
	orig = z_demangled;
	}
	}

	/* Possibly undo (1) */
	if (do_cxx_demangling && VG_(clo_demangle)) {
	demangled = ML_(cplus_demangle) ( orig, DMGL_ANSI \| DMGL_PARAMS );
	} else {
	demangled = NULL;
	}
	if (demangled) {
	VG_(strncpy_safely)(result, demangled, result_size);
	VG_(arena_free) (VG_AR_DEMANGLE, demangled);
	} else {
	VG_(strncpy_safely)(result, orig, result_size);
	}

	// 13 Mar 2005: We used to check here that the demangler wasn't leaking
	// by calling the (now-removed) function VG_(is_empty_arena)(). But,
	// very rarely (ie. I've heard of it twice in 3 years), the demangler
	// does leak. But, we can't do much about it, and it's not a disaster,
	// so we just let it slide without aborting or telling the user.
	# undef N_ZBUF
	}


	/------------------------------------------------------------/
	/--- DEMANGLE Z-ENCODED NAMES ---/
	/------------------------------------------------------------/

	/* Demangle a Z-encoded name as described in pub_tool_redir.h.
	Z-encoded names are used by Valgrind for doing function
	interception/wrapping.

	Demangle 'sym' into its soname and fnname parts, putting them in
	the specified buffers. Returns a Bool indicating whether the
	demangled failed or not. A failure can occur because the prefix
	isn't recognised, the internal Z-escaping is wrong, or because one
	or the other (or both) of the output buffers becomes full. Passing
	'so' as NULL is acceptable if the caller is only interested in the
	function name part. */

	Bool VG_(maybe_Z_demangle) ( const HChar* sym,
	/OUT/HChar* so, Int soLen,
	/OUT/HChar* fn, Int fnLen,
	/OUT/Bool* isWrap,
	/OUT/Int* eclassTag,
	/OUT/Int* eclassPrio )
	{
	# define EMITSO(ch) \
	do { \
	if (so) { \
	if (soi >= soLen) { \
	so[soLen-1] = 0; oflow = True; \
	} else { \
	so[soi++] = ch; so[soi] = 0; \
	} \
	} \
	} while (0)
	# define EMITFN(ch) \
	do { \
	if (fni >= fnLen) { \
	fn[fnLen-1] = 0; oflow = True; \
	} else { \
	fn[fni++] = ch; fn[fni] = 0; \
	} \
	} while (0)

	Bool error, oflow, valid, fn_is_encoded, is_VG_Z_prefixed;
	Int soi, fni, i;

	vg_assert(soLen > 0 \|\| (soLen == 0 && so == NULL));
	vg_assert(fnLen > 0);
	error = False;
	oflow = False;
	soi = 0;
	fni = 0;

	valid = sym[0] == '_'
	&& sym[1] == 'v'
	&& sym[2] == 'g'
	&& (sym[3] == 'r' \|\| sym[3] == 'w')
	&& VG_(isdigit)(sym[4])
	&& VG_(isdigit)(sym[5])
	&& VG_(isdigit)(sym[6])
	&& VG_(isdigit)(sym[7])
	&& VG_(isdigit)(sym[8])
	&& sym[9] == 'Z'
	&& (sym[10] == 'Z' \|\| sym[10] == 'U')
	&& sym[11] == '_';

	if (valid
	&& sym[4] == '0' && sym[5] == '0' && sym[6] == '0' && sym[7] == '0'
	&& sym[8] != '0') {
	/* If the eclass tag is 0000 (meaning "no eclass"), the priority
	must be 0 too. */
	valid = False;
	}

	if (!valid)
	return False;

	fn_is_encoded = sym[10] == 'Z';

	if (isWrap)
	*isWrap = sym[3] == 'w';

	if (eclassTag) {
	eclassTag = 1000 ((Int)sym[4] - '0')
	+ 100 * ((Int)sym[5] - '0')
	+ 10 * ((Int)sym[6] - '0')
	+ 1 * ((Int)sym[7] - '0');
	vg_assert(eclassTag >= 0 && eclassTag <= 9999);
	}

	if (eclassPrio) {
	*eclassPrio = ((Int)sym[8]) - '0';
	vg_assert(eclassPrio >= 0 && eclassPrio <= 9);
	}

	/* Now check the soname prefix isn't "VG_Z_", as described in
	pub_tool_redir.h. */
	is_VG_Z_prefixed =
	sym[12] == 'V' &&
	sym[13] == 'G' &&
	sym[14] == '_' &&
	sym[15] == 'Z' &&
	sym[16] == '_';
	if (is_VG_Z_prefixed) {
	vg_assert2(0, "symbol with a 'VG_Z_' prefix: %s.\n"
	"see pub_tool_redir.h for an explanation.", sym);
	}

	/* Now scan the Z-encoded soname. */
	i = 12;
	while (True) {

	if (sym[i] == '_')
	/* Found the delimiter. Move on to the fnname loop. */
	break;

	if (sym[i] == 0) {
	error = True;
	goto out;
	}

	if (sym[i] != 'Z') {
	EMITSO(sym[i]);
	i++;
	continue;
	}

	/* We've got a Z-escape. */
	i++;
	switch (sym[i]) {
	case 'a': EMITSO('*'); break;
	case 'c': EMITSO(':'); break;
	case 'd': EMITSO('.'); break;
	case 'h': EMITSO('-'); break;
	case 'p': EMITSO('+'); break;
	case 's': EMITSO(' '); break;
	case 'u': EMITSO('_'); break;
	case 'A': EMITSO('@'); break;
	case 'D': EMITSO('$'); break;
	case 'L': EMITSO('('); break;
	case 'R': EMITSO(')'); break;
	case 'Z': EMITSO('Z'); break;
	default: error = True; goto out;
	}
	i++;
	}

	vg_assert(sym[i] == '_');
	i++;

	/* Now deal with the function name part. */
	if (!fn_is_encoded) {

	/* simple; just copy. */
	while (True) {
	if (sym[i] == 0)
	break;
	EMITFN(sym[i]);
	i++;
	}
	goto out;

	}

	/* else use a Z-decoding loop like with soname */
	while (True) {

	if (sym[i] == 0)
	break;

	if (sym[i] != 'Z') {
	EMITFN(sym[i]);
	i++;
	continue;
	}

	/* We've got a Z-escape. */
	i++;
	switch (sym[i]) {
	case 'a': EMITFN('*'); break;
	case 'c': EMITFN(':'); break;
	case 'd': EMITFN('.'); break;
	case 'h': EMITFN('-'); break;
	case 'p': EMITFN('+'); break;
	case 's': EMITFN(' '); break;
	case 'u': EMITFN('_'); break;
	case 'A': EMITFN('@'); break;
	case 'D': EMITFN('$'); break;
	case 'L': EMITFN('('); break;
	case 'R': EMITFN(')'); break;
	case 'Z': EMITFN('Z'); break;
	default: error = True; goto out;
	}
	i++;
	}

	out:
	EMITSO(0);
	EMITFN(0);

	if (error) {
	/* Something's wrong. Give up. */
	VG_(message)(Vg_UserMsg,
	"m_demangle: error Z-demangling: %s\n", sym);
	return False;
	}
	if (oflow) {
	/* It didn't fit. Give up. */
	VG_(message)(Vg_UserMsg,
	"m_demangle: oflow Z-demangling: %s\n", sym);
	return False;
	}

	return True;
	}


	/--------------------------------------------------------------------/
	/--- end ---/
	/--------------------------------------------------------------------/