ftmemsim-valgrind/memcheck/mc_errcontext.c

/*--------------------------------------------------------------------*/
/*--- Management of memory error messages.                         ---*/
/*---                                              mc_errcontext.c ---*/
/*--------------------------------------------------------------------*/

/*
   This file is part of MemCheck, a heavyweight Valgrind skin for
   detecting memory errors.

   Copyright (C) 2000-2002 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 "mc_include.h"

/*------------------------------------------------------------*/
/*--- Defns                                                ---*/
/*------------------------------------------------------------*/

/* These many bytes below %ESP are considered addressible if we're
   doing the --workaround-gcc296-bugs hack. */
#define VG_GCC296_BUG_STACK_SLOP 1024


typedef 
   enum { 
      /* Bad syscall params */
      ParamSupp,
      /* Memory errors in core (pthread ops, signal handling) */
      CoreMemSupp,
      /* Use of invalid values of given size */
      Value0Supp, Value1Supp, Value2Supp, Value4Supp, Value8Supp, 
      /* Invalid read/write attempt at given size */
      Addr1Supp, Addr2Supp, Addr4Supp, Addr8Supp,
      /* Invalid or mismatching free */
      FreeSupp
   } 
   MemCheckSuppKind;

/* What kind of error it is. */
typedef 
   enum { ValueErr,
          CoreMemErr,
          AddrErr, 
          ParamErr, UserErr,  /* behaves like an anonymous ParamErr */
          FreeErr, FreeMismatchErr
   }
   MemCheckErrorKind;

/* What kind of memory access is involved in the error? */
typedef
   enum { ReadAxs, WriteAxs, ExecAxs }
   AxsKind;

/* Extra context for memory errors */
typedef
   struct {
      /* AddrErr */
      AxsKind axskind;
      /* AddrErr, ValueErr */
      Int size;
      /* AddrErr, FreeErr, FreeMismatchErr, ParamErr, UserErr */
      AddrInfo addrinfo;
      /* ParamErr, UserErr, CoreMemErr */
      Bool isWrite;
   }
   MemCheckError;

/*------------------------------------------------------------*/
/*--- Comparing and printing errors                        ---*/
/*------------------------------------------------------------*/

static __inline__
void clear_AddrInfo ( AddrInfo* ai )
{
   ai->akind      = Unknown;
   ai->blksize    = 0;
   ai->rwoffset   = 0;
   ai->lastchange = NULL;
   ai->stack_tid  = VG_INVALID_THREADID;
   ai->maybe_gcc  = False;
}

static __inline__
void clear_MemCheckError ( MemCheckError* err_extra )
{
   err_extra->axskind   = ReadAxs;
   err_extra->size      = 0;
   clear_AddrInfo ( &err_extra->addrinfo );
   err_extra->isWrite   = False;
}

__attribute__ ((unused))
static Bool eq_AddrInfo ( VgRes res, AddrInfo* ai1, AddrInfo* ai2 )
{
   if (ai1->akind != Undescribed 
       && ai2->akind != Undescribed
       && ai1->akind != ai2->akind) 
      return False;
   if (ai1->akind == Freed || ai1->akind == Mallocd) {
      if (ai1->blksize != ai2->blksize)
         return False;
      if (!VG_(eq_ExeContext)(res, ai1->lastchange, ai2->lastchange))
         return False;
   }
   return True;
}

/* Compare error contexts, to detect duplicates.  Note that if they
   are otherwise the same, the faulting addrs and associated rwoffsets
   are allowed to be different.  */

Bool SK_(eq_SkinError) ( VgRes res,
                          SkinError* e1, SkinError* e2 )
{
   MemCheckError* e1_extra = e1->extra;
   MemCheckError* e2_extra = e2->extra;
   
   switch (e1->ekind) {
      case CoreMemErr:
         if (e1_extra->isWrite != e2_extra->isWrite)   return False;
         if (e2->ekind != CoreMemErr)                  return False; 
         if (e1->string == e2->string)                 return True;
         if (0 == VG_(strcmp)(e1->string, e2->string)) return True;
         return False;

      case UserErr:
      case ParamErr:
         if (e1_extra->isWrite != e2_extra->isWrite)
            return False;
         if (e1->ekind == ParamErr 
             && 0 != VG_(strcmp)(e1->string, e2->string))
            return False;
         return True;

      case FreeErr:
      case FreeMismatchErr:
         /* JRS 2002-Aug-26: comparing addrs seems overkill and can
            cause excessive duplication of errors.  Not even AddrErr
            below does that.  So don't compare either the .addr field
            or the .addrinfo fields. */
         /* if (e1->addr != e2->addr) return False; */
         /* if (!eq_AddrInfo(res, &e1_extra->addrinfo, &e2_extra->addrinfo)) 
               return False;
         */
         return True;

      case AddrErr:
         /* if (e1_extra->axskind != e2_extra->axskind) return False; */
         if (e1_extra->size != e2_extra->size) return False;
         /*
         if (!eq_AddrInfo(res, &e1_extra->addrinfo, &e2_extra->addrinfo)) 
            return False;
         */
         return True;

      case ValueErr:
         if (e1_extra->size != e2_extra->size) return False;
         return True;

      default: 
         VG_(printf)("Error:\n  unknown MemCheck error code %d\n", e1->ekind);
         VG_(skin_panic)("unknown error code in SK_(eq_SkinError)");
   }
}

static void pp_AddrInfo ( Addr a, AddrInfo* ai )
{
   switch (ai->akind) {
      case Stack: 
         VG_(message)(Vg_UserMsg, 
                      "   Address 0x%x is on thread %d's stack", 
                      a, ai->stack_tid);
         break;
      case Unknown:
         if (ai->maybe_gcc) {
            VG_(message)(Vg_UserMsg, 
               "   Address 0x%x is just below %%esp.  Possibly a bug in GCC/G++",
               a);
            VG_(message)(Vg_UserMsg, 
               "   v 2.96 or 3.0.X.  To suppress, use: --workaround-gcc296-bugs=yes");
	 } else {
            VG_(message)(Vg_UserMsg, 
               "   Address 0x%x is not stack'd, malloc'd or free'd", a);
         }
         break;
      case Freed: case Mallocd: case UserG: case UserS: {
         UInt delta;
         UChar* relative;
         if (ai->rwoffset < 0) {
            delta    = (UInt)(- ai->rwoffset);
            relative = "before";
         } else if (ai->rwoffset >= ai->blksize) {
            delta    = ai->rwoffset - ai->blksize;
            relative = "after";
         } else {
            delta    = ai->rwoffset;
            relative = "inside";
         }
         if (ai->akind == UserS) {
            VG_(message)(Vg_UserMsg, 
               "   Address 0x%x is %d bytes %s a %d-byte stack red-zone created",
               a, delta, relative, 
               ai->blksize );
	 } else {
            VG_(message)(Vg_UserMsg, 
               "   Address 0x%x is %d bytes %s a block of size %d %s",
               a, delta, relative, 
               ai->blksize,
               ai->akind==Mallocd ? "alloc'd" 
                  : ai->akind==Freed ? "free'd" 
                                     : "client-defined");
         }
         VG_(pp_ExeContext)(ai->lastchange);
         break;
      }
      default:
         VG_(skin_panic)("pp_AddrInfo");
   }
}

void SK_(pp_SkinError) ( SkinError* err, void (*pp_ExeContext)(void) )
{
   MemCheckError* err_extra = err->extra;

   switch (err->ekind) {
      case CoreMemErr:
         if (err_extra->isWrite) {
            VG_(message)(Vg_UserMsg, 
               "%s contains unaddressable byte(s)", err->string );
         } else {
            VG_(message)(Vg_UserMsg, 
                "%s contains uninitialised or unaddressable byte(s)",
                err->string);
         }
         pp_ExeContext();
         break;
      
      case ValueErr:
         if (err_extra->size == 0) {
             VG_(message)(
                Vg_UserMsg,
                "Conditional jump or move depends on uninitialised value(s)");
         } else {
             VG_(message)(Vg_UserMsg,
                          "Use of uninitialised value of size %d",
                          err_extra->size);
         }
         pp_ExeContext();
         break;

      case AddrErr:
         switch (err_extra->axskind) {
            case ReadAxs:
               VG_(message)(Vg_UserMsg, "Invalid read of size %d", 
                                        err_extra->size ); 
               break;
            case WriteAxs:
               VG_(message)(Vg_UserMsg, "Invalid write of size %d", 
                                        err_extra->size ); 
               break;
            case ExecAxs:
               VG_(message)(Vg_UserMsg, "Jump to the invalid address "
                                        "stated on the next line");
               break;
            default: 
               VG_(skin_panic)("pp_SkinError(axskind)");
         }
         pp_ExeContext();
         pp_AddrInfo(err->addr, &err_extra->addrinfo);
         break;

      case FreeErr:
         VG_(message)(Vg_UserMsg,"Invalid free() / delete / delete[]");
         /* fall through */
      case FreeMismatchErr:
         if (err->ekind == FreeMismatchErr)
            VG_(message)(Vg_UserMsg, 
                         "Mismatched free() / delete / delete []");
         pp_ExeContext();
         pp_AddrInfo(err->addr, &err_extra->addrinfo);
         break;

      case ParamErr:
         if (err_extra->isWrite) {
            VG_(message)(Vg_UserMsg, 
               "Syscall param %s contains unaddressable byte(s)",
                err->string );
         } else {
            VG_(message)(Vg_UserMsg, 
                "Syscall param %s contains uninitialised or "
                "unaddressable byte(s)",
            err->string);
         }
         pp_ExeContext();
         pp_AddrInfo(err->addr, &err_extra->addrinfo);
         break;

      case UserErr:
         if (err_extra->isWrite) {
            VG_(message)(Vg_UserMsg, 
               "Unaddressable byte(s) found during client check request");
         } else {
            VG_(message)(Vg_UserMsg, 
               "Uninitialised or "
               "unaddressable byte(s) found during client check request");
         }
         pp_ExeContext();
         pp_AddrInfo(err->addr, &err_extra->addrinfo);
         break;

      default: 
         VG_(printf)("Error:\n  unknown MemCheck error code %d\n", err->ekind);
         VG_(skin_panic)("unknown error code in SK_(pp_SkinError)");
   }
}

/*------------------------------------------------------------*/
/*--- Recording errors                                     ---*/
/*------------------------------------------------------------*/

/* Describe an address as best you can, for error messages,
   putting the result in ai. */

static void describe_addr ( Addr a, AddrInfo* ai )
{
   ShadowChunk* sc;
   Bool         ok;
   ThreadId     tid;

   /* Nested functions, yeah.  Need the lexical scoping of 'a'. */ 

   /* Closure for searching thread stacks */
   Bool addr_is_in_bounds(Addr stack_min, Addr stack_max)
   {
      return (stack_min <= a && a <= stack_max);
   }
   /* Closure for searching malloc'd and free'd lists */
   Bool addr_is_in_block(ShadowChunk *sh_ch)
   {
      return VG_(addr_is_in_block) ( a, sh_ch->data, sh_ch->size );
   }

   /* Perhaps it's a user-def'd block ? */
   ok = SK_(client_perm_maybe_describe)( a, ai );
   if (ok)
      return;
   /* Perhaps it's on a thread's stack? */
   tid = VG_(any_matching_thread_stack)(addr_is_in_bounds);
   if (tid != VG_INVALID_THREADID) {
      ai->akind     = Stack;
      ai->stack_tid = tid;
      return;
   }
   /* Search for a recently freed block which might bracket it. */
   sc = SK_(any_matching_freed_ShadowChunks)(addr_is_in_block);
   if (NULL != sc) {
      ai->akind      = Freed;
      ai->blksize    = sc->size;
      ai->rwoffset   = (Int)(a) - (Int)(sc->data);
      ai->lastchange = (ExeContext*)sc->skin_extra[0];
      return;
   }
   /* Search for a currently malloc'd block which might bracket it. */
   sc = VG_(any_matching_mallocd_ShadowChunks)(addr_is_in_block);
   if (NULL != sc) {
      ai->akind      = Mallocd;
      ai->blksize    = sc->size;
      ai->rwoffset   = (Int)(a) - (Int)(sc->data);
      ai->lastchange = (ExeContext*)sc->skin_extra[0];
      return;
   } 
   /* Clueless ... */
   ai->akind = Unknown;
   return;
}


/* Creates a copy of the err_extra, updates the copy with address info if
   necessary, sticks the copy into the SkinError. */
void SK_(dup_extra_and_update)(SkinError* err)
{
   MemCheckError* err_extra;

   err_extra  = VG_(malloc)(sizeof(MemCheckError));
   *err_extra = *((MemCheckError*)err->extra);

   if (err_extra->addrinfo.akind == Undescribed)
      describe_addr ( err->addr, &(err_extra->addrinfo) );

   err->extra = err_extra;
}

/* These two are called from generated code. */
void SK_(record_value_error) ( Int size )
{
   MemCheckError err_extra;

   clear_MemCheckError( &err_extra );
   err_extra.size = size;
   VG_(maybe_record_error)( NULL, ValueErr, /*addr*/0, /*s*/NULL, &err_extra );
}

/* Is this address within some small distance below %ESP?  Used only
   for the --workaround-gcc296-bugs kludge. */
Bool VG_(is_just_below_ESP)( Addr esp, Addr aa )
{
   if ((UInt)esp > (UInt)aa
       && ((UInt)esp - (UInt)aa) <= VG_GCC296_BUG_STACK_SLOP)
      return True;
   else
      return False;
}

void SK_(record_address_error) ( Addr a, Int size, Bool isWrite )
{
   MemCheckError err_extra;
   Bool          just_below_esp;

   just_below_esp 
      = VG_(is_just_below_ESP)( VG_(get_stack_pointer)(), a );

   /* If this is caused by an access immediately below %ESP, and the
      user asks nicely, we just ignore it. */
   if (SK_(clo_workaround_gcc296_bugs) && just_below_esp)
      return;

   clear_MemCheckError( &err_extra );
   err_extra.axskind = isWrite ? WriteAxs : ReadAxs;
   err_extra.size    = size;
   err_extra.addrinfo.akind     = Undescribed;
   err_extra.addrinfo.maybe_gcc = just_below_esp;
   VG_(maybe_record_error)( NULL, AddrErr, a, /*s*/NULL, &err_extra );
}

/* These ones are called from non-generated code */

/* This is for memory errors in pthread functions, as opposed to pthread API
   errors which are found by the core. */
void SK_(record_core_mem_error) ( ThreadState* tst, Bool isWrite, Char* msg )
{
   MemCheckError err_extra;

   clear_MemCheckError( &err_extra );
   err_extra.isWrite = isWrite;
   VG_(maybe_record_error)( tst, CoreMemErr, /*addr*/0, msg, &err_extra );
}

void SK_(record_param_error) ( ThreadState* tst, Addr a, Bool isWrite, 
                               Char* msg )
{
   MemCheckError err_extra;

   sk_assert(NULL != tst);
   clear_MemCheckError( &err_extra );
   err_extra.addrinfo.akind = Undescribed;
   err_extra.isWrite = isWrite;
   VG_(maybe_record_error)( tst, ParamErr, a, msg, &err_extra );
}

void SK_(record_jump_error) ( ThreadState* tst, Addr a )
{
   MemCheckError err_extra;

   sk_assert(NULL != tst);

   clear_MemCheckError( &err_extra );
   err_extra.axskind = ExecAxs;
   err_extra.addrinfo.akind = Undescribed;
   VG_(maybe_record_error)( tst, AddrErr, a, /*s*/NULL, &err_extra );
}

void SK_(record_free_error) ( ThreadState* tst, Addr a ) 
{
   MemCheckError err_extra;

   sk_assert(NULL != tst);

   clear_MemCheckError( &err_extra );
   err_extra.addrinfo.akind = Undescribed;
   VG_(maybe_record_error)( tst, FreeErr, a, /*s*/NULL, &err_extra );
}

void SK_(record_freemismatch_error) ( ThreadState* tst, Addr a )
{
   MemCheckError err_extra;

   sk_assert(NULL != tst);

   clear_MemCheckError( &err_extra );
   err_extra.addrinfo.akind = Undescribed;
   VG_(maybe_record_error)( tst, FreeMismatchErr, a, /*s*/NULL, &err_extra );
}

void SK_(record_user_error) ( ThreadState* tst, Addr a, Bool isWrite )
{
   MemCheckError err_extra;

   sk_assert(NULL != tst);

   clear_MemCheckError( &err_extra );
   err_extra.addrinfo.akind = Undescribed;
   err_extra.isWrite        = isWrite;
   VG_(maybe_record_error)( tst, UserErr, a, /*s*/NULL, &err_extra );
}


/*------------------------------------------------------------*/
/*--- Suppressions                                         ---*/
/*------------------------------------------------------------*/

#define STREQ(s1,s2) (s1 != NULL && s2 != NULL \
                      && VG_(strcmp)((s1),(s2))==0)

Bool SK_(recognised_suppression) ( Char* name, SuppKind *skind )
{
   if      (STREQ(name, "Param"))   *skind = ParamSupp;
   else if (STREQ(name, "CoreMem")) *skind = CoreMemSupp;
   else if (STREQ(name, "Value0"))  *skind = Value0Supp; /* backwards compat */ 
   else if (STREQ(name, "Cond"))    *skind = Value0Supp;
   else if (STREQ(name, "Value1"))  *skind = Value1Supp;
   else if (STREQ(name, "Value2"))  *skind = Value2Supp;
   else if (STREQ(name, "Value4"))  *skind = Value4Supp;
   else if (STREQ(name, "Value8"))  *skind = Value8Supp;
   else if (STREQ(name, "Addr1"))   *skind = Addr1Supp;
   else if (STREQ(name, "Addr2"))   *skind = Addr2Supp;
   else if (STREQ(name, "Addr4"))   *skind = Addr4Supp;
   else if (STREQ(name, "Addr8"))   *skind = Addr8Supp;
   else if (STREQ(name, "Free"))    *skind = FreeSupp;
   else 
      return False;

   return True;
}

Bool SK_(read_extra_suppression_info) ( Int fd, Char* buf, Int nBuf, 
                                         SkinSupp *s )
{
   Bool eof;

   if (s->skind == ParamSupp) {
      eof = VG_(get_line) ( fd, buf, nBuf );
      if (eof) return False;
      s->string = VG_(strdup)(buf);
   }
   return True;
}

extern Bool SK_(error_matches_suppression)(SkinError* err, SkinSupp* su)
{
   UInt su_size;
   MemCheckError* err_extra = err->extra;

   switch (su->skind) {
      case ParamSupp:
         return (err->ekind == ParamErr && STREQ(su->string, err->string));

      case CoreMemSupp:
         return (err->ekind == CoreMemErr && STREQ(su->string, err->string));

      case Value0Supp: su_size = 0; goto value_case;
      case Value1Supp: su_size = 1; goto value_case;
      case Value2Supp: su_size = 2; goto value_case;
      case Value4Supp: su_size = 4; goto value_case;
      case Value8Supp: su_size = 8; goto value_case;
      value_case:
         return (err->ekind == ValueErr && err_extra->size == su_size);

      case Addr1Supp: su_size = 1; goto addr_case;
      case Addr2Supp: su_size = 2; goto addr_case;
      case Addr4Supp: su_size = 4; goto addr_case;
      case Addr8Supp: su_size = 8; goto addr_case;
      addr_case:
         return (err->ekind == AddrErr && err_extra->size == su_size);

      case FreeSupp:
         return (err->ekind == FreeErr || err->ekind == FreeMismatchErr);

      default:
         VG_(printf)("Error:\n"
                     "  unknown MemCheck suppression type %d\n", su->skind);
         VG_(skin_panic)("unknown suppression type in "
                         "SK_(error_matches_suppression)");
   }
}

#  undef STREQ

/*--------------------------------------------------------------------*/
/*--- end                                          mc_errcontext.c ---*/
/*--------------------------------------------------------------------*/