Dbx can't access C functions that have blocks containing declarations

donn at sdchema.UUCP donn at sdchema.UUCP
Sat Jun 9 08:36:33 AEST 1984


Subject: Dbx can't access C functions that have blocks containing declarations
Index:	ucb/dbx/object.c 4.2BSD

Description:
	Sometimes when debugging with dbx, mysterious functions like
	'$b4' or '$b23' appear in the stack trace when the 'where'
	command is given.  These functions appear to share lines with
	the function that appears to call them -- for example, if you
	are stopped in function 'f' which appears to be called by
	function '$b4' which is in turn called by function 'g', then
	'f' will appear to be called from the same source file and at
	the same line number in '$b4' as '$b4' is in 'g'.  Moreover it
	is impossible to examine local variables in 'g'.

	The common feature of all functions 'g' mentioned above is
	that they contain blocks or compound statements that have
	their own declarations.  If you stop in an inner block
	with declarations, you can print out that block's local
	variables (although none of the outer local variables),
	which is a good indication that they are connected with
	the bug.

Repeat-By:
	Clip out the following program and compile it with 'cc -g':

	----------------------------------------------------------------
	#include <stdio.h>

	int	f();

	main()
	{
		int	x;

		x	= 1;
		if (x > 0) {
			int	y;

			y	= 3;
			x	= f(y);
		}
		printf( "%d\n", x );
		exit( 0 );
	}

	int f( z )
		int	z;
	{
		z = z + 1;
		return ( z );
	}
	----------------------------------------------------------------

	Run dbx on the object.  If you put a breakpoint anywhere in the
	program, run it and check the stack when you stop, you will
	find that there is a mysterious function '$b1' that is always
	present.  The variable 'x' in main() will not be accessible but
	you can get at 'z' when 'f' is active, and you can get at 'y'
	at any time (clearly a bug).

Fix:
	Hasn't someone fixed this before?  I sure would like to have
	a good (official?) fix...

	I won't pretend that my fix is clean or even correct, but it
	seems to be an improvement.  The changes are to enter_nl() and
	unnamed_block() in object.c:

	----------------------------------------------------------------
	*** /tmp/,RCSt1021606	Fri Jun  8 14:45:57 1984
	--- object.c	Fri Jun  8 14:44:26 1984
	***************
	*** 318,324
		    break;
	  
		case N_RBRAC:
	! 	    if (addrstk[nesting] == NOADDR) {
			exitblock();
			newfunc(curblock, (linep - 1)->addr);
		    }

	--- 318,325 -----
		    break;
	  
		case N_RBRAC:
	! 	    --nesting;
	! 	    if (nesting > 0) {
			exitblock();
			newfunc(curblock, (linep - 1)->addr);
			addrstk[nesting] = (linep - 1)->addr;
	***************
	*** 321,326
		    if (addrstk[nesting] == NOADDR) {
			exitblock();
			newfunc(curblock, (linep - 1)->addr);
		    }
		    --nesting;
		    break;

	--- 322,328 -----
		    if (nesting > 0) {
			exitblock();
			newfunc(curblock, (linep - 1)->addr);
	+ 		addrstk[nesting] = (linep - 1)->addr;
		    }
		    break;
	  
	***************
	*** 322,328
			exitblock();
			newfunc(curblock, (linep - 1)->addr);
		    }
	- 	    --nesting;
		    break;
	  
		case N_SLINE:

	--- 324,329 -----
			newfunc(curblock, (linep - 1)->addr);
			addrstk[nesting] = (linep - 1)->addr;
		    }
		    break;
	  
		case N_SLINE:
	***************
	*** 546,552
	      ++bnum;
	      sprintf(buf, "$b%d", bnum);
	      s = insert(identname(buf, false));
	!     s->class = PROG;
	      s->symvalue.funcv.src = false;
	      s->symvalue.funcv.inline = true;
	      s->symvalue.funcv.beginaddr = addrstk[nesting];

	--- 547,553 -----
	      ++bnum;
	      sprintf(buf, "$b%d", bnum);
	      s = insert(identname(buf, false));
	!     s->class = PROC;
	      s->symvalue.funcv.src = false;
	      s->symvalue.funcv.inline = true;
	      s->symvalue.funcv.beginaddr = (linep - 1)->addr;
	***************
	*** 549,555
	      s->class = PROG;
	      s->symvalue.funcv.src = false;
	      s->symvalue.funcv.inline = true;
	!     s->symvalue.funcv.beginaddr = addrstk[nesting];
	      enterblock(s);
	      newfunc(s, addrstk[nesting]);
	      addrstk[nesting] = NOADDR;

	--- 550,556 -----
	      s->class = PROC;
	      s->symvalue.funcv.src = false;
	      s->symvalue.funcv.inline = true;
	!     s->symvalue.funcv.beginaddr = (linep - 1)->addr;
	      enterblock(s);
	      newfunc(s, (linep - 1)->addr);
	      addrstk[nesting] = NOADDR;
	***************
	*** 551,557
	      s->symvalue.funcv.inline = true;
	      s->symvalue.funcv.beginaddr = addrstk[nesting];
	      enterblock(s);
	!     newfunc(s, addrstk[nesting]);
	      addrstk[nesting] = NOADDR;
	  }
	  

	--- 552,558 -----
	      s->symvalue.funcv.inline = true;
	      s->symvalue.funcv.beginaddr = (linep - 1)->addr;
	      enterblock(s);
	!     newfunc(s, (linep - 1)->addr);
	      addrstk[nesting] = NOADDR;
	  }
	  
	----------------------------------------------------------------

	What this fix does for you is that it makes it possible to look
	at the local variables of a function with an inner block
	containing declarations, with the caveat that if you are
	actually IN the inner block, you can see that block's variables
	but not the outer variables (essentially this reduces the scope
	of the bug without eliminating it).  I am pretty sure that the
	old code is wrong, but I am not sure that my change is what the
	author intended.  Anyone with a better solution is urged to
	post it...

Donn Seeley    UCSD Chemistry Dept.       ucbvax!sdcsvax!sdchema!donn
32 52' 30"N 117 14' 25"W  (619) 452-4016  sdcsvax!sdchema!donn at nosc.ARPA



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