/* * Copyright (c) 1983 Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that: (1) source distributions retain this entire copyright * notice and comment, and (2) distributions including binaries display * the following acknowledgement: ``This product includes software * developed by the University of California, Berkeley and its contributors'' * in the documentation or other materials provided with the distribution * and in all advertising materials mentioning features or use of this * software. Neither the name of the University nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #include "gprof.h" #include "cg_arcs.h" #include "core.h" #include "hist.h" #include "symtab.h" /* * Opcodes of the call instructions: */ #define OP_Jxx 0x1a #define OP_BSR 0x34 #define Jxx_FUNC_JMP 0 #define Jxx_FUNC_JSR 1 #define Jxx_FUNC_RET 2 #define Jxx_FUNC_JSR_COROUTINE 3 typedef union { struct { unsigned other:26; unsigned op_code:6; } a; /* any format */ struct { signed disp:21; unsigned ra:5; unsigned op_code:6; } b; /* branch format */ struct { signed hint:14; unsigned func:2; unsigned rb:5; unsigned ra:5; unsigned op_code:6; } j; /* jump format */ } Instruction; static Sym indirect_child; /* * On the Alpha we can only detect PC relative calls, which are * usually generated for calls to functions within the same * object file only. This is still better than nothing, however. * (In particular it should be possible to find functions that * potentially call integer division routines, for example.) */ void find_call (parent, p_lowpc, p_highpc) Sym *parent; bfd_vma p_lowpc; bfd_vma p_highpc; { static bfd_vma delta = 0; bfd_vma dest_pc; Instruction *pc; Sym *child; if (!delta) { delta = (bfd_vma) core_text_space - core_text_sect->vma; sym_init (&indirect_child); indirect_child.name = ""; indirect_child.cg.prop.fract = 1.0; indirect_child.cg.cyc.head = &indirect_child; } if (!core_text_space) { return; } if (p_lowpc < s_lowpc) { p_lowpc = s_lowpc; } if (p_highpc > s_highpc) { p_highpc = s_highpc; } DBG (CALLDEBUG, printf ("[find_call] %s: 0x%lx to 0x%lx\n", parent->name, p_lowpc, p_highpc)); for (pc = (Instruction *) (p_lowpc + delta); pc < (Instruction *) (p_highpc + delta); ++pc) { switch (pc->a.op_code) { case OP_Jxx: /* * There is no simple and reliable way to determine the * target of a jsr (the hint bits help, but there aren't * enough bits to get a satisfactory hit rate). Instead, * for any indirect jump we simply add an arc from PARENT * to INDIRECT_CHILD---that way the user it at least able * to see that there are other calls as well. */ if (pc->j.func == Jxx_FUNC_JSR || pc->j.func == Jxx_FUNC_JSR_COROUTINE) { DBG (CALLDEBUG, printf ("[find_call] 0x%lx: jsr%s \n", (bfd_vma) pc - delta, pc->j.func == Jxx_FUNC_JSR ? "" : "_coroutine")); arc_add (parent, &indirect_child, 0); } break; case OP_BSR: DBG (CALLDEBUG, printf ("[find_call] 0x%lx: bsr", (bfd_vma) pc - delta)); /* * Regular PC relative addressing. Check that this is the * address of a function. The linker sometimes redirects * the entry point by 8 bytes to skip loading the global * pointer, so we all for either address: */ dest_pc = ((bfd_vma) (pc + 1 + pc->b.disp)) - delta; if (dest_pc >= s_lowpc && dest_pc <= s_highpc) { child = sym_lookup (&symtab, dest_pc); DBG (CALLDEBUG, printf (" 0x%lx\t; name=%s, addr=0x%lx", dest_pc, child->name, child->addr)); if (child->addr == dest_pc || child->addr == dest_pc - 8) { DBG (CALLDEBUG, printf ("\n")); /* a hit: */ arc_add (parent, child, 0); continue; } } /* * Something funny going on. */ DBG (CALLDEBUG, printf ("\tbut it's a botch\n")); break; default: break; } } }