/* Copyright (c) 1980 Regents of the University of California */ static char sccsid[] = "@(#)asjxxx.c 4.5 08/20/80"; #include #include "as.h" #include "assyms.h" #define JBR 0x11 #define BRW 0x31 #define JMP 0x17 /* * The number of bytes to add if the jxxx must be "exploded" * into the long form */ #define JBRDELTA 1 /* brb ==> brw */ #define JXXXDELTA 3 /* brb ==> brb brw */ #define JBRJDELTA d124 /* brb ==> jmp L^(pc) *d124 */ #define JXXXJDELTA d124+2 /* brb ==> brb jmp L^(pc) *d124 */ int jbrfsize = JBRDELTA; int jxxxfsize = JXXXDELTA; /* * These variables are filled by asscan.c with the * last name encountered (a pointer buried in the intermediate file), * and the last jxxx symbol table entry encountered. */ struct symtab *lastnam; struct symtab *lastjxxx; initijxxx() { jbrfsize = jxxxJUMP ? JBRJDELTA : JBRDELTA; jxxxfsize = jxxxJUMP ? JXXXJDELTA : JXXXDELTA; /* * Note: ifjxxxJUMP is set, then we do NOT do any tunnelling; * this was too complicated to figure out, and in the first * version of the assembler, tunnelling proved to be the hardest * to get to work! */ } /* * Handle jxxx instructions */ ijxout(op,ap,nact) struct arg *ap; { if (passno == 1){ /* * READ THIS BEFORE LOOKING AT jxxxfix() * * Record the jxxx in a special symbol table entry */ register struct symtab *jumpfrom; /* * We assume the MINIMAL length */ putins(op,ap,nact); jumpfrom = lastjxxx; jumpfrom->s_tag = JXACTIVE; jumpfrom->s_jxbump = 0; if (op == JBR) jumpfrom->s_jxfear = jbrfsize; else jumpfrom->s_jxfear = jxxxfsize; if (lastnam == 0) yyerror("jxxx destination not a label"); jumpfrom->s_dest = lastnam; jumpfrom->s_type = dotp->e_xtype; /*only TEXT or DATA*/ jumpfrom->s_index = dotp-usedot; /* * value ALWAYS (ALWAYS!!!) indexes the next instruction * after the jump, even in the jump must be exploded * (bumped) */ jumpfrom->s_value = dotp->e_xvalue; njxxx++; } else {/* pass2, resolve */ /* * READ THIS AFTER LOOKING AT jxxxfix() */ register long oxvalue; register struct exp *xp; register struct symtab *tunnel; register struct arg *aplast; aplast = ap + nact - 1; xp = aplast->a_xp; if (lastjxxx->s_tag == JXTUNNEL){ lastjxxx->s_tag = JXINACTIVE; tunnel = lastjxxx->s_dest; xp->e_xvalue = tunnel->s_value /*index of instruction following*/ - 3 /* size of brw + word*/ + ( ( (tunnel->s_jxfear == jbrfsize) && (tunnel->s_jxbump == 0))?1:0); /*non bumped branch byteis only 2 back*/ } if (lastjxxx->s_jxbump == 0){ /*wasn't bumped, so is short form*/ putins(op, ap, nact); } else { if (op != JBR){ /*branch reverse conditional byte over branch unconditional word*/ oxvalue = xp->e_xvalue; xp->e_xvalue = lastjxxx->s_value; putins(op^1, ap, nact); xp->e_xvalue = oxvalue; } putins(jxxxJUMP ? JMP : BRW, aplast, 1); } } } /*end of ijxout*/ jalign(xp, sp) register struct exp *xp; register struct symtab *sp; { register int mask; /* * Problem with .align * * When the loader constructs an executable file from * a number of objects, it effectively concatnates * together all of the text segments from all objects, * and then all of the data segments. * * If we do an align by a large value, we can align * within the a.out this assembly produces, but * after the loader concatnates, the alignment can't * be guaranteed if the objects preceding this one * in the load are also aligned to the same size. * * Currently, the loader guarantees full word alignment. * So, ridiculous aligns are caught here and converted * to a .align 2, if possible. */ if ( (xp->e_xtype != XABS) || (xp->e_xvalue < 0) || (xp->e_xvalue > 16) ) { yyerror("Illegal `align' argument"); return; } if (xp->e_xvalue > 2){ if (passno == 1){ yywarning(".align %d in any segment is NOT preserved by the loader", xp->e_xvalue); yywarning(".align %d converted to .align 2", xp->e_xvalue); } xp->e_xvalue = 2; } flushfield(NBPW/4); if (passno == 1) { sp->s_tag = JXALIGN; sp->s_jxfear = (1 << xp->e_xvalue) - 1; sp->s_type = dotp->e_xtype; sp->s_index = dotp-usedot; /* * We guess that the align will take up at least one * byte in the code output. We will correct for this * initial high guess when we explode (bump) aligns * when we fix the jxxxes. We must do this guess * so that the symbol table is sorted correctly * and labels declared to fall before the align * really get their, instead of guessing zero size * and have the label (incorrectly) fall after the jxxx. * This is a quirk of our requirement that indices into * the code stream point to the next byte following * the logical entry in the symbol table */ dotp->e_xvalue += 1; sp->s_value = dotp->e_xvalue; njxxx++; } else { mask = (1 << xp->e_xvalue) - 1; while (dotp->e_xvalue & mask){ #ifdef UNIX outb(0); #endif UNIX #ifdef VMS *vms_obj_ptr++ = -1; *vms_obj_ptr++ = 0; dotp->e_xvalue += 1; #endif VMS } } } /* * Pass 1.5, resolve jxxx instructions and .align in .text */ jxxxfix() { register struct symtab *jumpfrom; struct symtab **cojumpfrom, *ubjumpfrom; register struct symtab *dest; register struct symtab *intdest; /*intermediate dest*/ register struct symtab **cointdest, *ubintdest; register struct symtab *tunnel; int displ,nchange; int badjxalign; /*if jump across an align*/ int stillactives; /*if still active jxxxes*/ int segno; /*current segment number*/ int topono; /*which iteration in the topo sort*/ register unsigned char tag; /* * consider each segment in turn... */ for (segno = 0; segno < NLOC + NLOC; segno++){ badjxalign = 0; /*done on a per segment basis*/ /* * Do a lazy topological sort. */ for (topono = 1, nchange = 1; nchange != 0; topono++){ #ifdef DEBUG if (debug) printf("\nSegment %d, topo iteration %d\n", segno, topono); #endif nchange = 0; stillactives = 0; /* * We keep track of one possible tunnel location. * A tunnel will eventually be an unconditional * branch to the same place that another jxxx * will want to branch to. We will turn a * branch conditional/unconditional (word) that would * have to get bumped because its destination is too * far away, into a branch conditional/unconditional * byte to the tunnel branch conditional/unconditional. * Of course, the tunnel must branch to the same place * as we want to go. */ tunnel = 0; /*initially, no tunnel*/ SEGITERATE(segno, 0, 0, cojumpfrom, jumpfrom, ubjumpfrom, ++){ tag = jumpfrom->s_tag; if (tag <= IGNOREBOUND) continue; /*just an ordinary symbol*/ if (tag == JXALIGN){ tunnel = 0; /*avoid tunneling across a flex alocation*/ continue; /*we take care of these later*/ } if ( jumpfrom->s_jxfear == jbrfsize /*unconditional*/ || ( tag == JXINACTIVE /*inactive bumped*/ && (jumpfrom->s_jxbump != 0) ) ) tunnel = jumpfrom; if (tag != JXACTIVE) continue; dest = jumpfrom->s_dest; if (jumpfrom->s_index != dest->s_index){ yyerror("Intersegment jxxx"); continue; } displ = dest->s_value - jumpfrom->s_value; if (displ < MINBYTE || displ > MAXBYTE) { /* * This is an immediate lose! * * We first attempt to tunnel * by finding an intervening jump that * has the same destination. * The tunnel is always the first preceeding * jxxx instruction, so the displacement * to the tunnel is less than zero, and * its relative position will be unaffected * by future jxxx expansions. * * No tunnels if doing jumps... */ if ( (!jxxxJUMP) && (jumpfrom->s_jxfear > jbrfsize) && (tunnel) && (tunnel->s_dest == jumpfrom->s_dest) && (tunnel->s_index == jumpfrom->s_index) && (tunnel->s_value - jumpfrom->s_value >= MINBYTE + jxxxfsize) ) { /* * tunnelling is OK */ jumpfrom->s_dest = tunnel; /* * no bumping needed, this * is now effectively inactive * but must be remembered */ jumpfrom->s_tag = JXTUNNEL; #ifdef DEBUG if(debug) printf("Tunnel from %s from line %d\n", jumpfrom->s_name, lineno); #endif continue; } else { /*tunneling not possible*/ /* * since this will be turned * into a bumped jump, we can * use the unconditional jump * as a tunnel */ tunnel = jumpfrom; jumpfrom->s_tag = JXNOTYET; ++nchange; continue; } } /*end of immediate lose*/ /* * Do a forward search for an intervening jxxx */ if (displ >= 0) { SEGITERATE(segno, cojumpfrom + 1,0,cointdest, intdest, ubintdest, ++){ if (intdest->s_value > dest->s_value) break; /* beyond destination */ if (intdest->s_tag <= JXQUESTIONABLE) continue; /*frozen solid*/ if (intdest->s_tag == JXALIGN){ jumpfrom->s_jxoveralign = 1; badjxalign++; } /* * we assume the worst case * for unfrozen jxxxxes */ displ += intdest->s_jxfear; } if (displ <= MAXBYTE){ /* * the worst possible conditions * can't hurt us, so forget about * this jump */ jumpfrom->s_tag = JXINACTIVE; } else { stillactives++; } } else { /* * backward search for intervening jxxx */ SEGITERATE(segno, cojumpfrom - 1,1,cointdest, intdest, ubintdest, --){ if (intdest->s_value <= dest->s_value) break; /* beyond destination */ if (intdest->s_tag <= JXQUESTIONABLE) continue; /*frozen solid*/ if (intdest->s_tag == JXALIGN){ jumpfrom->s_jxoveralign = 1; badjxalign++; } displ -= intdest->s_jxfear; } if (displ >= MINBYTE) { jumpfrom->s_tag = JXINACTIVE; } else { stillactives++; } } /*end of backwards search*/ } /*end of iterating through all symbols in this seg*/ if (nchange == 0) { /* * Now, if there are still active jxxx entries, * we are partially deadlocked. We can leave * these jxxx entries in their assumed short jump * form, as all initial displacement calcualtions * are hanging on unresolved jxxx instructions * that might explode into a long form, causing * other jxxxes jumping across the first set of * jxxxes to explode, etc. * However, if a jxxx jumps across a .align, * we assume the worst for the deadlock cycle, * and resolve all of them towards the long * jump. * Currently, the C compiler does not produce * jumps across aligns, as aligns are only used * in data segments, or in text segments to align * functions. */ if (stillactives){ SEGITERATE(segno, 0, 0, cojumpfrom, jumpfrom, ubjumpfrom, ++){ if (jumpfrom->s_tag == JXACTIVE){ jumpfrom->s_tag = badjxalign?JXNOTYET:JXINACTIVE; } } if (badjxalign){ jxxxbump(segno, (struct symtab **)0); } } /* * Handle all of the .align s */ SEGITERATE(segno, 0, 0, cojumpfrom, jumpfrom, ubjumpfrom, ++){ if (jumpfrom->s_tag == JXALIGN){ /* * Predict the true displacement * needed, irregardless of the * fact that we guessed 1 */ displ = (jumpfrom->s_value - 1) & (unsigned)jumpfrom->s_jxfear; if (displ == 0){ /*no virtual displacement*/ jumpfrom->s_jxfear = -1; } else { jumpfrom->s_jxfear = (jumpfrom->s_jxfear + 1) - displ; /* * assert jumpfrom->s_jxfear > 0 */ if (jumpfrom->s_jxfear == 1){ /*our prediction was correct*/ continue; } /* * assert jumpfrom->s_jxfear > 1 */ jumpfrom->s_jxfear -= 1; /*correct guess*/ } /* * assert jumpfrom->s_jxfear = -1, +1...2**n-1 */ jumpfrom->s_tag = JXNOTYET; /*signal*/ jxxxbump(segno, cojumpfrom); jumpfrom->s_tag = JXINACTIVE; /* * Assert jxfrom->jxvalue indexes the first * code byte after the added bytes, and * has n low order zeroes. */ } } /*end of walking through each segment*/ } /*end of no changes */ else { /*changes, and still have to try another pass*/ jxxxbump(segno, (struct symtab **)0); } } /*end of doing the topologic sort*/ } /*end of iterating through all segments*/ } /*end of jxxxfix*/ /* * Go through the symbols in a given segment number, * and see which entries are jxxx entries that have * been logically "exploded" (expanded), but for which * the value of textually following symbols has not been * increased */ jxxxbump(segno, starthint) int segno; struct symtab **starthint; { register struct symtab **cosp, *sp; register struct symtab *ub; register int cum_bump; register unsigned char tag; cum_bump = 0; SEGITERATE(segno, starthint, 0, cosp, sp, ub, ++){ tag = sp->s_tag; if (tag == JXNOTYET){ #ifdef DEBUG if (debug){ if (sp->s_dest != 0) printf("Explode jump to %s on line %d\n", sp->s_dest->s_name, lineno); else printf("Explode an align!\n"); } #endif sp->s_tag = JXINACTIVE; sp->s_jxbump = 1; cum_bump += sp->s_jxfear; } /* * Only bump labels and jxxxes. Ignored entries can * be incremented, as they are thrown away later on. * Stabds are given their final value in the second * pass. */ if (tag >= OKTOBUMP) /*only bump labels and jxxxes and floating stabs*/ sp->s_value += cum_bump; } usedot[segno].e_xvalue += cum_bump; }