src/cmd/8l/pass.c - go - Git at Google

 // Inferno utils/8l/pass.c
 // http://code.google.com/p/inferno-os/source/browse/utils/8l/pass.c
 //
 //	Copyright © 1994-1999 Lucent Technologies Inc.  All rights reserved.
 //	Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net)
 //	Portions Copyright © 1997-1999 Vita Nuova Limited
 //	Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com)
 //	Portions Copyright © 2004,2006 Bruce Ellis
 //	Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net)
 //	Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
 //	Portions Copyright © 2009 The Go Authors.  All rights reserved.
 //
 // Permission is hereby granted, free of charge, to any person obtaining a copy
 // of this software and associated documentation files (the "Software"), to deal
 // in the Software without restriction, including without limitation the rights
 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 // copies of the Software, and to permit persons to whom the Software is
 // furnished to do so, subject to the following conditions:
 //
 // The above copyright notice and this permission notice shall be included in
 // all copies or substantial portions of the Software.
 //
 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 // THE SOFTWARE.

 // Code and data passes.

 #include	"l.h"
 #include	"../ld/lib.h"
 #include "../../pkg/runtime/stack.h"

 static void xfol(Prog*, Prog**);

 Prog*
 brchain(Prog *p)
 {
 	int i;

 	for(i=0; i<20; i++) {
 		if(p == P || p->as != AJMP)
 			return p;
 		p = p->pcond;
 	}
 	return P;
 }

 void
 follow(void)
 {
 	Prog *firstp, *lastp;

 	if(debug['v'])
 		Bprint(&bso, "%5.2f follow\n", cputime());
 	Bflush(&bso);

 	for(cursym = textp; cursym != nil; cursym = cursym->next) {
 		firstp = prg();
 		lastp = firstp;
 		xfol(cursym->text, &lastp);
 		lastp->link = nil;
 		cursym->text = firstp->link;
 	}
 }

 static int
 nofollow(int a)
 {
 	switch(a) {
 	case AJMP:
 	case ARET:
 	case AIRETL:
 	case AIRETW:
 		return 1;
 	}
 	return 0;
 }

 static int
 pushpop(int a)
 {
 	switch(a) {
 	case APUSHL:
 	case APUSHFL:
 	case APUSHW:
 	case APUSHFW:
 	case APOPL:
 	case APOPFL:
 	case APOPW:
 	case APOPFW:
 		return 1;
 	}
 	return 0;
 }

 static void
 xfol(Prog *p, Prog **last)
 {
 	Prog *q;
 	int i;
 	enum as a;

 loop:
 	if(p == P)
 		return;
 	if(p->as == AJMP)
 	if((q = p->pcond) != P && q->as != ATEXT) {
 		/* mark instruction as done and continue layout at target of jump */
 		p->mark = 1;
 		p = q;
 		if(p->mark == 0)
 			goto loop;
 	}
 	if(p->mark) {
 		/*
 		 * p goes here, but already used it elsewhere.
 		 * copy up to 4 instructions or else branch to other copy.
 		 */
 		for(i=0,q=p; i<4; i++,q=q->link) {
 			if(q == P)
 				break;
 			if(q == *last)
 				break;
 			a = q->as;
 			if(a == ANOP) {
 				i--;
 				continue;
 			}
 			if(nofollow(a) || pushpop(a))
 				break;	// NOTE(rsc): arm does goto copy
 			if(q->pcond == P || q->pcond->mark)
 				continue;
 			if(a == ACALL || a == ALOOP)
 				continue;
 			for(;;) {
 				if(p->as == ANOP) {
 					p = p->link;
 					continue;
 				}
 				q = copyp(p);
 				p = p->link;
 				q->mark = 1;
 				(*last)->link = q;
 				*last = q;
 				if(q->as != a || q->pcond == P || q->pcond->mark)
 					continue;

 				q->as = relinv(q->as);
 				p = q->pcond;
 				q->pcond = q->link;
 				q->link = p;
 				xfol(q->link, last);
 				p = q->link;
 				if(p->mark)
 					return;
 				goto loop;
 			}
 		} /* */
 		q = prg();
 		q->as = AJMP;
 		q->line = p->line;
 		q->to.type = D_BRANCH;
 		q->to.offset = p->pc;
 		q->pcond = p;
 		p = q;
 	}

 	/* emit p */
 	p->mark = 1;
 	(*last)->link = p;
 	*last = p;
 	a = p->as;

 	/* continue loop with what comes after p */
 	if(nofollow(a))
 		return;
 	if(p->pcond != P && a != ACALL) {
 		/*
 		 * some kind of conditional branch.
 		 * recurse to follow one path.
 		 * continue loop on the other.
 		 */
 		q = brchain(p->link);
 		if(q != P && q->mark)
 		if(a != ALOOP) {
 			p->as = relinv(a);
 			p->link = p->pcond;
 			p->pcond = q;
 		}
 		xfol(p->link, last);
 		q = brchain(p->pcond);
 		if(q->mark) {
 			p->pcond = q;
 			return;
 		}
 		p = q;
 		goto loop;
 	}
 	p = p->link;
 	goto loop;
 }

 int
 relinv(int a)
 {

 	switch(a) {
 	case AJEQ:	return AJNE;
 	case AJNE:	return AJEQ;
 	case AJLE:	return AJGT;
 	case AJLS:	return AJHI;
 	case AJLT:	return AJGE;
 	case AJMI:	return AJPL;
 	case AJGE:	return AJLT;
 	case AJPL:	return AJMI;
 	case AJGT:	return AJLE;
 	case AJHI:	return AJLS;
 	case AJCS:	return AJCC;
 	case AJCC:	return AJCS;
 	case AJPS:	return AJPC;
 	case AJPC:	return AJPS;
 	case AJOS:	return AJOC;
 	case AJOC:	return AJOS;
 	}
 	diag("unknown relation: %s in %s", anames[a], TNAME);
 	return a;
 }

 void
 patch(void)
 {
 	int32 c;
 	Prog *p, *q;
 	Sym *s;
 	int32 vexit;
 	Sym *plan9_tos;

 	if(debug['v'])
 		Bprint(&bso, "%5.2f mkfwd\n", cputime());
 	Bflush(&bso);
 	mkfwd();
 	if(debug['v'])
 		Bprint(&bso, "%5.2f patch\n", cputime());
 	Bflush(&bso);
 	s = lookup("exit", 0);
 	vexit = s->value;

 	plan9_tos = S;
 	if(HEADTYPE == Hplan9x32)
 		plan9_tos = lookup("_tos", 0);

 	for(cursym = textp; cursym != nil; cursym = cursym->next) {
 		for(p = cursym->text; p != P; p = p->link) {
 			if(HEADTYPE == Hwindows) {
 				// Convert
 				//   op	  n(GS), reg
 				// to
 				//   MOVL 0x14(FS), reg
 				//   op	  n(reg), reg
 				// The purpose of this patch is to fix some accesses
 				// to extern register variables (TLS) on Windows, as
 				// a different method is used to access them.
 				if(p->from.type == D_INDIR+D_GS
 				&& p->to.type >= D_AX && p->to.type <= D_DI) {
 					q = appendp(p);
 					q->from = p->from;
 					q->from.type = D_INDIR + p->to.type;
 					q->to = p->to;
 					q->as = p->as;
 					p->as = AMOVL;
 					p->from.type = D_INDIR+D_FS;
 					p->from.offset = 0x14;
 				}
 			}
 			if(HEADTYPE == Hlinux) {
 				// Running binaries under Xen requires using
 				//	MOVL 0(GS), reg
 				// and then off(reg) instead of saying off(GS) directly
 				// when the offset is negative.
 				if(p->from.type == D_INDIR+D_GS && p->from.offset < 0
 				&& p->to.type >= D_AX && p->to.type <= D_DI) {
 					q = appendp(p);
 					q->from = p->from;
 					q->from.type = D_INDIR + p->to.type;
 					q->to = p->to;
 					q->as = p->as;
 					p->as = AMOVL;
 					p->from.type = D_INDIR+D_GS;
 					p->from.offset = 0;
 				}
 			}
 			if(HEADTYPE == Hplan9x32) {
 				if(p->from.type == D_INDIR+D_GS
 				&& p->to.type >= D_AX && p->to.type <= D_DI) {
 					q = appendp(p);
 					q->from = p->from;
 					q->from.type = D_INDIR + p->to.type;
 					q->to = p->to;
 					q->as = p->as;
 					p->as = AMOVL;
 					p->from.type = D_EXTERN;
 					p->from.sym = plan9_tos;
 					p->from.offset = 0;
 				}
 			}
 			if((p->as == ACALL && p->to.type != D_BRANCH) || (p->as == AJMP && p->to.type != D_BRANCH)) {
 				s = p->to.sym;
 				if(p->to.type == D_INDIR+D_ADDR) {
 					 /* skip check if this is an indirect call (CALL *symbol(SB)) */
 					 continue;
 				} else if(s) {
 					if(debug['c'])
 						Bprint(&bso, "%s calls %s\n", TNAME, s->name);
 					if((s->type&~SSUB) != STEXT) {
 						/* diag prints TNAME first */
 						diag("undefined: %s", s->name);
 						s->type = STEXT;
 						s->value = vexit;
 						continue;	// avoid more error messages
 					}
 					if(s->text == nil)
 						continue;
 					p->to.type = D_BRANCH;
 					p->to.offset = s->text->pc;
 					p->pcond = s->text;
 					continue;
 				}
 			}
 			if(p->to.type != D_BRANCH)
 				continue;
 			c = p->to.offset;
 			for(q = cursym->text; q != P;) {
 				if(c == q->pc)
 					break;
 				if(q->forwd != P && c >= q->forwd->pc)
 					q = q->forwd;
 				else
 					q = q->link;
 			}
 			if(q == P) {
 				diag("branch out of range in %s (%#ux)\n%P [%s]",
 					TNAME, c, p, p->to.sym ? p->to.sym->name : "<nil>");
 				p->to.type = D_NONE;
 			}
 			p->pcond = q;
 		}
 	}

 	for(cursym = textp; cursym != nil; cursym = cursym->next) {
 		if(cursym->text == nil || cursym->p != nil)
 			continue;

 		for(p = cursym->text; p != P; p = p->link) {
 			p->mark = 0;	/* initialization for follow */
 			if(p->pcond != P) {
 				p->pcond = brloop(p->pcond);
 				if(p->pcond != P)
 				if(p->to.type == D_BRANCH)
 					p->to.offset = p->pcond->pc;
 			}
 		}
 	}
 }

 Prog*
 brloop(Prog *p)
 {
 	int c;
 	Prog *q;

 	c = 0;
 	for(q = p; q != P; q = q->pcond) {
 		if(q->as != AJMP)
 			break;
 		c++;
 		if(c >= 5000)
 			return P;
 	}
 	return q;
 }

 void
 dostkoff(void)
 {
 	Prog *p, *q, *q1;
 	int32 autoffset, deltasp;
 	int a;
 	Prog *pmorestack;
 	Sym *symmorestack;
 	Sym *plan9_tos;

 	pmorestack = P;
 	symmorestack = lookup("runtime.morestack", 0);

 	if(symmorestack->type != STEXT)
 		diag("runtime.morestack not defined");
 	else {
 		pmorestack = symmorestack->text;
 		symmorestack->text->from.scale |= NOSPLIT;
 	}

 	plan9_tos = S;
 	if(HEADTYPE == Hplan9x32)
 		plan9_tos = lookup("_tos", 0);

 	for(cursym = textp; cursym != nil; cursym = cursym->next) {
 		if(cursym->text == nil || cursym->text->link == nil)
 			continue;

 		p = cursym->text;
 		autoffset = p->to.offset;
 		if(autoffset < 0)
 			autoffset = 0;

 		q = P;
 		if(pmorestack != P)
 		if(!(p->from.scale & NOSPLIT)) {
 			p = appendp(p);	// load g into CX
 			switch(HEADTYPE) {
 			case Hwindows:
 				p->as = AMOVL;
 				p->from.type = D_INDIR+D_FS;
 				p->from.offset = 0x14;
 				p->to.type = D_CX;

 				p = appendp(p);
 				p->as = AMOVL;
 				p->from.type = D_INDIR+D_CX;
 				p->from.offset = 0;
 				p->to.type = D_CX;
 				break;

 			case Hlinux:
 				p->as = AMOVL;
 				p->from.type = D_INDIR+D_GS;
 				p->from.offset = 0;
 				p->to.type = D_CX;

 				p = appendp(p);
 				p->as = AMOVL;
 				p->from.type = D_INDIR+D_CX;
 				p->from.offset = tlsoffset + 0;
 				p->to.type = D_CX;
 				break;

 			case Hplan9x32:
 				p->as = AMOVL;
 				p->from.type = D_EXTERN;
 				p->from.sym = plan9_tos;
 				p->to.type = D_CX;

 				p = appendp(p);
 				p->as = AMOVL;
 				p->from.type = D_INDIR+D_CX;
 				p->from.offset = tlsoffset + 0;
 				p->to.type = D_CX;
 				break;

 			default:
 				p->as = AMOVL;
 				p->from.type = D_INDIR+D_GS;
 				p->from.offset = tlsoffset + 0;
 				p->to.type = D_CX;
 			}

 			if(debug['K']) {
 				// 8l -K means check not only for stack
 				// overflow but stack underflow.
 				// On underflow, INT 3 (breakpoint).
 				// Underflow itself is rare but this also
 				// catches out-of-sync stack guard info.
 				p = appendp(p);
 				p->as = ACMPL;
 				p->from.type = D_INDIR+D_CX;
 				p->from.offset = 4;
 				p->to.type = D_SP;

 				p = appendp(p);
 				p->as = AJCC;
 				p->to.type = D_BRANCH;
 				p->to.offset = 4;
 				q1 = p;

 				p = appendp(p);
 				p->as = AINT;
 				p->from.type = D_CONST;
 				p->from.offset = 3;

 				p = appendp(p);
 				p->as = ANOP;
 				q1->pcond = p;
 			}

 			if(autoffset < StackBig) {  // do we need to call morestack
 				if(autoffset <= StackSmall) {
 					// small stack
 					p = appendp(p);
 					p->as = ACMPL;
 					p->from.type = D_SP;
 					p->to.type = D_INDIR+D_CX;
 				} else {
 					// large stack
 					p = appendp(p);
 					p->as = ALEAL;
 					p->from.type = D_INDIR+D_SP;
 					p->from.offset = -(autoffset-StackSmall);
 					p->to.type = D_AX;

 					p = appendp(p);
 					p->as = ACMPL;
 					p->from.type = D_AX;
 					p->to.type = D_INDIR+D_CX;
 				}

 				// common
 				p = appendp(p);
 				p->as = AJHI;
 				p->to.type = D_BRANCH;
 				p->to.offset = 4;
 				q = p;
 			}

 			p = appendp(p);	// save frame size in DX
 			p->as = AMOVL;
 			p->to.type = D_DX;
 			p->from.type = D_CONST;

 			// If we ask for more stack, we'll get a minimum of StackMin bytes.
 			// We need a stack frame large enough to hold the top-of-stack data,
 			// the function arguments+results, our caller's PC, our frame,
 			// a word for the return PC of the next call, and then the StackLimit bytes
 			// that must be available on entry to any function called from a function
 			// that did a stack check.  If StackMin is enough, don't ask for a specific
 			// amount: then we can use the custom functions and save a few
 			// instructions.
 			if(StackTop + cursym->text->to.offset2 + PtrSize + autoffset + PtrSize + StackLimit >= StackMin)
 				p->from.offset = (autoffset+7) & ~7LL;

 			p = appendp(p);	// save arg size in AX
 			p->as = AMOVL;
 			p->to.type = D_AX;
 			p->from.type = D_CONST;
 			p->from.offset = cursym->text->to.offset2;

 			p = appendp(p);
 			p->as = ACALL;
 			p->to.type = D_BRANCH;
 			p->pcond = pmorestack;
 			p->to.sym = symmorestack;

 		}

 		if(q != P)
 			q->pcond = p->link;

 		if(autoffset) {
 			p = appendp(p);
 			p->as = AADJSP;
 			p->from.type = D_CONST;
 			p->from.offset = autoffset;
 			p->spadj = autoffset;
 			if(q != P)
 				q->pcond = p;
 		}
 		deltasp = autoffset;

 		for(; p != P; p = p->link) {
 			a = p->from.type;
 			if(a == D_AUTO)
 				p->from.offset += deltasp;
 			if(a == D_PARAM)
 				p->from.offset += deltasp + 4;
 			a = p->to.type;
 			if(a == D_AUTO)
 				p->to.offset += deltasp;
 			if(a == D_PARAM)
 				p->to.offset += deltasp + 4;

 			switch(p->as) {
 			default:
 				continue;
 			case APUSHL:
 			case APUSHFL:
 				deltasp += 4;
 				p->spadj = 4;
 				continue;
 			case APUSHW:
 			case APUSHFW:
 				deltasp += 2;
 				p->spadj = 2;
 				continue;
 			case APOPL:
 			case APOPFL:
 				deltasp -= 4;
 				p->spadj = -4;
 				continue;
 			case APOPW:
 			case APOPFW:
 				deltasp -= 2;
 				p->spadj = -2;
 				continue;
 			case ARET:
 				break;
 			}

 			if(autoffset != deltasp)
 				diag("unbalanced PUSH/POP");

 			if(autoffset) {
 				p->as = AADJSP;
 				p->from.type = D_CONST;
 				p->from.offset = -autoffset;
 				p->spadj = -autoffset;
 				p = appendp(p);
 				p->as = ARET;
 				// If there are instructions following
 				// this ARET, they come from a branch
 				// with the same stackframe, so undo
 				// the cleanup.
 				p->spadj = +autoffset;
 			}
 		}
 	}
 }

 int32
 atolwhex(char *s)
 {
 	int32 n;
 	int f;

 	n = 0;
 	f = 0;
 	while(*s == ' ' || *s == '\t')
 		s++;
 	if(*s == '-' || *s == '+') {
 		if(*s++ == '-')
 			f = 1;
 		while(*s == ' ' || *s == '\t')
 			s++;
 	}
 	if(s[0]=='0' && s[1]){
 		if(s[1]=='x' || s[1]=='X'){
 			s += 2;
 			for(;;){
 				if(*s >= '0' && *s <= '9')
 					n = n*16 + *s++ - '0';
 				else if(*s >= 'a' && *s <= 'f')
 					n = n*16 + *s++ - 'a' + 10;
 				else if(*s >= 'A' && *s <= 'F')
 					n = n*16 + *s++ - 'A' + 10;
 				else
 					break;
 			}
 		} else
 			while(*s >= '0' && *s <= '7')
 				n = n*8 + *s++ - '0';
 	} else
 		while(*s >= '0' && *s <= '9')
 			n = n*10 + *s++ - '0';
 	if(f)
 		n = -n;
 	return n;
 }
	// Inferno utils/8l/pass.c
	// http://code.google.com/p/inferno-os/source/browse/utils/8l/pass.c
	//
	// Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved.
	// Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net)
	// Portions Copyright © 1997-1999 Vita Nuova Limited
	// Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com)
	// Portions Copyright © 2004,2006 Bruce Ellis
	// Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net)
	// Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
	// Portions Copyright © 2009 The Go Authors. All rights reserved.
	//
	// Permission is hereby granted, free of charge, to any person obtaining a copy
	// of this software and associated documentation files (the "Software"), to deal
	// in the Software without restriction, including without limitation the rights
	// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	// copies of the Software, and to permit persons to whom the Software is
	// furnished to do so, subject to the following conditions:
	//
	// The above copyright notice and this permission notice shall be included in
	// all copies or substantial portions of the Software.
	//
	// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
	// THE SOFTWARE.

	// Code and data passes.

	#include "l.h"
	#include "../ld/lib.h"
	#include "../../pkg/runtime/stack.h"

	static void xfol(Prog, Prog*);

	Prog*
	brchain(Prog *p)
	{
	int i;

	for(i=0; i<20; i++) {
	if(p == P \|\| p->as != AJMP)
	return p;
	p = p->pcond;
	}
	return P;
	}

	void
	follow(void)
	{
	Prog firstp, lastp;

	if(debug['v'])
	Bprint(&bso, "%5.2f follow\n", cputime());
	Bflush(&bso);

	for(cursym = textp; cursym != nil; cursym = cursym->next) {
	firstp = prg();
	lastp = firstp;
	xfol(cursym->text, &lastp);
	lastp->link = nil;
	cursym->text = firstp->link;
	}
	}

	static int
	nofollow(int a)
	{
	switch(a) {
	case AJMP:
	case ARET:
	case AIRETL:
	case AIRETW:
	return 1;
	}
	return 0;
	}

	static int
	pushpop(int a)
	{
	switch(a) {
	case APUSHL:
	case APUSHFL:
	case APUSHW:
	case APUSHFW:
	case APOPL:
	case APOPFL:
	case APOPW:
	case APOPFW:
	return 1;
	}
	return 0;
	}

	static void
	xfol(Prog p, Prog *last)
	{
	Prog *q;
	int i;
	enum as a;

	loop:
	if(p == P)
	return;
	if(p->as == AJMP)
	if((q = p->pcond) != P && q->as != ATEXT) {
	/* mark instruction as done and continue layout at target of jump */
	p->mark = 1;
	p = q;
	if(p->mark == 0)
	goto loop;
	}
	if(p->mark) {
	/*
	* p goes here, but already used it elsewhere.
	* copy up to 4 instructions or else branch to other copy.
	*/
	for(i=0,q=p; i<4; i++,q=q->link) {
	if(q == P)
	break;
	if(q == *last)
	break;
	a = q->as;
	if(a == ANOP) {
	i--;
	continue;
	}
	if(nofollow(a) \|\| pushpop(a))
	break; // NOTE(rsc): arm does goto copy
	if(q->pcond == P \|\| q->pcond->mark)
	continue;
	if(a == ACALL \|\| a == ALOOP)
	continue;
	for(;;) {
	if(p->as == ANOP) {
	p = p->link;
	continue;
	}
	q = copyp(p);
	p = p->link;
	q->mark = 1;
	(*last)->link = q;
	*last = q;
	if(q->as != a \|\| q->pcond == P \|\| q->pcond->mark)
	continue;

	q->as = relinv(q->as);
	p = q->pcond;
	q->pcond = q->link;
	q->link = p;
	xfol(q->link, last);
	p = q->link;
	if(p->mark)
	return;
	goto loop;
	}
	} /* */
	q = prg();
	q->as = AJMP;
	q->line = p->line;
	q->to.type = D_BRANCH;
	q->to.offset = p->pc;
	q->pcond = p;
	p = q;
	}

	/* emit p */
	p->mark = 1;
	(*last)->link = p;
	*last = p;
	a = p->as;

	/* continue loop with what comes after p */
	if(nofollow(a))
	return;
	if(p->pcond != P && a != ACALL) {
	/*
	* some kind of conditional branch.
	* recurse to follow one path.
	* continue loop on the other.
	*/
	q = brchain(p->link);
	if(q != P && q->mark)
	if(a != ALOOP) {
	p->as = relinv(a);
	p->link = p->pcond;
	p->pcond = q;
	}
	xfol(p->link, last);
	q = brchain(p->pcond);
	if(q->mark) {
	p->pcond = q;
	return;
	}
	p = q;
	goto loop;
	}
	p = p->link;
	goto loop;
	}

	int
	relinv(int a)
	{

	switch(a) {
	case AJEQ: return AJNE;
	case AJNE: return AJEQ;
	case AJLE: return AJGT;
	case AJLS: return AJHI;
	case AJLT: return AJGE;
	case AJMI: return AJPL;
	case AJGE: return AJLT;
	case AJPL: return AJMI;
	case AJGT: return AJLE;
	case AJHI: return AJLS;
	case AJCS: return AJCC;
	case AJCC: return AJCS;
	case AJPS: return AJPC;
	case AJPC: return AJPS;
	case AJOS: return AJOC;
	case AJOC: return AJOS;
	}
	diag("unknown relation: %s in %s", anames[a], TNAME);
	return a;
	}

	void
	patch(void)
	{
	int32 c;
	Prog p, q;
	Sym *s;
	int32 vexit;
	Sym *plan9_tos;

	if(debug['v'])
	Bprint(&bso, "%5.2f mkfwd\n", cputime());
	Bflush(&bso);
	mkfwd();
	if(debug['v'])
	Bprint(&bso, "%5.2f patch\n", cputime());
	Bflush(&bso);
	s = lookup("exit", 0);
	vexit = s->value;

	plan9_tos = S;
	if(HEADTYPE == Hplan9x32)
	plan9_tos = lookup("_tos", 0);

	for(cursym = textp; cursym != nil; cursym = cursym->next) {
	for(p = cursym->text; p != P; p = p->link) {
	if(HEADTYPE == Hwindows) {
	// Convert
	// op n(GS), reg
	// to
	// MOVL 0x14(FS), reg
	// op n(reg), reg
	// The purpose of this patch is to fix some accesses
	// to extern register variables (TLS) on Windows, as
	// a different method is used to access them.
	if(p->from.type == D_INDIR+D_GS
	&& p->to.type >= D_AX && p->to.type <= D_DI) {
	q = appendp(p);
	q->from = p->from;
	q->from.type = D_INDIR + p->to.type;
	q->to = p->to;
	q->as = p->as;
	p->as = AMOVL;
	p->from.type = D_INDIR+D_FS;
	p->from.offset = 0x14;
	}
	}
	if(HEADTYPE == Hlinux) {
	// Running binaries under Xen requires using
	// MOVL 0(GS), reg
	// and then off(reg) instead of saying off(GS) directly
	// when the offset is negative.
	if(p->from.type == D_INDIR+D_GS && p->from.offset < 0
	&& p->to.type >= D_AX && p->to.type <= D_DI) {
	q = appendp(p);
	q->from = p->from;
	q->from.type = D_INDIR + p->to.type;
	q->to = p->to;
	q->as = p->as;
	p->as = AMOVL;
	p->from.type = D_INDIR+D_GS;
	p->from.offset = 0;
	}
	}
	if(HEADTYPE == Hplan9x32) {
	if(p->from.type == D_INDIR+D_GS
	&& p->to.type >= D_AX && p->to.type <= D_DI) {
	q = appendp(p);
	q->from = p->from;
	q->from.type = D_INDIR + p->to.type;
	q->to = p->to;
	q->as = p->as;
	p->as = AMOVL;
	p->from.type = D_EXTERN;
	p->from.sym = plan9_tos;
	p->from.offset = 0;
	}
	}
	if((p->as == ACALL && p->to.type != D_BRANCH) \|\| (p->as == AJMP && p->to.type != D_BRANCH)) {
	s = p->to.sym;
	if(p->to.type == D_INDIR+D_ADDR) {
	/* skip check if this is an indirect call (CALL symbol(SB)) /
	continue;
	} else if(s) {
	if(debug['c'])
	Bprint(&bso, "%s calls %s\n", TNAME, s->name);
	if((s->type&~SSUB) != STEXT) {
	/* diag prints TNAME first */
	diag("undefined: %s", s->name);
	s->type = STEXT;
	s->value = vexit;
	continue; // avoid more error messages
	}
	if(s->text == nil)
	continue;
	p->to.type = D_BRANCH;
	p->to.offset = s->text->pc;
	p->pcond = s->text;
	continue;
	}
	}
	if(p->to.type != D_BRANCH)
	continue;
	c = p->to.offset;
	for(q = cursym->text; q != P;) {
	if(c == q->pc)
	break;
	if(q->forwd != P && c >= q->forwd->pc)
	q = q->forwd;
	else
	q = q->link;
	}
	if(q == P) {
	diag("branch out of range in %s (%#ux)\n%P [%s]",
	TNAME, c, p, p->to.sym ? p->to.sym->name : "<nil>");
	p->to.type = D_NONE;
	}
	p->pcond = q;
	}
	}

	for(cursym = textp; cursym != nil; cursym = cursym->next) {
	if(cursym->text == nil \|\| cursym->p != nil)
	continue;

	for(p = cursym->text; p != P; p = p->link) {
	p->mark = 0; /* initialization for follow */
	if(p->pcond != P) {
	p->pcond = brloop(p->pcond);
	if(p->pcond != P)
	if(p->to.type == D_BRANCH)
	p->to.offset = p->pcond->pc;
	}
	}
	}
	}

	Prog*
	brloop(Prog *p)
	{
	int c;
	Prog *q;

	c = 0;
	for(q = p; q != P; q = q->pcond) {
	if(q->as != AJMP)
	break;
	c++;
	if(c >= 5000)
	return P;
	}
	return q;
	}

	void
	dostkoff(void)
	{
	Prog p, q, *q1;
	int32 autoffset, deltasp;
	int a;
	Prog *pmorestack;
	Sym *symmorestack;
	Sym *plan9_tos;

	pmorestack = P;
	symmorestack = lookup("runtime.morestack", 0);

	if(symmorestack->type != STEXT)
	diag("runtime.morestack not defined");
	else {
	pmorestack = symmorestack->text;
	symmorestack->text->from.scale \|= NOSPLIT;
	}

	plan9_tos = S;
	if(HEADTYPE == Hplan9x32)
	plan9_tos = lookup("_tos", 0);

	for(cursym = textp; cursym != nil; cursym = cursym->next) {
	if(cursym->text == nil \|\| cursym->text->link == nil)
	continue;

	p = cursym->text;
	autoffset = p->to.offset;
	if(autoffset < 0)
	autoffset = 0;

	q = P;
	if(pmorestack != P)
	if(!(p->from.scale & NOSPLIT)) {
	p = appendp(p); // load g into CX
	switch(HEADTYPE) {
	case Hwindows:
	p->as = AMOVL;
	p->from.type = D_INDIR+D_FS;
	p->from.offset = 0x14;
	p->to.type = D_CX;

	p = appendp(p);
	p->as = AMOVL;
	p->from.type = D_INDIR+D_CX;
	p->from.offset = 0;
	p->to.type = D_CX;
	break;

	case Hlinux:
	p->as = AMOVL;
	p->from.type = D_INDIR+D_GS;
	p->from.offset = 0;
	p->to.type = D_CX;

	p = appendp(p);
	p->as = AMOVL;
	p->from.type = D_INDIR+D_CX;
	p->from.offset = tlsoffset + 0;
	p->to.type = D_CX;
	break;

	case Hplan9x32:
	p->as = AMOVL;
	p->from.type = D_EXTERN;
	p->from.sym = plan9_tos;
	p->to.type = D_CX;

	p = appendp(p);
	p->as = AMOVL;
	p->from.type = D_INDIR+D_CX;
	p->from.offset = tlsoffset + 0;
	p->to.type = D_CX;
	break;

	default:
	p->as = AMOVL;
	p->from.type = D_INDIR+D_GS;
	p->from.offset = tlsoffset + 0;
	p->to.type = D_CX;
	}

	if(debug['K']) {
	// 8l -K means check not only for stack
	// overflow but stack underflow.
	// On underflow, INT 3 (breakpoint).
	// Underflow itself is rare but this also
	// catches out-of-sync stack guard info.
	p = appendp(p);
	p->as = ACMPL;
	p->from.type = D_INDIR+D_CX;
	p->from.offset = 4;
	p->to.type = D_SP;

	p = appendp(p);
	p->as = AJCC;
	p->to.type = D_BRANCH;
	p->to.offset = 4;
	q1 = p;

	p = appendp(p);
	p->as = AINT;
	p->from.type = D_CONST;
	p->from.offset = 3;

	p = appendp(p);
	p->as = ANOP;
	q1->pcond = p;
	}

	if(autoffset < StackBig) { // do we need to call morestack
	if(autoffset <= StackSmall) {
	// small stack
	p = appendp(p);
	p->as = ACMPL;
	p->from.type = D_SP;
	p->to.type = D_INDIR+D_CX;
	} else {
	// large stack
	p = appendp(p);
	p->as = ALEAL;
	p->from.type = D_INDIR+D_SP;
	p->from.offset = -(autoffset-StackSmall);
	p->to.type = D_AX;

	p = appendp(p);
	p->as = ACMPL;
	p->from.type = D_AX;
	p->to.type = D_INDIR+D_CX;
	}

	// common
	p = appendp(p);
	p->as = AJHI;
	p->to.type = D_BRANCH;
	p->to.offset = 4;
	q = p;
	}

	p = appendp(p); // save frame size in DX
	p->as = AMOVL;
	p->to.type = D_DX;
	p->from.type = D_CONST;

	// If we ask for more stack, we'll get a minimum of StackMin bytes.
	// We need a stack frame large enough to hold the top-of-stack data,
	// the function arguments+results, our caller's PC, our frame,
	// a word for the return PC of the next call, and then the StackLimit bytes
	// that must be available on entry to any function called from a function
	// that did a stack check. If StackMin is enough, don't ask for a specific
	// amount: then we can use the custom functions and save a few
	// instructions.
	if(StackTop + cursym->text->to.offset2 + PtrSize + autoffset + PtrSize + StackLimit >= StackMin)
	p->from.offset = (autoffset+7) & ~7LL;

	p = appendp(p); // save arg size in AX
	p->as = AMOVL;
	p->to.type = D_AX;
	p->from.type = D_CONST;
	p->from.offset = cursym->text->to.offset2;

	p = appendp(p);
	p->as = ACALL;
	p->to.type = D_BRANCH;
	p->pcond = pmorestack;
	p->to.sym = symmorestack;

	}

	if(q != P)
	q->pcond = p->link;

	if(autoffset) {
	p = appendp(p);
	p->as = AADJSP;
	p->from.type = D_CONST;
	p->from.offset = autoffset;
	p->spadj = autoffset;
	if(q != P)
	q->pcond = p;
	}
	deltasp = autoffset;

	for(; p != P; p = p->link) {
	a = p->from.type;
	if(a == D_AUTO)
	p->from.offset += deltasp;
	if(a == D_PARAM)
	p->from.offset += deltasp + 4;
	a = p->to.type;
	if(a == D_AUTO)
	p->to.offset += deltasp;
	if(a == D_PARAM)
	p->to.offset += deltasp + 4;

	switch(p->as) {
	default:
	continue;
	case APUSHL:
	case APUSHFL:
	deltasp += 4;
	p->spadj = 4;
	continue;
	case APUSHW:
	case APUSHFW:
	deltasp += 2;
	p->spadj = 2;
	continue;
	case APOPL:
	case APOPFL:
	deltasp -= 4;
	p->spadj = -4;
	continue;
	case APOPW:
	case APOPFW:
	deltasp -= 2;
	p->spadj = -2;
	continue;
	case ARET:
	break;
	}

	if(autoffset != deltasp)
	diag("unbalanced PUSH/POP");

	if(autoffset) {
	p->as = AADJSP;
	p->from.type = D_CONST;
	p->from.offset = -autoffset;
	p->spadj = -autoffset;
	p = appendp(p);
	p->as = ARET;
	// If there are instructions following
	// this ARET, they come from a branch
	// with the same stackframe, so undo
	// the cleanup.
	p->spadj = +autoffset;
	}
	}
	}
	}

	int32
	atolwhex(char *s)
	{
	int32 n;
	int f;

	n = 0;
	f = 0;
	while(s == ' ' \|\| s == '\t')
	s++;
	if(s == '-' \|\| s == '+') {
	if(*s++ == '-')
	f = 1;
	while(s == ' ' \|\| s == '\t')
	s++;
	}
	if(s[0]=='0' && s[1]){
	if(s[1]=='x' \|\| s[1]=='X'){
	s += 2;
	for(;;){
	if(s >= '0' && s <= '9')
	n = n16 + s++ - '0';
	else if(s >= 'a' && s <= 'f')
	n = n16 + s++ - 'a' + 10;
	else if(s >= 'A' && s <= 'F')
	n = n16 + s++ - 'A' + 10;
	else
	break;
	}
	} else
	while(s >= '0' && s <= '7')
	n = n8 + s++ - '0';
	} else
	while(s >= '0' && s <= '9')
	n = n10 + s++ - '0';
	if(f)
	n = -n;
	return n;
	}