ack/util/int/stack.c

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/*
Stack manipulation
*/
/* $Header$ */
#include <stdio.h>
#include <em_abs.h>
#include "logging.h"
#include "nofloat.h"
#include "global.h"
#include "log.h"
#include "warn.h"
#include "trap.h"
#include "alloc.h"
#include "memdirect.h"
#include "mem.h"
#include "shadow.h"
#include "rsb.h"
#define STACKSIZE 1000L /* initial stack size */
extern size maxstack; /* from main.c */
#ifdef LOGGING
char *stack_sh; /* stadowbytes */
char *stackML_sh; /* speed up access of stadowbytes */
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#endif LOGGING
PRIVATE warn_stbits();
init_stack() {
ML = max_addr; /* set Memory Limit */
SP = ML + 1; /* initialize Stack Pointer */
SL = ML + 1; /* initialize Stack Limit */
LB = ML + 1; /* initialize Local Base */
AB = ML + 1; /* initialize Actual Base */
SL = ML + 1 - STACKSIZE; /* initialize Stack Limit */
stack = Malloc(STACKSIZE, "stack space");
stackML = stack + ML;
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#ifdef LOGGING
stack_sh = Malloc(STACKSIZE, "shadowspace for stack");
stackML_sh = stack_sh + ML;
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st_clear_area(ML, SL);
#endif LOGGING
}
/************************************************************************
* EM-register division. *
************************************************************************
* *
* newSP(p) - check and adjust StackPointer. *
* newLB(p) - check and adjust Local Base and Actual Base *
* *
************************************************************************/
newSP(ap)
ptr ap;
{
register ptr p = ap;
LOG(("@s6 newSP(%lu), ML = %lu, SP = %lu", p, ML, SP));
if (LB < p) {
wtrap(WSPGTLB, ESTACK);
}
if (!is_wordaligned(p)) {
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wtrap(WSPODD, ESTACK);
}
if (p < SP) {
if (p < HP) {
wtrap(WSPINHEAP, ESTACK);
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}
if (maxstack) {
/* more than allowed on command line */
if (ML - p > maxstack) {
warning(WESTACK);
trap(ESTACK);
}
}
if (p < SL) {
/* extend stack space */
register size stacksize = ML + 1 - p;
stacksize = allocfrac(stacksize);
SL = ML + 1 - stacksize;
stack = Realloc(stack, (size)(stacksize), "stack space");
stackML = stack + ML;
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#ifdef LOGGING
stack_sh = Realloc(stack_sh, (size)(stacksize),
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"shadowspace for stack");
stackML_sh = stack_sh + ML;
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#endif LOGGING
}
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#ifdef LOGGING
st_clear_area(SP - 1, p);
#endif LOGGING
}
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SP = p;
}
newLB(p)
ptr p;
{
if (!in_stack(p)) {
wtrap(WLBOUT, ESTACK);
}
if (!is_wordaligned(p)) {
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wtrap(WLBODD, ESTACK);
}
if (!is_LB(p)) {
wtrap(WLBRSB, ESTACK);
}
LB = p;
AB = LB + rsbsize;
}
/************************************************************************
* Stack store division. *
************************************************************************
* *
* st_stdp(addr, p) - STore Data Pointer. *
* st_stip(addr, p) - STore Instruction Pointer. *
* st_stn(addr, l, n) - STore N byte integer. *
* st_stf(addr, f, n) - STore Floating point number. *
* *
************************************************************************/
st_stdp(addr, ap)
register ptr addr;
ptr ap;
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{
register int i;
register long p = (long) ap;
LOG(("@s6 st_stdp(%lu, %lu)", addr, p));
ch_in_stack(addr, psize);
ch_wordaligned(addr);
for (i = (int) psize; i > 0; i--, addr++) {
ch_st_prot(addr);
stack_loc(addr) = (char) (p);
st_dp(addr);
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p = p>>8;
}
}
st_stip(addr, ap)
register ptr addr;
ptr ap;
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{
register int i;
register long p = (long) ap;
LOG(("@s6 st_stip(%lu, %lu)", addr, p));
ch_in_stack(addr, psize);
ch_wordaligned(addr);
for (i = (int) psize; i > 0; i--, addr++) {
ch_st_prot(addr);
stack_loc(addr) = (char) (p);
st_ip(addr);
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p = p>>8;
}
}
st_stn(addr, al, n)
register ptr addr;
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long al;
size n;
{
register int i;
register long l = al;
#ifdef LOGGING
/* a psize zero is ambiguous */
int sh_flags = (l == 0 && n == psize) ? (SH_INT|SH_DATAP) : SH_INT;
#endif
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LOG(("@s6 st_stn(%lu, %ld, %lu)", addr, l, n));
ch_in_stack(addr, n);
ch_aligned(addr, n);
/* store the bytes */
for (i = (int) n; i > 0; i--, addr++) {
ch_st_prot(addr);
stack_loc(addr) = (char) l;
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#ifdef LOGGING
st_sh(addr) = sh_flags;
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#endif LOGGING
l = l>>8;
}
}
#ifndef NOFLOAT
st_stf(addr, f, n)
register ptr addr;
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double f;
size n;
{
register char *cp = (char *) &f;
float fl;
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register int i;
LOG(("@s6 st_stf(%lu, %g, %lu)", addr, f, n));
ch_in_stack(addr, n);
ch_wordaligned(addr);
if ((int) n == 4) {
fl = f;
cp = (char *) &fl;
}
for (i = (int) n; i > 0; i--, addr++) {
ch_st_prot(addr);
stack_loc(addr) = *(cp++);
st_fl(addr);
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}
}
#endif NOFLOAT
/************************************************************************
* Stack load division. *
************************************************************************
* *
* st_lddp(addr) - LoaD Data Pointer from stack. *
* st_ldip(addr) - LoaD Instruction Pointer from stack. *
* st_ldu(addr, n) - LoaD n Unsigned bytes from stack. *
* st_lds(addr, n) - LoaD n Signed bytes from stack. *
* st_ldf(addr, n) - LoaD Floating point number from stack. *
* *
************************************************************************/
ptr st_lddp(addr)
register ptr addr;
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{
register ptr p;
LOG(("@s6 st_lddp(%lu)", addr));
ch_in_stack(addr, psize);
ch_wordaligned(addr);
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#ifdef LOGGING
if (!is_st_set(addr, psize, SH_DATAP)) {
warning(WLDPEXP);
warn_stbits(addr, psize);
}
#endif LOGGING
p = p_in_stack(addr);
LOG(("@s6 st_lddp() returns %lu", p));
return (p);
}
ptr st_ldip(addr)
register ptr addr;
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{
register ptr p;
LOG(("@s6 st_ldip(%lu)", addr));
ch_in_stack(addr, psize);
ch_wordaligned(addr);
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#ifdef LOGGING
if (!is_st_set(addr, psize, SH_INSP)) {
warning(WLIPEXP);
warn_stbits(addr, psize);
}
#endif LOGGING
p = p_in_stack(addr);
LOG(("@s6 st_ldip() returns %lu", p));
return (p);
}
unsigned long st_ldu(addr, n)
register ptr addr;
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size n;
{
register int i;
register unsigned long u = 0;
LOG(("@s6 st_ldu(%lu, %lu)", addr, n));
ch_in_stack(addr, n);
ch_aligned(addr, n);
#ifdef LOGGING
if (!is_st_set(addr, n, SH_INT)) {
warning(n == 1 ? WLCEXP : WLIEXP);
warn_stbits(addr, n);
}
#endif LOGGING
for (i = (int) n-1; i >= 0; i--) {
u = (u<<8) | (btou(stack_loc(addr + i)));
}
LOG(("@s6 st_ldu() returns %ld", u));
return (u);
}
long st_lds(addr, n)
register ptr addr;
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size n;
{
register int i;
register long l;
LOG(("@s6 st_lds(%lu, %lu)", addr, n));
ch_in_stack(addr, n);
ch_aligned(addr, n);
#ifdef LOGGING
if (!is_st_set(addr, n, SH_INT)) {
warning(n == 1 ? WLCEXP : WLIEXP);
warn_stbits(addr, n);
}
#endif LOGGING
l = btos(stack_loc(addr + n - 1));
for (i = n - 2; i >= 0; i--) {
l = (l<<8) | btol(stack_loc(addr + i));
}
LOG(("@s6 st_lds() returns %ld", l));
return (l);
}
#ifndef NOFLOAT
double st_ldf(addr, n)
register ptr addr;
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size n;
{
double f;
float fl;
register char *cp;
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register int i;
LOG(("@s6 st_ldf(%lu, %lu)", addr, n));
if ((int)n == 4) {
cp = (char *) &fl;
}
else {
cp = (char *) &f;
}
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ch_in_stack(addr, n);
ch_wordaligned(addr);
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#ifdef LOGGING
if (!is_st_set(addr, n, SH_FLOAT)) {
warning(WLFEXP);
warn_stbits(addr, n);
}
#endif LOGGING
for (i = (int) n; i > 0; i--, addr++) {
*(cp++) = stack_loc(addr);
}
if ((int)n == 4) {
f = fl;
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}
return (f);
}
#endif NOFLOAT
/************************************************************************
* Stack move division *
************************************************************************
* *
* st_mvs(s2, s1, n) - Move n bytes in stack from s1 to s2. *
* st_mvd(s, d, n) - Move n bytes from d in data to s in stack. *
* *
* st_mvs(): The intention is to copy the contents of addresses *
* s1, s1+1....s1-(n-1) to addresses s2, s2+1....s2+(n-1). *
* All addresses are expected to be in the stack. This condition *
* is checked for. The shadow bytes of the bytes to be filled in, *
* are marked identical to the source-shadow bytes. *
* *
* st_mvd(), dt_mvd() and dt_mvs() act identically (see data.c). *
* *
************************************************************************/
st_mvs(s2, s1, n) /* s1 -> s2 */
register ptr s2, s1;
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size n;
{
register int i;
ch_in_stack(s1, n);
ch_wordaligned(s1);
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ch_in_stack(s2, n);
ch_wordaligned(s2);
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for (i = (int) n; i > 0; i--, s1++, s2++) {
ch_st_prot(s2);
ch_st_prot(s1);
stack_loc(s2) = stack_loc(s1);
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#ifdef LOGGING
st_sh(s2) = st_sh(s1) & ~SH_PROT;
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#endif LOGGING
}
}
st_mvd(s, d, n) /* d -> s */
register ptr s, d;
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size n;
{
register int i;
ch_in_data(d, n);
ch_wordaligned(d);
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ch_in_stack(s, n);
ch_wordaligned(s);
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for (i = (int) n; i > 0; i--, s++, d++) {
ch_st_prot(s);
stack_loc(s) = data_loc(d);
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#ifdef LOGGING
st_sh(s) = dt_sh(d) & ~SH_PROT;
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#endif LOGGING
}
}
/************************************************************************
* Stack pop division. *
************************************************************************
* *
* dppop() - pop a data ptr, return a ptr. *
* upop(n) - pop n unsigned bytes, return a long. *
* spop(n) - pop n signed bytes, return a long. *
* pop_dt(d, n) - pop n bytes, store at address d in data. *
* pop_st(s, n) - pop n bytes, store at address s in stack. *
* fpop() - pop a floating point number. *
* wpop() - pop a signed word, don't care about any type. *
* *
************************************************************************/
ptr dppop()
{
register ptr p;
p = st_lddp(SP);
st_dec(psize);
LOG(("@s7 dppop(), return: %lu", p));
return (p);
}
unsigned long upop(n)
size n;
{
register unsigned long l;
l = st_ldu(SP, n);
st_dec(max(n, wsize));
LOG(("@s7 upop(), return: %lu", l));
return (l);
}
long spop(n)
size n;
{
register long l;
l = st_lds(SP, n);
st_dec(max(n, wsize));
LOG(("@s7 spop(), return: %ld", l));
return (l);
}
pop_dt(d, n)
ptr d;
size n;
{
if (n < wsize)
dt_stn(d, (long) upop(n), n);
else {
dt_mvs(d, SP, n);
st_dec(n);
}
}
pop_st(s, n)
ptr s;
size n;
{
if (n < wsize)
st_stn(s, (long) upop(n), n);
else {
st_mvs(s, SP, n);
st_dec(n);
}
}
#ifndef NOFLOAT
double fpop(n)
size n;
{
double d;
d = st_ldf(SP, n);
st_dec(n);
return (d);
}
#endif NOFLOAT
long wpop()
{
register long l;
l = w_in_stack(SP);
st_dec(wsize);
return (l);
}
/************************************************************************
* Stack push division. *
************************************************************************
* *
* dppush(p) - push a data ptr, load from p. *
* wpush(l) - push a word, load from l. *
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* npush(l, n) - push n bytes, load from l. *
* push_dt(d, n) - push n bytes, load from address d in data. *
* push_st(s, n) - push n bytes, load from address s in stack. *
* fpush(f, n) - push a floating point number, of size n. *
* *
************************************************************************/
dppush(p)
ptr p;
{
st_inc(psize);
st_stdp(SP, p);
}
wpush(l)
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long l;
{
st_inc(wsize);
st_stn(SP, l, wsize);
}
npush(l, n)
register long l;
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size n;
{
size m = max(n, wsize);
st_inc(m);
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if (n == 1)
l &= MASK1;
else
if (n == 2)
l &= MASK2;
st_stn(SP, l, m);
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}
push_dt(d, n)
ptr d;
size n;
{
if (n < wsize) {
npush((long) dt_ldu(d, n), n);
}
else {
st_inc(n);
st_mvd(SP, d, n);
}
}
push_st(s, n)
ptr s;
size n;
{
if (n < wsize) {
npush((long) st_ldu(s, n), n);
}
else {
st_inc(n);
st_mvs(SP, s, n);
}
}
#ifndef NOFLOAT
fpush(f, n)
double f;
size n;
{
st_inc(n);
st_stf(SP, f, n);
}
#endif NOFLOAT
#ifdef LOGGING
PRIVATE warn_stbits(addr, n)
register ptr addr;
register size n;
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{
register int or_bits = 0;
register int and_bits = 0xff;
while (n--) {
or_bits |= st_sh(addr);
and_bits &= st_sh(addr);
addr++;
}
if (or_bits != and_bits) {
/* no use trying to diagnose */
warningcont(WWASMISC);
return;
}
if (or_bits == 0)
warningcont(WWASUND);
if (or_bits & SH_INT)
warningcont(WWASINT);
if (or_bits & SH_FLOAT)
warningcont(WWASFLOAT);
if (or_bits & SH_DATAP)
warningcont(WWASDATAP);
if (or_bits & SH_INSP)
warningcont(WWASINSP);
}
#endif LOGGING