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|
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "config.h"
#include "alu.h"
#include "simulator.h"
#include "interne.h"
#include "registre.h"
#include "memoire.h"
#include "fpu.h"
#include "exceptions.h"
#include "linker.h"
#include "terminal.h"
int HasToRun = 1, HasToReset = 0, debug = 0, trace = 0;
Uint32 base_addr = 0;
Uint32 LireInstruction(void)
{
return (LD(LireRegistrePC()));
}
void IncrementeCompteurOrdinal(void)
{
Uint32 of = LireRegistreFLAG();
EcrireRegistrePC(AdditionNonSigne(LireRegistrePC(), 1));
EcrireRegistreFLAG(of);
}
static FILE *openfilereading(char *name)
{
FILE *f;
if (!(f = fopen(name, "rb"))) {
pushcontext(strerror(errno));
exception(1, _("Error reading file"));
}
return f;
}
static Uint32 readword(FILE * f)
{
Uint32 a;
if (fread(&a, sizeof(a), 1, f) != 1) {
exception(1, _("premature end of file"));
}
return a;
}
Uint32 Adresse(Uint32 u, Uint32 instruction)
{
Uint32 tmp;
switch (champ(u, 4)) {
case 0:
exception(1, _("Adresse: Call With Invalid r/m Field State ( r/m=00 )"));
return (0);
case 1:
tmp = LireInstruction();
IncrementeCompteurOrdinal();
return (tmp);
case 2:
return (LireRegistre(Champ3(instruction))); /* Adresse dans registre */
case 3:
tmp = LireRegistre(Champ3(instruction)) + LireInstruction(); /* Adresse dans registre + decalage de nouvelle instruction */
IncrementeCompteurOrdinal();
return (tmp);
default:
exception(1, _("Adresse: Unmatched Addr Field"));
return (0);
}
}
void Initialisation(void)
{
int i;
InitMemoire();
for (i = 0; i < TAILLE_MEMOIRE; i++)
Reset(&memoire_principale[i]);
EcrireRegistre(0, 0);
EcrireRegistreSP(ADD_SP); /* initialisation du stack pointer */
}
void Flush(void)
{
FlushMemoire();
}
void DecodeExec(Uint32 instruction)
{
Uint32 champ_registre_resultat, val1, val2, resultat;
int test1, test2, i;
Uint32 val, of; /* valeur qui va etre stockée */
if (Opcode(instruction) & 0x80) {
fpu(Opcode(instruction));
} else {
switch (Opcode(instruction)) {
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
/* ALU */
champ_registre_resultat = Champ1(instruction); /* Champ du registre dans lequel va etre stocké le résultat */
val1 = LireRegistre(Champ2(instruction)); /* Premier entier qui va etre utilisé dans l'opération */
if (Opcode(instruction) < 8) {
if (ValeurBit(Extension(instruction), 0) == 0)
val2 = LireRegistre(Champ3(instruction)); /* Deuxième entier, stocké dans un registre, qui va etre utilisé dans l'opération */
else {
val2 = LireInstruction(); /* Deuxième entier, stocké après l'instruction, qui va etre utilisé dans l'opération */
IncrementeCompteurOrdinal();
}
}
if (ValeurBit(Extension(instruction), 1) == 0) { /* Teste si l'opération est signée ou pas */
switch (Opcode(instruction)) {
case 0:
resultat = AdditionNonSigne(val1, val2);
break;
case 1:
resultat = SoustractionNonSigne(val1, val2);
break;
case 2:
resultat = MultiplicationNonSigne(val1, val2);
break;
case 3:
resultat = DivisionNonSigne(val1, val2);
break;
case 4:
resultat = AND(val1, val2);
break;
case 5:
resultat = OR(val1, val2);
break;
case 6:
for (resultat = val1; val2; val2--) {
fprintf(stderr, "Doing shl... (%i)\n", val2);
resultat = SHL(resultat);
}
break;
case 7:
for (resultat = val1; val2; val2--) {
fprintf(stderr, "Doing shr...\n");
resultat = SHR(resultat);
}
break;
}
} else {
switch (Opcode(instruction)) {
case 0:
resultat = AdditionSigne(val1, val2);
break;
case 1:
resultat = SoustractionSigne(val1, val2);
break;
case 2:
resultat = MultiplicationSigne(val1, val2);
break;
case 3:
resultat = DivisionSigne(val1, val2);
break;
case 4:
resultat = AND(val1, val2);
break;
case 5:
resultat = OR(val1, val2);
break;
case 6:
for (resultat = val1; val2; val2--) {
resultat = SHL(resultat);
}
break;
case 7:
for (resultat = val1; val2; val2--) {
resultat = SHR(resultat);
}
break;
}
}
switch (Opcode(instruction)) {
case 2:
case 3:
EcrireRegistreRD(resultat);
EcrireRegistreRG(SecondResult);
break;
default:
EcrireRegistre(champ_registre_resultat, resultat); /* On écrit le résultat dans le registre de sortie */
}
break;
case 8: /* MOV */
if (ValeurBit(Extension(instruction), 4) == 1) { /* MOV conditionnel */
if (ValeurBit(Extension(instruction), 5) == 0) { /* Test normal */
switch (champ(Extension(instruction) >> 2, 4)) { /* teste les bits 2 et 3 */
case 0:
if (Overflow() == 1)
goto fin;
case 1:
if (Zero() == 1)
goto fin;
case 2:
if (Sign() == 1)
goto fin;
case 3:
if (Parity() == 1)
goto fin;
}
} else { /* Negation du test */
switch (champ(Extension(instruction) >> 2, 4)) { /* teste les bits 2 et 3 */
case 0:
if (Overflow() == 0)
goto fin;
case 1:
if (Zero() == 0)
goto fin;
case 2:
if (Sign() == 0)
goto fin;
case 3:
if (Parity() == 0)
goto fin;
}
}
}
/* Pas de MOV conditionnel */
if (ValeurBit(Extension(instruction), 1) == 0) { /* Mov arg1 arg2 */
if (ValeurBit(Extension(instruction), 0) == 0) { /* arg2 = reg */
if (champ(Champ1(instruction), 4) == 0) { /* r/m de arg1 = 0 */
EcrireRegistre(Champ3(instruction), LireRegistre(Champ2(instruction)));
} else {
ST(Adresse
(Champ1(instruction), instruction), LireRegistre(Champ2(instruction)));
}
} else { /* arg2 = imm32 */
if (champ(Champ1(instruction), 4) == 0) { /* r/m de arg1 = 0 */
EcrireRegistre(Champ3(instruction), LireInstruction());
IncrementeCompteurOrdinal();
} else {
val = Adresse(Champ1(instruction), instruction);
ST(val, LireInstruction());
IncrementeCompteurOrdinal();
}
}
} else { /* mov arg2, arg1 */
if (ValeurBit(Extension(instruction), 0) == 0) { /* arg2 = reg */
if (champ(Champ1(instruction), 4) == 0) { /* r/m de arg1 = 0 */
EcrireRegistre(Champ2(instruction), LireRegistre(Champ3(instruction)));
} else {
EcrireRegistre(Champ2
(instruction),
LD(Adresse(Champ1(instruction), instruction)));
}
} else { /* arg2 = imm32 */
exception(1, _("MOV: Memory to Memory Forbidden On This Type Of Processor"));
}
}
fin:
break;
case 9: /* NOP */
/* Instruction nulle */
break;
case 10: /* J[cond] */
case 11:
switch (champ(Extension(instruction), 4)) {
case 0:
if (Champ1(instruction) == Champ2(instruction)) {
test1 = 1;
} else {
test1 = ((int) LireRegistre(Champ1(instruction))) == ((int) LireRegistre(Champ2(instruction)));
}
break;
case 1:
test1 = ((int) LireRegistre(Champ1(instruction))) != ((int) LireRegistre(Champ2(instruction)));
break;
case 2:
test1 = ((int) LireRegistre(Champ1(instruction))) < ((int) LireRegistre(Champ2(instruction)));
break;
case 3:
test1 = ((int) LireRegistre(Champ1(instruction))) <= ((int) LireRegistre(Champ2(instruction)));
break;
}
switch (champ(Extension(instruction) >> 2, 4)) {
case 0:
test2 = Overflow();
break;
case 1:
test2 = Zero();
break;
case 2:
test2 = Sign();
break;
case 3:
test2 = Parity();
break;
}
switch (champ(Extension(instruction) >> 4, 4)) {
case 0:
test1 = test1;
break;
case 1:
test1 = test1 || test2;
break;
case 2:
test1 = test1 && !test2;
break;
case 3:
test1 = test1 || !test2;
break;
}
if (test1) {
Uint32 tmp;
tmp = LireInstruction();
if (Opcode(instruction) & 1) {
tmp += LireRegistrePC();
}
EcrireRegistrePC(tmp);
} else {
IncrementeCompteurOrdinal();
}
break;
case 12: /* JMP */
case 13:
if (ValeurBit(Extension(instruction), 0) == 0) {
/* RET */
of = LireRegistreFLAG();
EcrireRegistreSP(AdditionNonSigne(LireRegistreSP(), Champ1(instruction)));
EcrireRegistreSP(AdditionNonSigne(LireRegistreSP(), 1));
EcrireRegistrePC(LD(LireRegistreSP()));
EcrireRegistreFLAG(of);
} else if (ValeurBit(Extension(instruction), 1) == 0) { /* JMP */
if (ValeurBit(Extension(instruction), 2) != 0) {
EcrireRegistrePC(LireRegistre(Champ1(instruction)));
} else {
EcrireRegistrePC(LireInstruction());
}
} else { /* CALL */
if (ValeurBit(Extension(instruction), 2) != 0) {
ST(LireRegistreSP(), LireRegistrePC());
of = LireRegistreFLAG();
EcrireRegistreSP(SoustractionNonSigne(LireRegistreSP(), 1));
EcrireRegistreFLAG(of);
EcrireRegistrePC(LireRegistre(Champ1(instruction)));
} else {
ST(LireRegistreSP(), LireRegistrePC() + 1);
of = LireRegistreFLAG();
EcrireRegistreSP(SoustractionNonSigne(LireRegistreSP(), 1));
EcrireRegistreFLAG(of);
EcrireRegistrePC(LireInstruction());
}
}
break;
case 14: /* PUSH */
if (ValeurBit(Extension(instruction), 0) == 0)
val = LireRegistre(Champ1(instruction));
else {
val = LireInstruction();
IncrementeCompteurOrdinal();
}
ST(LireRegistreSP(), val);
of = LireRegistreFLAG();
EcrireRegistreSP(SoustractionNonSigne(LireRegistreSP(), 1));
EcrireRegistreFLAG(of);
break;
case 15: /* POP */
of = LireRegistreFLAG();
EcrireRegistreSP(AdditionNonSigne(LireRegistreSP(), 1));
EcrireRegistre(Champ1(instruction), LD(LireRegistreSP()));
EcrireRegistreFLAG(of);
break;
case 127: /* HALT-RESET */
if (ValeurBit(Extension(instruction), 0) == 0) {
HasToRun = 0; /* Halt */
} else {
HasToReset = 1; /* Reset */
ResetRegistres();
}
break;
default:
exception(1, _("DecodeExec: Invalid Opcode"));
}
}
}
void AfficheReg(void) // affiche reg
{
int i, j;
for (i = 0; i <= 3; i++) {
for (j = 0; j < 8; j++) {
fprintf(stderr, " R%02d ", (i * 8 + j));
}
fprintf(stderr, "\n");
for (j = 0; j < 8; j++) {
fprintf(stderr, "%08lX ", (registre[i * 8 + j]));
}
fprintf(stderr, "\n");
}
fprintf(stderr, "Rg: %08lX | Rd: %08lX | Flag: %08lX | PC: %08lX\n",
LireRegistreRG(), LireRegistreRD(), LireRegistreFLAG(), LireRegistrePC());
}
void Debogueur(void)
{
int out = 0;
Uint32 instruction = LireInstruction();
while (!out) {
AfficheReg();
fprintf(stderr,
"Opcode: %02X, extension: %02X, champ1: %02X, champ2: %02X, champ3: %02X\n",
Opcode(instruction), Extension(instruction),
Champ1(instruction), Champ2(instruction), Champ3(instruction));
fprintf(stderr, "%08lX:%08lX - %08lX - %08lX > ",
LireRegistrePC(), instruction, LD(LireRegistrePC() + 1), LD(LireRegistrePC() + 2));
if (!trace) {
switch (fgetc(input)) {
case 'G':
case 'g':
fprintf(stderr, "Go\n\n");
debug = 0;
out = 1;
break;
case 'p':
case 'P':
fprintf(stderr, "Proceed\n\n");
out = 1;
break;
case 'R':
case 'r':
break;
case 'T':
case 't':
trace = 1;
out = 1;
break;
case 'Q':
case 'q':
clearterm();
exception(1, _("Shutdown requested"));
default:
fprintf(stderr, _("Help:\nG: go\nP: Proceed\nR: display registers\nT: trace\nQ: quit\n"));
}
} else {
fprintf(stderr, "Tracing...\n\n");
out = 1;
}
}
}
void Traitement(Uint32 entrypoint)
{
Uint32 instruction;
while (HasToRun) {
EcrireRegistrePC(entrypoint);
HasToRun = 1;
HasToReset = 0;
while ((HasToRun) && (!HasToReset)) {
if (debug) {
initterm();
Debogueur();
clearterm();
}
instruction = LireInstruction();
IncrementeCompteurOrdinal();
DecodeExec(instruction);
}
}
}
void ChargeBinaire(char *filename)
{
FILE *file;
char message[BUFSIZ];
Uint32 entrypoint, nb, ns, nbss, nr, *relocation_table;
int i;
sprintf(message, _("Opening file %s"), filename);
pushcontext(message);
file = openfilereading(filename);
if (readword(file) != 0x58454e4e) { /* verification de la signature */
exception(1, _("Invalid Signature"));
}
popcontext();
sprintf(message, _("Loading file %s"), filename);
pushcontext(message);
readword(file);
entrypoint = readword(file); /* point d'entrée */
nb = readword(file); /* taille du segment text */
ns = readword(file); /* taille des donnes statiques */
nbss = readword(file); /* taille des donnees non init */
nr = readword(file); /* taille de la table de relogement */
relocation_table = (Uint32 *) Emalloc(nr * sizeof(Uint32));
for (i = 0; i < nr; i++) {
relocation_table[i] = readword(file);
}
for (i = base_addr; i < (base_addr + nb + ns); i++) { /*chargement en ram de .text et .data */
ST(i, readword(file));
}
for (i = 0; i < nr; i++) { /* relogement */
ST(base_addr + relocation_table[i], LD(base_addr + relocation_table[i]) + base_addr);
}
free(relocation_table);
entrypoint += base_addr;
EcrireRegistre(28, base_addr + nb);
EcrireRegistre(30, base_addr + nb + ns + nbss);
base_addr += nb + ns + nbss;
fclose(file);
popcontext();
sprintf(message, _("Executing file %s"), filename);
pushcontext(message);
Traitement(entrypoint);
popcontext();
base_addr -= nb + ns + nbss;
}
|
