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feat: structure command et ajout d'un fichier shell.c

This commit is contained in:
Nicolas Hordé 2018-09-17 18:17:11 +02:00
parent c3a153b091
commit 93897a6cce
6 changed files with 274 additions and 176 deletions
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10
include/gdt.h
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@ -1,5 +1,15 @@
#include <types.h>
#define SEL_KERNEL_CODE 0x8 /* selecteur code du kernel */
#define SEL_KERNEL_DATA 0x10 /* selecteur data du kernel */
#define SEL_KERNEL_STACK 0x18 /* selecteur pile du kernel */
#define STACK_OFFSET 0x20000 /* adresse de la pile du kernel */
#define SIZEGDT 0x4 /* nombre de descripteurs */
#define BASEGDT 0x00000800 /* addr de la GDT */
typedef struct gdtdes {
u16 lim0_15;
u16 base0_15;

15
include/shell.h Normal file
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@ -0,0 +1,15 @@
typedef struct command
{
u8 name[64];
u8 params[64];
int (*function)(void)
} command __attribute__ ((packed));
int rebootnow();
int test2d();
int readidt();
int readgdt();
int detectcpu();
int mode();
int clear();
int dump_regs();

46
lib/gdt.c
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@ -2,9 +2,6 @@
#include "asm.h"
#include "types.h"
#define SIZEGDT 0x4 /* nombre de descripteurs */
#define BASEGDT 0x00000800 /* addr de la GDT */
/* registre gdt */
static struct gdtr gdtreg;
@ -16,12 +13,12 @@ static gdtdes gdt[SIZEGDT];
/* Initialise la GDT */
void initgdt()
void initgdt(u32 offset)
{
makegdtdes(0x0, 0x00000, 0x00, 0x00, &gdt[0]);
makegdtdes(0x0, 0xFFFFF, 0x9B, 0x0D, &gdt[1]); /* code */
makegdtdes(0x0, 0xFFFFF, 0x93, 0x0D, &gdt[2]); /* data */
makegdtdes(0x0, 0x00000, 0x97, 0x0D, &gdt[3]); /* pile */
makegdtdes(0x0, 0x00000, 0x00, 0x00, &gdt[0]); /* selecteur nulle */
makegdtdes(0x0, 0xFFFFF, 0x9B, 0x0D, &gdt[1]); /* code -> SEL_KERNEL_CODE */
makegdtdes(0x0, 0xFFFFF, 0x93, 0x0D, &gdt[2]); /* data -> SEL_KERNEL_DATA */
makegdtdes(0x0, 0x00000, 0x97, 0x0D, &gdt[3]); /* pile -> SEL_KERNEL_STACK */
/* initialise le registre gdt */
gdtreg.limite = SIZEGDT * 8;
gdtreg.base = BASEGDT;
@ -30,19 +27,28 @@ void initgdt()
/* chargement du registre GDT */
lgdt(&gdtreg);
/* initialisation des segments */
asm(" movw $0x10, %ax \n \
movw %ax, %ds \n \
movw %ax, %es \n \
movw %ax, %fs \n \
movw %ax, %gs \n \
movl 0x0C(%esp), %ebx \n \
movw $0x18, %ax \n \
movw %ax, %ss \n \
movl $0x20000, %esp \n \
ljmp $0x08, $raz \n \
initselectors(offset);
}
/*******************************************************************************/
/* Initialise les selecteurs avec la GDT */
void initselectors(u32 executingoffset)
{
asm(" movw %[data], %%ax \n \
movw %%ax, %%ds \n \
movw %%ax, %%es \n \
movw %%ax, %%fs \n \
movw %%ax, %%gs \n \
movl %[offset], %%ebx \n \
movw %[stack], %%ax \n \
movw %%ax, %%ss \n \
movl %[stackoff], %%esp \n \
ljmp %[code], $raz \n \
raz: \n \
pushl %ebx \n \
ret\n");
pushl %%ebx \n \
ret\n"::[data] "i"(SEL_KERNEL_DATA),[code] "i"(SEL_KERNEL_CODE), [stack] "i"(SEL_KERNEL_STACK), [stackoff] "i"(STACK_OFFSET), [offset] "m"(executingoffset));
}
/*******************************************************************************/

2
lib/makefile
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@ -1,6 +1,6 @@
CC=gcc -O0 -g -nostdinc -ffreestanding -fno-builtin -fomit-frame-pointer -Wall -w -m32 -F pe-i386 -I ../include
LINK=ld -m elf_i386 -r -o
OBJS=memory.o vga.o video.o mouse.o interrupts.o timer.o keyboard.o types.o string.o 2d.o 3d.o math.o cpu.o gdt.o
OBJS=memory.o vga.o video.o mouse.o interrupts.o timer.o keyboard.o types.o string.o 2d.o 3d.o math.o cpu.o gdt.o shell.o
all: makeall

215
lib/shell.c Normal file
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@ -0,0 +1,215 @@
#include "vga.h"
#include "video.h"
#include "interrupts.h"
#include "asm.h"
#include "cpu.h"
#include "string.h"
#include "2d.h"
#include "gdt.h"
#include "shell.h"
static command commands[] = {
{"REBOOT","",&rebootnow},
{"CLEAR","",&clear},
{"MODE","",&mode},
{"DETECTCPU","",&detectcpu},
{"TEST2D","",&test2d},
{"REGS","",&dump_regs},
{"GDT","",&readgdt},
{"IDT","",&readidt},
};
/*******************************************************************************/
/* Shell, traite les commandes */
void shell() {
static u8 field[]=" \000";
static u8 item[]=" \000";
int i;
bool found;
while (true) {
print("\r\n# ");
getstring(&field);
print("\r\n");
if (strgetnbitems(&field,' ')<1) continue;
strgetitem(&field, &item, ' ', 0);
strtoupper(&item);
found=false;
for(i=0;i<sizeof(commands);i++) {
if (strcmp(&item,&commands[i].name)==0) {
(*commands[i].function)();
found=true;
break;
}
}
if (!found) printf("Commande inconnue !\r\n\000");
}
}
/*******************************************************************************/
/* Affiche les registres */
int regs() {
dump_regs();
return 0;
}
/*******************************************************************************/
/* Change le mode */
int mode() {
setvmode(0x84);
return 0;
}
/*******************************************************************************/
/* Efface l'écran */
int clear() {
fill(0x00);
gotoscr(0,0);
return 0;
}
/*******************************************************************************/
/* Redemarre */
int rebootnow() {
print("<Appuyer sur une touche pour redemarrer>");
waitascii();
reboot();
return 0;
}
/*******************************************************************************/
/* Test les fonctionnalité 2D graphiques */
int test2d() {
setvmode(0x89);
fill(0x00);
struct vertex2d a,b,c;
randomize();
for(int i=0;i<3200;i++)
{
a.x=random(0, 800);
a.y=random(0, 600);
b.x=random(0, 800);
b.y=random(0, 600);
c.x=random(0, 800);
c.y=random(0, 600);
trianglefilled(&a,&b,&c,random(0, 16));
triangle(&a,&b,&c,2);
}
return 0;
}
/*******************************************************************************/
/* Lit l'IDT et l'affiche */
int readidt()
{
u32 index,i=0;
idtdes* desc;
struct idtr idtreg;
sidt(&idtreg);
printf("Information sur l'IDT\r\nAdresse:%X Limite:%hX",idtreg.base,(u32)idtreg.limite);
desc=idtreg.base;
for(index=0;index<idtreg.limite/sizeof(idtdes);index++)
{
u32 select=desc[index].select;
u32 offset=desc[index].offset0_15+(desc[index].offset16_31 << 16);
u32 type=desc[index].type;
printf("\r\nInterruption % d Selecteur %hX: offset:%X type:",i++,select,offset,type);
if (type==INTGATE) print("INTGATE");
else if (type==TRAPGATE) print("TRAPGATE");
else if (type==TASKGATE) print("TASKGATE");
else if (type==CALLGATE) print("CALLGATE");
else if (type==LDTDES) print("LDTDES");
else print("inconnu");
if (i%32==0) {
print("\r\n<Appuyez sur une touche>\r\n");
waitascii();
}
}
return 0;
}
/*******************************************************************************/
/* Lit les descripteurs GDT et les affiche */
int readgdt()
{
u32 index;
gdtdes* desc;
struct gdtr gdtreg;
sgdt(&gdtreg);
printf("Information sur la LGDT\r\nAdresse:%X Limite:%hX",gdtreg.base,(u32)gdtreg.limite);
desc=gdtreg.base;
for(index=0;index<gdtreg.limite/sizeof(gdtdes);index++)
{
u32 acces=desc[index].acces;
if (acces >> 7 == 1) {
u32 flags=desc[index].flags;
u32 limit=desc[index].lim0_15+(desc[index].lim16_19 << 16);
u32 base=desc[index].base0_15+(desc[index].base16_23 << 16)+(desc[index].base24_31 << 24) ;
printf("\r\nSelecteur %hX: base:%X limit:%X access:%hX flags:%hX\r\n -> ",index*sizeof(gdtdes),base,limit,acces,flags);
if ((acces >> 4) & 1 == 1)
print("Systeme ");
else {
if (acces & 1 == 1)
print("Acces ");
}
if ((acces >> 3) & 1 == 1) {
print("Code.");
if ((acces >> 1) & 1 == 1)
print("Readable ");
if ((acces >> 2) & 1 == 1)
print("Conforming ");
else
print("Normal ");
}
else {
print("Data.");
if ((acces >> 3) & 1 == 1)
print("Down ");
else
print("up ");
if ((acces >> 1) & 1 == 1)
print("writeable ");
}
if (flags & 1 == 1)
print("Dispo ");
if ((flags >> 2) & 1 == 1)
print("32 bits ");
else
print("16 bits ");
if ((flags >> 3) & 1 == 1)
print("4k ");
else
print("1b ");
u8 dpl=(acces>>5) & 0b11;
printf("DPL:%d",dpl);
}
}
return 0;
}
/*******************************************************************************/
/* Detecte et affiche les information sur le CPU */
int detectcpu()
{
cpuinfo cpu;
u8 noproc[] = "\033[31mInconnu\033[0m\000";
strcpy(&noproc, &cpu.detectedname);
getcpuinfos(&cpu);
printf("\r\nDetection du processeur\r\033[1m Revision \t:%d\r Modele \t:%d\r Famille \t:%d\r Nom cpuid\t:%s\rJeux d'instruction\t:%s\033[0m\r\n\000",cpu.stepping, cpu.models, cpu.family, &cpu.detectedname,&cpu.techs);
return 0;
}

162
system/system.c
View File

@ -10,6 +10,7 @@
#include "2d.h"
#include "ansi.c"
#include "gdt.h"
#include "shell.h"
static u8 warnmsg[] =
"\033[99C\033[8D\033[37m\033[1m[ \033[36mNON\033[37m ]\033[0m\000";
@ -50,7 +51,8 @@ int main(void)
ok();
print("\033[37m\033[0m -Initilisation de la memoire (GDT)\000");
initgdt();
initgdt(&&next);
next:
ok();
print("\033[37m\033[0m -Initilisation des interruptions (IDT/PIC)\000");
@ -60,172 +62,22 @@ int main(void)
ok();
print(" -Installation du handler timer (IRQ 0)\000");
setidt((u32) timer, 0x8, INTGATE, 32);
setidt((u32) timer, SEL_KERNEL_CODE, INTGATE, 32);
enableirq(0);
ok();
print(" -Installation du handler clavier (IRQ 1)\000");
setidt((u32) keyboard, 0x8, INTGATE, 33);
setidt((u32) keyboard, SEL_KERNEL_CODE, INTGATE, 33);
enableirq(1);
ok();
print(" -Installation du handler souris (IRQ12+Cascade IRQ2)\000");
setidt((u32) mouse, 0x8, INTGATE, 100);
setidt((u32) mouse, SEL_KERNEL_CODE, INTGATE, 100);
enableirq(2);
enableirq(12);
if (initmouse() != 1)
warning();
else
ok();
static u8 field[]=" \000";
static u8 item[]=" \000";
static u8 cmd_reboot[]="REBOOT\000";
static u8 cmd_mode[]="MODE\000";
static u8 cmd_clear[]="CLEAR\000";
static u8 cmd_detectcpu[]="DETECTCPU\000";
static u8 cmd_test2d[]="TEST2D\000";
static u8 cmd_regs[]="REGS\000";
static u8 cmd_gdt[]="GDT\000";
static u8 cmd_idt[]="IDT\000";
while (true) {
print("\r\n# ");
getstring(&field);
print("\r\n");
if (strgetnbitems(&field,' ')<1) continue;
strgetitem(&field, &item, ' ', 0);
strtoupper(&item);
if (strcmp(&item,&cmd_reboot)==0) reboot();
else if (strcmp(&item,&cmd_mode)==0) setvmode(0x84);
else if (strcmp(&item,&cmd_clear)==0) fill(0x00);
else if (strcmp(&item,&cmd_detectcpu)==0) detectcpu();
else if (strcmp(&item,&cmd_test2d)==0) test2d();
else if (strcmp(&item,&cmd_regs)==0) dump_regs();
else if (strcmp(&item,&cmd_gdt)==0) readgdt();
else if (strcmp(&item,&cmd_idt)==0) readidt();
else
printf("Commande inconnue !\r\n\000");
}
}
/*******************************************************************************/
/* Test les fonctionnalité 2D graphiques */
void test2d() {
setvmode(0x89);
fill(0x00);
struct vertex2d a,b,c;
randomize();
for(int i=0;i<3200;i++)
{
a.x=random(0, 800);
a.y=random(0, 600);
b.x=random(0, 800);
b.y=random(0, 600);
c.x=random(0, 800);
c.y=random(0, 600);
trianglefilled(&a,&b,&c,random(0, 16));
triangle(&a,&b,&c,2);
}
}
/*******************************************************************************/
/* Lit l'IDT et l'affiche */
void readidt()
{
u32 index,i=0;
idtdes* desc;
struct idtr idtreg;
sidt(&idtreg);
printf("Information sur l'IDT\r\nAdresse:%X Limite:%hX",idtreg.base,(u32)idtreg.limite);
desc=idtreg.base;
for(index=0;index<idtreg.limite/sizeof(idtdes);index++)
{
u32 select=desc[index].select;
u32 offset=desc[index].offset0_15+(desc[index].offset16_31 << 16);
u32 type=desc[index].type;
printf("\r\nInterruption % d Selecteur %hX: offset:%X type:",i++,select,offset,type);
if (type==INTGATE) print("INTGATE");
else if (type==TRAPGATE) print("TRAPGATE");
else if (type==TASKGATE) print("TASKGATE");
else if (type==CALLGATE) print("CALLGATE");
else if (type==LDTDES) print("LDTDES");
else print("inconnu");
if (i%32==0) waitascii();
}
}
/*******************************************************************************/
/* Lit les descripteurs GDT et les affiche */
void readgdt()
{
u32 index;
gdtdes* desc;
struct gdtr gdtreg;
sgdt(&gdtreg);
printf("Information sur la LGDT\r\nAdresse:%X Limite:%hX",gdtreg.base,(u32)gdtreg.limite);
desc=gdtreg.base;
for(index=0;index<=gdtreg.limite/sizeof(gdtdes);index++)
{
u32 acces=desc[index].acces;
if (acces >> 7 == 1) {
u32 flags=desc[index].flags;
u32 limit=desc[index].lim0_15+(desc[index].lim16_19 << 16);
u32 base=desc[index].base0_15+(desc[index].base16_23 << 16)+(desc[index].base24_31 << 24) ;
printf("\r\nSelecteur %hX: base:%X limit:%X access:%hX flags:%hX\r\n -> ",index*sizeof(gdtdes),base,limit,acces,flags);
if ((acces >> 4) & 1 == 1)
print("Systeme ");
else {
if (acces & 1 == 1)
print("Acces ");
}
if ((acces >> 3) & 1 == 1) {
print("Code.");
if ((acces >> 1) & 1 == 1)
print("Readable ");
if ((acces >> 2) & 1 == 1)
print("Conforming ");
else
print("Normal ");
}
else {
print("Data.");
if ((acces >> 3) & 1 == 1)
print("Down ");
else
print("up ");
if ((acces >> 1) & 1 == 1)
print("writeable ");
}
if (flags & 1 == 1)
print("Dispo");
if ((flags >> 2) & 1 == 1)
print("32 bits ");
else
print("16 bits ");
if ((flags >> 3) & 1 == 1)
print("4k ");
else
print("1b ");
u8 dpl=(acces>>5) & 0b11;
printf("DPL:%d",dpl);
}
}
}
/*******************************************************************************/
/* Detecte et affiche les information sur le CPU */
void detectcpu()
{
cpuinfo cpu;
u8 noproc[] = "\033[31mInconnu\033[0m\000";
strcpy(&noproc, &cpu.detectedname);
getcpuinfos(&cpu);
printf("\r\nDetection du processeur\r\033[1m Revision \t:%d\r Modele \t:%d\r Famille \t:%d\r Nom cpuid\t:%s\rJeux d'instruction\t:%s\033[0m\r\n\000",cpu.stepping, cpu.models, cpu.family, &cpu.detectedname,&cpu.techs);
shell();
}