luciaos/tests.c

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8.4 KiB
C
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#include "tests.h"
extern char *user_test();
extern uint32_t create_user_child(uint32_t esp, uint32_t eip, uint32_t argc, ...);
void TestV86() {
union V86Regs_t regs;
regs.d.edi = 0x11111111;
regs.d.esi = 0x22222222;
regs.d.ebx = 0x33333333;
regs.d.edx = 0x44444444;
regs.d.ecx = 0x55555555;
regs.d.eax = 0x66666666;
FARPTR v86_entry = i386LinearToFp(v86Test);
enter_v86(0x8000, 0xFF00, FP_SEG(v86_entry), FP_OFF(v86_entry), &regs);
}
extern char _loadusercode, _usercode, _eusercode;
void ReloadUser() {
// Put Usermode code in proper place based on linker
char *s = &_loadusercode;
char *d = &_usercode;
while (d < &_eusercode)
*d++ = *s++;
}
char TestUser() {
ReloadUser();
char *vga = (char *)(uintptr_t)create_user_child(0x800000, (uintptr_t)user_test, 0);
if ((uintptr_t)vga != 0xA0000) {
return 1;
}
for (int i = 0; i < 320; i++) {
vga[i] = i;
}
return 0;
}
void TestDiskRead() {
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//vga_text += printStr("Starting Disk Read... ", vga_text);
union V86Regs_t regs;
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char *diskReadBuf = (char *)0x20000;
v86disk_addr_packet.transfer_buffer =
(uintptr_t)diskReadBuf & 0x000F |
(((uintptr_t)diskReadBuf & 0xFFFF0) << 12);
FARPTR v86_entry = i386LinearToFp(v86DiskRead);
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enter_v86(0x0000, 0x8000, FP_SEG(v86_entry), FP_OFF(v86_entry), &regs);
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uint16_t *vga_text = (uint16_t *)0xb8000;
for (int i = 0; i < (80*25)/2; i++) {
printByte(diskReadBuf[i], &vga_text[i*2]);
}
}
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extern uint32_t _gpf_eax_save;
extern uint32_t _gpf_eflags_save;
void TestCHS() {
uint16_t *vga_text = (uint16_t*)0xb8000;
printStr("CHS Test ", vga_text);
// CHS Read
union V86Regs_t regs;
FARPTR v86_entry = i386LinearToFp(v86DiskGetGeometry);
enter_v86(0x8000, 0xFF00, FP_SEG(v86_entry), FP_OFF(v86_entry), &regs);
// check CF for error
if (_gpf_eflags_save & 0x1) {
uint16_t *vga = &((uint16_t*)0xb8000)[80];
vga += printStr("Could not get Disk Geometry.", vga);
return;
}
uint32_t numHead = ((_gpf_eax_save & 0xff00) >> 8) + 1;
uint32_t secPerTrack = _gpf_eax_save & 0x3f;
uint32_t maxCyl = ((_gpf_eax_save & 0xff0000) >> 16) | ((_gpf_eax_save & 0xc0) << 2);
uint32_t maxLBA = numHead * secPerTrack * (maxCyl + 1);
for (uint32_t sector = 0; sector < maxLBA && sector < 0x8000 /* don't bother reading huge disks */; sector += (sector + secPerTrack < maxLBA) ? secPerTrack : 1) {
uint16_t *vga = &((uint16_t*)0xb8000)[9];
vga += printWord(sector, vga); vga++;
// LBA -> CHS
uint32_t tmp = sector / secPerTrack;
uint32_t sec = (sector % (secPerTrack)) + 1;
uint32_t head = tmp % numHead;
uint32_t cyl = tmp / numHead;
vga += printWord(cyl, vga); vga += printChar(':', vga);
vga += printByte(head, vga); vga += printChar(':', vga);
vga += printByte(sec, vga); vga += printChar(' ', vga);
vga += printStr("/ ", vga);
vga += printWord(maxCyl, vga); vga += printChar(':', vga);
vga += printByte(numHead - 1, vga); vga += printChar(':', vga);
vga += printByte(secPerTrack, vga); vga += printChar(' ', vga);
regs.w.ax = 0x0201;
regs.h.ch = cyl & 0xff;
regs.h.cl = sec | ((cyl >> 2) & 0xc0);
regs.h.dh = head;
regs.h.dl = 0x80;
regs.w.bx = 0x0000;
v86_entry = i386LinearToFp(v86DiskReadCHS);
enter_v86(0x8000, 0xFF00, FP_SEG(v86_entry), FP_OFF(v86_entry), &regs);
// if CF was set, we have error
if (_gpf_eflags_save & 0x1) {
uint16_t *vga = &((uint16_t*)0xb8000)[80];
vga += printStr("Disk Error: ", vga);
vga += printByte(_gpf_eax_save & 0xff, vga);
vga += printStr(" CHS=", vga);
vga += printWord(cyl, vga); vga += printChar(':', vga);
vga += printByte(head, vga); vga += printChar(':', vga);
vga += printByte(sec, vga);
return;
}
}
}
void TestFAT() {
uint16_t *vga_text = (uint16_t *)0xb8000;
uint8_t *diskReadBuf = (uint8_t *)0x22400;
for (int i = 0; i < 80*25; i++)
vga_text[i] = 0x0f00;
VOLINFO vi;
uint8_t pactive, ptype;
uint32_t pstart, psize;
pstart = DFS_GetPtnStart(0, diskReadBuf, 0, &pactive, &ptype, &psize);
vga_text = (uint16_t *)0xb8000;
vga_text += printStr("PartStart: ", vga_text);
vga_text += printDword(pstart, vga_text);
vga_text += 2;
vga_text += printStr("PartSize: ", vga_text);
vga_text += printDword(psize, vga_text);
vga_text += 2;
vga_text += printStr("PartActive: ", vga_text);
vga_text += printByte(pactive, vga_text);
vga_text += 2;
vga_text += printStr("PartType: ", vga_text);
vga_text += printByte(ptype, vga_text);
vga_text = (uint16_t *)((((((uintptr_t)vga_text)-0xb8000) - ((((uintptr_t)vga_text)-0xb8000) % 160)) + 160)+0xb8000);
//asm ("xchgw %bx, %bx");
DFS_GetVolInfo(0, diskReadBuf, pstart, &vi);
vga_text += printStr("Label: ", vga_text);
vga_text += printStr((char*)vi.label, vga_text);
vga_text += 2;
vga_text += printStr("Sec/Clus: ", vga_text);
vga_text += printByte(vi.secperclus, vga_text);
vga_text += 2;
vga_text += printStr("ResrvSec: ", vga_text);
vga_text += printWord(vi.reservedsecs, vga_text);
vga_text += 2;
vga_text += printStr("NumSec: ", vga_text);
vga_text += printDword(vi.numsecs, vga_text);
vga_text += 2;
vga_text += printStr("Sec/FAT: ", vga_text);
vga_text += printDword(vi.secperfat, vga_text);
vga_text += 2;
vga_text += printStr("FAT1@: ", vga_text);
vga_text += printDword(vi.fat1, vga_text);
vga_text += 2;
vga_text += printStr("ROOT@: ", vga_text);
vga_text += printDword(vi.rootdir, vga_text);
vga_text = (uint16_t *)((((((uintptr_t)vga_text)-0xb8000) - ((((uintptr_t)vga_text)-0xb8000) % 160)) + 160)+0xb8000);
//asm ("xchgw %bx, %bx");
vga_text += printStr("Files in root:", vga_text);
DIRINFO di;
di.scratch = diskReadBuf;
DFS_OpenDir(&vi, (uint8_t*)"", &di);
vga_text = (uint16_t *)((((((uintptr_t)vga_text)-0xb8000) - ((((uintptr_t)vga_text)-0xb8000) % 160)) + 160)+0xb8000);
DIRENT de;
while (!DFS_GetNext(&vi, &di, &de)) {
if (de.name[0]) {
for (int i = 0; i < 11 && de.name[i]; i++) {
if (i == 8) { *(uint8_t*)vga_text = ' '; vga_text++; } // space for 8.3
*(uint8_t *)vga_text = de.name[i];
vga_text++;
}
vga_text += printStr(" ", vga_text);
vga_text += printDec((uint32_t)de.filesize_0 + ((uint32_t)de.filesize_1 << 8) + ((uint32_t)de.filesize_2 << 16) + ((uint32_t)de.filesize_3 << 24), vga_text);
*(uint8_t*)vga_text++ = 'B';
vga_text = (uint16_t *)((((((uintptr_t)vga_text)-0xb8000) - ((((uintptr_t)vga_text)-0xb8000) % 160)) + 160)+0xb8000);
}
//asm ("xchgw %bx, %bx");
}
}
void RunTests() {
uint16_t *vga_text = (uint16_t*)0xb8000;
for (int i = 0; i < 80*25; i++)
vga_text[i] = 0x1f00;
uint8_t key;
vga_text += printStr("V86 Test... ", vga_text);
//asm ("xchgw %bx, %bx");
TestV86(); // has int 3 wait in v86
vga_text = (uint16_t *)0xb8000 + (80*3);
vga_text += printStr("Done. Press 'N' for next test.", vga_text);
for(;;) {
key = get_key();
if (key == 'N' || key == 'n') break;
*vga_text = (*vga_text & 0xFF00) | key;
vga_text++;
}
if (TestUser()) {
// Usermode returned wrong value
vga_text = nextLine(vga_text);
vga_text += printStr("Usermode test failed! Press any key to continue.", vga_text);
}
kbd_wait();
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union V86Regs_t regs;
vga_text = (uint16_t *)0xb8000 + (80*5);
vga_text += printStr("Setting Text Mode... ", vga_text);
regs.w.ax = 3; // text mode
V8086Int(0x10, &regs);
TestCHS();
kbd_wait();
TestDiskRead();
kbd_wait();
TestFAT();
vga_text = &((uint16_t*)0xB8000)[80*16];
vga_text += printStr("Press E for a flagrant system error. Press C to continue... ", vga_text);
for (char l = 1;l;) { switch (key = get_key()) {
case 'e':
case 'E':
// flagrant system error
*((uint8_t*)0x1000000) = 0;
break;
case 'c':
case 'C':
// continue
l = 0;
break;
default:
*vga_text = (*vga_text & 0xFF00) | key;
vga_text++;
break;
}}
}