//This file contains the kernel's main procedure #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include extern v86_function_t v86test; void testV86() { VirtualTerminal* vt = new ScrollableVT(15, 76, 200, SHELL_FGCOLOR, SHELL_BGCOLOR); Task::currProcess()->setOutVT(vt); v86_retval_t r; new V86Thread(&v86test, &r, 0); while (!r.finished); PANIC("V86 TEST END"); } extern u32int end; //Placement address extern "C" void kmain(multiboot_info_t* mbd, u32int magic); #define INFO(vt) vt->setColor(KVT_FGCOLOR); *vt << " - "; vt->setColor(KVT_LIGHTCOLOR); #define PROCESSING(vt, m) vt->setColor(KVT_BLECOLOR); *vt << " > "; vt->setColor(KVT_FGCOLOR); *vt << m; \ vt->setCursorCol(60); vt->setColor(KVT_LIGHTCOLOR); *vt << ": "; #define OK(vt) vt->setColor(KVT_FGCOLOR); *vt << "[ "; vt->setColor(KVT_OKCOLOR); *vt << "OK"; vt->setColor(KVT_FGCOLOR); *vt << " ]\n"; u32int logoAnimation(void* p) { SimpleVT& vt = *((SimpleVT*)p); vt.setColor(8); u8int *wat = new u8int[melonLogoLines * melonLogoCols]; for (int x = 0; x < melonLogoCols; x++) { for (int y = 0; y < melonLogoLines; y++) { wat[x * melonLogoLines + y] = melonLogo[y][x]; vt.putChar(y, x, " "); } } vt.setColor(TXTLOGO_FGCOLOR); u32int s = 32; for (int i = 0; i < 255; i++) { for (int x = 0; x < (i < melonLogoCols ? i : melonLogoCols); x++) { for (int y = 0; y < melonLogoLines; y++) { if (wat[x * melonLogoLines + y] != melonLogo[y][x]) { wat[x * melonLogoLines + y]++; if (wat[x * melonLogoLines + y] > melonLogo[y][x] && (y + x) % 2 == 1) wat[x * melonLogoLines + y] += 2; if (wat[x * melonLogoLines + y] >= 127) wat[x * melonLogoLines + y] = 32; vt.setColor(7); vt.putChar(y, x, wat[x * melonLogoLines + y]); } else { vt.setColor(TXTLOGO_FGCOLOR); vt.putChar(y, x, wat[x * melonLogoLines + y]); } } } vt.setColor(8); if (i < melonLogoCols) { for (int y = 0; y < melonLogoLines; y++) { s += 102; while (s > 127) s -= (127 - 33); wat[(i + (y%3)) * melonLogoLines + y] = s; vt.putChar(y, (i + (y%3)), wat[(i + (y%3)) * melonLogoLines + y]); } } Task::currThread()->sleep(20); } delete wat; return 0; } void kmain(multiboot_info_t* mbd, u32int magic) { DEBUG("Entering kmain."); if (magic != MULTIBOOT_BOOTLOADER_MAGIC) { Mem::placementAddress = (u32int)&end; //Setup basic stuff so that PANIC will work VGATextOutput *vgaout = new VGATextOutput(); Disp::setDisplay(vgaout); PANIC("Error with multiboot header."); } //Setup placement address so that we can use new without overwriting modules Mem::placementAddress = (u32int)&end; mbd->cmdline += 0xC0000000; mbd->mods_addr += 0xC0000000; //Take stuff into acount module_t *mods = (module_t*)mbd->mods_addr; for (u32int i = 0; i < mbd->mods_count; i++) { mods[i].mod_start += 0xC0000000; mods[i].mod_end += 0xC0000000; if (mods[i].mod_end > Mem::placementAddress) Mem::placementAddress = mods[i].mod_end + 0x1000; } //Create text output VGATextOutput *vgaout = new VGATextOutput(); Disp::setDisplay(vgaout); //Create a VT for handling the Melon bootup logo SimpleVT *melonLogoVT = new SimpleVT(melonLogoLines, melonLogoCols, TXTLOGO_FGCOLOR, TXTLOGO_BGCOLOR); melonLogoVT->map(1); //Create a VT for logging what kernel does SimpleVT *kvt = new ScrollableVT(3, 69, 10, KVT_FGCOLOR, KVT_BGCOLOR); kvt->map(15); INFO(kvt); *kvt << "Lower ram : " << (s32int)mbd->mem_lower << "k, upper : " << (s32int)mbd->mem_upper << "k.\n"; INFO(kvt); *kvt << "Placement address : " << (u32int)Mem::placementAddress << "\n"; PROCESSING(kvt, "Loading IDT..."); IDT::init(); OK(kvt); PROCESSING(kvt, "Initializing paging..."); u32int totalRam = ((mbd->mem_upper + mbd->mem_lower) * 1024); PhysMem::initPaging(totalRam); OK(kvt); INFO(kvt); *kvt << "Total ram : " << (s32int)(totalRam / 1024) << "k (" << (s32int)(totalRam / (1024 * 1024)) << "M).\n"; PROCESSING(kvt, "Initializing real GDT and cleaning page directory..."); GDT::init(); PhysMem::removeTemporaryPages(); OK(kvt); PROCESSING(kvt, "Creating kernel heap..."); Mem::createHeap(); OK(kvt); INFO(kvt); *kvt << "Free frames : " << (s32int)PhysMem::free() << "/" << (s32int)PhysMem::total() << "\n"; PROCESSING(kvt,"Initializing PIT..."); Dev::registerDevice(new Timer()); OK(kvt); PROCESSING(kvt, "Initializing multitasking..."); Task::initialize(String((char*)mbd->cmdline), kvt); new Thread(logoAnimation, (void*)melonLogoVT, true); OK(kvt); PROCESSING(kvt, "Mounting first module as ramfs on root directory..."); FileSystem* fs = RamFS::mount((u8int*)mods[0].mod_start, 1024 * 1024, NULL); DirectoryNode* cwd; cwd = fs->getRootNode(); Task::currProcess()->setCwd(cwd); VFS::setRootNode(cwd); OK(kvt); PROCESSING(kvt, "Setting up logs..."); Log::init(KL_STATUS); OK(kvt); INFO(kvt); *kvt << "Logs are now going to files in /System/Logs/\n"; Dev::registerDevice(vgaout); Log::log(KL_STATUS, "kmain : Registered textual VGA output"); Dev::registerDevice(new PS2Keyboard()); //Initialize keyboard driver if (!Kbd::loadKeymap("fr")) Log::log(KL_ERROR, "kmain : could not load french keymap."); Kbd::setFocus(kvt); //Set focus to virtual terminal Log::log(KL_STATUS, "kmain : Keyboard set up"); FloppyController::detect(); Log::log(KL_STATUS, "kmain : Floppy drives detected"); Usr::load(); Log::log(KL_STATUS, "kmain : User list loaded"); asm volatile("sti"); Log::log(KL_STATUS, "kmain : Interrupts enabled."); /* new KernelShell(cwd); //No need to save that in a var, it is automatically destroyed anyways Log::log(KL_STATUS, "kmain : Kernel shell launched"); //kvt->unmap(); while (KernelShell::getInstances() > 0) { Task::currThread()->sleep(100); } Log::log(KL_STATUS, "kmain : All kernel shells finished. Halting."); Sys::halt(); */ testV86(); Process* p = Process::run("/System/Applications/PaperWork.app", 0); if (p == 0) { PANIC("Could not launch PaperWork !"); } else { Log::log(KL_STATUS, "kmain : Starting PaperWork (init)"); VirtualTerminal* vt = new ScrollableVT(15, 76, 200, SHELL_FGCOLOR, SHELL_BGCOLOR); Kbd::setFocus(vt); ((ScrollableVT*)vt)->map(9); p->setInVT(vt); p->setOutVT(vt); p->start(); while (p->getState() != P_FINISHED) Task::currThread()->sleep(100); PANIC("PaperWork finished."); } PANIC("END OF KMAIN"); }