Ejemplo n.º 1
0
//! kernel entry point is called by boot loader
void __cdecl  kernel_entry (multiboot_info* bootinfo) {

#ifdef ARCH_X86

	// Set registers for protected mode
	_asm {
		cli
		mov ax, 10h
		mov ds, ax
		mov es, ax
		mov fs, ax
		mov gs, ax
	}
#endif //ARCH_X86

	//dx 레지스터에는 커널의 크기가 담겨 있다.
	//다른값으로 씌워지기 전에 값을 얻어낸다.
	_asm	mov	word ptr[g_kernelSize], dx
	InitializeConstructors();
	kmain (bootinfo);
	Exit ();

	console.Print("kernel_entry : Shutdown Complete. Halting system\n");

#ifdef ARCH_X86
	_asm {
		cli
		hlt
	}
#endif

	for (;;);
}
Ejemplo n.º 2
0
	//프로세스 전용의 디폴트 힙을 생성한다
	void CreateDefaultHeap() 
	{
		EnterCriticalSection();
		
		Process* pProcess = ProcessManager::GetInstance()->GetCurrentProcess();
		Thread* pThread = pProcess->GetThread(0);
		
	//1메가 바이트의 힙을 생성
		void* pHeapPhys = PhysicalMemoryManager::GetInstance()->AllocBlocks(DEFAULT_HEAP_PAGE_COUNT);
		u32int heapAddess = pThread->m_imageBase + pThread->m_imageSize + PAGE_SIZE + PAGE_SIZE * 2;
		
	//힙 주소를 4K에 맞춰 Align	
		heapAddess -= (heapAddess % PAGE_SIZE);
		
#ifdef _ORANGE_DEBUG
		console.Print("heap adress %x\n", heapAddess);
#endif // _ORANGE_DEBUG
				
		for (int i = 0; i < DEFAULT_HEAP_PAGE_COUNT; i++)
		{
			VirtualMemoryManager::GetInstance()->MapPhysicalAddressToVirtualAddresss(pProcess->m_pPageDirectory,
				(uint32_t)heapAddess + i * PAGE_SIZE,
				(uint32_t)pHeapPhys + i * PAGE_SIZE,
				I86_PTE_PRESENT | I86_PTE_WRITABLE | I86_PTE_USER);
		}
		
		memset((void*)heapAddess, 0, DEFAULT_HEAP_PAGE_COUNT * PAGE_SIZE);
		
		pProcess->m_lpHeap = create_heap((u32int)heapAddess, (uint32_t)heapAddess + DEFAULT_HEAP_PAGE_COUNT * PAGE_SIZE, 
			                             (uint32_t)heapAddess + DEFAULT_HEAP_PAGE_COUNT * PAGE_SIZE, 0, 0);

		LeaveCriticalSection();		
	}
Ejemplo n.º 3
0
bool ConsoleManager::RunCommand(char* buf) 
{

	if (strcmp(buf, "user") == 0) {
		go_user();
	}

	//! exit command
	if (strcmp(buf, "exit") == 0) {
		return true;
	}

	//! clear screen
	else if (strcmp(buf, "cls") == 0) {
		console.Clear();
	}

	//! help
	else if (strcmp(buf, "help") == 0) {

		console.Print("Orange OS Console Help\n");		
		console.Print(" - exit: quits and halts the system\n");
		console.Print(" - cls: clears the display\n");
		console.Print(" - help: displays this message\n");
		console.Print(" - read: reads a file\n");
		console.Print(" - reset: Resets and recalibrates floppy for reading\n");
		console.Print(" - proc: Run process\n");		
	}

	//! read sector
	else if (strcmp(buf, "read") == 0) {
		cmd_read();
	}
	else if (strcmp(buf, "memstate") == 0) {
		cmd_memstate();
	}
	else if (strcmp(buf, "alloc") == 0) {
		cmd_alloc();
	}
	else if (strcmp(buf, "memtask") == 0) {
		cmd_memtask();
	}

	//! run process
	else if (strcmp(buf, "proc") == 0) {
		cmd_proc();
	}
	else
	{
		console.Print("Unknown Command\n");
	}

	return false;
}
Ejemplo n.º 4
0
	uint32_t MemoryAlloc(size_t size)
	{
		Process* pProcess = ProcessManager::GetInstance()->GetCurrentProcess();
		void *addr = alloc(size, (u8int)0, (heap_t*)pProcess->m_lpHeap);

#ifdef _ORANGE_DEBUG
		console.Print("process heap alloc, %d %x\n", size, pProcess->m_lpHeap);
		console.Print("process heap alloc, %d %x\n", size, pProcess->m_lpHeap);
#endif			
		return (u32int)addr;
	}
Ejemplo n.º 5
0
//! divide by 0 fault
void _cdecl divide_by_zero_fault (uint32_t eflags,uint32_t cs,uint32_t eip, uint32_t other) {

	_asm {
		cli
		add esp, 12
		pushad
	}

	console.Print("Divide by 0 at physical address[0x%x:0x%x] EFLAGS[0x%x] other: 0x%x",cs, eip, eflags, other);
	//kernel_panic ("Divide by 0 at physical address [0x%x:0x%x] EFLAGS [0x%x] other: 0x%x",cs,eip, eflags, other);
	for (;;);
}
Ejemplo n.º 6
0
	//프로세스 종료	
	extern "C" void TerminateProcess()
	{
		EnterCriticalSection();

		Process* cur = ProcessManager::GetInstance()->GetCurrentProcess();

		if (cur == NULL || cur->m_processId == PROC_INVALID_ID)
		{
			console.Print("Invailid Process Termination\n");
			return;
		}

		//프로세스 매니저에서 해당 프로세스를 완전히 제거한다.
		//태스크 목록에서도 제거되어 해당 프로세스는 더이상 스케쥴링 되지 않는다.
		ProcessManager::GetInstance()->DestroyProcess(cur);

		LeaveCriticalSection();

		for (;;);
	}	
Ejemplo n.º 7
0
bool  Scheduler::DoSchedule(int tick, uint32_t registers)
{

	//DebugPrintf("\nScheduler");

	int entryPoint = 0;
	unsigned int procStack = 0;
	
	/* switch to process address space */

	if (systemOn == true)
	{
		Process* curProcess = ProcessManager::GetInstance()->g_pCurProcess;

		if (curProcess)
		{
			Thread* pCurThread = (Thread*)List_GetData(curProcess->pThreadQueue, "", 0);			
			pCurThread->curESP = (*(uint32_t*)(registers - 8));
			pCurThread->curFlags = (*(uint32_t*)(registers - 12));
			pCurThread->curCS = (*(uint32_t*)(registers - 16));
			pCurThread->curEip = (*(uint32_t*)(registers - 20));

			/*pCurThread->curgs = (*(uint16_t*)(registers - 24));
			pCurThread->curfs = (*(uint16_t*)(registers - 28));
			pCurThread->curEs = (*(uint16_t*)(registers - 32));
			pCurThread->curds = (*(uint16_t*)(registers - 36));*/

			pCurThread->frame.eax = (*(uint32_t*)(registers - 24));
			pCurThread->frame.ecx = (*(uint32_t*)(registers - 28));
			pCurThread->frame.edx = (*(uint32_t*)(registers - 32));
			pCurThread->frame.ebx = (*(uint32_t*)(registers - 36));
			pCurThread->frame.esp = (*(uint32_t*)(registers - 40));
			pCurThread->frame.ebp = (*(uint32_t*)(registers - 44));
			pCurThread->frame.esi = (*(uint32_t*)(registers - 48));
			pCurThread->frame.edi = (*(uint32_t*)(registers - 52));			

			LISTNODE *pProcessList = ProcessManager::GetInstance()->pProcessQueue;
			int processCount = List_Count(pProcessList);

			for (int index = 0; index < processCount; index++)
			{
				Process* pProcess = (Process*)List_GetData(pProcessList, "", index);

				if (curProcess == pProcess)
					continue;

						



				pProcess->dwTickCount++;
				if (pProcess->dwTickCount > 10)
				{
					
					pProcess->dwTickCount = 0;
					if (pProcess->dwProcessType == PROCESS_USER)
					{
						

						console.Print("Scheduler1 : %d\n", processCount);
						ProcessManager::GetInstance()->g_pCurProcess = pProcess;
						Thread* pThread = (Thread*)List_GetData(pProcess->pThreadQueue, "", 0);						


						entryPoint = pThread->curEip;
						procStack = pThread->curESP;
						uint32_t eflags = pThread->curFlags;
						
						console.Print("eip : %x\n", pThread->curEip);
						console.Print("CS : %x\n", pThread->curCS);
						console.Print("flags : %x\n", pThread->curFlags);
						console.Print("esp : %x\n", pThread->curESP);


						//entryPoint = pThread->frame.eip;						
						//procStack = pThread->frame.esp;						

						uint32_t regEax = pThread->frame.eax;
						uint32_t regEcx = pThread->frame.ecx;
						uint32_t regEdx = pThread->frame.edx;
						uint32_t regEbx = pThread->frame.ebx;
						uint32_t regEsp = pThread->frame.esp;
						uint32_t regEbp = pThread->frame.ebp;
						uint32_t regEsi = pThread->frame.esi;
						uint32_t regEdi = pThread->frame.edi;

						uint16_t regGs = pThread->curgs;
						uint16_t regFs = pThread->curfs;
						uint16_t regEs = pThread->curEs;
						uint16_t regDs = pThread->curds;

						
						pmmngr_load_PDBR((physical_addr)pProcess->pPageDirectory);						
						OutPortByte(0x20, 0x20);
						__asm {
							mov     ax, 0x23; user mode data selector is 0x20 (GDT entry 3).Also sets RPL to 3
								mov     ds, ax
								mov     es, ax
								mov     fs, ax
								mov     gs, ax

							
							; create stack frame
								;
							push   0x23; SS, notice it uses same selector as above
								push[procStack]; stack
								push[eflags]; EFLAGS
								push    0x1b; CS, user mode code selector is 0x18.With RPL 3 this is 0x1b
								push[entryPoint]; EIP

								mov eax, regEax
								mov ecx, regEcx
								mov edx, regEdx
								mov ebx, regEbx
								mov esp, regEsp
								mov ebp, regEbp
								mov esi, regEsi
								mov edi, regEdi

								iretd
						}

					}
					else
					{
						/*if (aa == 0)
						{
							aa = 1;
							DebugPrintf("\nasdasas : %x", registers);
							for (int i = 0; i < 20; i++)
								DebugPrintf("\nasdasas : %x", (*(uint32_t*)(registers - i * 4)));
							
							while (1);
						}*/

						console.Print("Scheduler2\n");
						ProcessManager::GetInstance()->g_pCurProcess = pProcess;
						Thread* pThread = (Thread*)List_GetData(pProcess->pThreadQueue, "", 0);
						entryPoint = pThread->frame.eip;
						procStack = pThread->frame.esp;
						//procStack = 0;

						pmmngr_load_PDBR((physical_addr)pProcess->pPageDirectory);
						OutPortByte(0x20, 0x20);
						__asm {
							mov     ax, 0x10;
								mov     ds, ax
								mov     es, ax
								mov     fs, ax
								mov     gs, ax
								;
							; create stack frame
								;
							push   0x10; SS, notice it uses same selector as above
								push[procStack]; stack
								push    0x200; EFLAGS
								push    0x08;
								push[entryPoint]; EIP
								iretd
						}
					}
				}