Compare commits

...

1 Commits

Author SHA1 Message Date
a58fee7200 Bad version (?) 2021-09-14 19:02:20 +03:00
58 changed files with 555 additions and 11189 deletions

View File

@ -1,4 +1,4 @@
Log created: 2011-09-20T09:23:01.130988600Z Log created: 2011-09-08T09:15:29.377663100Z
Executable: C:\PROGRA~1\oracle\Virtua~1\VirtualBox.exe Executable: C:\PROGRA~1\oracle\Virtua~1\VirtualBox.exe
Commandline: C:\PROGRA~1\oracle\Virtua~1\\virtualbox --startvm "lux Testbed" --dbg Commandline: C:\PROGRA~1\oracle\Virtua~1\\virtualbox --startvm "lux Testbed" --dbg
fatal error in recompiler cpu: triple fault fatal error in recompiler cpu: triple fault

View File

@ -0,0 +1,4 @@
Log created: 2011-09-08T09:21:27.881741000Z
Executable: C:\PROGRA~1\oracle\Virtua~1\VirtualBox.exe
Commandline: C:\PROGRA~1\oracle\Virtua~1\\virtualbox --startvm "lux Testbed" --dbg
fatal error in recompiler cpu: triple fault

Binary file not shown.

Binary file not shown.

View File

@ -21,7 +21,7 @@ string ConsoleCommands[] =
"restart", "restart",
"dir", "dir",
"cat", "cat",
"task" "fork"
}; };
int32 ConsoleCommandsCount = 14; int32 ConsoleCommandsCount = 14;
@ -174,7 +174,7 @@ void _CommandMemPrintMemmap()
blocks = n - old; blocks = n - old;
used = 0; used = 0;
for (; old < n; old++) for (; old < n; old++)
used += (MemPhGetBlock (old) != 0); used += (MemPhGetFrame(old) != 0);
if (used <= blocks / 5) c = ' '; if (used <= blocks / 5) c = ' ';
else if (used > 4 * blocks / 5) c = 219; else if (used > 4 * blocks / 5) c = 219;
@ -338,29 +338,39 @@ void CommandCat (string argv[], int32 argc)
} }
#include <tasking.h> #include <tasking.h>
void task() void CommandFork()
{
Point p = {5, 1};
uint32 t = 0;
while (1)
{
ConsoleCursorGoto(p);
ConsoleWrite("Hello world! %u ", t++);
}
}
void CommandTask()
{ {
ConsoleClear(); ConsoleClear();
TaskCreate(task);
Point p = {5, 2}; Point a = {5,1};
uint32 t = 0; Point b = {5,2};
while (1) // Child?
if (Fork() == 0)
{ {
ConsoleCursorGoto(p); uint32 i;
ConsoleWrite("%#Hello world! %u ", ColorLightBlue, t++); for (i = 0; i < 0x7fffffff; i++)
{
ConsoleCursorGoto(a);
ConsoleWrite ("[c] Hello %u", i);
if (i > 0x7ffffff0) i = 0;
}
for (;;);
}
// Not child?
else {
uint32 i;
for (i = 0; i < 0x7fffffff; i++)
{
ConsoleCursorGoto(b);
ConsoleWrite ("[p] world %u", i);
if (i > 0x7ffffff0) i = 0;
}
for (;;);
} }
} }

View File

@ -76,7 +76,7 @@ loop:
case 10: SystemReboot(); break; case 10: SystemReboot(); break;
case 11: CommandDir(params, count); break; case 11: CommandDir(params, count); break;
case 12: CommandCat(params, count); break; case 12: CommandCat(params, count); break;
case 13: CommandTask(); break; case 13: CommandFork(); break;
default: ConsoleWrite ("%#! Command %#%s%# was not implemented (yet)!\n", default: ConsoleWrite ("%#! Command %#%s%# was not implemented (yet)!\n",
Color(0,ColorLightRed), Color(0,ColorWhite), params[0], Color(0,ColorLightRed)); break; Color(0,ColorLightRed), Color(0,ColorWhite), params[0], Color(0,ColorLightRed)); break;

View File

@ -17,6 +17,7 @@ string LogAllowedDevices[] = {
"vfs", "vfs",
//"mem", //"mem",
"console", "console",
"tasking",
0x0, 0x0,
0x0 0x0
}; };
@ -118,9 +119,3 @@ int32 LogWrite (uint8 error, string device, string format, ...)
ConsoleCursorUpdateHardware(); ConsoleCursorUpdateHardware();
return i; return i;
} }
void LogAssert (int32 condition, string file, int32 line)
{
if (!condition)
Panic("Assert", "Assertion failed in file %s line %d.\n", file, line);
}

View File

@ -29,7 +29,8 @@ void DriversInstall()
DriversInstall_Clock(); DriversInstall_Clock();
// Install fdc // Install fdc
Error ("Floppy", "Floppy driver is currently disabled.\n");
Error("Floppy", "Floppy driver is currently disabled.\n");
//IrqInstallHandler(6, FloppyIrqHandler); //IrqInstallHandler(6, FloppyIrqHandler);
//FloppyInitialize(); //FloppyInitialize();
} }

View File

@ -6,12 +6,14 @@
volatile TimeSystem _internal_time; volatile TimeSystem _internal_time;
uint32 _internal_frequency_hz; uint32 _internal_frequency_hz;
extern void TaskSwitch (_RegsStack32* regs); extern void TaskingScheduler();
void TimeHandler(_RegsStack32* r) void TimeHandler(_RegsStack32* UNUSED(r))
{ {
// Make sure it is initialised
if (_internal_frequency_hz == 0) return; if (_internal_frequency_hz == 0) return;
// Timer tick
_internal_time.Time += 1000/_internal_frequency_hz; _internal_time.Time += 1000/_internal_frequency_hz;
if (_internal_time.Time >= MILISECONDS_IN_DAY) if (_internal_time.Time >= MILISECONDS_IN_DAY)
{ {
@ -19,5 +21,6 @@ void TimeHandler(_RegsStack32* r)
_internal_time.Time-=MILISECONDS_IN_DAY; _internal_time.Time-=MILISECONDS_IN_DAY;
} }
TaskSwitch(r); // Launch scheduler
TaskingScheduler();
} }

View File

@ -70,8 +70,8 @@ void CrashMessage(_RegsStack32 *r)
ConsoleCursorGoto(c); ConsoleWrite("eflags=0x%x", r->eflags); ConsoleCursorGoto(c); ConsoleWrite("eflags=0x%x", r->eflags);
ConsoleCursorGoto(d); ConsoleWrite("useresp=0x%x\n", r->useresp); ConsoleCursorGoto(d); ConsoleWrite("useresp=0x%x\n", r->useresp);
ConsoleCursorGoto(a); ConsoleWrite("ss=0x%x", r->ss); ConsoleCursorGoto(a); ConsoleWrite("gs=0x%x", r->ss);
ConsoleCursorGoto(b); ConsoleWrite("int_no=0x%x", r->int_no); ConsoleCursorGoto(b); ConsoleWrite("fs=0x%x", r->int_no);
ConsoleCursorGoto(c); ConsoleWrite("err_code=0x%x", r->err_code); ConsoleCursorGoto(c); ConsoleWrite("err_code=0x%x", r->err_code);
// Useful info about page fault // Useful info about page fault

View File

@ -180,16 +180,13 @@ void luxInitrdInstall (MultibootInfo* info)
VfsInstallFs(&fs); VfsInstallFs(&fs);
// Check for multiboot info flags to see if any modules are loaded // Check for multiboot info flags to see if any modules are loaded
if ((info->Flags & 8) == 0) { if ((info->Flags & 8) == 0) return;
Error("Initrd", "No boot modules found!");
return;
}
// Loop through each module and if it is an initrd image, mount it // Loop through each module and if it is an initrd image, mount it
MultibootModule* modules = (MultibootModule*) info->ModulesAddress; MultibootModule* modules = (MultibootModule*) info->ModulesAddress;
for (i = 0; i < info->ModulesCount; i++) for (i = 0; i < info->ModulesCount; i++)
if (*((uint32*) modules[i].ModuleStart) == LUXMAGIC) if ((*(uint32*) modules[i].ModuleStart) == LUXMAGIC)
{ {
// Mount the device // Mount the device
Log("Initrd", "Found initrd image at 0x%x.\n", modules[i].ModuleStart); Log("Initrd", "Found initrd image at 0x%x.\n", modules[i].ModuleStart);
@ -199,7 +196,4 @@ void luxInitrdInstall (MultibootInfo* info)
mp->FsData[0] = modules[i].ModuleStart; mp->FsData[0] = modules[i].ModuleStart;
mp->FsData[1] = modules[i].ModuleEnd; mp->FsData[1] = modules[i].ModuleEnd;
} }
else {
Log("Initrd", "Found module @ 0x%x, but not initrd image.\n", modules[i].ModuleStart);
}
} }

View File

@ -34,7 +34,7 @@ void HalInitialize()
KeyboardInstallB(); Log("HAL", "%#[2/2]\n", ColorLightGreen); KeyboardInstallB(); Log("HAL", "%#[2/2]\n", ColorLightGreen);
// Install mouse driver // Install mouse driver
//MouseInstall(); Log("HAL", "Installed mouse driver\n"); MouseInstall(); Log("HAL", "Installed mouse driver\n");
// Install VFS // Install VFS
VfsInstall(); VfsInstall();

View File

@ -65,12 +65,10 @@ extern void ConsoleMain();
// External test routines // External test routines
extern void SystemPanic(); extern void SystemPanic();
extern int32 LogWrite (uint8 error, string device, string format, ...); extern int32 LogWrite (uint8 error, string device, string format, ...);
extern void LogAssert (int32 condition, string file, int32 line);
// Debug print // Debug print
#define Log(dev, ...) { LogWrite(0, dev, __VA_ARGS__); } #define Log(dev, ...) { LogWrite(0, dev, __VA_ARGS__); }
#define Error(dev, ...) { LogWrite(1, dev, __VA_ARGS__); } #define Error(dev, ...) { LogWrite(1, dev, __VA_ARGS__); }
#define Panic(dev, ...) { LogWrite(1, dev, __VA_ARGS__); SystemPanic(); } #define Panic(dev, ...) { LogWrite(1, dev, __VA_ARGS__); SystemPanic(); }
#define Assert(c) { LogAssert(c, __FILE__, __LINE__); }
#endif #endif

View File

@ -33,6 +33,8 @@ enum PageFlags
PageFrame = 0xFFFFF000 PageFrame = 0xFFFFF000
}; };
typedef struct { typedef struct {
Page Pages[1024]; Page Pages[1024];
} PageTable; } PageTable;
@ -46,28 +48,28 @@ typedef struct {
extern PageDirectory* CurrentDirectory; extern PageDirectory* CurrentDirectory;
extern PageDirectory* KernelDirectory; extern PageDirectory* KernelDirectory;
extern void PagingEnable (); extern void PagingInitialize(volatile uint32* SystemMemory);
extern void PagingDisable (); extern void PagingSwitchPageDirectory (PageDirectory* dir);
extern void PagingSwitchDirectory (PageDirectory* dir); extern Page* PagingGetPage(uint32 addr, uint8 make, PageDirectory* dir);
extern void PagingFlushTlb (); extern void PagingCopyPagePhysical (uint32, uint32);
extern void PagingInitialize (uint32* kernelEnd); extern PageTable* PagingCloneTable (PageTable* src, uint32* physAddr);
extern void PagingMapPage (uint32 phys, uint32 virt, uint32 flags, PageDirectory* pd); extern PageDirectory* PagingCloneDirectory (PageDirectory* src);
extern void PagingUnmapPage (uint32 virt, PageDirectory* pd);
extern uint32 PagingGetPhysical (uint32 virt, PageDirectory* pd);
/*************************************************** /***************************************************
* Physical memory manager * * Physical memory manager *
***************************************************/ ***************************************************/
extern uint32 TotalBlocks; extern uint32 TotalFrames;
extern uint32 TotalMemory; extern uint32 TotalMemory;
extern uint32 UsedBlocks; extern uint32 UsedFrames;
extern void MemPhInitialize (uint32 SystemMemoryKb); void MemPhInitialize(uint32 SystemMemoryKb);
extern void MemPhSetBlock (uint32 Block, uint8 value); extern void MemPhSetFrame (uint32 frame, uint8 value);
extern uint32 MemPhGetBlock (uint32 Block); uint32 MemPhGetFrame (uint32 frame);
extern uint32 MemPhAllocateBlock (); uint32 MemPhFindFreeFrame();
extern void MemPhFreeBlock (uint32 addr); void MemPhAllocFrame(Page* page, uint8 isKernel, uint8 isWriteable);
extern void MemPhReserveBlocks (uint32 address, uint32 length); void MemPhFreeFrame(Page* page);
void MemPhReserveFrames (uint32 address, uint32 length);
/*************************************************** /***************************************************
@ -83,12 +85,12 @@ typedef struct
extern MemHeap* KernelHeap; extern MemHeap* KernelHeap;
extern uint32 MemHeapFindSmallestHole (uint32 size, uint8 page_align, MemHeap* heap); extern uint32 MemHeapFindSmallestHole (uint32 size, uint8 page_align, MemHeap* heap);
extern int32 MemHeapCompare (uint32 a, uint32 b); extern int32 MemHeapCompare (uint32 a, uint32 b);
extern MemHeap* MemHeapCreate (uint32 start, uint32 end, uint32 max, uint8 flags); extern MemHeap* MemHeapCreate(uint32 start, uint32 end, uint32 max, uint8 flags);
extern uint32 MemHeapExpand (uint32 newsz, MemHeap* heap, PageDirectory* pd); extern void MemHeapExpand(uint32 newsz, MemHeap* heap, PageDirectory* pd);
extern uint32 MemHeapContract (uint32 newsz, MemHeap* heap, PageDirectory* pd); extern uint32 MemHeapContract(uint32 newsz, MemHeap* heap, PageDirectory* pd);
extern uint32 MemHeapAlloc (uint32 size, uint8 isPageAligned, MemHeap* heap, PageDirectory* pd); extern uint32 MemHeapAlloc (uint32 size, uint8 isPageAligned, MemHeap* heap, PageDirectory* pd);
extern void MemHeapFree (uint32 address, MemHeap* heap, PageDirectory* pd); extern void MemHeapFree (uint32 address, MemHeap* heap, PageDirectory* pd);
#endif /* MEMORY_ADD_H_ */ #endif /* MEMORY_ADD_H_ */

View File

@ -32,7 +32,7 @@
// Memory manager // Memory manager
#define KERNEL_HEAP_START 0xC0000000 #define KERNEL_HEAP_START 0xC0000000
#define KERNEL_HEAP_INITIAL_SIZE 0x100000 #define KERNEL_HEAP_INITIAL_SIZE 0x100000
#define KERNEL_HEAP_END (KERNEL_HEAP_START + KERNEL_HEAP_INITIAL_SIZE) #define KERNEL_HEAP_END (KERNEL_HEAP_START + KERNEL_HEAP_INITIAL_SIZE)
#endif /* SETTINGS_H_ */ #endif /* SETTINGS_H_ */

View File

@ -1,28 +1,33 @@
/* /*
* tasking.h * tasking.h
* *
* Created on: Sep 8, 2011 * Created on: Sep 7, 2011
* Author: Tiberiu * Author: Tiberiu
*/ */
#ifndef TASKING_H_ #ifndef TASKING_H_
#define TASKING_H_ #define TASKING_H_
#include <types.h>
#include <memory-add.h> #include <memory-add.h>
typedef struct _Task { typedef struct _Task{
uint32 Pid; uint32 Pid; // Process ID
uint32 Eip, Esp, Ebp; uint32 Esp, Ebp, Eip; // Stack, base and instruction pointers
PageDirectory* Pd; PageDirectory* Pd; // Page dir
uint32 StackLowerBase; struct _Task *Next; // Next task in a linked list
uint32 StackUpperBase;
uint8 Initialized;
struct _Task* Next;
} Task; } Task;
extern void TaskInitialize(); extern void TaskingInitialize();
extern void TaskSwitch (); extern void TaskingScheduler();
extern void TaskCreate (void (*func)()); extern void TaskingSwitch();
extern int32 Fork();
extern void TaskingSetInitialStack(uint32 addr);
extern void TaskingMoveStack (uint32 newstart, uint32 size);
extern int32 GetPid();
extern uint32 TaskingReadEip();
#endif /* TASKING_H_ */ #endif /* TASKING_H_ */

View File

@ -1 +1 @@
#define OS_BUILD "0.1.1.50" #define OS_BUILD "0.1.1.48"

View File

@ -28,7 +28,8 @@ uint32 _malloc_init2 (uint32 size, uint8 page_aligned, uint32* phys)
if (phys) if (phys)
{ {
*phys = PagingGetPhysical(ret, KernelDirectory) + (ret & 0xFFF); Page *pg = PagingGetPage(ret, 0, KernelDirectory);
*phys = (*pg & PageFrame) + (ret & 0xFFF);
Log("Mem","%#Allocated %u bytes (%spage aligned) at address 0x%x (phys=%x).\n", ColorLightMagenta, size, ((page_aligned) ? "" : "not "), ret, *phys); Log("Mem","%#Allocated %u bytes (%spage aligned) at address 0x%x (phys=%x).\n", ColorLightMagenta, size, ((page_aligned) ? "" : "not "), ret, *phys);
} }

View File

@ -6,6 +6,7 @@
*/ */
#include <memory-add.h> #include <memory-add.h>
// MemoryGetFree(), MemoryGetTotal(), MemoryGet blah blah...
// Returns total physical memory in bytes // Returns total physical memory in bytes
uint32 MemoryGetTotal() uint32 MemoryGetTotal()
@ -16,13 +17,13 @@ uint32 MemoryGetTotal()
// Returns total free physical memory in bytes // Returns total free physical memory in bytes
uint32 MemoryGetFree() uint32 MemoryGetFree()
{ {
return (TotalBlocks - UsedBlocks) * 0x4; return (TotalFrames - UsedFrames) * 0x4;
} }
// Total used physical memory in bytes // Total used physical memory in bytes
uint32 MemoryGetUsed() uint32 MemoryGetUsed()
{ {
return UsedBlocks * 0x4; return UsedFrames * 0x4;
} }
// Same as above functions, but in frames // Same as above functions, but in frames
@ -33,15 +34,15 @@ uint32 MemoryGetFrameSize()
uint32 MemoryGetFramesTotal() uint32 MemoryGetFramesTotal()
{ {
return TotalBlocks; return TotalFrames;
} }
uint32 MemoryGetFramesUsed() uint32 MemoryGetFramesUsed()
{ {
return UsedBlocks; return UsedFrames;
} }
uint32 MemoryGetFramesFree() uint32 MemoryGetFramesFree()
{ {
return (TotalBlocks - UsedBlocks); return (TotalFrames - UsedFrames);
} }

View File

@ -10,6 +10,7 @@
#include "../../drivers/cmos/cmos.h" #include "../../drivers/cmos/cmos.h"
#include <stdio.h> #include <stdio.h>
uint32 mem_kernel_end = 0; uint32 mem_kernel_end = 0;
uint8 mem_initialized = 0; uint8 mem_initialized = 0;
@ -41,7 +42,7 @@ void _memory_reserve_system(MultibootInfo* info)
while ((uint32)location < (info->MemoryMapAddress + info->MemoryMapLength)) while ((uint32)location < (info->MemoryMapAddress + info->MemoryMapLength))
{ {
if (location->Type > 1) if (location->Type > 1)
MemPhReserveBlocks((uint32)location->Address, (uint32)location->Length); MemPhReserveFrames((uint32)location->Address, (uint32)location->Length);
location = (MultibootMemoryMapEntry*) ((uint32)location + location->Size + sizeof(uint32)); location = (MultibootMemoryMapEntry*) ((uint32)location + location->Size + sizeof(uint32));
} }
@ -52,35 +53,29 @@ void _memory_reserve_system(MultibootInfo* info)
Error("Mem", "%#Missing %#memory map%# info from bootloader.\n", ColorLightRed, ColorWhite, ColorLightRed); Error("Mem", "%#Missing %#memory map%# info from bootloader.\n", ColorLightRed, ColorWhite, ColorLightRed);
// Standard memory hole at 15mb // Standard memory hole at 15mb
MemPhReserveBlocks(0x00F00000, 0x00100000); MemPhReserveFrames(0x00F00000, 0x00100000);
} }
// Standard reserved memory areas
MemPhReserveFrames(0x0, 0x400 + 256); // Real mode IVT, BDA
MemPhReserveFrames(0x1000, 0x2400); // DMA buffer
MemPhReserveFrames(0x9FC00, 385*1024); // EBDA, Video memory, ROM area
} }
void MemoryInitialize (MultibootInfo* info) void MemoryInitialize (MultibootInfo* info)
{ {
// Get total system memory
uint32 totalSystemMemory = _memory_get_total_mem(info); uint32 totalSystemMemory = _memory_get_total_mem(info);
// Initialize physical & virtual memory managers
uint32 end = mem_kernel_end + 0x80000;
MemPhInitialize(totalSystemMemory); MemPhInitialize(totalSystemMemory);
PagingInitialize(&end); PagingInitialize((volatile uint32*)&mem_kernel_end);
// Reserve physical blocks
_memory_reserve_system(info); _memory_reserve_system(info);
uint32 i;
// Allocate some space for the kernel heap
for (i = KERNEL_HEAP_START; i <= KERNEL_HEAP_END; i += 0x1000)
PagingMapPage(MemPhAllocateBlock(), i, PageWriteable, KernelDirectory);
// Create the kernel heap
KernelHeap = MemHeapCreate(KERNEL_HEAP_START, KERNEL_HEAP_START KernelHeap = MemHeapCreate(KERNEL_HEAP_START, KERNEL_HEAP_START
+ KERNEL_HEAP_INITIAL_SIZE, 0xCFFFF000, 3); // is kernel, writeable + KERNEL_HEAP_INITIAL_SIZE, 0xCFFFF000, 3); // is kernel, writeable
Log("Mem", "Done initializing memory!\n"); Log("Mem", "Done initializing memory!");
mem_initialized = 2; mem_initialized = 2;
} }
@ -89,5 +84,5 @@ void MemoryTempInitialize (uint32 kernel_end)
{ {
mem_initialized = 1; mem_initialized = 1;
mem_kernel_end = kernel_end; mem_kernel_end = kernel_end;
Log("Mem", "Initialized temporary memory manager, allocating from %#0x%x.\n", ColorWhite, mem_kernel_end); Log("Mem", "Initialized temporary memory manager, allocating from %#0x%x.\n", kernel_end);
} }

View File

@ -39,9 +39,6 @@ start:
extern k_main extern k_main
call k_main call k_main
cli
hlt
; Show error message, and halt system ; Show error message, and halt system
.bad: .bad:

View File

@ -12,8 +12,10 @@ extern uint32 _end;
extern void luxInitrdInstall (MultibootInfo* info); extern void luxInitrdInstall (MultibootInfo* info);
void k_main(MultibootInfo* info) void k_main(MultibootInfo* info, uint32 initial_stack)
{ {
TaskingSetInitialStack(initial_stack);
uint32 KernelEnd = (uint32)&_end; uint32 KernelEnd = (uint32)&_end;
// Find kernel's end // Find kernel's end
@ -30,7 +32,7 @@ void k_main(MultibootInfo* info)
MemoryTempInitialize(KernelEnd); MemoryTempInitialize(KernelEnd);
MemoryInitialize(info); MemoryInitialize(info);
TaskInitialize(); TaskingInitialize();
HalInitialize(); HalInitialize();
luxInitrdInstall(info); luxInitrdInstall(info);

View File

@ -6,6 +6,9 @@
#define MEMHEAP_INDEX_SIZE 0x20000 #define MEMHEAP_INDEX_SIZE 0x20000
#define MEMHEAP_MINIM_SIZE 0x70000 #define MEMHEAP_MINIM_SIZE 0x70000
#define FlagsKernel 1
#define FlagsWriteable 2
typedef struct typedef struct
{ {
uint32 Magic; uint32 Magic;
@ -95,31 +98,30 @@ MemHeap* MemHeapCreate(uint32 start, uint32 end, uint32 max, uint8 flags)
} }
uint32 MemHeapExpand(uint32 newsz, MemHeap* heap, PageDirectory* pd) void MemHeapExpand(uint32 newsz, MemHeap* heap, PageDirectory* pd)
{ {
if (newsz <= heap->EndAddress - heap->StartAddress) return heap->EndAddress - heap->StartAddress; if (newsz <= heap->EndAddress - heap->StartAddress) return;
if (newsz & 0xfff) newsz = (newsz & 0xfffff000) + 0x1000; if (newsz & 0xfff) newsz = (newsz & 0xfffff000) + 0x1000;
if (newsz + heap->StartAddress >= heap->MaxAddress) return heap->EndAddress - heap->StartAddress; if (newsz + heap->StartAddress >= heap->MaxAddress) return;
uint32 i; uint32 i;
for (i = heap->EndAddress; i < heap->StartAddress + newsz; i+=0x1000) for (i = heap->EndAddress - heap->StartAddress; i < heap->StartAddress + newsz; i+=0x1000)
PagingMapPage(MemPhAllocateBlock(), i, heap->Flags, pd); MemPhAllocFrame(PagingGetPage(i, 1, pd), heap->Flags & FlagsKernel, heap->Flags & FlagsWriteable);
heap->EndAddress = heap->StartAddress + newsz; heap->EndAddress = heap->StartAddress + newsz;
return newsz;
} }
uint32 MemHeapContract(uint32 newsz, MemHeap* heap, PageDirectory* pd) uint32 MemHeapContract(uint32 newsz, MemHeap* heap, PageDirectory* pd)
{ {
if (newsz >= heap->EndAddress - heap->StartAddress) return heap->EndAddress - heap->StartAddress; if (newsz >= heap->EndAddress - heap->StartAddress) return 0;
if (newsz & 0xfff) newsz = (newsz & 0xfffff000) + 0x1000; // page align if (newsz & 0xfff) newsz = (newsz & 0xfffff000) + 0x1000; // page align
newsz = Max(newsz, MEMHEAP_MINIM_SIZE); newsz = Max(newsz, MEMHEAP_MINIM_SIZE);
uint32 i; uint32 i;
for (i = heap->EndAddress - 0x1000; i > heap->StartAddress + newsz; i-=0x1000) for (i = heap->EndAddress - heap->StartAddress - 0x1000; i > newsz; i-=0x1000)
PagingUnmapPage(i, pd); MemPhFreeFrame(PagingGetPage(i, 0, pd));
heap->EndAddress = heap->StartAddress + newsz; heap->EndAddress = heap->StartAddress + newsz;
return newsz; return newsz;

View File

@ -6,123 +6,132 @@
*/ */
#include <memory-add.h> #include <memory-add.h>
#include <stdio.h> #include <stdio.h>
/******************************* /*******************************
* Data * * Data *
*******************************/ *******************************/
PageDirectory* CurrentDirectory; PageDirectory* CurrentDirectory;
PageDirectory* KernelDirectory; PageDirectory* KernelDirectory;
void PagingEnable() /*******************************
* Useful routines *
*******************************/
void PagingInitialize(volatile uint32* kernel_used)
{ {
uint32 tmp; Log("Mem", "Virtual memory manager initialization started. End of kernel = 0x%x\n", kernel_used);
asm volatile ("mov %%cr0, %0" : "=r"(tmp));
tmp |= 0x80000000; PageDirectory* kernelPd = (PageDirectory*) kmalloc_a(sizeof(PageDirectory));
asm volatile ("mov %0, %%cr0" : : "r"(tmp)); memset(kernelPd, 0, sizeof(PageDirectory));
kernelPd->PhysicalAddr = (uint32)kernelPd->TablesPhysical;
KernelDirectory = kernelPd;
uint32 i;
// Map some kernel space
for (i = KERNEL_HEAP_START; i < KERNEL_HEAP_END; i+=0x1000)
PagingGetPage(i, 1, kernelPd);
// Identity map
for (i = 0; i < (volatile uint32) kernel_used + 0x1000; i+=0x1000)
MemPhAllocFrame(PagingGetPage(i, 1, kernelPd), 0, 0);
// Allocate kernel space
for (i = KERNEL_HEAP_START; i < KERNEL_HEAP_END; i+=0x1000)
MemPhAllocFrame (PagingGetPage(i, 1, kernelPd), 0, 0);
PagingSwitchPageDirectory (kernelPd);
PageDirectory* temp = PagingCloneDirectory(kernelPd);
PagingSwitchPageDirectory (temp);
} }
void PagingDisable() void PagingSwitchPageDirectory (PageDirectory* dir)
{
uint32 tmp;
asm volatile ("mov %%cr0, %0" : "=r"(tmp));
tmp &= 0x7FFFFFFF;
asm volatile ("mov %0, %%cr0" : : "r"(tmp));
}
void PagingSwitchDirectory(PageDirectory* dir)
{ {
CurrentDirectory = dir; CurrentDirectory = dir;
asm volatile ("mov %0, %%cr3" : : "r"(dir->PhysicalAddr)); asm volatile ("mov %0, %%cr3":: "r"(dir->PhysicalAddr));
// Enable paging
uint32 cr0;
asm volatile ("mov %%cr0, %0": "=r"(cr0));
cr0 |= 0x80000000;
asm volatile ("mov %0, %%cr0":: "r"(cr0));
Log("Mem", "Enabled paging.\n");
} }
void PagingFlushTlb () Page* PagingGetPage(uint32 addr, uint8 make, PageDirectory* dir)
{ {
uint32 tmp; addr >>= 12;
asm volatile ("mov %%cr3, %0" : "=r"(tmp));
asm volatile ("mov %0, %%cr3" : : "r" (tmp));
}
void PagingInitialize(uint32* kernelEnd) uint32 tableIndex = addr >> 10;
{
// Create the kernel page directory
PageDirectory* kdir = kmalloc_a(sizeof(PageDirectory));
memset(kdir, 0, sizeof(PageDirectory));
KernelDirectory = kdir; if (dir->Tables[tableIndex])
return &dir->Tables[tableIndex]->Pages[addr&0x3ff];
// Set up physical address of PDEs. else if (make)
kdir->PhysicalAddr = (uint32) kdir->TablesPhysical;
// Identity map the kernel
uint32 i = 0;
while (i <= *kernelEnd + 1024)
{ {
PagingMapPage(i, i, PageWriteable, kdir); uint32 temp;
i += 0x1000; dir->Tables[tableIndex] = (PageTable*)kmalloc_ap(sizeof(PageTable), &temp);
memset (dir->Tables[tableIndex], 0, 0x1000);
dir->TablesPhysical[tableIndex] = temp | 0x7;
return &dir->Tables[tableIndex]->Pages[addr&0x3ff];
} }
// Reserve the identity mapped blocks else return 0;
MemPhReserveBlocks(0x0, *kernelEnd);
PagingSwitchDirectory(kdir);
PagingEnable();
} }
void PagingMapPage (uint32 phys, uint32 virt, uint32 flags, PageDirectory* pd)
PageTable* PagingCloneTable (PageTable* src, uint32* physAddr)
{ {
// Calculate pde and pte PageTable* tab = (PageTable*) kmalloc_ap(sizeof(PageTable), physAddr);
uint32 pde = virt >> 22; memset (tab, 0, sizeof(PageTable));
uint32 pte = (virt >> 12) & 0x3ff;
phys &= 0xFFFFF000; // Make sure address is page aligned uint32 i;
flags &= 0xFFF; // Make sure flags don't overflow for (i=0; i<1024; i++)
// See if page table exists
if (!pd->Tables[pde])
{ {
// No? allocate it if (!(src->Pages[i] & PageFrame)) continue;
uint32 ph; MemPhAllocFrame(&tab->Pages[i], 1, 0);
PageTable* pt = kmalloc_ap(sizeof(PageTable), &ph);
memset(pt, 0, sizeof(PageTable));
pd->Tables[pde] = pt; if (src->Pages[i] & PagePresent) tab->Pages[i] |= PagePresent;
pd->TablesPhysical[pde] = ph | 0x7; if (src->Pages[i] & PageWriteable) tab->Pages[i] |= PageWriteable;
if (src->Pages[i] & PageUser) tab->Pages[i] |= PageUser;
if (src->Pages[i] & PageAccessed) tab->Pages[i] |= PageAccessed;
if (src->Pages[i] & PageDirty) tab->Pages[i] |= PageDirty;
PagingCopyPagePhysical (src->Pages[i] & PageFrame, tab->Pages[i] & PageFrame);
} }
// Set up the page return tab;
pd->Tables[pde]->Pages[pte] = phys | flags | 0x1; // Present, and flags
// If it is the current directory, flush the tlb to notice the change
if (pd == CurrentDirectory) PagingFlushTlb();
} }
void PagingUnmapPage (uint32 virt, PageDirectory* pd) PageDirectory* PagingCloneDirectory (PageDirectory* src)
{ {
// Calculate pde and pte uint32 phys;
uint32 pde = virt >> 22; PageDirectory* dir = (PageDirectory*)kmalloc_ap(sizeof(PageDirectory), &phys);
uint32 pte = (virt >> 12) & 0x3ff;
if (!pd->Tables[pde] || !pd->Tables[pde]->Pages[pte]) return; memset(dir, 0, sizeof(PageDirectory));
// Get physical address uint32 offset = (uint32)dir->TablesPhysical - (uint32)dir;
uint32 phys = pd->Tables[pde]->Pages[pte] & PageFrame; dir->PhysicalAddr = phys + offset;
// Free page uint32 i;
pd->Tables[pde]->Pages[pte] = 0; for (i = 0; i < 1024; i++)
MemPhFreeBlock(phys); {
if (!src->Tables[i]) continue;
// If it is the current directory, flush the tlb to notice the change if (KernelDirectory->Tables[i] == src->Tables[i])
if (pd == CurrentDirectory) PagingFlushTlb(); {
} // It is in the kernel, link it
dir->Tables[i] = src->Tables[i];
uint32 PagingGetPhysical (uint32 virt, PageDirectory* pd) dir->TablesPhysical[i] = src->TablesPhysical[i];
{ }
// Calculate pde and pte else
uint32 pde = virt >> 22; {
uint32 pte = (virt >> 12) & 0x3ff; // Copy the table
uint32 ph;
// Not mapped dir->Tables[i] = PagingCloneTable (src->Tables[i], &ph);
if (!pd->Tables[pde] || !pd->Tables[pde]->Pages[pte]) return NULL; dir->TablesPhysical[i] = ph | 0x7;
}
return (pd->Tables[pde]->Pages[pte] & PageFrame); }
return dir;
} }

View File

@ -6,89 +6,103 @@
*/ */
#include <memory-add.h> #include <memory-add.h>
uint32* BlockMap; uint32* FrameMap;
uint32 TotalBlocks; uint32 TotalFrames;
uint32 TotalMemory; uint32 TotalMemory;
uint32 UsedBlocks; uint32 UsedFrames;
inline void ConvertIndexToBlock (uint32 index, uint32* address, uint32* offset) inline void ConvertIndexToFrame (uint32 index, uint32* address, uint32* offset)
{ {
*address = (index >> 5); *address = (index >> 5);
*offset = index & 0x1f; *offset = index & 0x1f;
} }
inline uint32 ConvertBlockToIndex (uint32 address, uint32 offset) inline uint32 ConvertFrameToIndex (uint32 address, uint32 offset)
{ {
return (address<<5) | offset; return (address<<5) | offset;
} }
void MemPhSetBlock (uint32 Block, uint8 value) void MemPhSetFrame (uint32 frame, uint8 value)
{ {
uint32 addr, off; uint32 addr, off;
ConvertIndexToBlock(Block, &addr, &off); ConvertIndexToFrame(frame, &addr, &off);
if (value) { if (value) {
if ((BlockMap[addr] & (1<<off)) == 0) UsedBlocks++; if ((FrameMap[addr] & (1<<off)) == 0) UsedFrames++;
BlockMap[addr] |= 1<<off; FrameMap[addr] |= 1<<off;
} }
else { else {
if (BlockMap[addr] & (1<<off)) UsedBlocks--; if (FrameMap[addr] & (1<<off)) UsedFrames--;
BlockMap[addr] &= ~(1<<off); FrameMap[addr] &= ~(1<<off);
} }
} }
uint32 MemPhGetBlock (uint32 Block) uint32 MemPhGetFrame (uint32 frame)
{ {
uint32 addr, off; uint32 addr, off;
ConvertIndexToBlock(Block, &addr, &off); ConvertIndexToFrame(frame, &addr, &off);
return BlockMap[addr] & (1<<off); return FrameMap[addr] & (1<<off);
} }
uint32 MemPhAllocateBlock() uint32 MemPhFindFreeFrame()
{ {
uint32 addr, pos; uint32 addr, pos;
for (addr = 0; addr < TotalBlocks >> 5; addr++) for (addr = 0; addr < TotalFrames >> 5; addr++)
if (BlockMap[addr] != 0xffffffff) if (FrameMap[addr] != 0xffffffff)
{ {
for (pos = 0; (BlockMap[addr] & (1<<pos)) != 0; pos++) ; for (pos = 0; (FrameMap[addr] & (1<<pos)) != 0; pos++) ;
uint32 index = ConvertBlockToIndex(addr, pos); return ConvertFrameToIndex(addr, pos);
MemPhSetBlock(index, 1);
// Return address
return (index<<12);
} }
return 0xffffffff; return 0xffffffff;
} }
void MemPhFreeBlock(uint32 addr) void MemPhAllocFrame(Page* page, uint8 isKernel, uint8 isWriteable)
{ {
uint32 Block = addr >> 12; if ((*page & PageFrame) != 0) return;
if (!Block) return;
MemPhSetBlock(Block, 0); uint32 free = MemPhFindFreeFrame();
if (free == 0xffffffff) {
Panic("Mem", "%#Failed allocation free=0x%x page=0x%x\n", ColorRed, free, *page);
return;
}
MemPhSetFrame(free, 1);
*page |= PagePresent;
*page |= (isKernel) ? 0 : PageUser;
*page |= (isWriteable) ? PageWriteable : 0;
*page |= (free<<12) & PageFrame;
}
void MemPhFreeFrame(Page* page)
{
uint32 frame = *page & PageFrame;
if (!frame) return;
MemPhSetFrame(frame, 0);
*page &= ~PageFrame;
} }
void MemPhInitialize(uint32 SystemMemoryKb) void MemPhInitialize(uint32 SystemMemoryKb)
{ {
TotalBlocks = SystemMemoryKb >> 2; TotalFrames = SystemMemoryKb >> 2;
TotalMemory = SystemMemoryKb; TotalMemory = SystemMemoryKb;
BlockMap = (uint32*) kmalloc(sizeof(uint32) * (1 + (TotalBlocks>>5))); FrameMap = (uint32*) kmalloc(sizeof(uint32) * (1 + (TotalFrames>>5)));
memset(BlockMap, 0, sizeof(uint32) * (1 + (TotalBlocks>>5))); memset(FrameMap, 0, sizeof(uint32) * (1 + (TotalFrames>>5)));
Log("Mem", "%#Started physical memory manager ok!, found %ukb\n", ColorLightGreen, SystemMemoryKb); Log("Mem", "%#Started physical memory manager ok!, found %ukb\n", ColorLightGreen, SystemMemoryKb);
} }
void MemPhReserveBlocks (uint32 address, uint32 length) void MemPhReserveFrames (uint32 address, uint32 length)
{ {
address >>= 12; address >>= 12;
length = (length>>12) + ((length & 0xfff) > 0); length = (length>>12) + ((length & 0xfff) > 0);
uint32 end = address + length; uint32 end = address + length;
for (; address < end ; address++) for (; address < end ; address++)
MemPhSetBlock(address, 1); MemPhSetFrame(address, 1);
} }

View File

@ -1,7 +1,49 @@
; tasking.asm ;
; tasking-asm.asm
;
; Created on: Sep 6, 2011
; Author: Tiberiu
;
bits 32 bits 32
global TaskReadEip global PagingCopyPagePhysical
TaskReadEip: PagingCopyPagePhysical:
push ebx
pushf
cli
mov ebx, [esp+12]
mov ecx, [esp+16]
; Disable paging
mov edx, cr0
and edx, 0x7fffffff
mov cr0, edx
; copy
mov edx, 1024
.loop:
mov eax, [ebx]
mov [ecx], eax
add ebx, 4
add ecx, 4
dec edx
jnz .loop
; reenable paging
mov edx, cr0
or edx, 0x80000000
mov cr0, edx
; return
popf
pop ebx
ret
global TaskingReadEip
TaskingReadEip:
pop eax pop eax
jmp eax jmp eax

View File

@ -1,107 +1,141 @@
/* /*
* tasking-multi.c * tasking-multi.c
* *
* Created on: Sep 8, 2011 * Created on: Sep 7, 2011
* Author: Tiberiu * Author: Tiberiu
*/ */
#include <tasking.h> #include <tasking.h>
#include <memory-add.h> #include <debugio.h>
#include <stdio.h> #include <stdio.h>
Task* TaskList; volatile Task *CurrentTask;
Task* CurrentTask; volatile Task *TaskQueue;
uint32 NextPid = 1; volatile uint32 NextPid = 1;
void TaskSwitch (_RegsStack32* regs) void TaskingInitialize()
{ {
MagicBreakpoint(); // Stop interrupts
asm volatile ("cli");
if (!TaskList) return; // Relocate stack
TaskingMoveStack(0xE0000000, 0x4000);
uint32 eip = TaskReadEip(); // Set up first task (kernel)
if (eip == 0xABCDEF) return; CurrentTask = TaskQueue = (Task*) kmalloc(sizeof(Task));
CurrentTask->Pid = NextPid ++;
CurrentTask->Esp = CurrentTask->Ebp = CurrentTask->Eip = 0;
CurrentTask->Pd = CurrentDirectory;
CurrentTask->Next = NULL;
// Save context // Reenable interrupts
asm volatile ("mov %%esp, %0" : "=r"(CurrentTask->Esp)); asm volatile ("sti");
asm volatile ("mov %%ebp, %0" : "=r"(CurrentTask->Ebp));
CurrentTask->Eip = eip;
// Next task Log("Tasking", "Initialized, currenttask: pid=%u esp=%x ebp=%x eip=%x Pd=%x Next=%x\n", CurrentTask->Pid,
CurrentTask = (!CurrentTask->Next) ? TaskList : CurrentTask->Next ; CurrentTask->Esp, CurrentTask->Ebp, CurrentTask->Eip, CurrentTask->Pd, CurrentTask->Next);
// Switch context
PagingSwitchDirectory(CurrentTask->Pd);
// Prepare for jump
asm volatile (""
"mov %0, %%ebp; "
"mov %1, %%esp; "
"mov %2, %%ecx; "
"mov $0xABCDEF, %%eax; "
"jmp *%%ecx; "
: : "r"(CurrentTask->Ebp), "r"(CurrentTask->Esp), "r"(CurrentTask->Eip)
: "eax", "ecx");
} }
// Fallback for new tasks int32 Fork()
void TaskEnd ()
{ {
// Find parent of current task asm volatile ("cli");
if (CurrentTask->Pid == TaskList->Pid) TaskList = TaskList->Next;
else { Task* Parent = (Task*) CurrentTask;
Task* t = TaskList; PageDirectory* Dir = PagingCloneDirectory(CurrentDirectory);
while (t->Next && t->Next->Pid != CurrentTask->Pid) t = t->Next;
t->Next = CurrentTask->Next; // Create a new process
Task* n = (Task*)kmalloc(sizeof(Task));
n->Pid = NextPid++;
n->Esp = n->Ebp = 0;
n->Eip = 0;
n->Pd = Dir;
n->Next = 0;
// Add it at the end of the queue
Task* temp = (Task*) TaskQueue;
while (temp->Next) temp = temp->Next; // Find end of queue
temp->Next = n; // Add it
// Read eip
uint32 eip = TaskingReadEip();
// We could be the parent
if (CurrentTask == Parent)
{
uint32 esp, ebp;
asm volatile ("mov %%esp, %0" : "=r"(esp));
asm volatile ("mov %%ebp, %0" : "=r"(ebp));
n->Esp = esp;
n->Ebp = ebp;
n->Eip = eip;
asm volatile ("sti");
return n->Pid;
} }
// Free allocated space // Or the child
kfree((void*)CurrentTask->StackLowerBase); else return 0;
kfree(CurrentTask);
// Wait for next task
for (;;) ;
} }
void TaskCreate (void (*func)()) void TaskingScheduler()
{ {
// Create a new task // For now, just switch tasks
Task* t = kmalloc(sizeof(Task)); TaskingSwitch();
// Set up data
t->StackLowerBase = (uint32) kmalloc(0x1000); // Allocate some space for new stack
t->StackUpperBase = t->StackLowerBase + 0x1000;
t->Next = NULL;
t->Pd = KernelDirectory;
t->Pid = NextPid++;
// Set up stack
/*memset(&t->Regs, 0, sizeof(_RegsStack32));
t->Regs.ebp = t->StackUpperBase;
t->Regs.esp = (t->StackUpperBase - 0x4 - sizeof(_RegsStack32));
t->Regs.useresp = t->StackUpperBase - 0x4;
t->Regs.eip = (uint32) func;
*(uint32 *) (t->Regs.esp) = (uint32) TaskEnd; // Fallback function
t->Initialized = 0;
// Read eflags
asm volatile ("pushf; pop %0" : "=r"(t->Regs.eflags));*/
// Add the task to the list
Task* last = TaskList;
while (last && last->Next) last = last->Next;
if (last) last->Next = t;
} }
void TaskInitialize() void Func()
{ {
Task* t = kmalloc(sizeof(Task));
t->Pid = NextPid++; }
t->Pd = KernelDirectory;
t->Next = NULL; void TaskingSwitch()
{
TaskList = CurrentTask = t; // Make sure tasking is initialized, or there are at least 2 processes running
if (!CurrentTask) return;
// Save esp & epb
uint32 esp, ebp, eip;
asm volatile("mov %%esp, %0" : "=r"(esp));
asm volatile("mov %%ebp, %0" : "=r"(ebp));
eip = TaskingReadEip();
// Have we just switched tasks?
if (eip == 0xABCDE) return;
// No? Switch
// Save stack address and current instruction pointer
CurrentTask->Eip = eip;
CurrentTask->Esp = esp;
CurrentTask->Ebp = ebp;
//Log("Tasking", "Saved eip=%x esp=%x ebp=%x\n", eip, esp, ebp);
CurrentTask = CurrentTask ->Next; // Switch task
if (!CurrentTask) CurrentTask = TaskQueue; // End of queue? Start over
// Read registers
eip = CurrentTask->Eip;
esp = CurrentTask->Esp;
ebp = CurrentTask->Ebp;
//Log("Tasking", "Loaded eip=%x esp=%x ebp=%x", eip, esp, ebp);
CurrentDirectory = CurrentTask->Pd;
MagicBreakpoint();
// Put data in registers
asm volatile (" "
"cli;"
"mov %0, %%ecx;"
"mov %1, %%esp;"
"mov %2, %%ebp;"
"mov %3, %%cr3;"
"mov $0xABCDE, %%eax;"
"sti;"
"jmp *%%ecx"
: : "r"(eip), "r"(esp), "r"(ebp), "r"(CurrentDirectory->PhysicalAddr));
}
int32 GetPid()
{
return CurrentTask->Pid;
} }

View File

@ -0,0 +1,51 @@
/*
* tasking-stack.c
*
* Created on: Sep 7, 2011
* Author: Tiberiu
*/
#include <memory-add.h>
uint32 InitialStack;
void TaskingSetInitialStack(uint32 addr)
{
InitialStack = addr;
}
void TaskingMoveStack (uint32 newstart, uint32 size)
{
uint32 i;
for (i = newstart; i >= newstart-size; i-= 0x1000)
MemPhAllocFrame(PagingGetPage(i, 1, CurrentDirectory), 0, 1);
// Flush TLB by rewriting cr3
uint32 t;
asm volatile ("mov %%cr3, %0" : "=r" (t));
asm volatile ("mov %0, %%cr3" : : "r" (t));
// Read old esp, ebp regs
uint32 oldStackPointer, oldBasePointer;
asm volatile ("mov %%esp, %0" : "=r"(oldStackPointer));
asm volatile ("mov %%ebp, %0" : "=r"(oldBasePointer));
uint32 offset = newstart - InitialStack;
uint32 newStackPointer = oldStackPointer + offset;
uint32 newBasePointer = oldBasePointer + offset;
// Copy stack content
memcpy((void*)newStackPointer, (void*)oldStackPointer, InitialStack-oldStackPointer);
// (Attempt to) change EBP addresses in new stack
for (i = newstart; i > newstart - size; i-=4)
{
uint32 *temp = (uint32*)i;
if (oldStackPointer < *temp && *temp < InitialStack)
*temp += offset;
}
// Set stack pointers to new stack
asm volatile ("mov %0, %%esp" : : "r" (newStackPointer));
asm volatile ("mov %0, %%ebp" : : "r" (newBasePointer));
}

View File

@ -1,6 +1,6 @@
CREATE "filename" ; creates a new ramdisk with the filename CREATE "filename" ; creates a new ramdisk with the filename
MKDIR "name" ; creates a new directory (in current dir) MKDIR "name" ; creates a new directory (in current dir)
CD "\path" ; sets current directory, where \ is root CD "\path" ; sets current directory
ADD "filename" ; adds a file to current directory! ADD "filename" ; adds a file to current directory!
SETFLAGS 1A1B01 ; sets flags for next added files, number is in hex using this mask: SETFLAGS 1A1B01 ; sets flags for next added files, number is in hex using this mask:
* bits description * bits description

View File

@ -1,133 +0,0 @@
#
# Generated Makefile - do not edit!
#
# Edit the Makefile in the project folder instead (../Makefile). Each target
# has a pre- and a post- target defined where you can add customization code.
#
# This makefile implements macros and targets common to all configurations.
#
# NOCDDL
# Building and Cleaning subprojects are done by default, but can be controlled with the SUB
# macro. If SUB=no, subprojects will not be built or cleaned. The following macro
# statements set BUILD_SUB-CONF and CLEAN_SUB-CONF to .build-reqprojects-conf
# and .clean-reqprojects-conf unless SUB has the value 'no'
SUB_no=NO
SUBPROJECTS=${SUB_${SUB}}
BUILD_SUBPROJECTS_=.build-subprojects
BUILD_SUBPROJECTS_NO=
BUILD_SUBPROJECTS=${BUILD_SUBPROJECTS_${SUBPROJECTS}}
CLEAN_SUBPROJECTS_=.clean-subprojects
CLEAN_SUBPROJECTS_NO=
CLEAN_SUBPROJECTS=${CLEAN_SUBPROJECTS_${SUBPROJECTS}}
# Project Name
PROJECTNAME=RamdiskWriter
# Active Configuration
DEFAULTCONF=Debug
CONF=${DEFAULTCONF}
# All Configurations
ALLCONFS=Debug Release
# build
.build-impl: .build-pre .validate-impl .depcheck-impl
@#echo "=> Running $@... Configuration=$(CONF)"
"${MAKE}" -f nbproject/Makefile-${CONF}.mk QMAKE=${QMAKE} SUBPROJECTS=${SUBPROJECTS} .build-conf
# clean
.clean-impl: .clean-pre .validate-impl .depcheck-impl
@#echo "=> Running $@... Configuration=$(CONF)"
"${MAKE}" -f nbproject/Makefile-${CONF}.mk QMAKE=${QMAKE} SUBPROJECTS=${SUBPROJECTS} .clean-conf
# clobber
.clobber-impl: .clobber-pre .depcheck-impl
@#echo "=> Running $@..."
for CONF in ${ALLCONFS}; \
do \
"${MAKE}" -f nbproject/Makefile-$${CONF}.mk QMAKE=${QMAKE} SUBPROJECTS=${SUBPROJECTS} .clean-conf; \
done
# all
.all-impl: .all-pre .depcheck-impl
@#echo "=> Running $@..."
for CONF in ${ALLCONFS}; \
do \
"${MAKE}" -f nbproject/Makefile-$${CONF}.mk QMAKE=${QMAKE} SUBPROJECTS=${SUBPROJECTS} .build-conf; \
done
# build tests
.build-tests-impl: .build-impl .build-tests-pre
@#echo "=> Running $@... Configuration=$(CONF)"
"${MAKE}" -f nbproject/Makefile-${CONF}.mk SUBPROJECTS=${SUBPROJECTS} .build-tests-conf
# run tests
.test-impl: .build-tests-impl .test-pre
@#echo "=> Running $@... Configuration=$(CONF)"
"${MAKE}" -f nbproject/Makefile-${CONF}.mk SUBPROJECTS=${SUBPROJECTS} .test-conf
# dependency checking support
.depcheck-impl:
@echo "# This code depends on make tool being used" >.dep.inc
@if [ -n "${MAKE_VERSION}" ]; then \
echo "DEPFILES=\$$(wildcard \$$(addsuffix .d, \$${OBJECTFILES}))" >>.dep.inc; \
echo "ifneq (\$${DEPFILES},)" >>.dep.inc; \
echo "include \$${DEPFILES}" >>.dep.inc; \
echo "endif" >>.dep.inc; \
else \
echo ".KEEP_STATE:" >>.dep.inc; \
echo ".KEEP_STATE_FILE:.make.state.\$${CONF}" >>.dep.inc; \
fi
# configuration validation
.validate-impl:
@if [ ! -f nbproject/Makefile-${CONF}.mk ]; \
then \
echo ""; \
echo "Error: can not find the makefile for configuration '${CONF}' in project ${PROJECTNAME}"; \
echo "See 'make help' for details."; \
echo "Current directory: " `pwd`; \
echo ""; \
fi
@if [ ! -f nbproject/Makefile-${CONF}.mk ]; \
then \
exit 1; \
fi
# help
.help-impl: .help-pre
@echo "This makefile supports the following configurations:"
@echo " ${ALLCONFS}"
@echo ""
@echo "and the following targets:"
@echo " build (default target)"
@echo " clean"
@echo " clobber"
@echo " all"
@echo " help"
@echo ""
@echo "Makefile Usage:"
@echo " make [CONF=<CONFIGURATION>] [SUB=no] build"
@echo " make [CONF=<CONFIGURATION>] [SUB=no] clean"
@echo " make [SUB=no] clobber"
@echo " make [SUB=no] all"
@echo " make help"
@echo ""
@echo "Target 'build' will build a specific configuration and, unless 'SUB=no',"
@echo " also build subprojects."
@echo "Target 'clean' will clean a specific configuration and, unless 'SUB=no',"
@echo " also clean subprojects."
@echo "Target 'clobber' will remove all built files from all configurations and,"
@echo " unless 'SUB=no', also from subprojects."
@echo "Target 'all' will will build all configurations and, unless 'SUB=no',"
@echo " also build subprojects."
@echo "Target 'help' prints this message."
@echo ""

View File

@ -1,7 +0,0 @@
Exception: STATUS_ACCESS_VIOLATION at eip=6102048B
eax=00925C98 ebx=61243754 ecx=75907BBE edx=002F51F8 esi=00000000 edi=0022FA10
ebp=61020C00 esp=0022C7E0 program=C:\cygwin\bin\bash.exe, pid 2900, thread main
cs=001B ds=0023 es=0023 fs=003B gs=0000 ss=0023
Stack trace:
Frame Function Args
End of stack trace

View File

@ -30,13 +30,13 @@
00000000000i[ ] SB16 support: yes 00000000000i[ ] SB16 support: yes
00000000000i[ ] USB support: yes 00000000000i[ ] USB support: yes
00000000000i[ ] VGA extension support: vbe cirrus 00000000000i[ ] VGA extension support: vbe cirrus
00000000000i[MEM0 ] allocated memory at 03C60020. after alignment, vector=03C61000 00000000000i[MEM0 ] allocated memory at 04310020. after alignment, vector=04311000
00000000000i[MEM0 ] 32.00MB 00000000000i[MEM0 ] 32.00MB
00000000000i[MEM0 ] mem block size = 0x00100000, blocks=32 00000000000i[MEM0 ] mem block size = 0x00100000, blocks=32
00000000000i[MEM0 ] rom at 0xfffe0000/131072 ('C:\Program Files\Bochs-2.4.6\BIOS-bochs-latest') 00000000000i[MEM0 ] rom at 0xfffe0000/131072 ('C:\Program Files\Bochs-2.4.6\BIOS-bochs-latest')
00000000000i[MEM0 ] rom at 0xc0000/40448 ('C:\Program Files\Bochs-2.4.6\VGABIOS-lgpl-latest') 00000000000i[MEM0 ] rom at 0xc0000/40448 ('C:\Program Files\Bochs-2.4.6\VGABIOS-lgpl-latest')
00000000000i[CMOS ] Using local time for initial clock 00000000000i[CMOS ] Using local time for initial clock
00000000000i[CMOS ] Setting initial clock to: Tue Sep 20 12:05:43 2011 (time0=1316509543) 00000000000i[CMOS ] Setting initial clock to: Wed Sep 07 15:36:29 2011 (time0=1315398989)
00000000000i[DMA ] channel 4 used by cascade 00000000000i[DMA ] channel 4 used by cascade
00000000000i[DMA ] channel 2 used by Floppy Drive 00000000000i[DMA ] channel 2 used by Floppy Drive
00000000000i[FDD ] fd0: 'a:' ro=0, h=2,t=80,spt=18 00000000000i[FDD ] fd0: 'a:' ro=0, h=2,t=80,spt=18
@ -160,40 +160,65 @@
00023137418i[BIOS ] int13_harddisk: function 41, unmapped device for ELDL=80 00023137418i[BIOS ] int13_harddisk: function 41, unmapped device for ELDL=80
00023142199i[BIOS ] int13_harddisk: function 08, unmapped device for ELDL=80 00023142199i[BIOS ] int13_harddisk: function 08, unmapped device for ELDL=80
00023146850i[BIOS ] *** int 15h function AX=00c0, BX=0000 not yet supported! 00023146850i[BIOS ] *** int 15h function AX=00c0, BX=0000 not yet supported!
00044035593i[CPU0 ] [44035593] Stopped on MAGIC BREAKPOINT 00044037091i[CPU0 ] [44037091] Stopped on MAGIC BREAKPOINT
00044142237i[CPU0 ] [44142237] Stopped on MAGIC BREAKPOINT 00044377981i[CPU0 ] [44377981] Stopped on MAGIC BREAKPOINT
00044779187i[KBD ] setting typematic info 00044972707e[CPU0 ] interrupt(): gate descriptor is not valid sys seg (vector=0x08)
00044779205i[KBD ] setting delay to 500 mS (unused) 00044972707e[CPU0 ] interrupt(): gate descriptor is not valid sys seg (vector=0x0d)
00044779205i[KBD ] setting repeat rate to 10.9 cps (unused) 00044972707e[CPU0 ] interrupt(): gate descriptor is not valid sys seg (vector=0x08)
00044779248i[KBD ] Switched to scancode set 2 00044972707i[CPU0 ] CPU is in protected mode (active)
00044779311i[KBD ] keyboard: scan convert turned off 00044972707i[CPU0 ] CS.d_b = 32 bit
00044838196i[CPU0 ] [44838196] Stopped on MAGIC BREAKPOINT 00044972707i[CPU0 ] SS.d_b = 32 bit
00044838228i[ ] dbg: Quit 00044972707i[CPU0 ] EFER = 0x00000000
00044838228i[CPU0 ] CPU is in protected mode (active) 00044972707i[CPU0 ] | RAX=00000000c008000c RBX=00000000001195ee
00044838228i[CPU0 ] CS.d_b = 32 bit 00044972707i[CPU0 ] | RCX=000000000000006d RDX=000000000011f000
00044838228i[CPU0 ] SS.d_b = 32 bit 00044972707i[CPU0 ] | RSP=00000000dfffff98 RBP=0000000000067ec4
00044838228i[CPU0 ] EFER = 0x00000000 00044972707i[CPU0 ] | RSI=000000000002bd20 RDI=0000000000000000
00044838228i[CPU0 ] | RAX=0000000000108f18 RBX=0000000000000064 00044972707i[CPU0 ] | R8=0000000000000000 R9=0000000000000000
00044838228i[CPU0 ] | RCX=0000000000111720 RDX=0000000000000014 00044972707i[CPU0 ] | R10=0000000000000000 R11=0000000000000000
00044838228i[CPU0 ] | RSP=0000000000111720 RBP=0000000000000014 00044972707i[CPU0 ] | R12=0000000000000000 R13=0000000000000000
00044838228i[CPU0 ] | RSI=0000000000111806 RDI=0000000000000002 00044972707i[CPU0 ] | R14=0000000000000000 R15=0000000000000000
00044838228i[CPU0 ] | R8=0000000000000000 R9=0000000000000000 00044972707i[CPU0 ] | IOPL=0 id vip vif ac vm RF nt of df IF tf sf zf af pf cf
00044838228i[CPU0 ] | R10=0000000000000000 R11=0000000000000000 00044972707i[CPU0 ] | SEG selector base limit G D
00044838228i[CPU0 ] | R12=0000000000000000 R13=0000000000000000 00044972707i[CPU0 ] | SEG sltr(index|ti|rpl) base limit G D
00044838228i[CPU0 ] | R14=0000000000000000 R15=0000000000000000 00044972707i[CPU0 ] | CS:0008( 0001| 0| 0) 00000000 ffffffff 1 1
00044838228i[CPU0 ] | IOPL=0 id vip vif ac vm rf nt of df if tf sf ZF af PF cf 00044972707i[CPU0 ] | DS:0010( 0002| 0| 0) 00000000 ffffffff 1 1
00044838228i[CPU0 ] | SEG selector base limit G D 00044972707i[CPU0 ] | SS:0010( 0002| 0| 0) 00000000 ffffffff 1 1
00044838228i[CPU0 ] | SEG sltr(index|ti|rpl) base limit G D 00044972707i[CPU0 ] | ES:0010( 0002| 0| 0) 00000000 ffffffff 1 1
00044838228i[CPU0 ] | CS:0008( 0001| 0| 0) 00000000 ffffffff 1 1 00044972707i[CPU0 ] | FS:0010( 0002| 0| 0) 00000000 ffffffff 1 1
00044838228i[CPU0 ] | DS:0010( 0002| 0| 0) 00000000 ffffffff 1 1 00044972707i[CPU0 ] | GS:0010( 0002| 0| 0) 00000000 ffffffff 1 1
00044838228i[CPU0 ] | SS:0010( 0002| 0| 0) 00000000 ffffffff 1 1 00044972707i[CPU0 ] | MSR_FS_BASE:0000000000000000
00044838228i[CPU0 ] | ES:0010( 0002| 0| 0) 00000000 ffffffff 1 1 00044972707i[CPU0 ] | MSR_GS_BASE:0000000000000000
00044838228i[CPU0 ] | FS:0010( 0002| 0| 0) 00000000 ffffffff 1 1 00044972707i[CPU0 ] | RIP=00000000001091e2 (00000000001091e2)
00044838228i[CPU0 ] | GS:0010( 0002| 0| 0) 00000000 ffffffff 1 1 00044972707i[CPU0 ] | CR0=0xe0000011 CR2=0x0000000000000000
00044838228i[CPU0 ] | MSR_FS_BASE:0000000000000000 00044972707i[CPU0 ] | CR3=0x00120000 CR4=0x00000000
00044838228i[CPU0 ] | MSR_GS_BASE:0000000000000000 00044972707e[CPU0 ] exception(): 3rd (13) exception with no resolution, shutdown status is 00h, resetting
00044838228i[CPU0 ] | RIP=0000000000108f60 (0000000000108f60) 00044972707i[SYS ] bx_pc_system_c::Reset(HARDWARE) called
00044838228i[CPU0 ] | CR0=0xe0000011 CR2=0x0000000000000000 00044972707i[CPU0 ] cpu hardware reset
00044838228i[CPU0 ] | CR3=0x0011b000 CR4=0x00000000 00044972707i[APIC0] allocate APIC id=0 (MMIO enabled) to 0x00000000fee00000
00044838228i[CMOS ] Last time is 1316509554 (Tue Sep 20 12:05:54 2011) 00044972707i[CPU0 ] CPUID[0x00000000]: 00000003 756e6547 6c65746e 49656e69
00044838228i[CTRL ] quit_sim called with exit code 0 00044972707i[CPU0 ] CPUID[0x00000001]: 00000f23 00000800 00002000 07cbfbff
00044972707i[CPU0 ] CPUID[0x00000002]: 00410601 00000000 00000000 00000000
00044972707i[CPU0 ] CPUID[0x00000003]: 00000000 00000000 00000000 00000000
00044972707i[CPU0 ] CPUID[0x00000004]: 00000000 00000000 00000000 00000000
00044972707i[CPU0 ] CPUID[0x00000007]: 00000000 00000000 00000000 00000000
00044972707i[CPU0 ] CPUID[0x80000000]: 80000008 00000000 00000000 00000000
00044972707i[CPU0 ] CPUID[0x80000001]: 00000000 00000000 00000001 2a100800
00044972707i[CPU0 ] CPUID[0x80000002]: 20202020 20202020 20202020 6e492020
00044972707i[CPU0 ] CPUID[0x80000003]: 286c6574 50202952 69746e65 52286d75
00044972707i[CPU0 ] CPUID[0x80000004]: 20342029 20555043 20202020 00202020
00044972707i[CPU0 ] CPUID[0x80000006]: 00000000 42004200 02008140 00000000
00044972707i[CPU0 ] CPUID[0x80000007]: 00000000 00000000 00000000 00000000
00044972707i[CPU0 ] CPUID[0x80000008]: 00003028 00000000 00000000 00000000
00044972707i[ ] reset of 'unmapped' plugin device by virtual method
00044972707i[ ] reset of 'biosdev' plugin device by virtual method
00044972707i[ ] reset of 'speaker' plugin device by virtual method
00044972707i[ ] reset of 'extfpuirq' plugin device by virtual method
00044972707i[ ] reset of 'gameport' plugin device by virtual method
00044972707i[ ] reset of 'iodebug' plugin device by virtual method
00044972707i[ ] reset of 'pci_ide' plugin device by virtual method
00044972707i[ ] reset of 'acpi' plugin device by virtual method
00044972707i[ ] reset of 'ioapic' plugin device by virtual method
00044972707i[ ] reset of 'keyboard' plugin device by virtual method
00044972707i[ ] reset of 'harddrv' plugin device by virtual method
00044972707i[ ] reset of 'serial' plugin device by virtual method
00044972707i[ ] reset of 'parallel' plugin device by virtual method

File diff suppressed because it is too large Load Diff

Binary file not shown.

Binary file not shown.

BIN
build/crash.o Normal file

Binary file not shown.

Binary file not shown.

Binary file not shown.

BIN
build/keyboard.o Normal file

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

Binary file not shown.

BIN
build/tasking-stack.o Normal file

Binary file not shown.

View File

@ -1,16 +1,7 @@
[????] BUILD 0.1.1.50 DATE 9/20/2011 AT 12:43 PM [????] BUILD 0.1.1.??? DATE 9/0?/2011 AT ?:?? ??
==================================================== ====================================================
Mainly changed: Tasking Mainly changed: Tasking
+ Implemented multitasking + Implemented multitasking
+ Switching works
? TODO: Fix other not working tasking routines
[GOOD] BUILD 0.1.0.629 DATE 9/08/2011 AT 5:20 PM
====================================================
Mainly changed: Memory manager
+ Rewritten virtual memory manager (easier to understand now :D)
+ Updated physical memory manager
+ Other minor bug fixes
[GOOD] BUILD 0.1.0.601 DATE 9/06/2011 AT 5:20 PM [GOOD] BUILD 0.1.0.601 DATE 9/06/2011 AT 5:20 PM
==================================================== ====================================================

View File

@ -13,6 +13,5 @@ Kernel/hal/cpu/isrs-asm.asm
HAL :: Interrupt Requests assembly module HAL :: Interrupt Requests assembly module
Kernel/hal/cpu/irq-asm.asm Kernel/hal/cpu/irq-asm.asm
Tasking :: Assembly module Tasking :: Tasking assembly module
Kernel/tasking/tasking-asm.asm Kernel/tasking/tasking-asm.asm

View File

@ -133,6 +133,9 @@ Kernel/memory/mem-phys.c
Memory Manager :: Paging Memory Manager :: Paging
Kernel/memory/mem-paging.c Kernel/memory/mem-paging.c
Tasking :: Stack move
Kernel/tasking/tasking-stack.c
Tasking :: Multitasking Tasking :: Multitasking
Kernel/tasking/tasking-multi.c Kernel/tasking/tasking-multi.c

Binary file not shown.

BIN
luxos.img

Binary file not shown.

View File

@ -1,7 +1,7 @@
@echo off @echo off
E: C:
chdir E:\Software\OsDev chdir C:\Dev\lux
set CYGWIN=nodosfilewarning set CYGWIN=nodosfilewarning
bash /cygdrive/e/Software/OsDev/lux/build.sh C:\cygwin\bin\bash /cygdrive/c/Dev/lux/build.sh

View File

@ -1,6 +1,6 @@
@echo off @echo off
E: C:
chdir E:\Software\OsDev\lux chdir C:\Dev\lux
bash /cygdrive/e/Software/OsDev/lux/scripts/pack.sh C:\cygwin\bin\bash /cygdrive/c/Dev/lux/scripts/pack.sh

View File

@ -1,6 +1,6 @@
#!/bin/sh #!/bin/sh
cd /cygdrive/e/Software/OsDev cd /cygdrive/c/Dev
# Get version number # Get version number
read version < ./lux/Kernel/include/version.h read version < ./lux/Kernel/include/version.h

View File

@ -1 +1 @@
50 48