/// <summary>
/// Initializes a new instance of the <see cref="TypeInitializerSchedulerStage"/> class.
/// </summary>
public TypeInitializerSchedulerStage()
{
basicBlocks = new BasicBlocks();
// Create the blocks
var prologueBlock = basicBlocks.CreateBlock(BasicBlock.PrologueLabel);
var startBlock = basicBlocks.CreateBlock(BasicBlock.StartLabel);
var epilogueBlock = basicBlocks.CreateBlock(BasicBlock.EpilogueLabel);
// Create the prologue instructions
basicBlocks.AddHeadBlock(prologueBlock);
var prologue = new Context(prologueBlock);
prologue.AppendInstruction(IRInstruction.Prologue);
prologue.Label = -1;
prologue.AppendInstruction(IRInstruction.Jmp, startBlock);
// Create the epilogue instruction
var epilogue = new Context(epilogueBlock);
epilogue.AppendInstruction(IRInstruction.Epilogue);
// create start instructions
start = new Context(startBlock);
start.AppendInstruction(IRInstruction.Jmp, epilogueBlock);
start.GotoPrevious();
}
private void DecodeProtectedRegionTargets()
{
foreach (var handler in Method.ExceptionHandlers)
{
if (handler.TryStart != 0)
{
var block = GetBlockByLabel(handler.TryStart);
}
if (handler.TryEnd != 0)
{
var block = GetBlockByLabel(handler.TryEnd);
}
if (handler.HandlerStart != 0)
{
var block = GetBlockByLabel(handler.HandlerStart);
BasicBlocks.AddHeadBlock(block);
BasicBlocks.AddHandlerHeadBlock(block);
}
if (handler.FilterStart != null)
{
var block = GetBlockByLabel(handler.FilterStart.Value);
BasicBlocks.AddHeadBlock(block);
BasicBlocks.AddHandlerHeadBlock(block);
}
}
}
/// <summary>
/// Initializes a new instance of the <see cref="TypeInitializerStage"/> class.
/// </summary>
public TypeInitializerStage()
{
basicBlocks = new BasicBlocks();
// Create the blocks
var prologueBlock = basicBlocks.CreateBlock(BasicBlock.PrologueLabel);
var startBlock = basicBlocks.CreateBlock(BasicBlock.StartLabel);
var epilogueBlock = basicBlocks.CreateBlock(BasicBlock.EpilogueLabel);
// Create the prologue instructions
basicBlocks.AddHeadBlock(prologueBlock);
var prologue = new Context(prologueBlock);
prologue.AppendInstruction(IRInstruction.Prologue);
prologue.Label = -1;
prologue.AppendInstruction(IRInstruction.Jmp, startBlock);
// Create the epilogue instruction
var epilogue = new Context(epilogueBlock);
epilogue.AppendInstruction(IRInstruction.Epilogue);
// create start instructions
start = new Context(startBlock);
start.AppendInstruction(IRInstruction.Jmp, epilogueBlock);
start.GotoPrevious();
}
protected override void Run()
{
if (multibootMethod == null)
{
multibootHeader = Linker.CreateSymbol(MultibootHeaderSymbolName, SectionKind.Text, 1, 0x30);
multibootMethod = Compiler.CreateLinkerMethod("MultibootInit");
Linker.EntryPoint = Linker.GetSymbol(multibootMethod.FullName, SectionKind.Text);
WriteMultibootHeader();
Linker.CreateSymbol(MultibootEAX, SectionKind.BSS, Architecture.NativeAlignment, Architecture.NativePointerSize);
Linker.CreateSymbol(MultibootEBX, SectionKind.BSS, Architecture.NativeAlignment, Architecture.NativePointerSize);
return;
}
var typeInitializerSchedulerStage = Compiler.PostCompilePipeline.FindFirst <TypeInitializerSchedulerStage>();
var ecx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ECX);
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var multibootEax = Operand.CreateUnmanagedSymbolPointer(TypeSystem, MultibootEAX);
var multibootEbx = Operand.CreateUnmanagedSymbolPointer(TypeSystem, MultibootEBX);
var zero = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 0);
var stackTop = Operand.CreateConstant(TypeSystem.BuiltIn.I4, STACK_ADDRESS);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.Mov, Operand.CreateMemoryAddress(TypeSystem.BuiltIn.I4, esp, 0), stackTop);
ctx.AppendInstruction(X86.Mov, Operand.CreateMemoryAddress(TypeSystem.BuiltIn.I4, ebp, 0), zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.Mov, ecx, multibootEax);
ctx.AppendInstruction(X86.Mov, Operand.CreateMemoryAddress(TypeSystem.BuiltIn.I4, ecx, 0), eax);
ctx.AppendInstruction(X86.Mov, ecx, multibootEbx);
ctx.AppendInstruction(X86.Mov, Operand.CreateMemoryAddress(TypeSystem.BuiltIn.I4, ecx, 0), ebx);
// call type initializer
var entryPoint = Operand.CreateSymbolFromMethod(TypeSystem, typeInitializerSchedulerStage.TypeInitializerMethod);
ctx.AppendInstruction(X86.Call, null, entryPoint);
// should never get here
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks, 0);
}
protected override void Run()
{
if (!MethodCompiler.IsCILStream)
{
return;
}
// No CIL decoding if this is a linker generated method
Debug.Assert(!MethodData.IsCompilerGenerated);
MethodCompiler.SetLocalVariables(Method.LocalVariables);
// Create the prologue block
var prologue = CreateNewBlock(BasicBlock.PrologueLabel);
BasicBlocks.AddHeadBlock(prologue);
var jmpNode = new InstructionNode()
{
Label = BasicBlock.PrologueLabel,
Block = prologue
};
prologue.First.Insert(jmpNode);
// Create starting block
var startBlock = CreateNewBlock(0);
jmpNode.SetInstruction(IRInstruction.Jmp, startBlock);
DecodeInstructionTargets();
DecodeProtectedRegionTargets();
DecodeInstructions();
foreach (var block in BasicBlocks)
{
if (!block.HasPreviousBlocks && !block.IsHeadBlock)
{
// block was targeted (probably by an leave instruction within a protected region)
BasicBlocks.AddHeadBlock(block);
}
}
InitializePromotedLocalVariablesToVirtualRegisters();
InsertExceptionStartInstructions();
InsertFlowOrJumpInstructions();
// This makes it easier to review --- it's not necessary
BasicBlocks.OrderByLabel();
}
/// <summary>
/// Creates the interrupt service routine (ISR) methods.
/// </summary>
private void CreateInterruptVectors()
{
var type = TypeSystem.GetTypeByName("Mosa.Kernel.x86", "IDT");
if (type == null)
{
return;
}
var method = type.FindMethodByName("ProcessInterrupt");
if (method == null)
{
return;
}
var interrupt = Operand.CreateSymbolFromMethod(method, TypeSystem);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
for (int i = 0; i <= 255; i++)
{
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock(BasicBlock.PrologueLabel);
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
ctx.AppendInstruction(X86.Cli);
if (i <= 7 || (i >= 16 | i == 9)) // For IRQ 8, 10, 11, 12, 13, 14 the cpu will automatically pushed the error code
{
ctx.AppendInstruction(X86.PushConst32, null, CreateConstant(0));
}
ctx.AppendInstruction(X86.PushConst32, null, CreateConstant(i));
ctx.AppendInstruction(X86.Pushad);
ctx.AppendInstruction(X86.Push32, null, esp);
ctx.AppendInstruction(X86.CallStatic, null, interrupt);
ctx.AppendInstruction(X86.Pop32, esp);
ctx.AppendInstruction(X86.Popad);
ctx.AppendInstruction(X86.AddConst32, esp, esp, CreateConstant(8));
ctx.AppendInstruction(X86.Sti);
ctx.AppendInstruction(X86.IRetd);
var interruptMethod = Compiler.CreateLinkerMethod("InterruptISR" + i.ToString());
Compiler.CompileMethod(interruptMethod, basicBlocks);
}
}
protected override void CreateMultibootMethod()
{
var startUpType = TypeSystem.GetTypeByName("Mosa.Runtime", "StartUp");
var initializeMethod = startUpType.FindMethodByName("Initialize");
var entryPoint = Operand.CreateSymbolFromMethod(initializeMethod, TypeSystem);
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I8, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I8, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I8, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I8, GeneralPurposeRegister.ESP);
var multibootEAX = Operand.CreateUnmanagedSymbolPointer(MultibootEAX, TypeSystem);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(MultibootEBX, TypeSystem);
var stackTop = CreateConstant(STACK_ADDRESS);
var zero = CreateConstant(0);
var offset = CreateConstant(8);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock(BasicBlock.PrologueLabel);
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
//ctx.AppendInstruction(X64.Cli);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X64.Mov64, esp, stackTop);
ctx.AppendInstruction(X64.Mov64, ebp, stackTop);
ctx.AppendInstruction(X64.MovStore64, null, esp, zero, zero);
ctx.AppendInstruction(X64.MovStore64, null, esp, offset, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X64.MovStore64, null, multibootEAX, zero, eax);
ctx.AppendInstruction(X64.MovStore64, null, multibootEBX, zero, ebx);
//ctx.AppendInstruction(X64.Sti);
ctx.AppendInstruction(X64.Call, null, entryPoint);
ctx.AppendInstruction(X64.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks);
MethodScanner.MethodInvoked(initializeMethod, multibootMethod);
MethodScanner.MethodInvoked(multibootMethod, multibootMethod);
}
protected override void Run()
{
Debug.Assert(setupMethod == null, "SSE setup method already generated!");
setupMethod = Compiler.CreateLinkerMethod("SSEInit");
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, GeneralPurposeRegister.EAX);
var cr0 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR0);
var cr4 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
/*
* ;enable SSE and the like
* mov eax, cr0
* and ax, 0xFFFB ;clear coprocessor emulation CR0.EM
* or ax, 0x2 ;set coprocessor monitoring CR0.MP
* mov cr0, eax
* mov eax, cr4
* or ax, 3 << 9 ;set CR4.OSFXSR and CR4.OSXMMEXCPT at the same time
* mov cr4, eax
* ret
*/
ctx.AppendInstruction(X86.MovCR, eax, cr0);
ctx.AppendInstruction(X86.And, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0xFFFB));
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x2));
ctx.AppendInstruction(X86.MovCR, cr0, eax);
ctx.AppendInstruction(X86.MovCR, eax, cr4);
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x600));
ctx.AppendInstruction(X86.MovCR, cr4, eax);
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(setupMethod, basicBlocks, 0);
var typeInitializerSchedulerStage = Compiler.PostCompilePipeline.FindFirst <TypeInitializerSchedulerStage>();
typeInitializerSchedulerStage.Schedule(setupMethod);
}
private static BasicBlocks CreateBasicBlockInstructionSet()
{
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var context = new Context(block);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
return basicBlocks;
}
protected override void RunPreCompile()
{
var sseInitMethod = Compiler.CreateLinkerMethod("SSEInit");
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, GeneralPurposeRegister.EAX);
var cr0 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR0);
var cr4 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
/*
* ;enable SSE and the like
* mov eax, cr0
* and ax, 0xFFFB ;clear coprocessor emulation CR0.EM
* or ax, 0x2 ;set coprocessor monitoring CR0.MP
* mov cr0, eax
* mov eax, cr4
* or ax, 3 << 9 ;set CR4.OSFXSR and CR4.OSXMMEXCPT at the same time
* mov cr4, eax
* ret
*/
ctx.AppendInstruction(X86.MovCR, eax, cr0);
ctx.AppendInstruction(X86.And, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0xFFFB));
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x2));
ctx.AppendInstruction(X86.MovCR, cr0, eax);
ctx.AppendInstruction(X86.MovCR, eax, cr4);
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x600));
ctx.AppendInstruction(X86.MovCR, cr4, eax);
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(sseInitMethod, basicBlocks);
var startUpType = TypeSystem.GetTypeByName("Mosa.Runtime", "StartUp");
var startUpMethod = startUpType.FindMethodByName("Stage2");
Compiler.PlugSystem.CreatePlug(sseInitMethod, startUpMethod);
}
protected override void Run()
{
Debug.Assert(setupMethod == null, "SSE setup method already generated!");
setupMethod = Compiler.CreateLinkerMethod("SSEInit");
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, GeneralPurposeRegister.EAX);
var cr0 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR0);
var cr4 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
/*
;enable SSE and the like
mov eax, cr0
and ax, 0xFFFB ;clear coprocessor emulation CR0.EM
or ax, 0x2 ;set coprocessor monitoring CR0.MP
mov cr0, eax
mov eax, cr4
or ax, 3 << 9 ;set CR4.OSFXSR and CR4.OSXMMEXCPT at the same time
mov cr4, eax
ret
*/
ctx.AppendInstruction(X86.MovCR, eax, cr0);
ctx.AppendInstruction(X86.And, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0xFFFB));
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x2));
ctx.AppendInstruction(X86.MovCR, cr0, eax);
ctx.AppendInstruction(X86.MovCR, eax, cr4);
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x600));
ctx.AppendInstruction(X86.MovCR, cr4, eax);
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(setupMethod, basicBlocks, 0);
var typeInitializerSchedulerStage = Compiler.PostCompilePipeline.FindFirst<TypeInitializerSchedulerStage>();
typeInitializerSchedulerStage.Schedule(setupMethod);
}
private static BasicBlocks CreateBasicBlockInstructionSet()
{
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var context = new Context(block);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
context.AppendInstruction(IRInstruction.Nop);
return(basicBlocks);
}
protected override void Finalization()
{
var basicBlocks = new BasicBlocks();
// Create the blocks
var prologueBlock = basicBlocks.CreateBlock(BasicBlock.PrologueLabel);
var startBlock = basicBlocks.CreateBlock(BasicBlock.StartLabel);
var epilogueBlock = basicBlocks.CreateBlock(BasicBlock.EpilogueLabel);
// Create the prologue instructions
basicBlocks.AddHeadBlock(prologueBlock);
var prologue = new Context(prologueBlock);
prologue.AppendInstruction(IRInstruction.Prologue);
prologue.Label = -1;
prologue.AppendInstruction(IRInstruction.Jmp, startBlock);
// Create the epilogue instruction
var epilogue = new Context(epilogueBlock);
epilogue.AppendInstruction(IRInstruction.Epilogue);
var context = new Context(startBlock);
var entrySymbol = Operand.CreateSymbolFromMethod(TypeSystem.EntryPoint, TypeSystem);
context.AppendInstruction(IRInstruction.CallStatic, null, entrySymbol);
var methods = new List <MosaMethod>();
// TODO!
foreach (var method in methods)
{
var symbol = Operand.CreateSymbolFromMethod(method, TypeSystem);
context.AppendInstruction(IRInstruction.CallStatic, null, symbol);
}
context.AppendInstruction(IRInstruction.Jmp, epilogueBlock);
Compiler.CompileMethod(setupMethod, basicBlocks);
}
protected override void RunPreCompile()
{
var sseInitMethod = Compiler.CreateLinkerMethod("SSEInit");
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, GeneralPurposeRegister.EAX);
var cr0 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR0);
var cr4 = Operand.CreateCPURegister(TypeSystem.BuiltIn.U4, ControlRegister.CR4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
/*
;enable SSE and the like
mov eax, cr0
and ax, 0xFFFB ;clear coprocessor emulation CR0.EM
or ax, 0x2 ;set coprocessor monitoring CR0.MP
mov cr0, eax
mov eax, cr4
or ax, 3 << 9 ;set CR4.OSFXSR and CR4.OSXMMEXCPT at the same time
mov cr4, eax
ret
*/
ctx.AppendInstruction(X86.MovCR, eax, cr0);
ctx.AppendInstruction(X86.And, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0xFFFB));
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x2));
ctx.AppendInstruction(X86.MovCR, cr0, eax);
ctx.AppendInstruction(X86.MovCR, eax, cr4);
ctx.AppendInstruction(X86.Or, eax, eax, Operand.CreateConstant(TypeSystem.BuiltIn.U4, 0x600));
ctx.AppendInstruction(X86.MovCR, cr4, eax);
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(sseInitMethod, basicBlocks);
var startUpType = TypeSystem.GetTypeByName("Mosa.Runtime", "StartUp");
var startUpMethod = startUpType.FindMethodByName("Stage2");
Compiler.PlugSystem.CreatePlug(sseInitMethod, startUpMethod);
}
protected override void Run()
{
var typeInitializer = Compiler.PostCompilePipeline.FindFirst<TypeInitializerSchedulerStage>().TypeInitializerMethod;
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var context = new Context(block);
var entryPoint = Operand.CreateSymbolFromMethod(TypeSystem, typeInitializer);
context.AppendInstruction(IRInstruction.Call, null, entryPoint);
context.InvokeMethod = typeInitializer;
var method = Compiler.CreateLinkerMethod(StartUpName);
Compiler.CompileMethod(method, basicBlocks, 0);
Linker.EntryPoint = Linker.GetSymbol(method.FullName, SectionKind.Text);
}
protected override void RunPostCompile()
{
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var multibootEAX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEAX);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEBX);
var stackTop = Operand.CreateConstant(TypeSystem.BuiltIn.I4, STACK_ADDRESS);
var zero = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 0);
var four = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.Mov, InstructionSize.Size32, esp, stackTop);
ctx.AppendInstruction(X86.Mov, InstructionSize.Size32, ebp, stackTop);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, zero, zero);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, four, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEAX, zero, eax);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEBX, zero, ebx);
var startUpType = TypeSystem.GetTypeByName("Mosa.Runtime", "StartUp");
var startUpMethod = startUpType.FindMethodByName("Initialize");
var entryPoint = Operand.CreateSymbolFromMethod(TypeSystem, startUpMethod);
ctx.AppendInstruction(X86.Call, null, entryPoint);
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks);
WriteMultibootHeader();
}
private void CreateMultibootMethod()
{
var startUpType = TypeSystem.GetTypeByName("Mosa.Runtime", "StartUp");
var initializeMethod = startUpType.FindMethodByName("Initialize");
Compiler.GetMethodData(initializeMethod).DoNotInline = true;
var entryPoint = Operand.CreateSymbolFromMethod(initializeMethod, TypeSystem);
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var multibootEAX = Operand.CreateUnmanagedSymbolPointer(MultibootEAX, TypeSystem);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(MultibootEBX, TypeSystem);
var stackTop = CreateConstant(InitialStackAddress);
var zero = CreateConstant(0);
var offset = CreateConstant(4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock(BasicBlock.PrologueLabel);
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.Mov32, esp, stackTop);
ctx.AppendInstruction(X86.Mov32, ebp, stackTop);
ctx.AppendInstruction(X86.MovStore32, null, esp, zero, zero);
ctx.AppendInstruction(X86.MovStore32, null, esp, offset, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.MovStore32, null, multibootEAX, zero, eax);
ctx.AppendInstruction(X86.MovStore32, null, multibootEBX, zero, ebx);
ctx.AppendInstruction(X86.Call, null, entryPoint); // FUTURE: Remove line (SetupStage)
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks);
}
protected override void Run()
{
var typeInitializer = Compiler.PostCompilePipeline.FindFirst <TypeInitializerSchedulerStage>().TypeInitializerMethod;
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var context = new Context(block);
var entryPoint = Operand.CreateSymbolFromMethod(TypeSystem, typeInitializer);
context.AppendInstruction(IRInstruction.Call, null, entryPoint);
context.InvokeMethod = typeInitializer;
var method = Compiler.CreateLinkerMethod(StartUpName);
Compiler.CompileMethod(method, basicBlocks, 0);
Linker.EntryPoint = Linker.GetSymbol(method.FullName, SectionKind.Text);
}
/// <summary>
/// Creates the interrupt service routine (ISR) methods.
/// </summary>
private void CreateInterruptVectors()
{
var type = TypeSystem.GetTypeByName("Mosa.Kernel.x86", "IDT");
if (type == null)
return;
var method = type.FindMethodByName("ProcessInterrupt");
if (method == null)
return;
Operand interrupt = Operand.CreateSymbolFromMethod(TypeSystem, method);
Operand esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
for (int i = 0; i <= 255; i++)
{
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
ctx.AppendInstruction(X86.Cli);
if (i <= 7 || i >= 16 | i == 9) // For IRQ 8, 10, 11, 12, 13, 14 the cpu will automatically pushed the error code
ctx.AppendInstruction(X86.Push, null, Operand.CreateConstant(TypeSystem, 0));
ctx.AppendInstruction(X86.Push, null, Operand.CreateConstant(TypeSystem, i));
ctx.AppendInstruction(X86.Pushad);
ctx.AppendInstruction(X86.Push, null, esp);
ctx.AppendInstruction(X86.Call, null, interrupt);
ctx.AppendInstruction(X86.Pop, esp);
ctx.AppendInstruction(X86.Popad);
ctx.AppendInstruction(X86.Add, esp, esp, Operand.CreateConstant(TypeSystem, 8));
ctx.AppendInstruction(X86.Sti);
ctx.AppendInstruction(X86.IRetd);
var interruptMethod = Compiler.CreateLinkerMethod("InterruptISR" + i.ToString());
Compiler.CompileMethod(interruptMethod, basicBlocks);
}
}
protected override void RunPostCompile()
{
WriteMultibootHeader();
var typeInitializerSchedulerStage = Compiler.CompilePipeline.FindFirst <TypeInitializerSchedulerStage>();
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var multibootEAX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEAX);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEBX);
var zero = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 0);
var stackTop = Operand.CreateConstant(TypeSystem.BuiltIn.I4, STACK_ADDRESS);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, zero, stackTop);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, ebp, zero, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEAX, zero, eax);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEBX, zero, ebx);
// should never get here
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks);
Linker.SetFirst(multibootHeader);
}
public static BasicBlocks CreateBasicBlockInstructionSet()
{
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var context = new Context(block);
var x = Operand.CreateVirtualRegister(null, 1);
var y = Operand.CreateVirtualRegister(null, 2);
var z = Operand.CreateVirtualRegister(null, 3);
var r = Operand.CreateVirtualRegister(null, 4);
var t1 = Operand.CreateVirtualRegister(null, 5);
var t2 = Operand.CreateVirtualRegister(null, 6);
var w = Operand.CreateVirtualRegister(null, 7);
context.AppendInstruction(IRInstruction.MulUnsigned32, t1, x, y);
context.AppendInstruction(IRInstruction.MulUnsigned32, t2, x, z);
context.AppendInstruction(IRInstruction.Add32, r, t1, t2);
return(basicBlocks);
}
protected override void Run()
{
if (IsMethodPlugged)
{
var plugMethod = MethodCompiler.Compiler.PlugSystem.GetReplacement(MethodCompiler.Method);
Debug.Assert(plugMethod != null);
var plugSymbol = Operand.CreateSymbolFromMethod(plugMethod, TypeSystem);
var context = CreateNewBlockContext(-1, -1);
context.AppendInstruction(IRInstruction.Jmp, null, plugSymbol);
BasicBlocks.AddHeadBlock(context.Block);
return;
}
// No CIL decoding if this is a linker generated method
if (MethodCompiler.Method.IsLinkerGenerated)
{
return;
}
if (MethodCompiler.Method.Code.Count == 0)
{
if (DelegatePatcher.PatchDelegate(MethodCompiler))
{
return;
}
MethodCompiler.Stop();
return;
}
if (CompilerOptions.EnableStatistics)
{
counts = new int[CILInstruction.MaxOpCodeValue];
}
MethodCompiler.SetLocalVariables(MethodCompiler.Method.LocalVariables);
// Create the prologue block
var prologue = CreateNewBlock(BasicBlock.PrologueLabel);
BasicBlocks.AddHeadBlock(prologue);
var jmpNode = new InstructionNode()
{
Label = BasicBlock.PrologueLabel,
Block = prologue
};
prologue.First.Insert(jmpNode);
// Create starting block
var startBlock = CreateNewBlock(0);
jmpNode.SetInstruction(IRInstruction.Jmp, startBlock);
DecodeInstructionTargets();
DecodeProtectedRegionTargets();
/* Decode the instructions */
DecodeInstructions();
foreach (var block in BasicBlocks)
{
if (!block.HasPreviousBlocks && !block.IsHeadBlock)
{
// block was targeted (probably by an leave instruction within a protected region)
BasicBlocks.AddHeadBlock(block);
}
}
// This makes it easier to review --- it's not necessary
BasicBlocks.OrderByLabel();
}
protected override void RunPostCompile()
{
WriteMultibootHeader();
var typeInitializerSchedulerStage = Compiler.CompilePipeline.FindFirst<TypeInitializerSchedulerStage>();
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var multibootEAX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEAX);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEBX);
var zero = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 0);
var stackTop = Operand.CreateConstant(TypeSystem.BuiltIn.I4, STACK_ADDRESS);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, zero, stackTop);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, ebp, zero, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEAX, zero, eax);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEBX, zero, ebx);
// should never get here
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks);
Linker.SetFirst(multibootHeader);
}
protected override void Run()
{
if (multibootMethod == null)
{
multibootHeader = Linker.CreateSymbol(MultibootHeaderSymbolName, SectionKind.Text, 1, 0x30);
multibootMethod = Compiler.CreateLinkerMethod("MultibootInit");
Linker.EntryPoint = Linker.GetSymbol(multibootMethod.FullName, SectionKind.Text);
WriteMultibootHeader();
Linker.CreateSymbol(Multiboot0695Stage.MultibootEAX, SectionKind.BSS, Architecture.NativeAlignment, Architecture.NativePointerSize);
Linker.CreateSymbol(MultibootEBX, SectionKind.BSS, Architecture.NativeAlignment, Architecture.NativePointerSize);
return;
}
var typeInitializerSchedulerStage = Compiler.PostCompilePipeline.FindFirst<TypeInitializerSchedulerStage>();
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var MultibootEAX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEAX);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEBX);
var zero = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 0);
var stackTop = Operand.CreateConstant(TypeSystem.BuiltIn.I4, STACK_ADDRESS);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, zero, stackTop);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, ebp, zero, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, MultibootEAX, zero, eax);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEBX, zero, ebx);
// call type initializer
var entryPoint = Operand.CreateSymbolFromMethod(TypeSystem, typeInitializerSchedulerStage.TypeInitializerMethod);
ctx.AppendInstruction(X86.Call, null, entryPoint);
// should never get here
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks, 0);
}
protected override void RunPostCompile()
{
var eax = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EAX);
var ebx = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBX);
var ebp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.EBP);
var esp = Operand.CreateCPURegister(TypeSystem.BuiltIn.I4, GeneralPurposeRegister.ESP);
var multibootEAX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEAX);
var multibootEBX = Operand.CreateUnmanagedSymbolPointer(TypeSystem, Multiboot0695Stage.MultibootEBX);
var stackTop = Operand.CreateConstant(TypeSystem.BuiltIn.I4, STACK_ADDRESS);
var zero = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 0);
var four = Operand.CreateConstant(TypeSystem.BuiltIn.I4, 4);
var basicBlocks = new BasicBlocks();
var block = basicBlocks.CreateBlock();
basicBlocks.AddHeadBlock(block);
var ctx = new Context(block);
// Setup the stack and place the sentinel on the stack to indicate the start of the stack
ctx.AppendInstruction(X86.Mov, InstructionSize.Size32, esp, stackTop);
ctx.AppendInstruction(X86.Mov, InstructionSize.Size32, ebp, stackTop);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, zero, zero);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, esp, four, zero);
// Place the multiboot address into a static field
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEAX, zero, eax);
ctx.AppendInstruction(X86.MovStore, InstructionSize.Size32, null, multibootEBX, zero, ebx);
var startUpType = TypeSystem.GetTypeByName("Mosa.Runtime", "StartUp");
var startUpMethod = startUpType.FindMethodByName("Initialize");
var entryPoint = Operand.CreateSymbolFromMethod(TypeSystem, startUpMethod);
ctx.AppendInstruction(X86.Call, null, entryPoint);
ctx.AppendInstruction(X86.Ret);
Compiler.CompileMethod(multibootMethod, basicBlocks);
WriteMultibootHeader();
}
protected override void Run()
{
if (!MethodCompiler.IsCILDecodeRequired)
{
return;
}
// No CIL decoding if this is a linker generated method
Debug.Assert(!Method.IsCompilerGenerated);
if (!Method.HasImplementation)
{
//if (DelegatePatcher.PatchDelegate(MethodCompiler))
// return;
MethodCompiler.Stop();
return;
}
if (CompilerOptions.EnableStatistics)
{
counts = new int[CILInstruction.MaxOpCodeValue];
}
MethodCompiler.SetLocalVariables(Method.LocalVariables);
// Create the prologue block
var prologue = CreateNewBlock(BasicBlock.PrologueLabel);
BasicBlocks.AddHeadBlock(prologue);
var jmpNode = new InstructionNode()
{
Label = BasicBlock.PrologueLabel,
Block = prologue
};
prologue.First.Insert(jmpNode);
// Create starting block
var startBlock = CreateNewBlock(0);
jmpNode.SetInstruction(IRInstruction.Jmp, startBlock);
DecodeInstructionTargets();
DecodeProtectedRegionTargets();
/* Decode the instructions */
DecodeInstructions();
foreach (var block in BasicBlocks)
{
if (!block.HasPreviousBlocks && !block.IsHeadBlock)
{
// block was targeted (probably by an leave instruction within a protected region)
BasicBlocks.AddHeadBlock(block);
}
}
// This makes it easier to review --- it's not necessary
BasicBlocks.OrderByLabel();
}
