Beispiel #1
0
VOID
NTAPI
KiInitializeKernel(IN PKPROCESS InitProcess,
                   IN PKTHREAD InitThread,
                   IN PVOID IdleStack,
                   IN PKPRCB Prcb,
                   IN CCHAR Number,
                   IN PLOADER_PARAMETER_BLOCK LoaderBlock)
{
    PKIPCR Pcr = (PKIPCR)KeGetPcr();
    ULONG PageDirectory[2];
    ULONG i;
    
    /* Set the default NX policy (opt-in) */
    SharedUserData->NXSupportPolicy = NX_SUPPORT_POLICY_OPTIN;

    /* Initialize spinlocks and DPC data */
    KiInitSpinLocks(Prcb, Number);
    
    /* Set stack pointers */
    Pcr->InitialStack = IdleStack;

    /* Check if this is the Boot CPU */
    if (!Number)
    {
        /* Setup the unexpected interrupt */
        KxUnexpectedInterrupt.DispatchAddress = KiUnexpectedInterrupt;
        for (i = 0; i < 4; i++)
        {
            /* Copy the template code */
            KxUnexpectedInterrupt.DispatchCode[i] = ((PULONG)KiInterruptTemplate)[i];
        }
        
        /* Set DMA coherency */
        KiDmaIoCoherency = 0;
        
        /* Sweep D-Cache */
        HalSweepDcache();
        
        /* Set boot-level flags */
        KeProcessorArchitecture = PROCESSOR_ARCHITECTURE_ARM;
        KeFeatureBits = 0;
        KeProcessorLevel = (USHORT)(Pcr->ProcessorId >> 8);
        KeProcessorRevision = (USHORT)(Pcr->ProcessorId & 0xFF);

        /* Set the current MP Master KPRCB to the Boot PRCB */
        Prcb->MultiThreadSetMaster = Prcb;

        /* Lower to APC_LEVEL */
        KeLowerIrql(APC_LEVEL);

        /* Initialize portable parts of the OS */
        KiInitSystem();

        /* Initialize the Idle Process and the Process Listhead */
        InitializeListHead(&KiProcessListHead);
        PageDirectory[0] = 0;
        PageDirectory[1] = 0;
        KeInitializeProcess(InitProcess,
                            0,
                            0xFFFFFFFF,
                            PageDirectory,
                            FALSE);
        InitProcess->QuantumReset = MAXCHAR;
    }
Beispiel #2
0
VOID
NTAPI
INIT_FUNCTION
KiInitializeKernel(IN PKPROCESS InitProcess,
                   IN PKTHREAD InitThread,
                   IN PVOID IdleStack,
                   IN PKPRCB Prcb,
                   IN CCHAR Number,
                   IN PLOADER_PARAMETER_BLOCK LoaderBlock)
{
    BOOLEAN NpxPresent;
    ULONG FeatureBits;
    ULONG PageDirectory[2];
    PVOID DpcStack;
    ULONG Vendor[3];

    /* Detect and set the CPU Type */
    KiSetProcessorType();

    /* Check if an FPU is present */
    NpxPresent = KiIsNpxPresent();

    /* Initialize the Power Management Support for this PRCB */
    PoInitializePrcb(Prcb);

    /* Bugcheck if this is a 386 CPU */
    if (Prcb->CpuType == 3) KeBugCheckEx(UNSUPPORTED_PROCESSOR, 0x386, 0, 0, 0);

    /* Get the processor features for the CPU */
    FeatureBits = KiGetFeatureBits();

    /* Set the default NX policy (opt-in) */
    SharedUserData->NXSupportPolicy = NX_SUPPORT_POLICY_OPTIN;

    /* Check if NPX is always on */
    if (strstr(KeLoaderBlock->LoadOptions, "NOEXECUTE=ALWAYSON"))
    {
        /* Set it always on */
        SharedUserData->NXSupportPolicy = NX_SUPPORT_POLICY_ALWAYSON;
        FeatureBits |= KF_NX_ENABLED;
    }
    else if (strstr(KeLoaderBlock->LoadOptions, "NOEXECUTE=OPTOUT"))
    {
        /* Set it in opt-out mode */
        SharedUserData->NXSupportPolicy = NX_SUPPORT_POLICY_OPTOUT;
        FeatureBits |= KF_NX_ENABLED;
    }
    else if ((strstr(KeLoaderBlock->LoadOptions, "NOEXECUTE=OPTIN")) ||
             (strstr(KeLoaderBlock->LoadOptions, "NOEXECUTE")))
    {
        /* Set the feature bits */
        FeatureBits |= KF_NX_ENABLED;
    }
    else if ((strstr(KeLoaderBlock->LoadOptions, "NOEXECUTE=ALWAYSOFF")) ||
             (strstr(KeLoaderBlock->LoadOptions, "EXECUTE")))
    {
        /* Set disabled mode */
        SharedUserData->NXSupportPolicy = NX_SUPPORT_POLICY_ALWAYSOFF;
        FeatureBits |= KF_NX_DISABLED;
    }

    /* Save feature bits */
    Prcb->FeatureBits = FeatureBits;

    /* Save CPU state */
    KiSaveProcessorControlState(&Prcb->ProcessorState);

    /* Get cache line information for this CPU */
    KiGetCacheInformation();

    /* Initialize spinlocks and DPC data */
    KiInitSpinLocks(Prcb, Number);

    /* Check if this is the Boot CPU */
    if (!Number)
    {
        /* Set Node Data */
        KeNodeBlock[0] = &KiNode0;
        Prcb->ParentNode = KeNodeBlock[0];
        KeNodeBlock[0]->ProcessorMask = Prcb->SetMember;

        /* Set boot-level flags */
        KeI386NpxPresent = NpxPresent;
        KeI386CpuType = Prcb->CpuType;
        KeI386CpuStep = Prcb->CpuStep;
        KeProcessorArchitecture = PROCESSOR_ARCHITECTURE_INTEL;
        KeProcessorLevel = (USHORT)Prcb->CpuType;
        if (Prcb->CpuID) KeProcessorRevision = Prcb->CpuStep;
        KeFeatureBits = FeatureBits;
        KeI386FxsrPresent = (KeFeatureBits & KF_FXSR) ? TRUE : FALSE;
        KeI386XMMIPresent = (KeFeatureBits & KF_XMMI) ? TRUE : FALSE;

        /* Detect 8-byte compare exchange support */
        if (!(KeFeatureBits & KF_CMPXCHG8B))
        {
            /* Copy the vendor string */
            RtlCopyMemory(Vendor, Prcb->VendorString, sizeof(Vendor));

            /* Bugcheck the system. Windows *requires* this */
            KeBugCheckEx(UNSUPPORTED_PROCESSOR,
                         (1 << 24 ) | (Prcb->CpuType << 16) | Prcb->CpuStep,
                         Vendor[0],
                         Vendor[1],
                         Vendor[2]);
        }

        /* Set the current MP Master KPRCB to the Boot PRCB */
        Prcb->MultiThreadSetMaster = Prcb;

        /* Lower to APC_LEVEL */
        KeLowerIrql(APC_LEVEL);

        /* Initialize some spinlocks */
        KeInitializeSpinLock(&KiFreezeExecutionLock);
        KeInitializeSpinLock(&Ki486CompatibilityLock);

        /* Initialize portable parts of the OS */
        KiInitSystem();

        /* Initialize the Idle Process and the Process Listhead */
        InitializeListHead(&KiProcessListHead);
        PageDirectory[0] = 0;
        PageDirectory[1] = 0;
        KeInitializeProcess(InitProcess,
                            0,
                            0xFFFFFFFF,
                            PageDirectory,
                            FALSE);
        InitProcess->QuantumReset = MAXCHAR;
    }
    else
    {
        /* FIXME */
        DPRINT1("SMP Boot support not yet present\n");
    }

    /* Setup the Idle Thread */
    KeInitializeThread(InitProcess,
                       InitThread,
                       NULL,
                       NULL,
                       NULL,
                       NULL,
                       NULL,
                       IdleStack);
    InitThread->NextProcessor = Number;
    InitThread->Priority = HIGH_PRIORITY;
    InitThread->State = Running;
    InitThread->Affinity = 1 << Number;
    InitThread->WaitIrql = DISPATCH_LEVEL;
    InitProcess->ActiveProcessors = 1 << Number;

    /* HACK for MmUpdatePageDir */
    ((PETHREAD)InitThread)->ThreadsProcess = (PEPROCESS)InitProcess;

    /* Set basic CPU Features that user mode can read */
    SharedUserData->ProcessorFeatures[PF_MMX_INSTRUCTIONS_AVAILABLE] =
        (KeFeatureBits & KF_MMX) ? TRUE: FALSE;
    SharedUserData->ProcessorFeatures[PF_COMPARE_EXCHANGE_DOUBLE] =
        (KeFeatureBits & KF_CMPXCHG8B) ? TRUE: FALSE;
    SharedUserData->ProcessorFeatures[PF_XMMI_INSTRUCTIONS_AVAILABLE] =
        ((KeFeatureBits & KF_FXSR) && (KeFeatureBits & KF_XMMI)) ? TRUE: FALSE;
    SharedUserData->ProcessorFeatures[PF_XMMI64_INSTRUCTIONS_AVAILABLE] =
        ((KeFeatureBits & KF_FXSR) && (KeFeatureBits & KF_XMMI64)) ? TRUE: FALSE;
    SharedUserData->ProcessorFeatures[PF_3DNOW_INSTRUCTIONS_AVAILABLE] =
        (KeFeatureBits & KF_3DNOW) ? TRUE: FALSE;
    SharedUserData->ProcessorFeatures[PF_RDTSC_INSTRUCTION_AVAILABLE] =
        (KeFeatureBits & KF_RDTSC) ? TRUE: FALSE;

    /* Set up the thread-related fields in the PRCB */
    Prcb->CurrentThread = InitThread;
    Prcb->NextThread = NULL;
    Prcb->IdleThread = InitThread;

    /* Initialize the Kernel Executive */
    ExpInitializeExecutive(Number, LoaderBlock);

    /* Only do this on the boot CPU */
    if (!Number)
    {
        /* Calculate the time reciprocal */
        KiTimeIncrementReciprocal =
            KiComputeReciprocal(KeMaximumIncrement,
                                &KiTimeIncrementShiftCount);

        /* Update DPC Values in case they got updated by the executive */
        Prcb->MaximumDpcQueueDepth = KiMaximumDpcQueueDepth;
        Prcb->MinimumDpcRate = KiMinimumDpcRate;
        Prcb->AdjustDpcThreshold = KiAdjustDpcThreshold;

        /* Allocate the DPC Stack */
        DpcStack = MmCreateKernelStack(FALSE, 0);
        if (!DpcStack) KeBugCheckEx(NO_PAGES_AVAILABLE, 1, 0, 0, 0);
        Prcb->DpcStack = DpcStack;

        /* Allocate the IOPM save area. */
        Ki386IopmSaveArea = ExAllocatePoolWithTag(PagedPool,
                                                  PAGE_SIZE * 2,
                                                  '  eK');
        if (!Ki386IopmSaveArea)
        {
            /* Bugcheck. We need this for V86/VDM support. */
            KeBugCheckEx(NO_PAGES_AVAILABLE, 2, PAGE_SIZE * 2, 0, 0);
        }
    }

    /* Raise to Dispatch */
    KfRaiseIrql(DISPATCH_LEVEL);

    /* Set the Idle Priority to 0. This will jump into Phase 1 */
    KeSetPriorityThread(InitThread, 0);

    /* If there's no thread scheduled, put this CPU in the Idle summary */
    KiAcquirePrcbLock(Prcb);
    if (!Prcb->NextThread) KiIdleSummary |= 1 << Number;
    KiReleasePrcbLock(Prcb);

    /* Raise back to HIGH_LEVEL and clear the PRCB for the loader block */
    KfRaiseIrql(HIGH_LEVEL);
    LoaderBlock->Prcb = 0;
}