Exemplo n.º 1
0
        private static void ApServiceLoop()
        {
            DebugStub.WriteLine("ApServiceThread is initialized and sleeping ...");
            MpExecution.MpCall mpCall;
            bool iflag;

            while (true)
            {
                abiEvent.WaitOne();

                DebugStub.WriteLine
                    ("HSG: ** cpu.{0} receives AbiCall interrupt",
                    __arglist(Processor.GetCurrentProcessorId()));

                // Current design: the boot processor will get all
                // unserved abi call. So we don't need to worry
                // missing any calls
                while (true)
                {
                    iflag  = Processor.DisableInterrupts();
                    mpCall = MpExecution.GetMpCall(Processor.GetCurrentProcessorId());
                    Processor.RestoreInterrupts(iflag);


                    // There is no unserved abi call, just break
                    if (mpCall == null)
                    {
                        break;
                    }

                    BspAbiStub.ProcessMpCall(Processor.GetCurrentProcessorId(), mpCall);
                }
            }
        }
Exemplo n.º 2
0
        private unsafe void Initialize(int processorId)
        {
            uint DefaultStackSize = 0xA000;

            processorTable[processorId] = this;

            context = (ProcessorContext *)Isa.GetCurrentCpu();

            DebugStub.WriteLine("Processor context: {0} {1:x8}",
                                __arglist(processorId, Kernel.AddressOf(context)));

            context->UpdateAfterGC(this);

            if (0 != processorId)
            {
                Thread.BindKernelThread(kernelThread,
                                        kernelStackBegin,
                                        kernelStackLimit);
            }

            AllocateStack(DefaultStackSize,
                          out context->cpuRecord.interruptStackBegin,
                          out context->cpuRecord.interruptStackLimit);

            Tracing.Log(Tracing.Debug, "Initialized Processor {0}",
                        (UIntPtr)processorId);

            Tracing.Log(Tracing.Debug, "asmInterruptStack={0:x}..{1:x}",
                        context->cpuRecord.interruptStackBegin,
                        context->cpuRecord.interruptStackLimit);

#if false
            DebugStub.WriteLine("proc{0}: InterruptStack={1:x}..{2:x}",
                                __arglist(
                                    processorId,
                                    context->cpuRecord.interruptStackBegin,
                                    context->cpuRecord.interruptStackLimit
                                    ));
#endif

            Interlocked.Increment(ref runningCpus);
            MpExecution.AddProcessorContext(context);

            // Need to allocate this callback object outside of NoThreadAllocation region
            if (processorId == 0)
            {
                resumeThreadCallback = new ResumeThreadCallback();
            }

            Isa.EnableCycleCounter();
        }
Exemplo n.º 3
0
        private static void InitServices()
        {
            InitGCSupport();
            args = GetCommandLine();
            VTable.ParseArgs(args);

            ARM_PROGRESS("Kernel!011");
            InitSchedulerTypes();

            ARM_PROGRESS("Kernel!018");
            Controller.InitializeSystem();
            Tracing.InitializeSystem();

            ARM_PROGRESS("Kernel!019");
            //  Read the profiler settings. The values are assumed in kbytes
            //  convert them to bytes for direct consumption
            ProfilerBufferSize  = (uint)GetIntegerArgument("profiler", 0);
            ProfilerBufferSize *= 1024;

            ARM_PROGRESS("Kernel!020");

            SpinLock.StaticInitialize();

            int cpusLength;
            int cpuCount = GetCpuCount(out cpusLength);

            Processor.InitializeProcessorTable(cpusLength);
            ARM_PROGRESS("Kernel!021");
            Tracing.Log(Tracing.Audit, "processor");
            Processor processor = Processor.EnableProcessor(0);

            PEImage.Initialize();
            ARM_PROGRESS("Kernel!034");

            //  Initialize the sample profiling for the processor
            //  after the initial breakpoint in kd in the call
            //  PEImage.Initialize(). This will allow enabling profiling
            //  from kd, by overwriting the ProfilerBufferSize value
            processor.EnableProfiling();
            ARM_PROGRESS("Kernel!035");
            FlatPages.InitializeMemoryMonitoring();

            // initialize endpoints
            InitType(typeof(Microsoft.Singularity.Channels.EndpointCore));

            // TODO Bug 59: Currently broken, need to review paging build.
//#if PAGING
//            Microsoft.Singularity.Channels.EndpointTrusted.StaticInitialize();
//#endif
            ARM_PROGRESS("Kernel!036");

            // get the system manifest
            IoMemory systemManifest = GetSystemManifest();

            ARM_PROGRESS("Kernel!037");
            XmlReader xmlReader    = new XmlReader(systemManifest);
            XmlNode   xmlData      = xmlReader.Parse();
            XmlNode   manifestRoot = xmlData.GetChild("system");
            XmlNode   initConfig   = manifestRoot.GetChild("initConfig");

            ARM_PROGRESS("Kernel!038");

            PerfCounters.Initialize();
            // need to have processed the manifest before we can call Process initialize
            ARM_PROGRESS("Kernel!039");
            PrincipalImpl.Initialize(initConfig);

            ARM_PROGRESS("Kernel!040");
            Process.Initialize(manifestRoot.GetChild("processConfig"));

            InitIO(processor, initConfig, manifestRoot.GetChild("drivers"));

            InitBootTime();

            ARM_PROGRESS("Kernel!045");
            // From here on, we want lazy type initialization to worry about
            // competing threads.
            VTable.InitializeForMultipleThread();

            ARM_PROGRESS("Kernel!046");
            Console.WriteLine("Running C# Kernel of {0}", GetLinkDate());
            Console.WriteLine();

            // TODO: remove this
            Console.WriteLine("Current time: {0}", SystemClock.GetUtcTime().ToString("r"));
            ARM_PROGRESS("Kernel!047");

            InitScheduling();

            DirectoryService.StartNotificationThread();

            Console.WriteLine("Initializing Shared Heap Walker");
            ProtectionDomain.InitializeSharedHeapWalker();
            ARM_PROGRESS("Kernel!050");

            Console.WriteLine("Initializing Service Thread");
            ServiceThread.Initialize();
            ARM_PROGRESS("Kernel!051");

            GC.EnableHeap();
            GCProfilerLogger.StartProfiling();
            ARM_PROGRESS("Kernel!052");

            Tracing.Log(Tracing.Audit, "Waypoints init");
            Waypoints   = new long[2048];
            WaypointSeq = new int[2048];
            WaypointThd = new int[2048];

            Tracing.Log(Tracing.Audit, "Interrupts ON.");
            Processor.RestoreInterrupts(true);
            ARM_PROGRESS("Kernel!053");

#if ISA_ARM && TEST_GC
            for (int i = 0; i < 1000; i++)
            {
                DebugStub.WriteLine("Iteration {0}", __arglist(i));
                ArrayList a = new ArrayList();
                for (int j = 0; j < 128; j++)
                {
                    int size = 1024 * 1024;
                    a.Add(new byte [size]);
                }
            }
#endif // ISA_ARM

            ARM_PROGRESS("Kernel!054");

            Tracing.Log(Tracing.Audit, "Binder");
            Binder.Initialize(manifestRoot.GetChild("namingConventions"));

#if ISA_ARM
            DebugStub.WriteLine("Exporting local namespace to BSP\n");
            DirectoryService.ExportArmNamespace();
            DebugStub.WriteLine("Export complete...redirecting binder\n");
            Binder.RedirectRootRef();
            DebugStub.WriteLine("Binder redirect complete\n");
#endif

#if false
            Tracing.Log(Tracing.Audit, "Starting Security Service channels");
            PrincipalImpl.Export();
            ARM_PROGRESS("Kernel!055");
#endif
            Tracing.Log(Tracing.Audit, "Creating Root Directory.");

            //This can be moved below
            IoSystem.InitializeDirectoryService();
            ARM_PROGRESS("Kernel!055");

#if false
            // Start User space namespace manager
            Console.WriteLine("Starting Directory Service SIP");
            DirectoryService.StartUserSpaceDirectoryService();
#endif
            ARM_PROGRESS("Kernel!055.5");

#if !ISA_ARM
            Tracing.Log(Tracing.Audit, "Starting Security Service channels");
            PrincipalImpl.Export();
#endif

            ARM_PROGRESS("Kernel!056");

            Console.WriteLine("Initializing system channels");

            // starting channels services
            DebugStub.Print("Initializing Channel Services\n");
            ChannelDeliveryImplService.Initialize();

            ARM_PROGRESS("Kernel!057");
            ConsoleOutput.Initialize();

            ARM_PROGRESS("Kernel!058");

            // Initialize MP after Binder and ConsoleOutput
            // are initialized so there are no
            // initialization races if the additional
            // threads try to use them.
            Tracing.Log(Tracing.Audit, "Starting additional processors");

            // For ABI to ARM support
            MpExecution.Initialize();
            ARM_PROGRESS("Kernel!059");

            mpEndEvent = new ManualResetEvent(false);

            Tracing.Log(Tracing.Audit, "Initializing Volume Manager.");

#if !ISA_ARM
            IoSystem.InitializeVolumeManager();
#endif // ISA_ARM
            ARM_PROGRESS("Kernel!060");

            InitDrivers();

            if (cpuCount > 1)
            {
                unsafe {
                    Console.WriteLine("Enabling {0} cpus out of {1} real cpus\n", cpuCount, Platform.ThePlatform.CpuRealCount);
                }
                Processor.EnableMoreProcessors(cpuCount);
                ARM_PROGRESS("Kernel!064");
            }

            Tracing.Log(Tracing.Audit, "Initializing Service Manager.");
            IoSystem.InitializeServiceManager(manifestRoot.GetChild("serviceConfig"));
            ARM_PROGRESS("Kernel!065");

            InitDiagnostics();

#if !ISA_ARM
            // At this point consider kernel finshed booting
            hasBooted = true;
#endif // ISA_ARM

            Processor.StartSampling();
            ARM_PROGRESS("Kernel!069");

            Microsoft.Singularity.KernelDebugger.KdFilesNamespace.StartNamespaceThread();
            ARM_PROGRESS("Kernel!070");
        }