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372 lines
13 KiB
C++
372 lines
13 KiB
C++
// Copyright 2021 yuzu Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#pragma once
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#include <array>
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#include <memory>
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#include <string>
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#include <unordered_map>
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#include <vector>
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#include "core/arm/cpu_interrupt_handler.h"
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#include "core/hardware_properties.h"
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#include "core/hle/kernel/k_auto_object.h"
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#include "core/hle/kernel/k_slab_heap.h"
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#include "core/hle/kernel/memory_types.h"
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#include "core/hle/kernel/svc_common.h"
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namespace Core {
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class CPUInterruptHandler;
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class ExclusiveMonitor;
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class System;
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} // namespace Core
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namespace Core::Timing {
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class CoreTiming;
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struct EventType;
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} // namespace Core::Timing
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namespace Service::SM {
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class ServiceManager;
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}
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namespace Kernel {
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class KClientPort;
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class GlobalSchedulerContext;
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class KAutoObjectWithListContainer;
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class KClientSession;
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class KEvent;
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class KHandleTable;
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class KLinkedListNode;
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class KMemoryManager;
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class KPort;
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class KProcess;
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class KResourceLimit;
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class KScheduler;
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class KServerSession;
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class KSession;
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class KSharedMemory;
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class KThread;
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class KTransferMemory;
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class KWritableEvent;
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class PhysicalCore;
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class ServiceThread;
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class Synchronization;
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class TimeManager;
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using ServiceInterfaceFactory =
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std::function<KClientPort&(Service::SM::ServiceManager&, Core::System&)>;
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namespace Init {
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struct KSlabResourceCounts;
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}
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template <typename T>
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class KSlabHeap;
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using EmuThreadHandle = uintptr_t;
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constexpr EmuThreadHandle EmuThreadHandleInvalid{};
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constexpr EmuThreadHandle EmuThreadHandleReserved{1ULL << 63};
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/// Represents a single instance of the kernel.
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class KernelCore {
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private:
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using NamedPortTable = std::unordered_map<std::string, KClientPort*>;
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public:
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/// Constructs an instance of the kernel using the given System
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/// instance as a context for any necessary system-related state,
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/// such as threads, CPU core state, etc.
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///
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/// @post After execution of the constructor, the provided System
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/// object *must* outlive the kernel instance itself.
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///
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explicit KernelCore(Core::System& system);
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~KernelCore();
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KernelCore(const KernelCore&) = delete;
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KernelCore& operator=(const KernelCore&) = delete;
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KernelCore(KernelCore&&) = delete;
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KernelCore& operator=(KernelCore&&) = delete;
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/// Sets if emulation is multicore or single core, must be set before Initialize
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void SetMulticore(bool is_multicore);
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/// Resets the kernel to a clean slate for use.
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void Initialize();
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/// Initializes the CPU cores.
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void InitializeCores();
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/// Clears all resources in use by the kernel instance.
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void Shutdown();
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/// Retrieves a shared pointer to the system resource limit instance.
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const KResourceLimit* GetSystemResourceLimit() const;
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/// Retrieves a shared pointer to the system resource limit instance.
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KResourceLimit* GetSystemResourceLimit();
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/// Retrieves a shared pointer to a Thread instance within the thread wakeup handle table.
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KScopedAutoObject<KThread> RetrieveThreadFromGlobalHandleTable(Handle handle) const;
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/// Adds the given shared pointer to an internal list of active processes.
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void AppendNewProcess(KProcess* process);
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/// Makes the given process the new current process.
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void MakeCurrentProcess(KProcess* process);
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/// Retrieves a pointer to the current process.
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KProcess* CurrentProcess();
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/// Retrieves a const pointer to the current process.
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const KProcess* CurrentProcess() const;
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/// Retrieves the list of processes.
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const std::vector<KProcess*>& GetProcessList() const;
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/// Gets the sole instance of the global scheduler
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Kernel::GlobalSchedulerContext& GlobalSchedulerContext();
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/// Gets the sole instance of the global scheduler
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const Kernel::GlobalSchedulerContext& GlobalSchedulerContext() const;
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/// Gets the sole instance of the Scheduler assoviated with cpu core 'id'
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Kernel::KScheduler& Scheduler(std::size_t id);
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/// Gets the sole instance of the Scheduler assoviated with cpu core 'id'
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const Kernel::KScheduler& Scheduler(std::size_t id) const;
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/// Gets the an instance of the respective physical CPU core.
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Kernel::PhysicalCore& PhysicalCore(std::size_t id);
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/// Gets the an instance of the respective physical CPU core.
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const Kernel::PhysicalCore& PhysicalCore(std::size_t id) const;
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/// Gets the sole instance of the Scheduler at the current running core.
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Kernel::KScheduler* CurrentScheduler();
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/// Gets the an instance of the current physical CPU core.
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Kernel::PhysicalCore& CurrentPhysicalCore();
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/// Gets the an instance of the current physical CPU core.
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const Kernel::PhysicalCore& CurrentPhysicalCore() const;
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/// Gets the an instance of the TimeManager Interface.
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Kernel::TimeManager& TimeManager();
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/// Gets the an instance of the TimeManager Interface.
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const Kernel::TimeManager& TimeManager() const;
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/// Stops execution of 'id' core, in order to reschedule a new thread.
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void PrepareReschedule(std::size_t id);
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Core::ExclusiveMonitor& GetExclusiveMonitor();
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const Core::ExclusiveMonitor& GetExclusiveMonitor() const;
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KAutoObjectWithListContainer& ObjectListContainer();
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const KAutoObjectWithListContainer& ObjectListContainer() const;
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std::array<Core::CPUInterruptHandler, Core::Hardware::NUM_CPU_CORES>& Interrupts();
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const std::array<Core::CPUInterruptHandler, Core::Hardware::NUM_CPU_CORES>& Interrupts() const;
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void InvalidateAllInstructionCaches();
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void InvalidateCpuInstructionCacheRange(VAddr addr, std::size_t size);
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/// Registers a named HLE service, passing a factory used to open a port to that service.
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void RegisterNamedService(std::string name, ServiceInterfaceFactory&& factory);
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/// Opens a port to a service previously registered with RegisterNamedService.
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KClientPort* CreateNamedServicePort(std::string name);
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/// Registers a server session with the gobal emulation state, to be freed on shutdown. This is
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/// necessary because we do not emulate processes for HLE sessions.
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void RegisterServerSession(KServerSession* server_session);
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/// Unregisters a server session previously registered with RegisterServerSession when it was
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/// destroyed during the current emulation session.
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void UnregisterServerSession(KServerSession* server_session);
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/// Registers all kernel objects with the global emulation state, this is purely for tracking
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/// leaks after emulation has been shutdown.
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void RegisterKernelObject(KAutoObject* object);
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/// Unregisters a kernel object previously registered with RegisterKernelObject when it was
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/// destroyed during the current emulation session.
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void UnregisterKernelObject(KAutoObject* object);
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/// Determines whether or not the given port is a valid named port.
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bool IsValidNamedPort(NamedPortTable::const_iterator port) const;
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/// Gets the current host_thread/guest_thread pointer.
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KThread* GetCurrentEmuThread() const;
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/// Gets the current host_thread handle.
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u32 GetCurrentHostThreadID() const;
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/// Register the current thread as a CPU Core Thread.
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void RegisterCoreThread(std::size_t core_id);
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/// Register the current thread as a non CPU core thread.
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void RegisterHostThread();
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/// Gets the virtual memory manager for the kernel.
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KMemoryManager& MemoryManager();
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/// Gets the virtual memory manager for the kernel.
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const KMemoryManager& MemoryManager() const;
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/// Gets the slab heap allocated for user space pages.
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KSlabHeap<Page>& GetUserSlabHeapPages();
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/// Gets the slab heap allocated for user space pages.
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const KSlabHeap<Page>& GetUserSlabHeapPages() const;
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/// Gets the shared memory object for HID services.
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Kernel::KSharedMemory& GetHidSharedMem();
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/// Gets the shared memory object for HID services.
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const Kernel::KSharedMemory& GetHidSharedMem() const;
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/// Gets the shared memory object for font services.
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Kernel::KSharedMemory& GetFontSharedMem();
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/// Gets the shared memory object for font services.
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const Kernel::KSharedMemory& GetFontSharedMem() const;
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/// Gets the shared memory object for IRS services.
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Kernel::KSharedMemory& GetIrsSharedMem();
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/// Gets the shared memory object for IRS services.
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const Kernel::KSharedMemory& GetIrsSharedMem() const;
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/// Gets the shared memory object for Time services.
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Kernel::KSharedMemory& GetTimeSharedMem();
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/// Gets the shared memory object for Time services.
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const Kernel::KSharedMemory& GetTimeSharedMem() const;
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/// Suspend/unsuspend the OS.
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void Suspend(bool in_suspention);
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/// Exceptional exit the OS.
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void ExceptionalExit();
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bool IsMulticore() const;
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void EnterSVCProfile();
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void ExitSVCProfile();
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/**
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* Creates an HLE service thread, which are used to execute service routines asynchronously.
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* While these are allocated per ServerSession, these need to be owned and managed outside
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* of ServerSession to avoid a circular dependency.
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* @param name String name for the ServerSession creating this thread, used for debug
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* purposes.
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* @returns The a weak pointer newly created service thread.
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*/
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std::weak_ptr<Kernel::ServiceThread> CreateServiceThread(const std::string& name);
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/**
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* Releases a HLE service thread, instructing KernelCore to free it. This should be called when
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* the ServerSession associated with the thread is destroyed.
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* @param service_thread Service thread to release.
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*/
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void ReleaseServiceThread(std::weak_ptr<Kernel::ServiceThread> service_thread);
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/// Workaround for single-core mode when preempting threads while idle.
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bool IsPhantomModeForSingleCore() const;
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void SetIsPhantomModeForSingleCore(bool value);
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Core::System& System();
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const Core::System& System() const;
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/// Gets the slab heap for the specified kernel object type.
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template <typename T>
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KSlabHeap<T>& SlabHeap() {
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if constexpr (std::is_same_v<T, KClientSession>) {
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return slab_heap_container->client_session;
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} else if constexpr (std::is_same_v<T, KEvent>) {
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return slab_heap_container->event;
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} else if constexpr (std::is_same_v<T, KLinkedListNode>) {
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return slab_heap_container->linked_list_node;
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} else if constexpr (std::is_same_v<T, KPort>) {
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return slab_heap_container->port;
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} else if constexpr (std::is_same_v<T, KProcess>) {
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return slab_heap_container->process;
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} else if constexpr (std::is_same_v<T, KResourceLimit>) {
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return slab_heap_container->resource_limit;
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} else if constexpr (std::is_same_v<T, KSession>) {
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return slab_heap_container->session;
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} else if constexpr (std::is_same_v<T, KSharedMemory>) {
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return slab_heap_container->shared_memory;
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} else if constexpr (std::is_same_v<T, KThread>) {
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return slab_heap_container->thread;
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} else if constexpr (std::is_same_v<T, KTransferMemory>) {
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return slab_heap_container->transfer_memory;
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} else if constexpr (std::is_same_v<T, KWritableEvent>) {
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return slab_heap_container->writeable_event;
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}
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}
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/// Gets the current slab resource counts.
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Init::KSlabResourceCounts& SlabResourceCounts();
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/// Gets the current slab resource counts.
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const Init::KSlabResourceCounts& SlabResourceCounts() const;
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private:
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friend class KProcess;
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friend class KThread;
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/// Creates a new object ID, incrementing the internal object ID counter.
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u32 CreateNewObjectID();
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/// Creates a new process ID, incrementing the internal process ID counter;
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u64 CreateNewKernelProcessID();
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/// Creates a new process ID, incrementing the internal process ID counter;
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u64 CreateNewUserProcessID();
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/// Creates a new thread ID, incrementing the internal thread ID counter.
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u64 CreateNewThreadID();
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/// Provides a reference to the global handle table.
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KHandleTable& GlobalHandleTable();
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/// Provides a const reference to the global handle table.
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const KHandleTable& GlobalHandleTable() const;
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struct Impl;
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std::unique_ptr<Impl> impl;
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bool exception_exited{};
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private:
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/// Helper to encapsulate all slab heaps in a single heap allocated container
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struct SlabHeapContainer {
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KSlabHeap<KClientSession> client_session;
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KSlabHeap<KEvent> event;
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KSlabHeap<KLinkedListNode> linked_list_node;
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KSlabHeap<KPort> port;
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KSlabHeap<KProcess> process;
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KSlabHeap<KResourceLimit> resource_limit;
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KSlabHeap<KSession> session;
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KSlabHeap<KSharedMemory> shared_memory;
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KSlabHeap<KThread> thread;
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KSlabHeap<KTransferMemory> transfer_memory;
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KSlabHeap<KWritableEvent> writeable_event;
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};
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std::unique_ptr<SlabHeapContainer> slab_heap_container;
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};
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} // namespace Kernel
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