612e1388df
This gives us significantly more control over where in the initialization process we start execution of the main process. Previously we were running the main process before the CPU or GPU threads were initialized (not good). This amends execution to start after all of our threads are properly set up.
338 lines
10 KiB
C++
338 lines
10 KiB
C++
// Copyright 2015 Citra 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 <bitset>
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#include <cstddef>
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#include <list>
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#include <string>
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#include <vector>
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#include <boost/container/static_vector.hpp>
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#include "common/common_types.h"
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#include "core/hle/kernel/address_arbiter.h"
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#include "core/hle/kernel/handle_table.h"
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#include "core/hle/kernel/mutex.h"
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#include "core/hle/kernel/process_capability.h"
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#include "core/hle/kernel/vm_manager.h"
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#include "core/hle/kernel/wait_object.h"
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#include "core/hle/result.h"
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namespace Core {
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class System;
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}
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namespace FileSys {
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class ProgramMetadata;
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}
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namespace Kernel {
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class KernelCore;
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class ResourceLimit;
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class Thread;
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struct CodeSet;
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enum class MemoryRegion : u16 {
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APPLICATION = 1,
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SYSTEM = 2,
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BASE = 3,
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};
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/**
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* Indicates the status of a Process instance.
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*
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* @note These match the values as used by kernel,
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* so new entries should only be added if RE
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* shows that a new value has been introduced.
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*/
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enum class ProcessStatus {
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Created,
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CreatedWithDebuggerAttached,
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Running,
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WaitingForDebuggerToAttach,
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DebuggerAttached,
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Exiting,
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Exited,
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DebugBreak,
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};
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class Process final : public WaitObject {
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public:
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enum : u64 {
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/// Lowest allowed process ID for a kernel initial process.
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InitialKIPIDMin = 1,
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/// Highest allowed process ID for a kernel initial process.
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InitialKIPIDMax = 80,
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/// Lowest allowed process ID for a userland process.
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ProcessIDMin = 81,
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/// Highest allowed process ID for a userland process.
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ProcessIDMax = 0xFFFFFFFFFFFFFFFF,
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};
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static constexpr std::size_t RANDOM_ENTROPY_SIZE = 4;
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static SharedPtr<Process> Create(Core::System& system, std::string&& name);
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std::string GetTypeName() const override {
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return "Process";
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}
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std::string GetName() const override {
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return name;
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}
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static constexpr HandleType HANDLE_TYPE = HandleType::Process;
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HandleType GetHandleType() const override {
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return HANDLE_TYPE;
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}
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/// Gets a reference to the process' memory manager.
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Kernel::VMManager& VMManager() {
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return vm_manager;
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}
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/// Gets a const reference to the process' memory manager.
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const Kernel::VMManager& VMManager() const {
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return vm_manager;
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}
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/// Gets a reference to the process' handle table.
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HandleTable& GetHandleTable() {
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return handle_table;
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}
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/// Gets a const reference to the process' handle table.
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const HandleTable& GetHandleTable() const {
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return handle_table;
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}
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/// Gets a reference to the process' address arbiter.
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AddressArbiter& GetAddressArbiter() {
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return address_arbiter;
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}
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/// Gets a const reference to the process' address arbiter.
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const AddressArbiter& GetAddressArbiter() const {
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return address_arbiter;
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}
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/// Gets a reference to the process' mutex lock.
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Mutex& GetMutex() {
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return mutex;
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}
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/// Gets a const reference to the process' mutex lock
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const Mutex& GetMutex() const {
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return mutex;
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}
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/// Gets the current status of the process
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ProcessStatus GetStatus() const {
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return status;
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}
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/// Gets the unique ID that identifies this particular process.
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u64 GetProcessID() const {
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return process_id;
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}
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/// Gets the title ID corresponding to this process.
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u64 GetTitleID() const {
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return program_id;
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}
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/// Gets the resource limit descriptor for this process
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SharedPtr<ResourceLimit> GetResourceLimit() const;
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/// Gets the ideal CPU core ID for this process
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u8 GetIdealCore() const {
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return ideal_core;
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}
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/// Gets the bitmask of allowed cores that this process' threads can run on.
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u64 GetCoreMask() const {
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return capabilities.GetCoreMask();
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}
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/// Gets the bitmask of allowed thread priorities.
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u64 GetPriorityMask() const {
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return capabilities.GetPriorityMask();
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}
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u32 IsVirtualMemoryEnabled() const {
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return is_virtual_address_memory_enabled;
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}
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/// Whether this process is an AArch64 or AArch32 process.
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bool Is64BitProcess() const {
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return is_64bit_process;
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}
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/// Gets the total running time of the process instance in ticks.
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u64 GetCPUTimeTicks() const {
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return total_process_running_time_ticks;
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}
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/// Updates the total running time, adding the given ticks to it.
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void UpdateCPUTimeTicks(u64 ticks) {
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total_process_running_time_ticks += ticks;
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}
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/// Gets 8 bytes of random data for svcGetInfo RandomEntropy
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u64 GetRandomEntropy(std::size_t index) const {
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return random_entropy.at(index);
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}
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/// Retrieves the total physical memory used by this process in bytes.
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u64 GetTotalPhysicalMemoryUsed() const;
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/// Gets the list of all threads created with this process as their owner.
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const std::list<const Thread*>& GetThreadList() const {
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return thread_list;
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}
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/// Registers a thread as being created under this process,
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/// adding it to this process' thread list.
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void RegisterThread(const Thread* thread);
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/// Unregisters a thread from this process, removing it
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/// from this process' thread list.
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void UnregisterThread(const Thread* thread);
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/// Clears the signaled state of the process if and only if it's signaled.
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///
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/// @pre The process must not be already terminated. If this is called on a
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/// terminated process, then ERR_INVALID_STATE will be returned.
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///
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/// @pre The process must be in a signaled state. If this is called on a
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/// process instance that is not signaled, ERR_INVALID_STATE will be
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/// returned.
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ResultCode ClearSignalState();
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/**
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* Loads process-specifics configuration info with metadata provided
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* by an executable.
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*
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* @param metadata The provided metadata to load process specific info from.
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*
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* @returns RESULT_SUCCESS if all relevant metadata was able to be
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* loaded and parsed. Otherwise, an error code is returned.
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*/
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ResultCode LoadFromMetadata(const FileSys::ProgramMetadata& metadata);
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/**
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* Starts the main application thread for this process.
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*
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* @param main_thread_priority The priority for the main thread.
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* @param stack_size The stack size for the main thread in bytes.
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*/
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void Run(s32 main_thread_priority, u64 stack_size);
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/**
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* Prepares a process for termination by stopping all of its threads
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* and clearing any other resources.
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*/
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void PrepareForTermination();
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void LoadModule(CodeSet module_, VAddr base_addr);
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///////////////////////////////////////////////////////////////////////////////////////////////
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// Thread-local storage management
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// Marks the next available region as used and returns the address of the slot.
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VAddr MarkNextAvailableTLSSlotAsUsed(Thread& thread);
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// Frees a used TLS slot identified by the given address
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void FreeTLSSlot(VAddr tls_address);
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private:
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explicit Process(Core::System& system);
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~Process() override;
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/// Checks if the specified thread should wait until this process is available.
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bool ShouldWait(const Thread* thread) const override;
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/// Acquires/locks this process for the specified thread if it's available.
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void Acquire(Thread* thread) override;
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/// Changes the process status. If the status is different
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/// from the current process status, then this will trigger
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/// a process signal.
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void ChangeStatus(ProcessStatus new_status);
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/// Memory manager for this process.
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Kernel::VMManager vm_manager;
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/// Size of the main thread's stack in bytes.
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u64 main_thread_stack_size = 0;
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/// Size of the loaded code memory in bytes.
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u64 code_memory_size = 0;
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/// Current status of the process
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ProcessStatus status;
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/// The ID of this process
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u64 process_id = 0;
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/// Title ID corresponding to the process
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u64 program_id = 0;
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/// Resource limit descriptor for this process
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SharedPtr<ResourceLimit> resource_limit;
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/// The ideal CPU core for this process, threads are scheduled on this core by default.
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u8 ideal_core = 0;
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u32 is_virtual_address_memory_enabled = 0;
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/// The Thread Local Storage area is allocated as processes create threads,
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/// each TLS area is 0x200 bytes, so one page (0x1000) is split up in 8 parts, and each part
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/// holds the TLS for a specific thread. This vector contains which parts are in use for each
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/// page as a bitmask.
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/// This vector will grow as more pages are allocated for new threads.
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std::vector<std::bitset<8>> tls_slots;
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/// Contains the parsed process capability descriptors.
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ProcessCapabilities capabilities;
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/// Whether or not this process is AArch64, or AArch32.
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/// By default, we currently assume this is true, unless otherwise
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/// specified by metadata provided to the process during loading.
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bool is_64bit_process = true;
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/// Whether or not this process is signaled. This occurs
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/// upon the process changing to a different state.
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bool is_signaled = false;
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/// Total running time for the process in ticks.
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u64 total_process_running_time_ticks = 0;
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/// Per-process handle table for storing created object handles in.
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HandleTable handle_table;
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/// Per-process address arbiter.
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AddressArbiter address_arbiter;
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/// The per-process mutex lock instance used for handling various
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/// forms of services, such as lock arbitration, and condition
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/// variable related facilities.
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Mutex mutex;
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/// Random values for svcGetInfo RandomEntropy
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std::array<u64, RANDOM_ENTROPY_SIZE> random_entropy;
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/// List of threads that are running with this process as their owner.
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std::list<const Thread*> thread_list;
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/// System context
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Core::System& system;
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/// Name of this process
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std::string name;
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};
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} // namespace Kernel
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