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Atmosphere/libraries/libmesosphere/include/mesosphere/kern_k_process.hpp

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/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <mesosphere/kern_common.hpp>
#include <mesosphere/kern_select_cpu.hpp>
#include <mesosphere/kern_slab_helpers.hpp>
#include <mesosphere/kern_k_synchronization_object.hpp>
#include <mesosphere/kern_k_handle_table.hpp>
#include <mesosphere/kern_k_thread.hpp>
#include <mesosphere/kern_k_thread_local_page.hpp>
#include <mesosphere/kern_k_shared_memory_info.hpp>
#include <mesosphere/kern_k_worker_task.hpp>
#include <mesosphere/kern_select_page_table.hpp>
#include <mesosphere/kern_k_condition_variable.hpp>
#include <mesosphere/kern_k_address_arbiter.hpp>
#include <mesosphere/kern_k_capabilities.hpp>
#include <mesosphere/kern_k_wait_object.hpp>
#include <mesosphere/kern_k_dynamic_slab_heap.hpp>
#include <mesosphere/kern_k_page_table_manager.hpp>
namespace ams::kern {
class KProcess final : public KAutoObjectWithSlabHeapAndContainer<KProcess, KSynchronizationObject>, public KWorkerTask {
MESOSPHERE_AUTOOBJECT_TRAITS(KProcess, KSynchronizationObject);
public:
enum State {
State_Created = ams::svc::ProcessState_Created,
State_CreatedAttached = ams::svc::ProcessState_CreatedAttached,
State_Running = ams::svc::ProcessState_Running,
State_Crashed = ams::svc::ProcessState_Crashed,
State_RunningAttached = ams::svc::ProcessState_RunningAttached,
State_Terminating = ams::svc::ProcessState_Terminating,
State_Terminated = ams::svc::ProcessState_Terminated,
State_DebugBreak = ams::svc::ProcessState_DebugBreak,
};
using ThreadList = util::IntrusiveListMemberTraits<&KThread::process_list_node>::ListType;
static constexpr size_t AslrAlignment = KernelAslrAlignment;
private:
using SharedMemoryInfoList = util::IntrusiveListBaseTraits<KSharedMemoryInfo>::ListType;
using TLPTree = util::IntrusiveRedBlackTreeBaseTraits<KThreadLocalPage>::TreeType<KThreadLocalPage>;
using TLPIterator = TLPTree::iterator;
private:
KProcessPageTable page_table{};
std::atomic<size_t> used_kernel_memory_size{};
TLPTree fully_used_tlp_tree{};
TLPTree partially_used_tlp_tree{};
s32 ideal_core_id{};
void *attached_object{};
KResourceLimit *resource_limit{};
KVirtualAddress system_resource_address{};
size_t system_resource_num_pages{};
size_t memory_release_hint{};
State state{};
KLightLock state_lock{};
KLightLock list_lock{};
KConditionVariable cond_var{};
KAddressArbiter address_arbiter{};
u64 entropy[4]{};
bool is_signaled{};
bool is_initialized{};
bool is_application{};
char name[13]{};
std::atomic<u16> num_threads{};
u16 peak_num_threads{};
u32 flags{};
KMemoryManager::Pool memory_pool{};
s64 schedule_count{};
KCapabilities capabilities{};
ams::svc::ProgramId program_id{};
u64 process_id{};
s64 creation_time{};
KProcessAddress code_address{};
size_t code_size{};
size_t main_thread_stack_size{};
size_t max_process_memory{};
u32 version{};
KHandleTable handle_table{};
KProcessAddress plr_address{};
void *plr_heap_address{};
KThread *exception_thread{};
ThreadList thread_list{};
SharedMemoryInfoList shared_memory_list{};
bool is_suspended{};
bool is_jit_debug{};
ams::svc::DebugEvent jit_debug_event_type{};
ams::svc::DebugException jit_debug_exception_type{};
uintptr_t jit_debug_params[4]{};
u64 jit_debug_thread_id{};
KWaitObject wait_object{};
KThread *running_threads[cpu::NumCores]{};
u64 running_thread_idle_counts[cpu::NumCores]{};
KThread *pinned_threads[cpu::NumCores]{};
std::atomic<s32> num_created_threads{};
std::atomic<s64> cpu_time{};
std::atomic<s64> num_process_switches{};
std::atomic<s64> num_thread_switches{};
std::atomic<s64> num_fpu_switches{};
std::atomic<s64> num_supervisor_calls{};
std::atomic<s64> num_ipc_messages{};
std::atomic<s64> num_ipc_replies{};
std::atomic<s64> num_ipc_receives{};
KDynamicPageManager dynamic_page_manager{};
KMemoryBlockSlabManager memory_block_slab_manager{};
KBlockInfoManager block_info_manager{};
KPageTableManager page_table_manager{};
private:
Result Initialize(const ams::svc::CreateProcessParameter &params);
void StartTermination();
void FinishTermination();
public:
KProcess() { /* ... */ }
virtual ~KProcess() { /* ... */ }
Result Initialize(const ams::svc::CreateProcessParameter &params, const KPageGroup &pg, const u32 *caps, s32 num_caps, KResourceLimit *res_limit, KMemoryManager::Pool pool);
Result Initialize(const ams::svc::CreateProcessParameter &params, svc::KUserPointer<const u32 *> caps, s32 num_caps, KResourceLimit *res_limit, KMemoryManager::Pool pool);
void Exit();
constexpr const char *GetName() const { return this->name; }
constexpr ams::svc::ProgramId GetProgramId() const { return this->program_id; }
constexpr u64 GetProcessId() const { return this->process_id; }
constexpr State GetState() const { return this->state; }
constexpr u64 GetCoreMask() const { return this->capabilities.GetCoreMask(); }
constexpr u64 GetPriorityMask() const { return this->capabilities.GetPriorityMask(); }
constexpr s32 GetIdealCoreId() const { return this->ideal_core_id; }
constexpr void SetIdealCoreId(s32 core_id) { this->ideal_core_id = core_id; }
constexpr bool CheckThreadPriority(s32 prio) const { return ((1ul << prio) & this->GetPriorityMask()) != 0; }
constexpr u32 GetCreateProcessFlags() const { return this->flags; }
constexpr bool Is64Bit() const { return this->flags & ams::svc::CreateProcessFlag_Is64Bit; }
constexpr KProcessAddress GetEntryPoint() const { return this->code_address; }
constexpr KMemoryManager::Pool GetMemoryPool() const { return this->memory_pool; }
constexpr u64 GetRandomEntropy(size_t i) const { return this->entropy[i]; }
constexpr bool IsApplication() const { return this->is_application; }
constexpr bool IsSuspended() const { return this->is_suspended; }
constexpr void SetSuspended(bool suspended) { this->is_suspended = suspended; }
Result Terminate();
constexpr bool IsTerminated() const {
return this->state == State_Terminated;
}
constexpr bool IsAttachedToDebugger() const {
return this->attached_object != nullptr;
}
constexpr bool IsPermittedInterrupt(int32_t interrupt_id) const {
return this->capabilities.IsPermittedInterrupt(interrupt_id);
}
constexpr bool IsPermittedDebug() const {
return this->capabilities.IsPermittedDebug();
}
constexpr bool CanForceDebug() const {
return this->capabilities.CanForceDebug();
}
u32 GetAllocateOption() const { return this->page_table.GetAllocateOption(); }
ThreadList &GetThreadList() { return this->thread_list; }
const ThreadList &GetThreadList() const { return this->thread_list; }
constexpr void *GetDebugObject() const { return this->attached_object; }
KProcess::State SetDebugObject(void *debug_object);
void ClearDebugObject(KProcess::State state);
KEventInfo *GetJitDebugInfo();
bool EnterUserException();
bool LeaveUserException();
bool ReleaseUserException(KThread *thread);
KThread *GetPinnedThread(s32 core_id) const {
MESOSPHERE_ASSERT(0 <= core_id && core_id < static_cast<s32>(cpu::NumCores));
return this->pinned_threads[core_id];
}
void CopySvcPermissionsTo(KThread::StackParameters &sp) {
this->capabilities.CopySvcPermissionsTo(sp);
}
constexpr KResourceLimit *GetResourceLimit() const { return this->resource_limit; }
bool ReserveResource(ams::svc::LimitableResource which, s64 value);
bool ReserveResource(ams::svc::LimitableResource which, s64 value, s64 timeout);
void ReleaseResource(ams::svc::LimitableResource which, s64 value);
void ReleaseResource(ams::svc::LimitableResource which, s64 value, s64 hint);
constexpr KLightLock &GetStateLock() { return this->state_lock; }
constexpr KLightLock &GetListLock() { return this->list_lock; }
constexpr KProcessPageTable &GetPageTable() { return this->page_table; }
constexpr const KProcessPageTable &GetPageTable() const { return this->page_table; }
constexpr KHandleTable &GetHandleTable() { return this->handle_table; }
constexpr const KHandleTable &GetHandleTable() const { return this->handle_table; }
size_t GetUsedUserPhysicalMemorySize() const;
size_t GetTotalUserPhysicalMemorySize() const;
size_t GetUsedNonSystemUserPhysicalMemorySize() const;
size_t GetTotalNonSystemUserPhysicalMemorySize() const;
Result AddSharedMemory(KSharedMemory *shmem, KProcessAddress address, size_t size);
void RemoveSharedMemory(KSharedMemory *shmem, KProcessAddress address, size_t size);
Result CreateThreadLocalRegion(KProcessAddress *out);
Result DeleteThreadLocalRegion(KProcessAddress addr);
void *GetThreadLocalRegionPointer(KProcessAddress addr);
constexpr KProcessAddress GetProcessLocalRegionAddress() const { return this->plr_address; }
void AddCpuTime(s64 diff) { this->cpu_time += diff; }
constexpr s64 GetScheduledCount() const { return this->schedule_count; }
void IncrementScheduledCount() { ++this->schedule_count; }
void IncrementThreadCount();
void DecrementThreadCount();
size_t GetTotalSystemResourceSize() const { return this->system_resource_num_pages * PageSize; }
size_t GetUsedSystemResourceSize() const {
if (this->system_resource_num_pages == 0) {
return 0;
}
return this->dynamic_page_manager.GetUsed() * PageSize;
}
void ClearRunningThread(KThread *thread) {
for (size_t i = 0; i < util::size(this->running_threads); ++i) {
if (this->running_threads[i] == thread) {
this->running_threads[i] = nullptr;
}
}
}
void RegisterThread(KThread *thread);
void UnregisterThread(KThread *thread);
Result Run(s32 priority, size_t stack_size);
Result Reset();
Result SetActivity(ams::svc::ProcessActivity activity);
void PinCurrentThread();
Result SignalToAddress(KProcessAddress address) {
return this->cond_var.SignalToAddress(address);
}
Result WaitForAddress(ams::svc::Handle handle, KProcessAddress address, u32 tag) {
return this->cond_var.WaitForAddress(handle, address, tag);
}
void SignalConditionVariable(uintptr_t cv_key, int32_t count) {
return this->cond_var.Signal(cv_key, count);
}
Result WaitConditionVariable(KProcessAddress address, uintptr_t cv_key, u32 tag, s64 ns) {
return this->cond_var.Wait(address, cv_key, tag, ns);
}
Result SignalAddressArbiter(uintptr_t address, ams::svc::SignalType signal_type, s32 value, s32 count) {
return this->address_arbiter.SignalToAddress(address, signal_type, value, count);
}
Result WaitAddressArbiter(uintptr_t address, ams::svc::ArbitrationType arb_type, s32 value, s64 timeout) {
return this->address_arbiter.WaitForAddress(address, arb_type, value, timeout);
}
static KProcess *GetProcessFromId(u64 process_id);
static Result GetProcessList(s32 *out_num_processes, ams::kern::svc::KUserPointer<u64 *> out_process_ids, s32 max_out_count);
static void Switch(KProcess *cur_process, KProcess *next_process) {
/* Set the current process pointer. */
SetCurrentProcess(next_process);
/* Update the current page table. */
if (next_process) {
next_process->GetPageTable().Activate(next_process->GetProcessId());
} else {
Kernel::GetKernelPageTable().Activate();
}
}
public:
/* Overridden parent functions. */
virtual bool IsInitialized() const override { return this->is_initialized; }
static void PostDestroy(uintptr_t arg) { /* ... */ }
virtual void Finalize() override;
virtual u64 GetId() const override { return this->GetProcessId(); }
virtual bool IsSignaled() const override {
MESOSPHERE_ASSERT_THIS();
MESOSPHERE_ASSERT(KScheduler::IsSchedulerLockedByCurrentThread());
return this->is_signaled;
}
virtual void DoWorkerTask() override;
private:
void ChangeState(State new_state) {
if (this->state != new_state) {
this->state = new_state;
this->is_signaled = true;
this->NotifyAvailable();
}
}
};
}