/* * Copyright (c) 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 . */ #include #include "pm_process_manager.hpp" #include "pm_resource_manager.hpp" #include "pm_process_info.hpp" namespace ams::pm::impl { namespace { /* Types. */ enum HookType { HookType_ProgramId = (1 << 0), HookType_Application = (1 << 1), }; struct LaunchProcessArgs { os::ProcessId *out_process_id; ncm::ProgramLocation location; u32 flags; }; #define GET_FLAG_MASK(flag) (hos_version >= hos::Version_5_0_0 ? static_cast(LaunchFlags_##flag) : static_cast(LaunchFlagsDeprecated_##flag)) inline bool ShouldSignalOnExit(u32 launch_flags) { const auto hos_version = hos::GetVersion(); return launch_flags & GET_FLAG_MASK(SignalOnExit); } inline bool ShouldSignalOnStart(u32 launch_flags) { const auto hos_version = hos::GetVersion(); if (hos_version < hos::Version_2_0_0) { return false; } return launch_flags & GET_FLAG_MASK(SignalOnStart); } inline bool ShouldSignalOnException(u32 launch_flags) { const auto hos_version = hos::GetVersion(); return launch_flags & GET_FLAG_MASK(SignalOnException); } inline bool ShouldSignalOnDebugEvent(u32 launch_flags) { const auto hos_version = hos::GetVersion(); return launch_flags & GET_FLAG_MASK(SignalOnDebugEvent); } inline bool ShouldStartSuspended(u32 launch_flags) { const auto hos_version = hos::GetVersion(); return launch_flags & GET_FLAG_MASK(StartSuspended); } inline bool ShouldDisableAslr(u32 launch_flags) { const auto hos_version = hos::GetVersion(); return launch_flags & GET_FLAG_MASK(DisableAslr); } #undef GET_FLAG_MASK template class ProcessInfoAllocator { NON_COPYABLE(ProcessInfoAllocator); NON_MOVEABLE(ProcessInfoAllocator); static_assert(MaxProcessInfos >= 0x40, "MaxProcessInfos is too small."); private: util::TypedStorage m_process_info_storages[MaxProcessInfos]{}; bool m_process_info_allocated[MaxProcessInfos]{}; os::SdkMutex m_lock{}; private: constexpr inline size_t GetProcessInfoIndex(ProcessInfo *process_info) const { return process_info - GetPointer(m_process_info_storages[0]); } public: constexpr ProcessInfoAllocator() = default; template ProcessInfo *AllocateProcessInfo(Args &&... args) { std::scoped_lock lk(m_lock); for (size_t i = 0; i < MaxProcessInfos; i++) { if (!m_process_info_allocated[i]) { m_process_info_allocated[i] = true; std::memset(m_process_info_storages + i, 0, sizeof(m_process_info_storages[i])); return util::ConstructAt(m_process_info_storages[i], std::forward(args)...); } } return nullptr; } void FreeProcessInfo(ProcessInfo *process_info) { std::scoped_lock lk(m_lock); const size_t index = this->GetProcessInfoIndex(process_info); AMS_ABORT_UNLESS(index < MaxProcessInfos); AMS_ABORT_UNLESS(m_process_info_allocated[index]); util::DestroyAt(m_process_info_storages[index]); m_process_info_allocated[index] = false; } }; /* Process Tracking globals. */ void ProcessTrackingMain(void *); constinit os::ThreadType g_process_track_thread; alignas(os::ThreadStackAlignment) constinit u8 g_process_track_thread_stack[16_KB]; /* Process lists. */ constinit ProcessList g_process_list; constinit ProcessList g_dead_process_list; /* Process Info Allocation. */ /* Note: The kernel slabheap is size 0x50 -- we allow slightly larger to account for the dead process list. */ constexpr size_t MaxProcessCount = 0x60; constinit ProcessInfoAllocator g_process_info_allocator; /* Global events. */ constinit os::SystemEventType g_process_event; constinit os::SystemEventType g_hook_to_create_process_event; constinit os::SystemEventType g_hook_to_create_application_process_event; constinit os::SystemEventType g_boot_finished_event; /* Process Launch synchronization globals. */ constinit os::SdkMutex g_launch_program_lock; os::Event g_process_launch_start_event(os::EventClearMode_AutoClear); os::Event g_process_launch_finish_event(os::EventClearMode_AutoClear); constinit Result g_process_launch_result = ResultSuccess(); constinit LaunchProcessArgs g_process_launch_args = {}; /* Hook globals. */ constinit std::atomic g_program_id_hook; constinit std::atomic g_application_hook; /* Forward declarations. */ Result LaunchProcess(os::MultiWaitType &multi_wait, const LaunchProcessArgs &args); void OnProcessSignaled(ProcessListAccessor &list, ProcessInfo *process_info); /* Helpers. */ void ProcessTrackingMain(void *) { /* This is the main loop of the process tracking thread. */ /* Setup multi wait/holders. */ os::MultiWaitType process_multi_wait; os::MultiWaitHolderType start_event_holder; os::InitializeMultiWait(std::addressof(process_multi_wait)); os::InitializeMultiWaitHolder(std::addressof(start_event_holder), g_process_launch_start_event.GetBase()); os::LinkMultiWaitHolder(std::addressof(process_multi_wait), std::addressof(start_event_holder)); while (true) { auto signaled_holder = os::WaitAny(std::addressof(process_multi_wait)); if (signaled_holder == std::addressof(start_event_holder)) { /* Launch start event signaled. */ /* TryWait will clear signaled, preventing duplicate notifications. */ if (g_process_launch_start_event.TryWait()) { g_process_launch_result = LaunchProcess(process_multi_wait, g_process_launch_args); g_process_launch_finish_event.Signal(); } } else { /* Some process was signaled. */ ProcessListAccessor list(g_process_list); OnProcessSignaled(list, reinterpret_cast(os::GetMultiWaitHolderUserData(signaled_holder))); } } } inline u32 GetLoaderCreateProcessFlags(u32 launch_flags) { u32 ldr_flags = 0; if (ShouldSignalOnException(launch_flags) || (hos::GetVersion() >= hos::Version_2_0_0 && !ShouldStartSuspended(launch_flags))) { ldr_flags |= ldr::CreateProcessFlag_EnableDebug; } if (ShouldDisableAslr(launch_flags)) { ldr_flags |= ldr::CreateProcessFlag_DisableAslr; } return ldr_flags; } bool HasApplicationProcess() { ProcessListAccessor list(g_process_list); for (auto &process : *list) { if (process.IsApplication()) { return true; } } return false; } Result StartProcess(ProcessInfo *process_info, const ldr::ProgramInfo *program_info) { R_TRY(svc::StartProcess(process_info->GetHandle(), program_info->main_thread_priority, program_info->default_cpu_id, program_info->main_thread_stack_size)); process_info->SetState(svc::ProcessState_Running); R_SUCCEED(); } void CleanupProcessInfo(ProcessListAccessor &list, ProcessInfo *process_info) { /* Remove the process from the list. */ list->Remove(process_info); /* Delete the process. */ g_process_info_allocator.FreeProcessInfo(process_info); } Result LaunchProcess(os::MultiWaitType &multi_wait, const LaunchProcessArgs &args) { /* Get Program Info. */ ldr::ProgramInfo program_info; cfg::OverrideStatus override_status; R_TRY(ldr::pm::AtmosphereGetProgramInfo(std::addressof(program_info), std::addressof(override_status), args.location)); const bool is_application = (program_info.flags & ldr::ProgramInfoFlag_ApplicationTypeMask) == ldr::ProgramInfoFlag_Application; const bool allow_debug = (program_info.flags & ldr::ProgramInfoFlag_AllowDebug) || hos::GetVersion() < hos::Version_2_0_0; /* Ensure we only try to run one application. */ R_UNLESS(!is_application || !HasApplicationProcess(), pm::ResultApplicationRunning()); /* Fix the program location to use the right program id. */ const ncm::ProgramLocation location = ncm::ProgramLocation::Make(program_info.program_id, static_cast(args.location.storage_id)); /* Pin and create the process. */ os::NativeHandle process_handle; ldr::PinId pin_id; { /* Pin the program with loader. */ R_TRY(ldr::pm::AtmospherePinProgram(std::addressof(pin_id), location, override_status)); /* If we fail after now, unpin. */ ON_RESULT_FAILURE { ldr::pm::UnpinProgram(pin_id); }; /* Ensure we can talk to mitm services. */ { AMS_FUNCTION_LOCAL_STATIC_CONSTINIT(bool, s_initialized_mitm, false); if (!s_initialized_mitm) { mitm::pm::Initialize(); s_initialized_mitm = true; } } /* Determine boost size for mitm. */ u64 mitm_boost_size = 0; R_TRY(mitm::pm::PrepareLaunchProgram(std::addressof(mitm_boost_size), program_info.program_id, override_status, is_application)); if (mitm_boost_size > 0 || is_application) { R_ABORT_UNLESS(BoostSystemMemoryResourceLimitForMitm(mitm_boost_size)); } ON_RESULT_FAILURE_2 { if (mitm_boost_size > 0 || is_application) { R_ABORT_UNLESS(BoostSystemMemoryResourceLimitForMitm(0)); } }; /* Ensure resources are available. */ resource::WaitResourceAvailable(std::addressof(program_info)); /* Actually create the process. */ R_TRY(ldr::pm::CreateProcess(std::addressof(process_handle), pin_id, GetLoaderCreateProcessFlags(args.flags), resource::GetResourceLimitHandle(std::addressof(program_info)))); } /* Get the process id. */ os::ProcessId process_id = os::GetProcessId(process_handle); /* Make new process info. */ ProcessInfo *process_info = g_process_info_allocator.AllocateProcessInfo(process_handle, process_id, pin_id, location, override_status); AMS_ABORT_UNLESS(process_info != nullptr); /* Link new process info. */ { ProcessListAccessor list(g_process_list); list->push_back(*process_info); process_info->LinkToMultiWait(multi_wait); } /* Prevent resource leakage if register fails. */ ON_RESULT_FAILURE { ProcessListAccessor list(g_process_list); process_info->Cleanup(); CleanupProcessInfo(list, process_info); }; const u8 *acid_sac = program_info.ac_buffer; const u8 *aci_sac = acid_sac + program_info.acid_sac_size; const u8 *acid_fac = aci_sac + program_info.aci_sac_size; const u8 *aci_fah = acid_fac + program_info.acid_fac_size; /* Register with FS and SM. */ R_TRY(fsprRegisterProgram(static_cast(process_id), static_cast(location.program_id), static_cast(location.storage_id), aci_fah, program_info.aci_fah_size, acid_fac, program_info.acid_fac_size)); R_TRY(sm::manager::RegisterProcess(process_id, location.program_id, override_status, acid_sac, program_info.acid_sac_size, aci_sac, program_info.aci_sac_size)); /* Set flags. */ if (is_application) { process_info->SetApplication(); } if (ShouldSignalOnStart(args.flags) && allow_debug) { process_info->SetSignalOnStart(); } if (ShouldSignalOnExit(args.flags)) { process_info->SetSignalOnExit(); } if (ShouldSignalOnDebugEvent(args.flags) && allow_debug) { process_info->SetSignalOnDebugEvent(); } /* Process hooks/signaling. */ if (location.program_id == g_program_id_hook) { os::SignalSystemEvent(std::addressof(g_hook_to_create_process_event)); g_program_id_hook = ncm::InvalidProgramId; } else if (is_application && g_application_hook) { os::SignalSystemEvent(std::addressof(g_hook_to_create_application_process_event)); g_application_hook = false; } else if (!ShouldStartSuspended(args.flags)) { R_TRY(StartProcess(process_info, std::addressof(program_info))); } *args.out_process_id = process_id; R_SUCCEED(); } void OnProcessSignaled(ProcessListAccessor &list, ProcessInfo *process_info) { /* Reset the process's signal. */ svc::ResetSignal(process_info->GetHandle()); /* Update the process's state. */ const svc::ProcessState old_state = process_info->GetState(); { s64 tmp = 0; R_ABORT_UNLESS(svc::GetProcessInfo(std::addressof(tmp), process_info->GetHandle(), svc::ProcessInfoType_ProcessState)); process_info->SetState(static_cast(tmp)); } const svc::ProcessState new_state = process_info->GetState(); /* If we're transitioning away from crashed, clear waiting attached. */ if (old_state == svc::ProcessState_Crashed && new_state != svc::ProcessState_Crashed) { process_info->ClearExceptionWaitingAttach(); } switch (new_state) { case svc::ProcessState_Created: case svc::ProcessState_CreatedAttached: case svc::ProcessState_Terminating: break; case svc::ProcessState_Running: if (process_info->ShouldSignalOnDebugEvent()) { process_info->ClearSuspended(); process_info->SetSuspendedStateChanged(); os::SignalSystemEvent(std::addressof(g_process_event)); } else if (hos::GetVersion() >= hos::Version_2_0_0 && process_info->ShouldSignalOnStart()) { process_info->SetStartedStateChanged(); process_info->ClearSignalOnStart(); os::SignalSystemEvent(std::addressof(g_process_event)); } process_info->ClearUnhandledException(); break; case svc::ProcessState_Crashed: if (!process_info->HasUnhandledException()) { process_info->SetExceptionOccurred(); os::SignalSystemEvent(std::addressof(g_process_event)); } process_info->SetExceptionWaitingAttach(); break; case svc::ProcessState_RunningAttached: if (process_info->ShouldSignalOnDebugEvent()) { process_info->ClearSuspended(); process_info->SetSuspendedStateChanged(); os::SignalSystemEvent(std::addressof(g_process_event)); } process_info->ClearUnhandledException(); break; case svc::ProcessState_Terminated: /* Free process resources, unlink from multi wait. */ process_info->Cleanup(); if (hos::GetVersion() < hos::Version_5_0_0 && process_info->ShouldSignalOnExit()) { os::SignalSystemEvent(std::addressof(g_process_event)); } else { /* Handle the case where we need to keep the process alive some time longer. */ if (hos::GetVersion() >= hos::Version_5_0_0 && process_info->ShouldSignalOnExit()) { /* Remove from the living list. */ list->Remove(process_info); /* Add the process to the list of dead processes. */ { ProcessListAccessor dead_list(g_dead_process_list); dead_list->push_back(*process_info); } /* Signal. */ os::SignalSystemEvent(std::addressof(g_process_event)); } else { /* Actually delete process. */ CleanupProcessInfo(list, process_info); } } break; case svc::ProcessState_DebugBreak: if (process_info->ShouldSignalOnDebugEvent()) { process_info->SetSuspended(); process_info->SetSuspendedStateChanged(); os::SignalSystemEvent(std::addressof(g_process_event)); } break; } } } /* Initialization. */ Result InitializeProcessManager() { /* Create events. */ R_ABORT_UNLESS(os::CreateSystemEvent(std::addressof(g_process_event), os::EventClearMode_AutoClear, true)); R_ABORT_UNLESS(os::CreateSystemEvent(std::addressof(g_hook_to_create_process_event), os::EventClearMode_AutoClear, true)); R_ABORT_UNLESS(os::CreateSystemEvent(std::addressof(g_hook_to_create_application_process_event), os::EventClearMode_AutoClear, true)); R_ABORT_UNLESS(os::CreateSystemEvent(std::addressof(g_boot_finished_event), os::EventClearMode_AutoClear, true)); /* Initialize resource limits. */ R_TRY(resource::InitializeResourceManager()); /* Create thread. */ R_ABORT_UNLESS(os::CreateThread(std::addressof(g_process_track_thread), ProcessTrackingMain, nullptr, g_process_track_thread_stack, sizeof(g_process_track_thread_stack), AMS_GET_SYSTEM_THREAD_PRIORITY(pm, ProcessTrack))); os::SetThreadNamePointer(std::addressof(g_process_track_thread), AMS_GET_SYSTEM_THREAD_NAME(pm, ProcessTrack)); /* Start thread. */ os::StartThread(std::addressof(g_process_track_thread)); R_SUCCEED(); } /* Process Management. */ Result LaunchProgram(os::ProcessId *out_process_id, const ncm::ProgramLocation &loc, u32 flags) { /* Ensure we only try to launch one program at a time. */ std::scoped_lock lk(g_launch_program_lock); /* Set global arguments, signal, wait. */ g_process_launch_args = { .out_process_id = out_process_id, .location = loc, .flags = flags, }; g_process_launch_start_event.Signal(); g_process_launch_finish_event.Wait(); R_RETURN(g_process_launch_result); } Result StartProcess(os::ProcessId process_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(process_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); R_UNLESS(!process_info->HasStarted(), pm::ResultAlreadyStarted()); ldr::ProgramInfo program_info; R_TRY(ldr::pm::GetProgramInfo(std::addressof(program_info), process_info->GetProgramLocation())); R_RETURN(StartProcess(process_info, std::addressof(program_info))); } Result TerminateProcess(os::ProcessId process_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(process_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); R_RETURN(svc::TerminateProcess(process_info->GetHandle())); } Result TerminateProgram(ncm::ProgramId program_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(program_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); R_RETURN(svc::TerminateProcess(process_info->GetHandle())); } Result GetProcessEventHandle(os::NativeHandle *out) { *out = os::GetReadableHandleOfSystemEvent(std::addressof(g_process_event)); R_SUCCEED(); } Result GetProcessEventInfo(ProcessEventInfo *out) { /* Check for event from current process. */ { ProcessListAccessor list(g_process_list); for (auto &process : *list) { if (process.HasStarted() && process.HasStartedStateChanged()) { process.ClearStartedStateChanged(); out->event = GetProcessEventValue(ProcessEvent::Started); out->process_id = process.GetProcessId(); R_SUCCEED(); } if (process.HasSuspendedStateChanged()) { process.ClearSuspendedStateChanged(); if (process.IsSuspended()) { out->event = GetProcessEventValue(ProcessEvent::DebugBreak); } else { out->event = GetProcessEventValue(ProcessEvent::DebugRunning); } out->process_id = process.GetProcessId(); R_SUCCEED(); } if (process.HasExceptionOccurred()) { process.ClearExceptionOccurred(); out->event = GetProcessEventValue(ProcessEvent::Exception); out->process_id = process.GetProcessId(); R_SUCCEED(); } if (hos::GetVersion() < hos::Version_5_0_0 && process.ShouldSignalOnExit() && process.HasTerminated()) { out->event = GetProcessEventValue(ProcessEvent::Exited); out->process_id = process.GetProcessId(); R_SUCCEED(); } } } /* Check for event from exited process. */ if (hos::GetVersion() >= hos::Version_5_0_0) { ProcessListAccessor dead_list(g_dead_process_list); if (!dead_list->empty()) { auto &process_info = dead_list->front(); out->event = GetProcessEventValue(ProcessEvent::Exited); out->process_id = process_info.GetProcessId(); CleanupProcessInfo(dead_list, std::addressof(process_info)); R_SUCCEED(); } } out->process_id = os::ProcessId{}; out->event = GetProcessEventValue(ProcessEvent::None); R_SUCCEED(); } Result CleanupProcess(os::ProcessId process_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(process_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); R_UNLESS(process_info->HasTerminated(), pm::ResultNotTerminated()); CleanupProcessInfo(list, process_info); R_SUCCEED(); } Result ClearExceptionOccurred(os::ProcessId process_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(process_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); process_info->ClearExceptionOccurred(); R_SUCCEED(); } /* Information Getters. */ Result GetModuleIdList(u32 *out_count, u8 *out_buf, size_t max_out_count, u64 unused) { /* This function was always stubbed... */ AMS_UNUSED(out_buf, max_out_count, unused); *out_count = 0; R_SUCCEED(); } Result GetExceptionProcessIdList(u32 *out_count, os::ProcessId *out_process_ids, size_t max_out_count) { ProcessListAccessor list(g_process_list); size_t count = 0; if (max_out_count > 0) { for (auto &process : *list) { if (process.HasExceptionWaitingAttach()) { out_process_ids[count++] = process.GetProcessId(); if (count >= max_out_count) { break; } } } } *out_count = static_cast(count); R_SUCCEED(); } Result GetProcessId(os::ProcessId *out, ncm::ProgramId program_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(program_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); *out = process_info->GetProcessId(); R_SUCCEED(); } Result GetProgramId(ncm::ProgramId *out, os::ProcessId process_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(process_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); *out = process_info->GetProgramLocation().program_id; R_SUCCEED(); } Result GetApplicationProcessId(os::ProcessId *out_process_id) { ProcessListAccessor list(g_process_list); for (auto &process : *list) { if (process.IsApplication()) { *out_process_id = process.GetProcessId(); R_SUCCEED(); } } R_THROW(pm::ResultProcessNotFound()); } Result AtmosphereGetProcessInfo(os::NativeHandle *out_process_handle, ncm::ProgramLocation *out_loc, cfg::OverrideStatus *out_status, os::ProcessId process_id) { ProcessListAccessor list(g_process_list); auto process_info = list->Find(process_id); R_UNLESS(process_info != nullptr, pm::ResultProcessNotFound()); *out_process_handle = process_info->GetHandle(); *out_loc = process_info->GetProgramLocation(); *out_status = process_info->GetOverrideStatus(); R_SUCCEED(); } /* Hook API. */ Result HookToCreateProcess(os::NativeHandle *out_hook, ncm::ProgramId program_id) { *out_hook = os::InvalidNativeHandle; { ncm::ProgramId old_value = ncm::InvalidProgramId; R_UNLESS(g_program_id_hook.compare_exchange_strong(old_value, program_id), pm::ResultDebugHookInUse()); } *out_hook = os::GetReadableHandleOfSystemEvent(std::addressof(g_hook_to_create_process_event)); R_SUCCEED(); } Result HookToCreateApplicationProcess(os::NativeHandle *out_hook) { *out_hook = os::InvalidNativeHandle; { bool old_value = false; R_UNLESS(g_application_hook.compare_exchange_strong(old_value, true), pm::ResultDebugHookInUse()); } *out_hook = os::GetReadableHandleOfSystemEvent(std::addressof(g_hook_to_create_application_process_event)); R_SUCCEED(); } Result ClearHook(u32 which) { if (which & HookType_ProgramId) { g_program_id_hook = ncm::InvalidProgramId; } if (which & HookType_Application) { g_application_hook = false; } R_SUCCEED(); } /* Boot API. */ Result NotifyBootFinished() { AMS_FUNCTION_LOCAL_STATIC_CONSTINIT(bool, s_has_boot_finished, false); if (!s_has_boot_finished) { /* Set program verification disabled, if we should. */ /* NOTE: Nintendo does not check the result of this. */ if (spl::IsDisabledProgramVerification()) { if (hos::GetVersion() >= hos::Version_10_0_0) { ldr::pm::SetEnabledProgramVerification(false); } else { fsprSetEnabledProgramVerification(false); } } boot2::LaunchPreSdCardBootProgramsAndBoot2(); s_has_boot_finished = true; os::SignalSystemEvent(std::addressof(g_boot_finished_event)); } R_SUCCEED(); } Result GetBootFinishedEventHandle(os::NativeHandle *out) { /* In 8.0.0, Nintendo added this command, which signals that the boot sysmodule has finished. */ /* Nintendo only signals it in safe mode FIRM, and this function aborts on normal FIRM. */ /* We will signal it always, but only allow this function to succeed on safe mode. */ AMS_ABORT_UNLESS(spl::IsRecoveryBoot()); *out = os::GetReadableHandleOfSystemEvent(std::addressof(g_boot_finished_event)); R_SUCCEED(); } /* Resource Limit API. */ Result BoostSystemMemoryResourceLimit(u64 boost_size) { R_RETURN(resource::BoostSystemMemoryResourceLimit(boost_size)); } Result BoostApplicationThreadResourceLimit() { R_RETURN(resource::BoostApplicationThreadResourceLimit()); } Result BoostSystemThreadResourceLimit() { R_RETURN(resource::BoostSystemThreadResourceLimit()); } Result GetAppletResourceLimitCurrentValue(pm::ResourceLimitValue *out) { R_RETURN(resource::GetResourceLimitCurrentValue(ResourceLimitGroup_Applet, out)); } Result GetAppletResourceLimitPeakValue(pm::ResourceLimitValue *out) { R_RETURN(resource::GetResourceLimitPeakValue(ResourceLimitGroup_Applet, out)); } Result AtmosphereGetCurrentLimitInfo(s64 *out_cur_val, s64 *out_lim_val, u32 group, u32 resource) { R_RETURN(resource::GetResourceLimitValues(out_cur_val, out_lim_val, static_cast(group), static_cast(resource))); } Result BoostSystemMemoryResourceLimitForMitm(u64 boost_size) { R_RETURN(resource::BoostSystemMemoryResourceLimitForMitm(boost_size)); } }