mirror of
https://github.com/Atmosphere-NX/Atmosphere
synced 2024-12-15 20:32:28 +00:00
442 lines
18 KiB
C++
442 lines
18 KiB
C++
/*
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* Copyright (c) 2018-2020 Atmosphère-NX
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <mesosphere.hpp>
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namespace ams::kern {
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namespace {
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constexpr u64 InitialProcessIdMin = 1;
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constexpr u64 InitialProcessIdMax = 0x50;
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std::atomic<u64> g_initial_process_id = InitialProcessIdMin;
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}
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void KProcess::Finalize() {
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MESOSPHERE_UNIMPLEMENTED();
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}
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Result KProcess::Initialize(const ams::svc::CreateProcessParameter ¶ms) {
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/* TODO: Validate intended kernel version. */
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/* How should we do this? */
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/* Create and clear the process local region. */
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R_TRY(this->CreateThreadLocalRegion(std::addressof(this->plr_address)));
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this->plr_heap_address = this->GetThreadLocalRegionPointer(this->plr_address);
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std::memset(this->plr_heap_address, 0, ams::svc::ThreadLocalRegionSize);
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/* Copy in the name from parameters. */
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static_assert(sizeof(params.name) < sizeof(this->name));
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std::memcpy(this->name, params.name, sizeof(params.name));
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this->name[sizeof(params.name)] = 0;
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/* Set misc fields. */
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this->state = State_Created;
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this->main_thread_stack_size = 0;
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this->creation_time = KHardwareTimer::GetTick();
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this->used_kernel_memory_size = 0;
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this->ideal_core_id = 0;
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this->flags = params.flags;
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this->version = params.version;
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this->program_id = params.program_id;
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this->code_address = params.code_address;
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this->code_size = params.code_num_pages * PageSize;
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this->is_application = (params.flags & ams::svc::CreateProcessFlag_IsApplication);
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this->is_jit_debug = false;
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/* Set thread fields. */
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for (size_t i = 0; i < cpu::NumCores; i++) {
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this->running_threads[i] = nullptr;
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this->running_thread_idle_counts[i] = 0;
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this->pinned_threads[i] = nullptr;
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}
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/* Set max memory based on address space type. */
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switch ((params.flags & ams::svc::CreateProcessFlag_AddressSpaceMask)) {
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case ams::svc::CreateProcessFlag_AddressSpace32Bit:
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case ams::svc::CreateProcessFlag_AddressSpace64BitDeprecated:
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case ams::svc::CreateProcessFlag_AddressSpace64Bit:
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this->max_process_memory = this->page_table.GetHeapRegionSize();
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break;
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case ams::svc::CreateProcessFlag_AddressSpace32BitWithoutAlias:
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this->max_process_memory = this->page_table.GetHeapRegionSize() + this->page_table.GetAliasRegionSize();
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break;
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MESOSPHERE_UNREACHABLE_DEFAULT_CASE();
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}
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/* Generate random entropy. */
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KSystemControl::GenerateRandomBytes(this->entropy, sizeof(this->entropy));
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/* Clear remaining fields. */
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this->num_threads = 0;
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this->peak_num_threads = 0;
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this->num_created_threads = 0;
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this->num_process_switches = 0;
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this->num_thread_switches = 0;
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this->num_fpu_switches = 0;
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this->num_supervisor_calls = 0;
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this->num_ipc_messages = 0;
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this->is_signaled = false;
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this->attached_object = nullptr;
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this->exception_thread = nullptr;
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this->is_suspended = false;
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this->memory_release_hint = 0;
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this->schedule_count = 0;
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/* We're initialized! */
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this->is_initialized = true;
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return ResultSuccess();
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}
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Result KProcess::Initialize(const ams::svc::CreateProcessParameter ¶ms, const KPageGroup &pg, const u32 *caps, s32 num_caps, KResourceLimit *res_limit, KMemoryManager::Pool pool) {
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MESOSPHERE_ASSERT_THIS();
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MESOSPHERE_ASSERT(res_limit != nullptr);
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MESOSPHERE_ABORT_UNLESS((params.code_num_pages * PageSize) / PageSize == params.code_num_pages);
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/* Set members. */
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this->memory_pool = pool;
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this->resource_limit = res_limit;
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this->system_resource_address = Null<KVirtualAddress>;
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this->system_resource_num_pages = 0;
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/* Setup page table. */
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/* NOTE: Nintendo passes process ID despite not having set it yet. */
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/* This goes completely unused, but even so... */
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{
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const auto as_type = static_cast<ams::svc::CreateProcessFlag>(params.flags & ams::svc::CreateProcessFlag_AddressSpaceMask);
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const bool enable_aslr = (params.flags & ams::svc::CreateProcessFlag_EnableAslr);
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const bool is_app = (params.flags & ams::svc::CreateProcessFlag_IsApplication);
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auto *mem_block_manager = std::addressof(is_app ? Kernel::GetApplicationMemoryBlockManager() : Kernel::GetSystemMemoryBlockManager());
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auto *block_info_manager = std::addressof(Kernel::GetBlockInfoManager());
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auto *pt_manager = std::addressof(Kernel::GetPageTableManager());
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R_TRY(this->page_table.Initialize(this->process_id, as_type, enable_aslr, !enable_aslr, pool, params.code_address, params.code_num_pages * PageSize, mem_block_manager, block_info_manager, pt_manager));
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}
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auto pt_guard = SCOPE_GUARD { this->page_table.Finalize(); };
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/* Ensure we can insert the code region. */
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R_UNLESS(this->page_table.CanContain(params.code_address, params.code_num_pages * PageSize, KMemoryState_Code), svc::ResultInvalidMemoryRegion());
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/* Map the code region. */
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R_TRY(this->page_table.MapPageGroup(params.code_address, pg, KMemoryState_Code, KMemoryPermission_KernelRead));
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/* Initialize capabilities. */
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R_TRY(this->capabilities.Initialize(caps, num_caps, std::addressof(this->page_table)));
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/* Initialize the process id. */
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this->process_id = g_initial_process_id++;
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MESOSPHERE_ABORT_UNLESS(InitialProcessIdMin <= this->process_id);
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MESOSPHERE_ABORT_UNLESS(this->process_id <= InitialProcessIdMax);
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/* Initialize the rest of the process. */
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R_TRY(this->Initialize(params));
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/* Open a reference to the resource limit. */
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this->resource_limit->Open();
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/* We succeeded! */
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pt_guard.Cancel();
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return ResultSuccess();
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}
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void KProcess::DoWorkerTask() {
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MESOSPHERE_UNIMPLEMENTED();
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}
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void KProcess::Exit() {
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MESOSPHERE_UNIMPLEMENTED();
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}
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Result KProcess::CreateThreadLocalRegion(KProcessAddress *out) {
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KThreadLocalPage *tlp = nullptr;
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KProcessAddress tlr = Null<KProcessAddress>;
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/* See if we can get a region from a partially used TLP. */
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{
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KScopedSchedulerLock sl;
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if (auto it = this->partially_used_tlp_tree.begin(); it != partially_used_tlp_tree.end()) {
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tlr = it->Reserve();
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MESOSPHERE_ABORT_UNLESS(tlr != Null<KProcessAddress>);
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if (it->IsAllUsed()) {
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tlp = std::addressof(*it);
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this->partially_used_tlp_tree.erase(it);
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this->fully_used_tlp_tree.insert(*tlp);
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}
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*out = tlr;
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return ResultSuccess();
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}
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}
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/* Allocate a new page. */
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tlp = KThreadLocalPage::Allocate();
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R_UNLESS(tlp != nullptr, svc::ResultOutOfMemory());
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auto tlp_guard = SCOPE_GUARD { KThreadLocalPage::Free(tlp); };
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/* Initialize the new page. */
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R_TRY(tlp->Initialize(this));
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/* Reserve a TLR. */
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tlr = tlp->Reserve();
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MESOSPHERE_ABORT_UNLESS(tlr != Null<KProcessAddress>);
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/* Insert into our tree. */
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{
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KScopedSchedulerLock sl;
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if (tlp->IsAllUsed()) {
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this->fully_used_tlp_tree.insert(*tlp);
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} else {
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this->partially_used_tlp_tree.insert(*tlp);
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}
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}
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/* We succeeded! */
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tlp_guard.Cancel();
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*out = tlr;
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return ResultSuccess();
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}
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void *KProcess::GetThreadLocalRegionPointer(KProcessAddress addr) {
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KThreadLocalPage *tlp = nullptr;
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{
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KScopedSchedulerLock sl;
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if (auto it = this->partially_used_tlp_tree.find(KThreadLocalPage(util::AlignDown(GetInteger(addr), PageSize))); it != this->partially_used_tlp_tree.end()) {
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tlp = std::addressof(*it);
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} else if (auto it = this->fully_used_tlp_tree.find(KThreadLocalPage(util::AlignDown(GetInteger(addr), PageSize))); it != this->fully_used_tlp_tree.end()) {
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tlp = std::addressof(*it);
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} else {
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return nullptr;
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}
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}
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return static_cast<u8 *>(tlp->GetPointer()) + (GetInteger(addr) & (PageSize - 1));
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}
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bool KProcess::ReserveResource(ams::svc::LimitableResource which, s64 value) {
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if (KResourceLimit *rl = this->GetResourceLimit(); rl != nullptr) {
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return rl->Reserve(which, value);
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} else {
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return true;
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}
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}
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bool KProcess::ReserveResource(ams::svc::LimitableResource which, s64 value, s64 timeout) {
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if (KResourceLimit *rl = this->GetResourceLimit(); rl != nullptr) {
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return rl->Reserve(which, value, timeout);
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} else {
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return true;
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}
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}
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void KProcess::ReleaseResource(ams::svc::LimitableResource which, s64 value) {
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if (KResourceLimit *rl = this->GetResourceLimit(); rl != nullptr) {
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rl->Release(which, value);
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}
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}
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void KProcess::ReleaseResource(ams::svc::LimitableResource which, s64 value, s64 hint) {
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if (KResourceLimit *rl = this->GetResourceLimit(); rl != nullptr) {
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rl->Release(which, value, hint);
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}
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}
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void KProcess::IncrementThreadCount() {
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MESOSPHERE_ASSERT(this->num_threads >= 0);
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++this->num_created_threads;
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if (const auto count = ++this->num_threads; count > this->peak_num_threads) {
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this->peak_num_threads = count;
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}
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}
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void KProcess::DecrementThreadCount() {
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MESOSPHERE_ASSERT(this->num_threads > 0);
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if (const auto count = --this->num_threads; count == 0) {
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MESOSPHERE_TODO("this->Terminate();");
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}
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}
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bool KProcess::EnterUserException() {
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MESOSPHERE_UNIMPLEMENTED();
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}
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bool KProcess::LeaveUserException() {
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return this->ReleaseUserException(GetCurrentThreadPointer());
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}
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bool KProcess::ReleaseUserException(KThread *thread) {
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KScopedSchedulerLock sl;
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if (this->exception_thread == thread) {
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/* TODO */
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MESOSPHERE_UNIMPLEMENTED();
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} else {
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return false;
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}
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}
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void KProcess::RegisterThread(KThread *thread) {
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KScopedLightLock lk(this->list_lock);
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this->thread_list.push_back(*thread);
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}
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void KProcess::UnregisterThread(KThread *thread) {
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KScopedLightLock lk(this->list_lock);
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this->thread_list.erase(this->thread_list.iterator_to(*thread));
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}
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size_t KProcess::GetUsedUserPhysicalMemorySize() const {
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const size_t norm_size = this->page_table.GetNormalMemorySize();
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const size_t other_size = this->code_size + this->main_thread_stack_size;
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const size_t sec_size = KSystemControl::CalculateRequiredSecureMemorySize(this->system_resource_num_pages * PageSize, this->memory_pool);
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return norm_size + other_size + sec_size;
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}
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size_t KProcess::GetTotalUserPhysicalMemorySize() const {
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/* Get the amount of free and used size. */
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const size_t free_size = this->resource_limit->GetFreeValue(ams::svc::LimitableResource_PhysicalMemoryMax);
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const size_t used_size = this->GetUsedNonSystemUserPhysicalMemorySize();
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const size_t max_size = this->max_process_memory;
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if (used_size + free_size > max_size) {
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return max_size;
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} else {
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return free_size + used_size;
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}
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}
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size_t KProcess::GetUsedNonSystemUserPhysicalMemorySize() const {
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const size_t norm_size = this->page_table.GetNormalMemorySize();
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const size_t other_size = this->code_size + this->main_thread_stack_size;
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return norm_size + other_size;
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}
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size_t KProcess::GetTotalNonSystemUserPhysicalMemorySize() const {
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/* Get the amount of free and used size. */
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const size_t free_size = this->resource_limit->GetFreeValue(ams::svc::LimitableResource_PhysicalMemoryMax);
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const size_t used_size = this->GetUsedUserPhysicalMemorySize();
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const size_t sec_size = KSystemControl::CalculateRequiredSecureMemorySize(this->system_resource_num_pages * PageSize, this->memory_pool);
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const size_t max_size = this->max_process_memory;
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if (used_size + free_size > max_size) {
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return max_size - sec_size;
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} else {
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return free_size + used_size - sec_size;
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}
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}
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Result KProcess::Run(s32 priority, size_t stack_size) {
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MESOSPHERE_ASSERT_THIS();
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/* Lock ourselves, to prevent concurrent access. */
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KScopedLightLock lk(this->state_lock);
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/* Validate that we're in a state where we can initialize. */
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const auto state = this->state;
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R_UNLESS(state == State_Created || state == State_CreatedAttached, svc::ResultInvalidState());
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/* Place a tentative reservation of a thread for this process. */
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KScopedResourceReservation thread_reservation(this, ams::svc::LimitableResource_ThreadCountMax);
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R_UNLESS(thread_reservation.Succeeded(), svc::ResultLimitReached());
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/* Ensure that we haven't already allocated stack. */
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MESOSPHERE_ABORT_UNLESS(this->main_thread_stack_size == 0);
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/* Ensure that we're allocating a valid stack. */
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stack_size = util::AlignUp(stack_size, PageSize);
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R_UNLESS(stack_size + this->code_size <= this->max_process_memory, svc::ResultOutOfMemory());
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R_UNLESS(stack_size + this->code_size >= this->code_size, svc::ResultOutOfMemory());
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/* Place a tentative reservation of memory for our new stack. */
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KScopedResourceReservation mem_reservation(this, ams::svc::LimitableResource_PhysicalMemoryMax);
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R_UNLESS(mem_reservation.Succeeded(), svc::ResultLimitReached());
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/* Allocate and map our stack. */
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KProcessAddress stack_top = Null<KProcessAddress>;
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if (stack_size) {
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KProcessAddress stack_bottom;
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R_TRY(this->page_table.MapPages(std::addressof(stack_bottom), stack_size / PageSize, KMemoryState_Stack, KMemoryPermission_UserReadWrite));
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stack_top = stack_bottom + stack_size;
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this->main_thread_stack_size = stack_size;
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}
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/* Ensure our stack is safe to clean up on exit. */
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auto stack_guard = SCOPE_GUARD {
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if (this->main_thread_stack_size) {
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MESOSPHERE_R_ABORT_UNLESS(this->page_table.UnmapPages(stack_top - this->main_thread_stack_size, this->main_thread_stack_size / PageSize, KMemoryState_Stack));
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this->main_thread_stack_size = 0;
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}
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};
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/* Set our maximum heap size. */
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R_TRY(this->page_table.SetMaxHeapSize(this->max_process_memory - (this->main_thread_stack_size + this->code_size)));
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/* Initialize our handle table. */
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R_TRY(this->handle_table.Initialize(this->capabilities.GetHandleTableSize()));
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auto ht_guard = SCOPE_GUARD { this->handle_table.Finalize(); };
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/* Create a new thread for the process. */
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KThread *main_thread = KThread::Create();
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R_UNLESS(main_thread != nullptr, svc::ResultOutOfResource());
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auto thread_guard = SCOPE_GUARD { main_thread->Close(); };
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/* Initialize the thread. */
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R_TRY(KThread::InitializeUserThread(main_thread, reinterpret_cast<KThreadFunction>(GetVoidPointer(this->GetEntryPoint())), 0, stack_top, priority, this->ideal_core_id, this));
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/* Register the thread, and commit our reservation. */
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KThread::Register(main_thread);
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thread_reservation.Commit();
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/* Add the thread to our handle table. */
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ams::svc::Handle thread_handle;
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R_TRY(this->handle_table.Add(std::addressof(thread_handle), main_thread));
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/* Set the thread arguments. */
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main_thread->GetContext().SetArguments(0, thread_handle);
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/* Update our state. */
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this->ChangeState((state == State_Created) ? State_Running : State_RunningAttached);
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auto state_guard = SCOPE_GUARD { this->ChangeState(state); };
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/* Run our thread. */
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R_TRY(main_thread->Run());
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/* We succeeded! Cancel our guards. */
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state_guard.Cancel();
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thread_guard.Cancel();
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ht_guard.Cancel();
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stack_guard.Cancel();
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mem_reservation.Commit();
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/* Note for debug that we're running a new process. */
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MESOSPHERE_LOG("KProcess::Run() pid=%ld name=%-12s thread=%ld affinity=0x%lx ideal_core=%d active_core=%d\n", this->process_id, this->name, main_thread->GetId(), main_thread->GetAffinityMask().GetAffinityMask(), main_thread->GetIdealCore(), main_thread->GetActiveCore());
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return ResultSuccess();
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}
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void KProcess::SetPreemptionState() {
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MESOSPHERE_UNIMPLEMENTED();
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}
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}
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