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Merge pull request #12611 from liamwhite/resource-management-is-hard

kernel: fix resource management issues
This commit is contained in:
Charles Lombardo 2024-01-15 13:50:58 -05:00 committed by GitHub
commit 0127cec371
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GPG Key ID: 4AEE18F83AFDEB23
15 changed files with 212 additions and 138 deletions

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@ -2,6 +2,7 @@
// SPDX-License-Identifier: GPL-2.0-or-later
#include "common/page_table.h"
#include "common/scope_exit.h"
namespace Common {
@ -11,29 +12,10 @@ PageTable::~PageTable() noexcept = default;
bool PageTable::BeginTraversal(TraversalEntry* out_entry, TraversalContext* out_context,
Common::ProcessAddress address) const {
// Setup invalid defaults.
out_entry->phys_addr = 0;
out_entry->block_size = page_size;
out_context->next_page = 0;
out_context->next_offset = GetInteger(address);
out_context->next_page = address / page_size;
// Validate that we can read the actual entry.
const auto page = address / page_size;
if (page >= backing_addr.size()) {
return false;
}
// Validate that the entry is mapped.
const auto phys_addr = backing_addr[page];
if (phys_addr == 0) {
return false;
}
// Populate the results.
out_entry->phys_addr = phys_addr + GetInteger(address);
out_context->next_page = page + 1;
out_context->next_offset = GetInteger(address) + page_size;
return true;
return this->ContinueTraversal(out_entry, out_context);
}
bool PageTable::ContinueTraversal(TraversalEntry* out_entry, TraversalContext* context) const {
@ -41,6 +23,12 @@ bool PageTable::ContinueTraversal(TraversalEntry* out_entry, TraversalContext* c
out_entry->phys_addr = 0;
out_entry->block_size = page_size;
// Regardless of whether the page was mapped, advance on exit.
SCOPE_EXIT({
context->next_page += 1;
context->next_offset += page_size;
});
// Validate that we can read the actual entry.
const auto page = context->next_page;
if (page >= backing_addr.size()) {
@ -55,8 +43,6 @@ bool PageTable::ContinueTraversal(TraversalEntry* out_entry, TraversalContext* c
// Populate the results.
out_entry->phys_addr = phys_addr + context->next_offset;
context->next_page = page + 1;
context->next_offset += page_size;
return true;
}

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@ -114,7 +114,7 @@ public:
}
Kernel::KThread* GetActiveThread() override {
return state->active_thread;
return state->active_thread.GetPointerUnsafe();
}
private:
@ -147,11 +147,14 @@ private:
std::scoped_lock lk{connection_lock};
// Find the process we are going to debug.
SetDebugProcess();
// Ensure everything is stopped.
PauseEmulation();
// Set up the new frontend.
frontend = std::make_unique<GDBStub>(*this, system);
frontend = std::make_unique<GDBStub>(*this, system, debug_process.GetPointerUnsafe());
// Set the new state. This will tear down any existing state.
state = ConnectionState{
@ -194,15 +197,20 @@ private:
UpdateActiveThread();
if (state->info.type == SignalType::Watchpoint) {
frontend->Watchpoint(state->active_thread, *state->info.watchpoint);
frontend->Watchpoint(std::addressof(*state->active_thread),
*state->info.watchpoint);
} else {
frontend->Stopped(state->active_thread);
frontend->Stopped(std::addressof(*state->active_thread));
}
break;
case SignalType::ShuttingDown:
frontend->ShuttingDown();
// Release members.
state->active_thread.Reset(nullptr);
debug_process.Reset(nullptr);
// Wait for emulation to shut down gracefully now.
state->signal_pipe.close();
state->client_socket.shutdown(boost::asio::socket_base::shutdown_both);
@ -222,7 +230,7 @@ private:
stopped = true;
PauseEmulation();
UpdateActiveThread();
frontend->Stopped(state->active_thread);
frontend->Stopped(state->active_thread.GetPointerUnsafe());
break;
}
case DebuggerAction::Continue:
@ -232,7 +240,7 @@ private:
MarkResumed([&] {
state->active_thread->SetStepState(Kernel::StepState::StepPending);
state->active_thread->Resume(Kernel::SuspendType::Debug);
ResumeEmulation(state->active_thread);
ResumeEmulation(state->active_thread.GetPointerUnsafe());
});
break;
case DebuggerAction::StepThreadLocked: {
@ -255,6 +263,7 @@ private:
}
void PauseEmulation() {
Kernel::KScopedLightLock ll{debug_process->GetListLock()};
Kernel::KScopedSchedulerLock sl{system.Kernel()};
// Put all threads to sleep on next scheduler round.
@ -264,6 +273,9 @@ private:
}
void ResumeEmulation(Kernel::KThread* except = nullptr) {
Kernel::KScopedLightLock ll{debug_process->GetListLock()};
Kernel::KScopedSchedulerLock sl{system.Kernel()};
// Wake up all threads.
for (auto& thread : ThreadList()) {
if (std::addressof(thread) == except) {
@ -277,15 +289,16 @@ private:
template <typename Callback>
void MarkResumed(Callback&& cb) {
Kernel::KScopedSchedulerLock sl{system.Kernel()};
stopped = false;
cb();
}
void UpdateActiveThread() {
Kernel::KScopedLightLock ll{debug_process->GetListLock()};
auto& threads{ThreadList()};
for (auto& thread : threads) {
if (std::addressof(thread) == state->active_thread) {
if (std::addressof(thread) == state->active_thread.GetPointerUnsafe()) {
// Thread is still alive, no need to update.
return;
}
@ -293,12 +306,18 @@ private:
state->active_thread = std::addressof(threads.front());
}
private:
void SetDebugProcess() {
debug_process = std::move(system.Kernel().GetProcessList().back());
}
Kernel::KProcess::ThreadList& ThreadList() {
return system.ApplicationProcess()->GetThreadList();
return debug_process->GetThreadList();
}
private:
System& system;
Kernel::KScopedAutoObject<Kernel::KProcess> debug_process;
std::unique_ptr<DebuggerFrontend> frontend;
boost::asio::io_context io_context;
@ -310,7 +329,7 @@ private:
boost::process::async_pipe signal_pipe;
SignalInfo info;
Kernel::KThread* active_thread;
Kernel::KScopedAutoObject<Kernel::KThread> active_thread;
std::array<u8, 4096> client_data;
bool pipe_data;
};

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@ -108,9 +108,9 @@ static std::string EscapeXML(std::string_view data) {
return escaped;
}
GDBStub::GDBStub(DebuggerBackend& backend_, Core::System& system_)
: DebuggerFrontend(backend_), system{system_} {
if (system.ApplicationProcess()->Is64Bit()) {
GDBStub::GDBStub(DebuggerBackend& backend_, Core::System& system_, Kernel::KProcess* debug_process_)
: DebuggerFrontend(backend_), system{system_}, debug_process{debug_process_} {
if (GetProcess()->Is64Bit()) {
arch = std::make_unique<GDBStubA64>();
} else {
arch = std::make_unique<GDBStubA32>();
@ -276,7 +276,7 @@ void GDBStub::ExecuteCommand(std::string_view packet, std::vector<DebuggerAction
const size_t size{static_cast<size_t>(strtoll(command.data() + sep, nullptr, 16))};
std::vector<u8> mem(size);
if (system.ApplicationMemory().ReadBlock(addr, mem.data(), size)) {
if (GetMemory().ReadBlock(addr, mem.data(), size)) {
// Restore any bytes belonging to replaced instructions.
auto it = replaced_instructions.lower_bound(addr);
for (; it != replaced_instructions.end() && it->first < addr + size; it++) {
@ -310,8 +310,8 @@ void GDBStub::ExecuteCommand(std::string_view packet, std::vector<DebuggerAction
const auto mem_substr{std::string_view(command).substr(mem_sep)};
const auto mem{Common::HexStringToVector(mem_substr, false)};
if (system.ApplicationMemory().WriteBlock(addr, mem.data(), size)) {
Core::InvalidateInstructionCacheRange(system.ApplicationProcess(), addr, size);
if (GetMemory().WriteBlock(addr, mem.data(), size)) {
Core::InvalidateInstructionCacheRange(GetProcess(), addr, size);
SendReply(GDB_STUB_REPLY_OK);
} else {
SendReply(GDB_STUB_REPLY_ERR);
@ -353,7 +353,7 @@ void GDBStub::HandleBreakpointInsert(std::string_view command) {
const size_t addr{static_cast<size_t>(strtoll(command.data() + addr_sep, nullptr, 16))};
const size_t size{static_cast<size_t>(strtoll(command.data() + size_sep, nullptr, 16))};
if (!system.ApplicationMemory().IsValidVirtualAddressRange(addr, size)) {
if (!GetMemory().IsValidVirtualAddressRange(addr, size)) {
SendReply(GDB_STUB_REPLY_ERR);
return;
}
@ -362,22 +362,20 @@ void GDBStub::HandleBreakpointInsert(std::string_view command) {
switch (type) {
case BreakpointType::Software:
replaced_instructions[addr] = system.ApplicationMemory().Read32(addr);
system.ApplicationMemory().Write32(addr, arch->BreakpointInstruction());
Core::InvalidateInstructionCacheRange(system.ApplicationProcess(), addr, sizeof(u32));
replaced_instructions[addr] = GetMemory().Read32(addr);
GetMemory().Write32(addr, arch->BreakpointInstruction());
Core::InvalidateInstructionCacheRange(GetProcess(), addr, sizeof(u32));
success = true;
break;
case BreakpointType::WriteWatch:
success = system.ApplicationProcess()->InsertWatchpoint(addr, size,
Kernel::DebugWatchpointType::Write);
success = GetProcess()->InsertWatchpoint(addr, size, Kernel::DebugWatchpointType::Write);
break;
case BreakpointType::ReadWatch:
success = system.ApplicationProcess()->InsertWatchpoint(addr, size,
Kernel::DebugWatchpointType::Read);
success = GetProcess()->InsertWatchpoint(addr, size, Kernel::DebugWatchpointType::Read);
break;
case BreakpointType::AccessWatch:
success = system.ApplicationProcess()->InsertWatchpoint(
addr, size, Kernel::DebugWatchpointType::ReadOrWrite);
success =
GetProcess()->InsertWatchpoint(addr, size, Kernel::DebugWatchpointType::ReadOrWrite);
break;
case BreakpointType::Hardware:
default:
@ -400,7 +398,7 @@ void GDBStub::HandleBreakpointRemove(std::string_view command) {
const size_t addr{static_cast<size_t>(strtoll(command.data() + addr_sep, nullptr, 16))};
const size_t size{static_cast<size_t>(strtoll(command.data() + size_sep, nullptr, 16))};
if (!system.ApplicationMemory().IsValidVirtualAddressRange(addr, size)) {
if (!GetMemory().IsValidVirtualAddressRange(addr, size)) {
SendReply(GDB_STUB_REPLY_ERR);
return;
}
@ -411,24 +409,22 @@ void GDBStub::HandleBreakpointRemove(std::string_view command) {
case BreakpointType::Software: {
const auto orig_insn{replaced_instructions.find(addr)};
if (orig_insn != replaced_instructions.end()) {
system.ApplicationMemory().Write32(addr, orig_insn->second);
Core::InvalidateInstructionCacheRange(system.ApplicationProcess(), addr, sizeof(u32));
GetMemory().Write32(addr, orig_insn->second);
Core::InvalidateInstructionCacheRange(GetProcess(), addr, sizeof(u32));
replaced_instructions.erase(addr);
success = true;
}
break;
}
case BreakpointType::WriteWatch:
success = system.ApplicationProcess()->RemoveWatchpoint(addr, size,
Kernel::DebugWatchpointType::Write);
success = GetProcess()->RemoveWatchpoint(addr, size, Kernel::DebugWatchpointType::Write);
break;
case BreakpointType::ReadWatch:
success = system.ApplicationProcess()->RemoveWatchpoint(addr, size,
Kernel::DebugWatchpointType::Read);
success = GetProcess()->RemoveWatchpoint(addr, size, Kernel::DebugWatchpointType::Read);
break;
case BreakpointType::AccessWatch:
success = system.ApplicationProcess()->RemoveWatchpoint(
addr, size, Kernel::DebugWatchpointType::ReadOrWrite);
success =
GetProcess()->RemoveWatchpoint(addr, size, Kernel::DebugWatchpointType::ReadOrWrite);
break;
case BreakpointType::Hardware:
default:
@ -466,10 +462,10 @@ void GDBStub::HandleQuery(std::string_view command) {
const auto target_xml{arch->GetTargetXML()};
SendReply(PaginateBuffer(target_xml, command.substr(30)));
} else if (command.starts_with("Offsets")) {
const auto main_offset = Core::FindMainModuleEntrypoint(system.ApplicationProcess());
const auto main_offset = Core::FindMainModuleEntrypoint(GetProcess());
SendReply(fmt::format("TextSeg={:x}", GetInteger(main_offset)));
} else if (command.starts_with("Xfer:libraries:read::")) {
auto modules = Core::FindModules(system.ApplicationProcess());
auto modules = Core::FindModules(GetProcess());
std::string buffer;
buffer += R"(<?xml version="1.0"?>)";
@ -483,7 +479,7 @@ void GDBStub::HandleQuery(std::string_view command) {
SendReply(PaginateBuffer(buffer, command.substr(21)));
} else if (command.starts_with("fThreadInfo")) {
// beginning of list
const auto& threads = system.ApplicationProcess()->GetThreadList();
const auto& threads = GetProcess()->GetThreadList();
std::vector<std::string> thread_ids;
for (const auto& thread : threads) {
thread_ids.push_back(fmt::format("{:x}", thread.GetThreadId()));
@ -497,7 +493,7 @@ void GDBStub::HandleQuery(std::string_view command) {
buffer += R"(<?xml version="1.0"?>)";
buffer += "<threads>";
const auto& threads = system.ApplicationProcess()->GetThreadList();
const auto& threads = GetProcess()->GetThreadList();
for (const auto& thread : threads) {
auto thread_name{Core::GetThreadName(&thread)};
if (!thread_name) {
@ -613,7 +609,7 @@ void GDBStub::HandleRcmd(const std::vector<u8>& command) {
std::string_view command_str{reinterpret_cast<const char*>(&command[0]), command.size()};
std::string reply;
auto* process = system.ApplicationProcess();
auto* process = GetProcess();
auto& page_table = process->GetPageTable();
const char* commands = "Commands:\n"
@ -714,7 +710,7 @@ void GDBStub::HandleRcmd(const std::vector<u8>& command) {
}
Kernel::KThread* GDBStub::GetThreadByID(u64 thread_id) {
auto& threads{system.ApplicationProcess()->GetThreadList()};
auto& threads{GetProcess()->GetThreadList()};
for (auto& thread : threads) {
if (thread.GetThreadId() == thread_id) {
return std::addressof(thread);
@ -783,4 +779,12 @@ void GDBStub::SendStatus(char status) {
backend.WriteToClient(buf);
}
Kernel::KProcess* GDBStub::GetProcess() {
return debug_process;
}
Core::Memory::Memory& GDBStub::GetMemory() {
return GetProcess()->GetMemory();
}
} // namespace Core

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@ -12,13 +12,22 @@
#include "core/debugger/debugger_interface.h"
#include "core/debugger/gdbstub_arch.h"
namespace Kernel {
class KProcess;
}
namespace Core::Memory {
class Memory;
}
namespace Core {
class System;
class GDBStub : public DebuggerFrontend {
public:
explicit GDBStub(DebuggerBackend& backend, Core::System& system);
explicit GDBStub(DebuggerBackend& backend, Core::System& system,
Kernel::KProcess* debug_process);
~GDBStub() override;
void Connected() override;
@ -42,8 +51,12 @@ private:
void SendReply(std::string_view data);
void SendStatus(char status);
Kernel::KProcess* GetProcess();
Core::Memory::Memory& GetMemory();
private:
Core::System& system;
Kernel::KProcess* debug_process;
std::unique_ptr<GDBStubArch> arch;
std::vector<char> current_command;
std::map<VAddr, u32> replaced_instructions;

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@ -28,14 +28,14 @@ Result KMemoryBlockManager::Initialize(KProcessAddress st, KProcessAddress nd,
}
void KMemoryBlockManager::Finalize(KMemoryBlockSlabManager* slab_manager,
HostUnmapCallback&& host_unmap_callback) {
BlockCallback&& block_callback) {
// Erase every block until we have none left.
auto it = m_memory_block_tree.begin();
while (it != m_memory_block_tree.end()) {
KMemoryBlock* block = std::addressof(*it);
it = m_memory_block_tree.erase(it);
block_callback(block->GetAddress(), block->GetSize());
slab_manager->Free(block);
host_unmap_callback(block->GetAddress(), block->GetSize());
}
ASSERT(m_memory_block_tree.empty());

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@ -85,11 +85,11 @@ public:
public:
KMemoryBlockManager();
using HostUnmapCallback = std::function<void(Common::ProcessAddress, u64)>;
using BlockCallback = std::function<void(Common::ProcessAddress, u64)>;
Result Initialize(KProcessAddress st, KProcessAddress nd,
KMemoryBlockSlabManager* slab_manager);
void Finalize(KMemoryBlockSlabManager* slab_manager, HostUnmapCallback&& host_unmap_callback);
void Finalize(KMemoryBlockSlabManager* slab_manager, BlockCallback&& block_callback);
iterator end() {
return m_memory_block_tree.end();

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@ -431,15 +431,43 @@ Result KPageTableBase::InitializeForProcess(Svc::CreateProcessFlag as_type, bool
m_memory_block_slab_manager));
}
Result KPageTableBase::FinalizeProcess() {
// Only process tables should be finalized.
ASSERT(!this->IsKernel());
// NOTE: Here Nintendo calls an unknown OnFinalize function.
// this->OnFinalize();
// NOTE: Here Nintendo calls a second unknown OnFinalize function.
// this->OnFinalize2();
// NOTE: Here Nintendo does a page table walk to discover heap pages to free.
// We will use the block manager finalization below to free them.
R_SUCCEED();
}
void KPageTableBase::Finalize() {
auto HostUnmapCallback = [&](KProcessAddress addr, u64 size) {
if (Settings::IsFastmemEnabled()) {
this->FinalizeProcess();
auto BlockCallback = [&](KProcessAddress addr, u64 size) {
if (m_impl->fastmem_arena) {
m_system.DeviceMemory().buffer.Unmap(GetInteger(addr), size, false);
}
// Get physical pages.
KPageGroup pg(m_kernel, m_block_info_manager);
this->MakePageGroup(pg, addr, size / PageSize);
// Free the pages.
pg.CloseAndReset();
};
// Finalize memory blocks.
m_memory_block_manager.Finalize(m_memory_block_slab_manager, std::move(HostUnmapCallback));
{
KScopedLightLock lk(m_general_lock);
m_memory_block_manager.Finalize(m_memory_block_slab_manager, std::move(BlockCallback));
}
// Free any unsafe mapped memory.
if (m_mapped_unsafe_physical_memory) {

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@ -241,6 +241,7 @@ public:
KResourceLimit* resource_limit, Core::Memory::Memory& memory,
KProcessAddress aslr_space_start);
Result FinalizeProcess();
void Finalize();
bool IsKernel() const {

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@ -171,6 +171,12 @@ void KProcess::Finalize() {
m_resource_limit->Close();
}
// Clear expensive resources, as the destructor is not called for guest objects.
for (auto& interface : m_arm_interfaces) {
interface.reset();
}
m_exclusive_monitor.reset();
// Perform inherited finalization.
KSynchronizationObject::Finalize();
}

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@ -112,7 +112,14 @@ struct KernelCore::Impl {
old_process->Close();
}
process_list.clear();
{
std::scoped_lock lk{process_list_lock};
for (auto* const process : process_list) {
process->Terminate();
process->Close();
}
process_list.clear();
}
next_object_id = 0;
next_kernel_process_id = KProcess::InitialProcessIdMin;
@ -770,6 +777,7 @@ struct KernelCore::Impl {
std::atomic<u64> next_thread_id{1};
// Lists all processes that exist in the current session.
std::mutex process_list_lock;
std::vector<KProcess*> process_list;
std::atomic<KProcess*> application_process{};
std::unique_ptr<Kernel::GlobalSchedulerContext> global_scheduler_context;
@ -869,9 +877,19 @@ KResourceLimit* KernelCore::GetSystemResourceLimit() {
}
void KernelCore::AppendNewProcess(KProcess* process) {
process->Open();
std::scoped_lock lk{impl->process_list_lock};
impl->process_list.push_back(process);
}
void KernelCore::RemoveProcess(KProcess* process) {
std::scoped_lock lk{impl->process_list_lock};
if (std::erase(impl->process_list, process)) {
process->Close();
}
}
void KernelCore::MakeApplicationProcess(KProcess* process) {
impl->MakeApplicationProcess(process);
}
@ -884,8 +902,15 @@ const KProcess* KernelCore::ApplicationProcess() const {
return impl->application_process;
}
const std::vector<KProcess*>& KernelCore::GetProcessList() const {
return impl->process_list;
std::list<KScopedAutoObject<KProcess>> KernelCore::GetProcessList() {
std::list<KScopedAutoObject<KProcess>> processes;
std::scoped_lock lk{impl->process_list_lock};
for (auto* const process : impl->process_list) {
processes.emplace_back(process);
}
return processes;
}
Kernel::GlobalSchedulerContext& KernelCore::GlobalSchedulerContext() {

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@ -5,6 +5,7 @@
#include <array>
#include <functional>
#include <list>
#include <memory>
#include <string>
#include <unordered_map>
@ -116,8 +117,9 @@ public:
/// Retrieves a shared pointer to the system resource limit instance.
KResourceLimit* GetSystemResourceLimit();
/// Adds the given shared pointer to an internal list of active processes.
/// Adds/removes the given pointer to an internal list of active processes.
void AppendNewProcess(KProcess* process);
void RemoveProcess(KProcess* process);
/// Makes the given process the new application process.
void MakeApplicationProcess(KProcess* process);
@ -129,7 +131,7 @@ public:
const KProcess* ApplicationProcess() const;
/// Retrieves the list of processes.
const std::vector<KProcess*>& GetProcessList() const;
std::list<KScopedAutoObject<KProcess>> GetProcessList();
/// Gets the sole instance of the global scheduler
Kernel::GlobalSchedulerContext& GlobalSchedulerContext();

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@ -74,13 +74,15 @@ Result GetProcessList(Core::System& system, s32* out_num_processes, u64 out_proc
}
auto& memory = GetCurrentMemory(kernel);
const auto& process_list = kernel.GetProcessList();
auto process_list = kernel.GetProcessList();
auto it = process_list.begin();
const auto num_processes = process_list.size();
const auto copy_amount =
std::min(static_cast<std::size_t>(out_process_ids_size), num_processes);
for (std::size_t i = 0; i < copy_amount; ++i) {
memory.Write64(out_process_ids, process_list[i]->GetProcessId());
for (std::size_t i = 0; i < copy_amount && it != process_list.end(); ++i, ++it) {
memory.Write64(out_process_ids, (*it)->GetProcessId());
out_process_ids += sizeof(u64);
}

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@ -15,9 +15,10 @@
namespace Service::Glue {
namespace {
std::optional<u64> GetTitleIDForProcessID(const Core::System& system, u64 process_id) {
const auto& list = system.Kernel().GetProcessList();
const auto iter = std::find_if(list.begin(), list.end(), [&process_id](const auto& process) {
std::optional<u64> GetTitleIDForProcessID(Core::System& system, u64 process_id) {
auto list = system.Kernel().GetProcessList();
const auto iter = std::find_if(list.begin(), list.end(), [&process_id](auto& process) {
return process->GetProcessId() == process_id;
});

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@ -22,12 +22,10 @@ void LoopProcess(Core::System& system) {
std::shared_ptr<HidFirmwareSettings> firmware_settings =
std::make_shared<HidFirmwareSettings>();
// TODO: Remove this hack until this service is emulated properly.
const auto process_list = system.Kernel().GetProcessList();
if (!process_list.empty()) {
resource_manager->Initialize();
resource_manager->RegisterAppletResourceUserId(process_list[0]->GetId(), true);
}
// TODO: Remove this hack when am is emulated properly.
resource_manager->Initialize();
resource_manager->RegisterAppletResourceUserId(system.ApplicationProcess()->GetProcessId(),
true);
server_manager->RegisterNamedService(
"hid", std::make_shared<IHidServer>(system, resource_manager, firmware_settings));

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@ -22,27 +22,26 @@ constexpr Result ResultProcessNotFound{ErrorModule::PM, 1};
constexpr u64 NO_PROCESS_FOUND_PID{0};
std::optional<Kernel::KProcess*> SearchProcessList(
const std::vector<Kernel::KProcess*>& process_list,
std::function<bool(Kernel::KProcess*)> predicate) {
using ProcessList = std::list<Kernel::KScopedAutoObject<Kernel::KProcess>>;
template <typename F>
Kernel::KScopedAutoObject<Kernel::KProcess> SearchProcessList(ProcessList& process_list,
F&& predicate) {
const auto iter = std::find_if(process_list.begin(), process_list.end(), predicate);
if (iter == process_list.end()) {
return std::nullopt;
return nullptr;
}
return *iter;
return iter->GetPointerUnsafe();
}
void GetApplicationPidGeneric(HLERequestContext& ctx,
const std::vector<Kernel::KProcess*>& process_list) {
const auto process = SearchProcessList(process_list, [](const auto& proc) {
return proc->GetProcessId() == Kernel::KProcess::ProcessIdMin;
});
void GetApplicationPidGeneric(HLERequestContext& ctx, ProcessList& process_list) {
auto process = SearchProcessList(process_list, [](auto& p) { return p->IsApplication(); });
IPC::ResponseBuilder rb{ctx, 4};
rb.Push(ResultSuccess);
rb.Push(process.has_value() ? (*process)->GetProcessId() : NO_PROCESS_FOUND_PID);
rb.Push(process.IsNull() ? NO_PROCESS_FOUND_PID : process->GetProcessId());
}
} // Anonymous namespace
@ -80,8 +79,7 @@ private:
class DebugMonitor final : public ServiceFramework<DebugMonitor> {
public:
explicit DebugMonitor(Core::System& system_)
: ServiceFramework{system_, "pm:dmnt"}, kernel{system_.Kernel()} {
explicit DebugMonitor(Core::System& system_) : ServiceFramework{system_, "pm:dmnt"} {
// clang-format off
static const FunctionInfo functions[] = {
{0, nullptr, "GetJitDebugProcessIdList"},
@ -106,12 +104,11 @@ private:
LOG_DEBUG(Service_PM, "called, program_id={:016X}", program_id);
const auto process =
SearchProcessList(kernel.GetProcessList(), [program_id](const auto& proc) {
return proc->GetProgramId() == program_id;
});
auto list = kernel.GetProcessList();
auto process = SearchProcessList(
list, [program_id](auto& p) { return p->GetProgramId() == program_id; });
if (!process.has_value()) {
if (process.IsNull()) {
IPC::ResponseBuilder rb{ctx, 2};
rb.Push(ResultProcessNotFound);
return;
@ -119,12 +116,13 @@ private:
IPC::ResponseBuilder rb{ctx, 4};
rb.Push(ResultSuccess);
rb.Push((*process)->GetProcessId());
rb.Push(process->GetProcessId());
}
void GetApplicationProcessId(HLERequestContext& ctx) {
LOG_DEBUG(Service_PM, "called");
GetApplicationPidGeneric(ctx, kernel.GetProcessList());
auto list = kernel.GetProcessList();
GetApplicationPidGeneric(ctx, list);
}
void AtmosphereGetProcessInfo(HLERequestContext& ctx) {
@ -135,11 +133,10 @@ private:
LOG_WARNING(Service_PM, "(Partial Implementation) called, pid={:016X}", pid);
const auto process = SearchProcessList(kernel.GetProcessList(), [pid](const auto& proc) {
return proc->GetProcessId() == pid;
});
auto list = kernel.GetProcessList();
auto process = SearchProcessList(list, [pid](auto& p) { return p->GetProcessId() == pid; });
if (!process.has_value()) {
if (process.IsNull()) {
IPC::ResponseBuilder rb{ctx, 2};
rb.Push(ResultProcessNotFound);
return;
@ -159,7 +156,7 @@ private:
OverrideStatus override_status{};
ProgramLocation program_location{
.program_id = (*process)->GetProgramId(),
.program_id = process->GetProgramId(),
.storage_id = 0,
};
@ -169,14 +166,11 @@ private:
rb.PushRaw(program_location);
rb.PushRaw(override_status);
}
const Kernel::KernelCore& kernel;
};
class Info final : public ServiceFramework<Info> {
public:
explicit Info(Core::System& system_, const std::vector<Kernel::KProcess*>& process_list_)
: ServiceFramework{system_, "pm:info"}, process_list{process_list_} {
explicit Info(Core::System& system_) : ServiceFramework{system_, "pm:info"} {
static const FunctionInfo functions[] = {
{0, &Info::GetProgramId, "GetProgramId"},
{65000, &Info::AtmosphereGetProcessId, "AtmosphereGetProcessId"},
@ -193,11 +187,11 @@ private:
LOG_DEBUG(Service_PM, "called, process_id={:016X}", process_id);
const auto process = SearchProcessList(process_list, [process_id](const auto& proc) {
return proc->GetProcessId() == process_id;
});
auto list = kernel.GetProcessList();
auto process = SearchProcessList(
list, [process_id](auto& p) { return p->GetProcessId() == process_id; });
if (!process.has_value()) {
if (process.IsNull()) {
IPC::ResponseBuilder rb{ctx, 2};
rb.Push(ResultProcessNotFound);
return;
@ -205,7 +199,7 @@ private:
IPC::ResponseBuilder rb{ctx, 4};
rb.Push(ResultSuccess);
rb.Push((*process)->GetProgramId());
rb.Push(process->GetProgramId());
}
void AtmosphereGetProcessId(HLERequestContext& ctx) {
@ -214,11 +208,11 @@ private:
LOG_DEBUG(Service_PM, "called, program_id={:016X}", program_id);
const auto process = SearchProcessList(process_list, [program_id](const auto& proc) {
return proc->GetProgramId() == program_id;
});
auto list = system.Kernel().GetProcessList();
auto process = SearchProcessList(
list, [program_id](auto& p) { return p->GetProgramId() == program_id; });
if (!process.has_value()) {
if (process.IsNull()) {
IPC::ResponseBuilder rb{ctx, 2};
rb.Push(ResultProcessNotFound);
return;
@ -226,16 +220,13 @@ private:
IPC::ResponseBuilder rb{ctx, 4};
rb.Push(ResultSuccess);
rb.Push((*process)->GetProcessId());
rb.Push(process->GetProcessId());
}
const std::vector<Kernel::KProcess*>& process_list;
};
class Shell final : public ServiceFramework<Shell> {
public:
explicit Shell(Core::System& system_)
: ServiceFramework{system_, "pm:shell"}, kernel{system_.Kernel()} {
explicit Shell(Core::System& system_) : ServiceFramework{system_, "pm:shell"} {
// clang-format off
static const FunctionInfo functions[] = {
{0, nullptr, "LaunchProgram"},
@ -257,10 +248,9 @@ public:
private:
void GetApplicationProcessIdForShell(HLERequestContext& ctx) {
LOG_DEBUG(Service_PM, "called");
GetApplicationPidGeneric(ctx, kernel.GetProcessList());
auto list = kernel.GetProcessList();
GetApplicationPidGeneric(ctx, list);
}
const Kernel::KernelCore& kernel;
};
void LoopProcess(Core::System& system) {
@ -268,8 +258,7 @@ void LoopProcess(Core::System& system) {
server_manager->RegisterNamedService("pm:bm", std::make_shared<BootMode>(system));
server_manager->RegisterNamedService("pm:dmnt", std::make_shared<DebugMonitor>(system));
server_manager->RegisterNamedService(
"pm:info", std::make_shared<Info>(system, system.Kernel().GetProcessList()));
server_manager->RegisterNamedService("pm:info", std::make_shared<Info>(system));
server_manager->RegisterNamedService("pm:shell", std::make_shared<Shell>(system));
ServerManager::RunServer(std::move(server_manager));
}