mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
synced 2024-11-27 06:12:15 +00:00
5b3e8e1c5d
This renames the Mutex class member functions so that the mutex types satisfy Lockable. This makes them usable with standard std::scoped_lock and std::unique_lock, which lets us use RAII and avoids the need for a custom RAII wrapper :)
460 lines
15 KiB
C++
460 lines
15 KiB
C++
#include <switch.h>
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#include <stratosphere.hpp>
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#include <atomic>
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#include "pm_registration.hpp"
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#include "pm_resource_limits.hpp"
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#include "pm_process_wait.hpp"
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static ProcessList g_process_list;
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static ProcessList g_dead_process_list;
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static SystemEvent *g_process_launch_start_event = NULL;
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static HosSemaphore g_sema_finish_launch;
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static HosMutex g_process_launch_mutex;
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static Registration::ProcessLaunchState g_process_launch_state;
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static std::atomic_bool g_debug_next_application(false);
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static std::atomic<u64> g_debug_on_launch_tid(0);
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static SystemEvent *g_process_event = NULL;
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static SystemEvent *g_debug_title_event = NULL;
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static SystemEvent *g_debug_application_event = NULL;
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std::unique_lock<HosRecursiveMutex> Registration::GetProcessListUniqueLock() {
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return g_process_list.get_unique_lock();
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}
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void Registration::SetProcessListManager(WaitableManager *m) {
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g_process_list.set_manager(m);
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}
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void Registration::InitializeSystemResources() {
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g_process_event = new SystemEvent(NULL, &IEvent::PanicCallback);
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g_debug_title_event = new SystemEvent(NULL, &IEvent::PanicCallback);
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g_debug_application_event = new SystemEvent(NULL, &IEvent::PanicCallback);
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g_process_launch_start_event = new SystemEvent(NULL, &Registration::ProcessLaunchStartCallback);
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ResourceLimitUtils::InitializeLimits();
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}
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Result Registration::ProcessLaunchStartCallback(void *arg, Handle *handles, size_t num_handles, u64 timeout) {
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svcClearEvent(handles[0]);
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Registration::HandleProcessLaunch();
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return 0;
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}
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IWaitable *Registration::GetProcessLaunchStartEvent() {
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return g_process_launch_start_event;
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}
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void Registration::HandleProcessLaunch() {
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LoaderProgramInfo program_info = {0};
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Result rc;
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u64 launch_flags = g_process_launch_state.launch_flags;
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u64 *out_pid = g_process_launch_state.out_pid;
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Process new_process = {0};
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new_process.tid_sid = g_process_launch_state.tid_sid;
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auto ac_buf = std::vector<u8>(4 * sizeof(LoaderProgramInfo));
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std::fill(ac_buf.begin(), ac_buf.end(), 0xCC);
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u8 *acid_sac = ac_buf.data(), *aci0_sac = acid_sac + sizeof(LoaderProgramInfo), *fac = aci0_sac + sizeof(LoaderProgramInfo), *fah = fac + sizeof(LoaderProgramInfo);
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/* Check that this is a real program. */
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if (R_FAILED((rc = ldrPmGetProgramInfo(new_process.tid_sid.title_id, new_process.tid_sid.storage_id, &program_info)))) {
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goto HANDLE_PROCESS_LAUNCH_END;
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}
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/* Get the resource limit handle, ensure that we can launch the program. */
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if ((program_info.application_type & 3) == 1 && HasApplicationProcess(NULL)) {
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rc = 0xA0F;
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goto HANDLE_PROCESS_LAUNCH_END;
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}
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/* Try to register the title for launch in loader... */
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if (R_FAILED((rc = ldrPmRegisterTitle(new_process.tid_sid.title_id, new_process.tid_sid.storage_id, &new_process.ldr_queue_index)))) {
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goto HANDLE_PROCESS_LAUNCH_END;
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}
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/* Make sure the previous application is cleaned up. */
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if ((program_info.application_type & 3) == 1) {
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ResourceLimitUtils::EnsureApplicationResourcesAvailable();
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}
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/* Try to create the process... */
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if (R_FAILED((rc = ldrPmCreateProcess(LAUNCHFLAGS_ARGLOW(launch_flags) | LAUNCHFLAGS_ARGHIGH(launch_flags), new_process.ldr_queue_index, ResourceLimitUtils::GetResourceLimitHandle(program_info.application_type), &new_process.handle)))) {
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goto PROCESS_CREATION_FAILED;
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}
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/* Get the new process's id. */
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svcGetProcessId(&new_process.pid, new_process.handle);
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/* Register with FS. */
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memcpy(fac, program_info.ac_buffer + program_info.acid_sac_size + program_info.aci0_sac_size, program_info.acid_fac_size);
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memcpy(fah, program_info.ac_buffer + program_info.acid_sac_size + program_info.aci0_sac_size + program_info.acid_fac_size, program_info.aci0_fah_size);
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if (R_FAILED((rc = fsprRegisterProgram(new_process.pid, new_process.tid_sid.title_id, new_process.tid_sid.storage_id, fah, program_info.aci0_fah_size, fac, program_info.acid_fac_size)))) {
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goto FS_REGISTRATION_FAILED;
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}
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/* Register with SM. */
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memcpy(acid_sac, program_info.ac_buffer, program_info.acid_sac_size);
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memcpy(aci0_sac, program_info.ac_buffer + program_info.acid_sac_size, program_info.aci0_sac_size);
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if (R_FAILED((rc = smManagerRegisterProcess(new_process.pid, acid_sac, program_info.acid_sac_size, aci0_sac, program_info.aci0_sac_size)))) {
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goto SM_REGISTRATION_FAILED;
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}
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/* Setup process flags. */
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if (program_info.application_type & 1) {
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new_process.flags |= 0x40;
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}
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if (kernelAbove200() && LAUNCHFLAGS_NOTIYDEBUGSPECIAL(launch_flags) && (program_info.application_type & 4)) {
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new_process.flags |= 0x80;
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}
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if (LAUNCHFLAGS_NOTIFYWHENEXITED(launch_flags)) {
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new_process.flags |= 1;
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}
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if (LAUNCHFLAGS_NOTIFYDEBUGEVENTS(launch_flags) && (!kernelAbove200() || (program_info.application_type & 4))) {
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new_process.flags |= 0x8;
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}
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/* Add process to the list. */
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Registration::AddProcessToList(std::make_shared<Registration::Process>(new_process));
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/* Signal, if relevant. */
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if (new_process.tid_sid.title_id == g_debug_on_launch_tid.load()) {
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g_debug_title_event->signal_event();
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g_debug_on_launch_tid = 0;
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rc = 0;
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} else if ((new_process.flags & 0x40) && g_debug_next_application.load()) {
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g_debug_application_event->signal_event();
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g_debug_next_application = false;
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rc = 0;
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} else if (LAUNCHFLAGS_STARTSUSPENDED(launch_flags)) {
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rc = 0;
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} else {
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rc = svcStartProcess(new_process.handle, program_info.main_thread_priority, program_info.default_cpu_id, program_info.main_thread_stack_size);
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if (R_SUCCEEDED(rc)) {
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SetProcessState(new_process.pid, ProcessState_DebugDetached);
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}
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}
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if (R_FAILED(rc)) {
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Registration::RemoveProcessFromList(new_process.pid);
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smManagerUnregisterProcess(new_process.pid);
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}
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SM_REGISTRATION_FAILED:
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if (R_FAILED(rc)) {
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fsprUnregisterProgram(new_process.pid);
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}
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FS_REGISTRATION_FAILED:
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if (R_FAILED(rc)) {
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svcCloseHandle(new_process.handle);
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new_process.handle = 0;
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}
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PROCESS_CREATION_FAILED:
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if (R_FAILED(rc)) {
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ldrPmUnregisterTitle(new_process.ldr_queue_index);
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}
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HANDLE_PROCESS_LAUNCH_END:
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g_process_launch_state.result = rc;
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if (R_SUCCEEDED(rc)) {
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*out_pid = new_process.pid;
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}
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g_sema_finish_launch.Signal();
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}
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Result Registration::LaunchDebugProcess(u64 pid) {
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auto auto_lock = GetProcessListUniqueLock();
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LoaderProgramInfo program_info = {0};
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Result rc;
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std::shared_ptr<Registration::Process> proc = GetProcess(pid);
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if (proc == NULL) {
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return 0x20F;
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}
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if (proc->state >= ProcessState_DebugDetached) {
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return 0x40F;
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}
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/* Check that this is a real program. */
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if (R_FAILED((rc = ldrPmGetProgramInfo(proc->tid_sid.title_id, proc->tid_sid.storage_id, &program_info)))) {
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return rc;
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}
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if (R_SUCCEEDED((rc = svcStartProcess(proc->handle, program_info.main_thread_priority, program_info.default_cpu_id, program_info.main_thread_stack_size)))) {
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proc->state = ProcessState_DebugDetached;
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}
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return rc;
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}
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Result Registration::LaunchProcess(u64 title_id, FsStorageId storage_id, u64 launch_flags, u64 *out_pid) {
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/* Only allow one mutex to exist. */
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std::scoped_lock lk{g_process_launch_mutex};
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g_process_launch_state.tid_sid.title_id = title_id;
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g_process_launch_state.tid_sid.storage_id = storage_id;
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g_process_launch_state.launch_flags = launch_flags;
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g_process_launch_state.out_pid = out_pid;
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/* Start a launch, and wait for it to exit. */
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g_process_launch_start_event->signal_event();
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g_sema_finish_launch.Wait();
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return g_process_launch_state.result;
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}
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Result Registration::LaunchProcessByTidSid(TidSid tid_sid, u64 launch_flags, u64 *out_pid) {
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return LaunchProcess(tid_sid.title_id, tid_sid.storage_id, launch_flags, out_pid);
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};
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Result Registration::HandleSignaledProcess(std::shared_ptr<Registration::Process> process) {
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u64 tmp;
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/* Reset the signal. */
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svcResetSignal(process->handle);
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ProcessState old_state;
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old_state = process->state;
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svcGetProcessInfo(&tmp, process->handle, ProcessInfoType_ProcessState);
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process->state = (ProcessState)tmp;
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if (old_state == ProcessState_Crashed && process->state != ProcessState_Crashed) {
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process->flags &= ~0x4;
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}
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switch (process->state) {
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case ProcessState_Created:
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case ProcessState_DebugAttached:
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case ProcessState_Exiting:
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break;
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case ProcessState_DebugDetached:
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if (process->flags & 8) {
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process->flags &= ~0x30;
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process->flags |= 0x10;
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g_process_event->signal_event();
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}
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if (kernelAbove200() && process->flags & 0x80) {
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process->flags &= ~0x180;
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process->flags |= 0x100;
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}
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break;
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case ProcessState_Crashed:
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process->flags |= 6;
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g_process_event->signal_event();
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break;
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case ProcessState_Running:
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if (process->flags & 8) {
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process->flags &= ~0x30;
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process->flags |= 0x10;
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g_process_event->signal_event();
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}
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break;
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case ProcessState_Exited:
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if (process->flags & 1 && !kernelAbove500()) {
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g_process_event->signal_event();
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} else {
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FinalizeExitedProcess(process);
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}
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return 0xF601;
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case ProcessState_DebugSuspended:
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if (process->flags & 8) {
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process->flags |= 0x30;
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g_process_event->signal_event();
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}
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break;
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}
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return 0;
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}
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void Registration::FinalizeExitedProcess(std::shared_ptr<Registration::Process> process) {
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auto auto_lock = GetProcessListUniqueLock();
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bool signal_debug_process_5x = kernelAbove500() && process->flags & 1;
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/* Unregister with FS. */
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if (R_FAILED(fsprUnregisterProgram(process->pid))) {
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/* TODO: Panic. */
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}
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/* Unregister with SM. */
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if (R_FAILED(smManagerUnregisterProcess(process->pid))) {
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/* TODO: Panic. */
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}
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/* Unregister with LDR. */
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if (R_FAILED(ldrPmUnregisterTitle(process->ldr_queue_index))) {
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/* TODO: Panic. */
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}
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/* Close the process's handle. */
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svcCloseHandle(process->handle);
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process->handle = 0;
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/* Insert into dead process list, if relevant. */
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if (signal_debug_process_5x) {
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auto lk = g_dead_process_list.get_unique_lock();
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g_dead_process_list.processes.push_back(process);
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}
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/* Remove NOTE: This probably frees process. */
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RemoveProcessFromList(process->pid);
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auto_lock.unlock();
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if (signal_debug_process_5x) {
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g_process_event->signal_event();
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}
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}
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void Registration::AddProcessToList(std::shared_ptr<Registration::Process> process) {
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auto auto_lock = GetProcessListUniqueLock();
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g_process_list.processes.push_back(process);
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g_process_list.get_manager()->add_waitable(new ProcessWaiter(process));
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}
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void Registration::RemoveProcessFromList(u64 pid) {
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auto auto_lock = GetProcessListUniqueLock();
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/* Remove process from list. */
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for (unsigned int i = 0; i < g_process_list.processes.size(); i++) {
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std::shared_ptr<Registration::Process> process = g_process_list.processes[i];
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if (process->pid == pid) {
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g_process_list.processes.erase(g_process_list.processes.begin() + i);
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svcCloseHandle(process->handle);
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process->handle = 0;
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break;
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}
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}
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}
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void Registration::SetProcessState(u64 pid, ProcessState new_state) {
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auto auto_lock = GetProcessListUniqueLock();
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/* Set process state. */
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for (auto &process : g_process_list.processes) {
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if (process->pid == pid) {
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process->state = new_state;
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break;
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}
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}
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}
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bool Registration::HasApplicationProcess(std::shared_ptr<Registration::Process> *out) {
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auto auto_lock = GetProcessListUniqueLock();
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for (auto &process : g_process_list.processes) {
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if (process->flags & 0x40) {
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if (out != nullptr) {
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*out = process;
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}
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return true;
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}
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}
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return false;
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}
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std::shared_ptr<Registration::Process> Registration::GetProcess(u64 pid) {
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auto auto_lock = GetProcessListUniqueLock();
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for (auto &process : g_process_list.processes) {
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if (process->pid == pid) {
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return process;
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}
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}
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return nullptr;
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}
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std::shared_ptr<Registration::Process> Registration::GetProcessByTitleId(u64 tid) {
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auto auto_lock = GetProcessListUniqueLock();
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for (auto &process : g_process_list.processes) {
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if (process->tid_sid.title_id == tid) {
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return process;
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}
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}
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return nullptr;
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}
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Result Registration::GetDebugProcessIds(u64 *out_pids, u32 max_out, u32 *num_out) {
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auto auto_lock = GetProcessListUniqueLock();
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u32 num = 0;
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for (auto &process : g_process_list.processes) {
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if (process->flags & 4 && num < max_out) {
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out_pids[num++] = process->pid;
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}
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}
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*num_out = num;
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return 0;
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}
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Handle Registration::GetProcessEventHandle() {
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return g_process_event->get_handle();
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}
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void Registration::GetProcessEventType(u64 *out_pid, u64 *out_type) {
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auto auto_lock = GetProcessListUniqueLock();
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for (auto &p : g_process_list.processes) {
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if (kernelAbove200() && p->state >= ProcessState_DebugDetached && p->flags & 0x100) {
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p->flags &= ~0x100;
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*out_pid = p->pid;
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*out_type = kernelAbove500() ? 2 : 5;
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return;
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}
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if (p->flags & 0x10) {
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u64 old_flags = p->flags;
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p->flags &= ~0x10;
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*out_pid = p->pid;
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*out_type = kernelAbove500() ? (((old_flags >> 5) & 1) | 4) : (((old_flags >> 5) & 1) + 3);
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return;
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}
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if (p->flags & 2) {
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*out_pid = p->pid;
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*out_type = kernelAbove500() ? 3 : 1;
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return;
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}
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if (!kernelAbove500() && p->flags & 1 && p->state == ProcessState_Exited) {
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*out_pid = p->pid;
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*out_type = 2;
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return;
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}
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}
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if (kernelAbove500()) {
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auto_lock.unlock();
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auto dead_process_list_lock = g_dead_process_list.get_unique_lock();
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if (g_dead_process_list.processes.size()) {
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std::shared_ptr<Registration::Process> process = g_dead_process_list.processes[0];
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g_dead_process_list.processes.erase(g_dead_process_list.processes.begin());
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*out_pid = process->pid;
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*out_type = 1;
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return;
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}
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}
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*out_pid = 0;
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*out_type = 0;
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}
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Result Registration::EnableDebugForTitleId(u64 tid, Handle *out) {
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u64 old = g_debug_on_launch_tid.exchange(tid);
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if (old) {
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g_debug_on_launch_tid = old;
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return 0x80F;
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}
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*out = g_debug_title_event->get_handle();
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return 0x0;
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}
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Result Registration::EnableDebugForApplication(Handle *out) {
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g_debug_next_application = true;
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*out = g_debug_application_event->get_handle();
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return 0;
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}
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