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Atmosphere/stratosphere/pm/source/pm_shell.cpp
Léo Lam 5b3e8e1c5d stratosphere: Use RAII for locks
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 :)
2018-07-10 09:38:18 -07:00

176 lines
7.1 KiB
C++

#include <switch.h>
#include <stratosphere.hpp>
#include "pm_registration.hpp"
#include "pm_resource_limits.hpp"
#include "pm_shell.hpp"
static bool g_has_boot_finished = false;
Result ShellService::dispatch(IpcParsedCommand &r, IpcCommand &out_c, u64 cmd_id, u8 *pointer_buffer, size_t pointer_buffer_size) {
Result rc = 0xF601;
if (kernelAbove500()) {
switch ((ShellCmd_5X)cmd_id) {
case Shell_Cmd_5X_LaunchProcess:
rc = WrapIpcCommandImpl<&ShellService::launch_process>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_TerminateProcessId:
rc = WrapIpcCommandImpl<&ShellService::terminate_process_id>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_TerminateTitleId:
rc = WrapIpcCommandImpl<&ShellService::terminate_title_id>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_GetProcessWaitEvent:
rc = WrapIpcCommandImpl<&ShellService::get_process_wait_event>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_GetProcessEventType:
rc = WrapIpcCommandImpl<&ShellService::get_process_event_type>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_NotifyBootFinished:
rc = WrapIpcCommandImpl<&ShellService::notify_boot_finished>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_GetApplicationProcessId:
rc = WrapIpcCommandImpl<&ShellService::get_application_process_id>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_5X_BoostSystemMemoryResourceLimit:
rc = WrapIpcCommandImpl<&ShellService::boost_system_memory_resource_limit>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
default:
break;
}
} else {
switch ((ShellCmd)cmd_id) {
case Shell_Cmd_LaunchProcess:
rc = WrapIpcCommandImpl<&ShellService::launch_process>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_TerminateProcessId:
rc = WrapIpcCommandImpl<&ShellService::terminate_process_id>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_TerminateTitleId:
rc = WrapIpcCommandImpl<&ShellService::terminate_title_id>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_GetProcessWaitEvent:
rc = WrapIpcCommandImpl<&ShellService::get_process_wait_event>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_GetProcessEventType:
rc = WrapIpcCommandImpl<&ShellService::get_process_event_type>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_FinalizeExitedProcess:
rc = WrapIpcCommandImpl<&ShellService::finalize_exited_process>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_ClearProcessNotificationFlag:
rc = WrapIpcCommandImpl<&ShellService::clear_process_notification_flag>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_NotifyBootFinished:
rc = WrapIpcCommandImpl<&ShellService::notify_boot_finished>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_GetApplicationProcessId:
rc = WrapIpcCommandImpl<&ShellService::get_application_process_id>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
case Shell_Cmd_BoostSystemMemoryResourceLimit:
rc = WrapIpcCommandImpl<&ShellService::boost_system_memory_resource_limit>(this, r, out_c, pointer_buffer, pointer_buffer_size);
break;
default:
break;
}
}
return rc;
}
Result ShellService::handle_deferred() {
/* This service is never deferrable. */
return 0;
}
std::tuple<Result, u64> ShellService::launch_process(u64 launch_flags, Registration::TidSid tid_sid) {
u64 pid = 0;
Result rc = Registration::LaunchProcessByTidSid(tid_sid, launch_flags, &pid);
return {rc, pid};
}
std::tuple<Result> ShellService::terminate_process_id(u64 pid) {
auto auto_lock = Registration::GetProcessListUniqueLock();
std::shared_ptr<Registration::Process> proc = Registration::GetProcess(pid);
if (proc != NULL) {
return {svcTerminateProcess(proc->handle)};
} else {
return {0x20F};
}
}
std::tuple<Result> ShellService::terminate_title_id(u64 tid) {
auto auto_lock = Registration::GetProcessListUniqueLock();
std::shared_ptr<Registration::Process> proc = Registration::GetProcessByTitleId(tid);
if (proc != NULL) {
return {svcTerminateProcess(proc->handle)};
} else {
return {0x20F};
}
}
std::tuple<Result, CopiedHandle> ShellService::get_process_wait_event() {
return {0x0, Registration::GetProcessEventHandle()};
}
std::tuple<Result, u64, u64> ShellService::get_process_event_type() {
u64 type, pid;
Registration::GetProcessEventType(&pid, &type);
return {0x0, type, pid};
}
std::tuple<Result> ShellService::finalize_exited_process(u64 pid) {
auto auto_lock = Registration::GetProcessListUniqueLock();
std::shared_ptr<Registration::Process> proc = Registration::GetProcess(pid);
if (proc == NULL) {
return {0x20F};
} else if (proc->state != ProcessState_Exited) {
return {0x60F};
} else {
Registration::FinalizeExitedProcess(proc);
return {0x0};
}
}
std::tuple<Result> ShellService::clear_process_notification_flag(u64 pid) {
auto auto_lock = Registration::GetProcessListUniqueLock();
std::shared_ptr<Registration::Process> proc = Registration::GetProcess(pid);
if (proc != NULL) {
proc->flags &= ~2;
return {0x0};
} else {
return {0x20F};
}
}
std::tuple<Result> ShellService::notify_boot_finished() {
u64 boot2_pid;
if (!g_has_boot_finished) {
g_has_boot_finished = true;
return {Registration::LaunchProcess(BOOT2_TITLE_ID, FsStorageId_NandSystem, 0, &boot2_pid)};
}
return {0};
}
std::tuple<Result, u64> ShellService::get_application_process_id() {
auto auto_lock = Registration::GetProcessListUniqueLock();
std::shared_ptr<Registration::Process> app_proc;
if (Registration::HasApplicationProcess(&app_proc)) {
return {0, app_proc->pid};
}
return {0x20F, 0};
}
std::tuple<Result> ShellService::boost_system_memory_resource_limit(u64 sysmem_size) {
if (!kernelAbove400()) {
return {0xF601};
}
/* TODO */
return {ResourceLimitUtils::BoostSystemMemoryResourceLimit(sysmem_size)};
}