// SPDX-FileCopyrightText: Copyright 2023 yuzu Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
// This file is automatically generated using svc_generator.py.
#include <type_traits>
#include "core/arm/arm_interface.h"
#include "core/core.h"
#include "core/hle/kernel/k_process.h"
#include "core/hle/kernel/svc.h"
namespace Kernel::Svc {
static uint32_t GetArg32(std::span<uint64_t, 8> args, int n) {
return static_cast<uint32_t>(args[n]);
}
static void SetArg32(std::span<uint64_t, 8> args, int n, uint32_t result) {
args[n] = result;
}
static uint64_t GetArg64(std::span<uint64_t, 8> args, int n) {
return args[n];
}
static void SetArg64(std::span<uint64_t, 8> args, int n, uint64_t result) {
args[n] = result;
}
// Like bit_cast, but handles the case when the source and dest
// are differently-sized.
template <typename To, typename From>
requires(std::is_trivial_v<To> && std::is_trivially_copyable_v<From>)
static To Convert(const From& from) {
To to{};
if constexpr (sizeof(To) >= sizeof(From)) {
std::memcpy(std::addressof(to), std::addressof(from), sizeof(From));
} else {
std::memcpy(std::addressof(to), std::addressof(from), sizeof(To));
}
return to;
}
// clang-format off
static_assert(sizeof(ArbitrationType) == 4);
static_assert(sizeof(BreakReason) == 4);
static_assert(sizeof(CodeMemoryOperation) == 4);
static_assert(sizeof(DebugThreadParam) == 4);
static_assert(sizeof(DeviceName) == 4);
static_assert(sizeof(HardwareBreakPointRegisterName) == 4);
static_assert(sizeof(Handle) == 4);
static_assert(sizeof(InfoType) == 4);
static_assert(sizeof(InterruptType) == 4);
static_assert(sizeof(IoPoolType) == 4);
static_assert(sizeof(KernelDebugType) == 4);
static_assert(sizeof(KernelTraceState) == 4);
static_assert(sizeof(LimitableResource) == 4);
static_assert(sizeof(MemoryMapping) == 4);
static_assert(sizeof(MemoryPermission) == 4);
static_assert(sizeof(PageInfo) == 4);
static_assert(sizeof(ProcessActivity) == 4);
static_assert(sizeof(ProcessInfoType) == 4);
static_assert(sizeof(Result) == 4);
static_assert(sizeof(SignalType) == 4);
static_assert(sizeof(SystemInfoType) == 4);
static_assert(sizeof(ThreadActivity) == 4);
static_assert(sizeof(ilp32::LastThreadContext) == 16);
static_assert(sizeof(ilp32::PhysicalMemoryInfo) == 16);
static_assert(sizeof(ilp32::SecureMonitorArguments) == 32);
static_assert(sizeof(lp64::LastThreadContext) == 32);
static_assert(sizeof(lp64::PhysicalMemoryInfo) == 24);
static_assert(sizeof(lp64::SecureMonitorArguments) == 64);
static_assert(sizeof(bool) == 1);
static_assert(sizeof(int32_t) == 4);
static_assert(sizeof(int64_t) == 8);
static_assert(sizeof(uint32_t) == 4);
static_assert(sizeof(uint64_t) == 8);
static void SvcWrap_SetHeapSize64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_address{};
uint32_t size{};
size = Convert<uint32_t>(GetArg32(args, 1));
ret = SetHeapSize64From32(system, std::addressof(out_address), size);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_address));
}
static void SvcWrap_SetMemoryPermission64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
MemoryPermission perm{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
perm = Convert<MemoryPermission>(GetArg32(args, 2));
ret = SetMemoryPermission64From32(system, address, size, perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SetMemoryAttribute64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
uint32_t mask{};
uint32_t attr{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
mask = Convert<uint32_t>(GetArg32(args, 2));
attr = Convert<uint32_t>(GetArg32(args, 3));
ret = SetMemoryAttribute64From32(system, address, size, mask, attr);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t dst_address{};
uint32_t src_address{};
uint32_t size{};
dst_address = Convert<uint32_t>(GetArg32(args, 0));
src_address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
ret = MapMemory64From32(system, dst_address, src_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t dst_address{};
uint32_t src_address{};
uint32_t size{};
dst_address = Convert<uint32_t>(GetArg32(args, 0));
src_address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
ret = UnmapMemory64From32(system, dst_address, src_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_QueryMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
PageInfo out_page_info{};
uint32_t out_memory_info{};
uint32_t address{};
out_memory_info = Convert<uint32_t>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 2));
ret = QueryMemory64From32(system, out_memory_info, std::addressof(out_page_info), address);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_page_info));
}
static void SvcWrap_ExitProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
ExitProcess64From32(system);
}
static void SvcWrap_CreateThread64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint32_t func{};
uint32_t arg{};
uint32_t stack_bottom{};
int32_t priority{};
int32_t core_id{};
func = Convert<uint32_t>(GetArg32(args, 1));
arg = Convert<uint32_t>(GetArg32(args, 2));
stack_bottom = Convert<uint32_t>(GetArg32(args, 3));
priority = Convert<int32_t>(GetArg32(args, 0));
core_id = Convert<int32_t>(GetArg32(args, 4));
ret = CreateThread64From32(system, std::addressof(out_handle), func, arg, stack_bottom, priority, core_id);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_StartThread64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg32(args, 0));
ret = StartThread64From32(system, thread_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ExitThread64From32(Core::System& system, std::span<uint64_t, 8> args) {
ExitThread64From32(system);
}
static void SvcWrap_SleepThread64From32(Core::System& system, std::span<uint64_t, 8> args) {
int64_t ns{};
std::array<uint32_t, 2> ns_gather{};
ns_gather[0] = GetArg32(args, 0);
ns_gather[1] = GetArg32(args, 1);
ns = Convert<int64_t>(ns_gather);
SleepThread64From32(system, ns);
}
static void SvcWrap_GetThreadPriority64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_priority{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg32(args, 1));
ret = GetThreadPriority64From32(system, std::addressof(out_priority), thread_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_priority));
}
static void SvcWrap_SetThreadPriority64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
int32_t priority{};
thread_handle = Convert<Handle>(GetArg32(args, 0));
priority = Convert<int32_t>(GetArg32(args, 1));
ret = SetThreadPriority64From32(system, thread_handle, priority);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetThreadCoreMask64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_core_id{};
uint64_t out_affinity_mask{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg32(args, 2));
ret = GetThreadCoreMask64From32(system, std::addressof(out_core_id), std::addressof(out_affinity_mask), thread_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_core_id));
auto out_affinity_mask_scatter = Convert<std::array<uint32_t, 2>>(out_affinity_mask);
SetArg32(args, 2, out_affinity_mask_scatter[0]);
SetArg32(args, 3, out_affinity_mask_scatter[1]);
}
static void SvcWrap_SetThreadCoreMask64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
int32_t core_id{};
uint64_t affinity_mask{};
thread_handle = Convert<Handle>(GetArg32(args, 0));
core_id = Convert<int32_t>(GetArg32(args, 1));
std::array<uint32_t, 2> affinity_mask_gather{};
affinity_mask_gather[0] = GetArg32(args, 2);
affinity_mask_gather[1] = GetArg32(args, 3);
affinity_mask = Convert<uint64_t>(affinity_mask_gather);
ret = SetThreadCoreMask64From32(system, thread_handle, core_id, affinity_mask);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetCurrentProcessorNumber64From32(Core::System& system, std::span<uint64_t, 8> args) {
int32_t ret{};
ret = GetCurrentProcessorNumber64From32(system);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SignalEvent64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle event_handle{};
event_handle = Convert<Handle>(GetArg32(args, 0));
ret = SignalEvent64From32(system, event_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ClearEvent64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle event_handle{};
event_handle = Convert<Handle>(GetArg32(args, 0));
ret = ClearEvent64From32(system, event_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapSharedMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle shmem_handle{};
uint32_t address{};
uint32_t size{};
MemoryPermission map_perm{};
shmem_handle = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
map_perm = Convert<MemoryPermission>(GetArg32(args, 3));
ret = MapSharedMemory64From32(system, shmem_handle, address, size, map_perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapSharedMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle shmem_handle{};
uint32_t address{};
uint32_t size{};
shmem_handle = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
ret = UnmapSharedMemory64From32(system, shmem_handle, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_CreateTransferMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint32_t address{};
uint32_t size{};
MemoryPermission map_perm{};
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
map_perm = Convert<MemoryPermission>(GetArg32(args, 3));
ret = CreateTransferMemory64From32(system, std::addressof(out_handle), address, size, map_perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_CloseHandle64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle handle{};
handle = Convert<Handle>(GetArg32(args, 0));
ret = CloseHandle64From32(system, handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ResetSignal64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle handle{};
handle = Convert<Handle>(GetArg32(args, 0));
ret = ResetSignal64From32(system, handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_WaitSynchronization64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_index{};
uint32_t handles{};
int32_t num_handles{};
int64_t timeout_ns{};
handles = Convert<uint32_t>(GetArg32(args, 1));
num_handles = Convert<int32_t>(GetArg32(args, 2));
std::array<uint32_t, 2> timeout_ns_gather{};
timeout_ns_gather[0] = GetArg32(args, 0);
timeout_ns_gather[1] = GetArg32(args, 3);
timeout_ns = Convert<int64_t>(timeout_ns_gather);
ret = WaitSynchronization64From32(system, std::addressof(out_index), handles, num_handles, timeout_ns);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_index));
}
static void SvcWrap_CancelSynchronization64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle handle{};
handle = Convert<Handle>(GetArg32(args, 0));
ret = CancelSynchronization64From32(system, handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ArbitrateLock64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
uint32_t address{};
uint32_t tag{};
thread_handle = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
tag = Convert<uint32_t>(GetArg32(args, 2));
ret = ArbitrateLock64From32(system, thread_handle, address, tag);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ArbitrateUnlock64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
address = Convert<uint32_t>(GetArg32(args, 0));
ret = ArbitrateUnlock64From32(system, address);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_WaitProcessWideKeyAtomic64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t cv_key{};
uint32_t tag{};
int64_t timeout_ns{};
address = Convert<uint32_t>(GetArg32(args, 0));
cv_key = Convert<uint32_t>(GetArg32(args, 1));
tag = Convert<uint32_t>(GetArg32(args, 2));
std::array<uint32_t, 2> timeout_ns_gather{};
timeout_ns_gather[0] = GetArg32(args, 3);
timeout_ns_gather[1] = GetArg32(args, 4);
timeout_ns = Convert<int64_t>(timeout_ns_gather);
ret = WaitProcessWideKeyAtomic64From32(system, address, cv_key, tag, timeout_ns);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SignalProcessWideKey64From32(Core::System& system, std::span<uint64_t, 8> args) {
uint32_t cv_key{};
int32_t count{};
cv_key = Convert<uint32_t>(GetArg32(args, 0));
count = Convert<int32_t>(GetArg32(args, 1));
SignalProcessWideKey64From32(system, cv_key, count);
}
static void SvcWrap_GetSystemTick64From32(Core::System& system, std::span<uint64_t, 8> args) {
int64_t ret{};
ret = GetSystemTick64From32(system);
auto ret_scatter = Convert<std::array<uint32_t, 2>>(ret);
SetArg32(args, 0, ret_scatter[0]);
SetArg32(args, 1, ret_scatter[1]);
}
static void SvcWrap_ConnectToNamedPort64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint32_t name{};
name = Convert<uint32_t>(GetArg32(args, 1));
ret = ConnectToNamedPort64From32(system, std::addressof(out_handle), name);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_SendSyncRequest64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle session_handle{};
session_handle = Convert<Handle>(GetArg32(args, 0));
ret = SendSyncRequest64From32(system, session_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SendSyncRequestWithUserBuffer64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t message_buffer{};
uint32_t message_buffer_size{};
Handle session_handle{};
message_buffer = Convert<uint32_t>(GetArg32(args, 0));
message_buffer_size = Convert<uint32_t>(GetArg32(args, 1));
session_handle = Convert<Handle>(GetArg32(args, 2));
ret = SendSyncRequestWithUserBuffer64From32(system, message_buffer, message_buffer_size, session_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SendAsyncRequestWithUserBuffer64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_event_handle{};
uint32_t message_buffer{};
uint32_t message_buffer_size{};
Handle session_handle{};
message_buffer = Convert<uint32_t>(GetArg32(args, 1));
message_buffer_size = Convert<uint32_t>(GetArg32(args, 2));
session_handle = Convert<Handle>(GetArg32(args, 3));
ret = SendAsyncRequestWithUserBuffer64From32(system, std::addressof(out_event_handle), message_buffer, message_buffer_size, session_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_event_handle));
}
static void SvcWrap_GetProcessId64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_process_id{};
Handle process_handle{};
process_handle = Convert<Handle>(GetArg32(args, 1));
ret = GetProcessId64From32(system, std::addressof(out_process_id), process_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_process_id_scatter = Convert<std::array<uint32_t, 2>>(out_process_id);
SetArg32(args, 1, out_process_id_scatter[0]);
SetArg32(args, 2, out_process_id_scatter[1]);
}
static void SvcWrap_GetThreadId64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_thread_id{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg32(args, 1));
ret = GetThreadId64From32(system, std::addressof(out_thread_id), thread_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_thread_id_scatter = Convert<std::array<uint32_t, 2>>(out_thread_id);
SetArg32(args, 1, out_thread_id_scatter[0]);
SetArg32(args, 2, out_thread_id_scatter[1]);
}
static void SvcWrap_Break64From32(Core::System& system, std::span<uint64_t, 8> args) {
BreakReason break_reason{};
uint32_t arg{};
uint32_t size{};
break_reason = Convert<BreakReason>(GetArg32(args, 0));
arg = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
Break64From32(system, break_reason, arg, size);
}
static void SvcWrap_OutputDebugString64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t debug_str{};
uint32_t len{};
debug_str = Convert<uint32_t>(GetArg32(args, 0));
len = Convert<uint32_t>(GetArg32(args, 1));
ret = OutputDebugString64From32(system, debug_str, len);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ReturnFromException64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result result{};
result = Convert<Result>(GetArg32(args, 0));
ReturnFromException64From32(system, result);
}
static void SvcWrap_GetInfo64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out{};
InfoType info_type{};
Handle handle{};
uint64_t info_subtype{};
info_type = Convert<InfoType>(GetArg32(args, 1));
handle = Convert<Handle>(GetArg32(args, 2));
std::array<uint32_t, 2> info_subtype_gather{};
info_subtype_gather[0] = GetArg32(args, 0);
info_subtype_gather[1] = GetArg32(args, 3);
info_subtype = Convert<uint64_t>(info_subtype_gather);
ret = GetInfo64From32(system, std::addressof(out), info_type, handle, info_subtype);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_scatter = Convert<std::array<uint32_t, 2>>(out);
SetArg32(args, 1, out_scatter[0]);
SetArg32(args, 2, out_scatter[1]);
}
static void SvcWrap_FlushEntireDataCache64From32(Core::System& system, std::span<uint64_t, 8> args) {
FlushEntireDataCache64From32(system);
}
static void SvcWrap_FlushDataCache64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = FlushDataCache64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapPhysicalMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = MapPhysicalMemory64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapPhysicalMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = UnmapPhysicalMemory64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetDebugFutureThreadInfo64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
ilp32::LastThreadContext out_context{};
uint64_t out_thread_id{};
Handle debug_handle{};
int64_t ns{};
debug_handle = Convert<Handle>(GetArg32(args, 2));
std::array<uint32_t, 2> ns_gather{};
ns_gather[0] = GetArg32(args, 0);
ns_gather[1] = GetArg32(args, 1);
ns = Convert<int64_t>(ns_gather);
ret = GetDebugFutureThreadInfo64From32(system, std::addressof(out_context), std::addressof(out_thread_id), debug_handle, ns);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_context_scatter = Convert<std::array<uint32_t, 4>>(out_context);
SetArg32(args, 1, out_context_scatter[0]);
SetArg32(args, 2, out_context_scatter[1]);
SetArg32(args, 3, out_context_scatter[2]);
SetArg32(args, 4, out_context_scatter[3]);
auto out_thread_id_scatter = Convert<std::array<uint32_t, 2>>(out_thread_id);
SetArg32(args, 5, out_thread_id_scatter[0]);
SetArg32(args, 6, out_thread_id_scatter[1]);
}
static void SvcWrap_GetLastThreadInfo64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
ilp32::LastThreadContext out_context{};
uint64_t out_tls_address{};
uint32_t out_flags{};
ret = GetLastThreadInfo64From32(system, std::addressof(out_context), std::addressof(out_tls_address), std::addressof(out_flags));
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_context_scatter = Convert<std::array<uint32_t, 4>>(out_context);
SetArg32(args, 1, out_context_scatter[0]);
SetArg32(args, 2, out_context_scatter[1]);
SetArg32(args, 3, out_context_scatter[2]);
SetArg32(args, 4, out_context_scatter[3]);
SetArg32(args, 5, Convert<uint32_t>(out_tls_address));
SetArg32(args, 6, Convert<uint32_t>(out_flags));
}
static void SvcWrap_GetResourceLimitLimitValue64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_limit_value{};
Handle resource_limit_handle{};
LimitableResource which{};
resource_limit_handle = Convert<Handle>(GetArg32(args, 1));
which = Convert<LimitableResource>(GetArg32(args, 2));
ret = GetResourceLimitLimitValue64From32(system, std::addressof(out_limit_value), resource_limit_handle, which);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_limit_value_scatter = Convert<std::array<uint32_t, 2>>(out_limit_value);
SetArg32(args, 1, out_limit_value_scatter[0]);
SetArg32(args, 2, out_limit_value_scatter[1]);
}
static void SvcWrap_GetResourceLimitCurrentValue64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_current_value{};
Handle resource_limit_handle{};
LimitableResource which{};
resource_limit_handle = Convert<Handle>(GetArg32(args, 1));
which = Convert<LimitableResource>(GetArg32(args, 2));
ret = GetResourceLimitCurrentValue64From32(system, std::addressof(out_current_value), resource_limit_handle, which);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_current_value_scatter = Convert<std::array<uint32_t, 2>>(out_current_value);
SetArg32(args, 1, out_current_value_scatter[0]);
SetArg32(args, 2, out_current_value_scatter[1]);
}
static void SvcWrap_SetThreadActivity64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
ThreadActivity thread_activity{};
thread_handle = Convert<Handle>(GetArg32(args, 0));
thread_activity = Convert<ThreadActivity>(GetArg32(args, 1));
ret = SetThreadActivity64From32(system, thread_handle, thread_activity);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetThreadContext364From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t out_context{};
Handle thread_handle{};
out_context = Convert<uint32_t>(GetArg32(args, 0));
thread_handle = Convert<Handle>(GetArg32(args, 1));
ret = GetThreadContext364From32(system, out_context, thread_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_WaitForAddress64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
ArbitrationType arb_type{};
int32_t value{};
int64_t timeout_ns{};
address = Convert<uint32_t>(GetArg32(args, 0));
arb_type = Convert<ArbitrationType>(GetArg32(args, 1));
value = Convert<int32_t>(GetArg32(args, 2));
std::array<uint32_t, 2> timeout_ns_gather{};
timeout_ns_gather[0] = GetArg32(args, 3);
timeout_ns_gather[1] = GetArg32(args, 4);
timeout_ns = Convert<int64_t>(timeout_ns_gather);
ret = WaitForAddress64From32(system, address, arb_type, value, timeout_ns);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SignalToAddress64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
SignalType signal_type{};
int32_t value{};
int32_t count{};
address = Convert<uint32_t>(GetArg32(args, 0));
signal_type = Convert<SignalType>(GetArg32(args, 1));
value = Convert<int32_t>(GetArg32(args, 2));
count = Convert<int32_t>(GetArg32(args, 3));
ret = SignalToAddress64From32(system, address, signal_type, value, count);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SynchronizePreemptionState64From32(Core::System& system, std::span<uint64_t, 8> args) {
SynchronizePreemptionState64From32(system);
}
static void SvcWrap_GetResourceLimitPeakValue64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_peak_value{};
Handle resource_limit_handle{};
LimitableResource which{};
resource_limit_handle = Convert<Handle>(GetArg32(args, 1));
which = Convert<LimitableResource>(GetArg32(args, 2));
ret = GetResourceLimitPeakValue64From32(system, std::addressof(out_peak_value), resource_limit_handle, which);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_peak_value_scatter = Convert<std::array<uint32_t, 2>>(out_peak_value);
SetArg32(args, 1, out_peak_value_scatter[0]);
SetArg32(args, 2, out_peak_value_scatter[1]);
}
static void SvcWrap_CreateIoPool64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
IoPoolType which{};
which = Convert<IoPoolType>(GetArg32(args, 1));
ret = CreateIoPool64From32(system, std::addressof(out_handle), which);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_CreateIoRegion64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
Handle io_pool{};
uint64_t physical_address{};
uint32_t size{};
MemoryMapping mapping{};
MemoryPermission perm{};
io_pool = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> physical_address_gather{};
physical_address_gather[0] = GetArg32(args, 2);
physical_address_gather[1] = GetArg32(args, 3);
physical_address = Convert<uint64_t>(physical_address_gather);
size = Convert<uint32_t>(GetArg32(args, 0));
mapping = Convert<MemoryMapping>(GetArg32(args, 4));
perm = Convert<MemoryPermission>(GetArg32(args, 5));
ret = CreateIoRegion64From32(system, std::addressof(out_handle), io_pool, physical_address, size, mapping, perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_KernelDebug64From32(Core::System& system, std::span<uint64_t, 8> args) {
KernelDebugType kern_debug_type{};
uint64_t arg0{};
uint64_t arg1{};
uint64_t arg2{};
kern_debug_type = Convert<KernelDebugType>(GetArg32(args, 0));
std::array<uint32_t, 2> arg0_gather{};
arg0_gather[0] = GetArg32(args, 2);
arg0_gather[1] = GetArg32(args, 3);
arg0 = Convert<uint64_t>(arg0_gather);
std::array<uint32_t, 2> arg1_gather{};
arg1_gather[0] = GetArg32(args, 1);
arg1_gather[1] = GetArg32(args, 4);
arg1 = Convert<uint64_t>(arg1_gather);
std::array<uint32_t, 2> arg2_gather{};
arg2_gather[0] = GetArg32(args, 5);
arg2_gather[1] = GetArg32(args, 6);
arg2 = Convert<uint64_t>(arg2_gather);
KernelDebug64From32(system, kern_debug_type, arg0, arg1, arg2);
}
static void SvcWrap_ChangeKernelTraceState64From32(Core::System& system, std::span<uint64_t, 8> args) {
KernelTraceState kern_trace_state{};
kern_trace_state = Convert<KernelTraceState>(GetArg32(args, 0));
ChangeKernelTraceState64From32(system, kern_trace_state);
}
static void SvcWrap_CreateSession64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_server_session_handle{};
Handle out_client_session_handle{};
bool is_light{};
uint32_t name{};
is_light = Convert<bool>(GetArg32(args, 2));
name = Convert<uint32_t>(GetArg32(args, 3));
ret = CreateSession64From32(system, std::addressof(out_server_session_handle), std::addressof(out_client_session_handle), is_light, name);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_server_session_handle));
SetArg32(args, 2, Convert<uint32_t>(out_client_session_handle));
}
static void SvcWrap_AcceptSession64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
Handle port{};
port = Convert<Handle>(GetArg32(args, 1));
ret = AcceptSession64From32(system, std::addressof(out_handle), port);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_ReplyAndReceive64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_index{};
uint32_t handles{};
int32_t num_handles{};
Handle reply_target{};
int64_t timeout_ns{};
handles = Convert<uint32_t>(GetArg32(args, 1));
num_handles = Convert<int32_t>(GetArg32(args, 2));
reply_target = Convert<Handle>(GetArg32(args, 3));
std::array<uint32_t, 2> timeout_ns_gather{};
timeout_ns_gather[0] = GetArg32(args, 0);
timeout_ns_gather[1] = GetArg32(args, 4);
timeout_ns = Convert<int64_t>(timeout_ns_gather);
ret = ReplyAndReceive64From32(system, std::addressof(out_index), handles, num_handles, reply_target, timeout_ns);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_index));
}
static void SvcWrap_ReplyAndReceiveWithUserBuffer64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_index{};
uint32_t message_buffer{};
uint32_t message_buffer_size{};
uint32_t handles{};
int32_t num_handles{};
Handle reply_target{};
int64_t timeout_ns{};
message_buffer = Convert<uint32_t>(GetArg32(args, 1));
message_buffer_size = Convert<uint32_t>(GetArg32(args, 2));
handles = Convert<uint32_t>(GetArg32(args, 3));
num_handles = Convert<int32_t>(GetArg32(args, 0));
reply_target = Convert<Handle>(GetArg32(args, 4));
std::array<uint32_t, 2> timeout_ns_gather{};
timeout_ns_gather[0] = GetArg32(args, 5);
timeout_ns_gather[1] = GetArg32(args, 6);
timeout_ns = Convert<int64_t>(timeout_ns_gather);
ret = ReplyAndReceiveWithUserBuffer64From32(system, std::addressof(out_index), message_buffer, message_buffer_size, handles, num_handles, reply_target, timeout_ns);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_index));
}
static void SvcWrap_CreateEvent64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_write_handle{};
Handle out_read_handle{};
ret = CreateEvent64From32(system, std::addressof(out_write_handle), std::addressof(out_read_handle));
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_write_handle));
SetArg32(args, 2, Convert<uint32_t>(out_read_handle));
}
static void SvcWrap_MapIoRegion64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle io_region{};
uint32_t address{};
uint32_t size{};
MemoryPermission perm{};
io_region = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
perm = Convert<MemoryPermission>(GetArg32(args, 3));
ret = MapIoRegion64From32(system, io_region, address, size, perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapIoRegion64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle io_region{};
uint32_t address{};
uint32_t size{};
io_region = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
ret = UnmapIoRegion64From32(system, io_region, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapPhysicalMemoryUnsafe64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = MapPhysicalMemoryUnsafe64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapPhysicalMemoryUnsafe64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = UnmapPhysicalMemoryUnsafe64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SetUnsafeLimit64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t limit{};
limit = Convert<uint32_t>(GetArg32(args, 0));
ret = SetUnsafeLimit64From32(system, limit);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_CreateCodeMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
ret = CreateCodeMemory64From32(system, std::addressof(out_handle), address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_ControlCodeMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle code_memory_handle{};
CodeMemoryOperation operation{};
uint64_t address{};
uint64_t size{};
MemoryPermission perm{};
code_memory_handle = Convert<Handle>(GetArg32(args, 0));
operation = Convert<CodeMemoryOperation>(GetArg32(args, 1));
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 2);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 4);
size_gather[1] = GetArg32(args, 5);
size = Convert<uint64_t>(size_gather);
perm = Convert<MemoryPermission>(GetArg32(args, 6));
ret = ControlCodeMemory64From32(system, code_memory_handle, operation, address, size, perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SleepSystem64From32(Core::System& system, std::span<uint64_t, 8> args) {
SleepSystem64From32(system);
}
static void SvcWrap_ReadWriteRegister64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t out_value{};
uint64_t address{};
uint32_t mask{};
uint32_t value{};
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 2);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
mask = Convert<uint32_t>(GetArg32(args, 0));
value = Convert<uint32_t>(GetArg32(args, 1));
ret = ReadWriteRegister64From32(system, std::addressof(out_value), address, mask, value);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_value));
}
static void SvcWrap_SetProcessActivity64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
ProcessActivity process_activity{};
process_handle = Convert<Handle>(GetArg32(args, 0));
process_activity = Convert<ProcessActivity>(GetArg32(args, 1));
ret = SetProcessActivity64From32(system, process_handle, process_activity);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_CreateSharedMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint32_t size{};
MemoryPermission owner_perm{};
MemoryPermission remote_perm{};
size = Convert<uint32_t>(GetArg32(args, 1));
owner_perm = Convert<MemoryPermission>(GetArg32(args, 2));
remote_perm = Convert<MemoryPermission>(GetArg32(args, 3));
ret = CreateSharedMemory64From32(system, std::addressof(out_handle), size, owner_perm, remote_perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_MapTransferMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle trmem_handle{};
uint32_t address{};
uint32_t size{};
MemoryPermission owner_perm{};
trmem_handle = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
owner_perm = Convert<MemoryPermission>(GetArg32(args, 3));
ret = MapTransferMemory64From32(system, trmem_handle, address, size, owner_perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapTransferMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle trmem_handle{};
uint32_t address{};
uint32_t size{};
trmem_handle = Convert<Handle>(GetArg32(args, 0));
address = Convert<uint32_t>(GetArg32(args, 1));
size = Convert<uint32_t>(GetArg32(args, 2));
ret = UnmapTransferMemory64From32(system, trmem_handle, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_CreateInterruptEvent64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_read_handle{};
int32_t interrupt_id{};
InterruptType interrupt_type{};
interrupt_id = Convert<int32_t>(GetArg32(args, 1));
interrupt_type = Convert<InterruptType>(GetArg32(args, 2));
ret = CreateInterruptEvent64From32(system, std::addressof(out_read_handle), interrupt_id, interrupt_type);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_read_handle));
}
static void SvcWrap_QueryPhysicalAddress64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
ilp32::PhysicalMemoryInfo out_info{};
uint32_t address{};
address = Convert<uint32_t>(GetArg32(args, 1));
ret = QueryPhysicalAddress64From32(system, std::addressof(out_info), address);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_info_scatter = Convert<std::array<uint32_t, 4>>(out_info);
SetArg32(args, 1, out_info_scatter[0]);
SetArg32(args, 2, out_info_scatter[1]);
SetArg32(args, 3, out_info_scatter[2]);
SetArg32(args, 4, out_info_scatter[3]);
}
static void SvcWrap_QueryIoMapping64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_address{};
uint64_t out_size{};
uint64_t physical_address{};
uint32_t size{};
std::array<uint32_t, 2> physical_address_gather{};
physical_address_gather[0] = GetArg32(args, 2);
physical_address_gather[1] = GetArg32(args, 3);
physical_address = Convert<uint64_t>(physical_address_gather);
size = Convert<uint32_t>(GetArg32(args, 0));
ret = QueryIoMapping64From32(system, std::addressof(out_address), std::addressof(out_size), physical_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_address));
SetArg32(args, 2, Convert<uint32_t>(out_size));
}
static void SvcWrap_CreateDeviceAddressSpace64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t das_address{};
uint64_t das_size{};
std::array<uint32_t, 2> das_address_gather{};
das_address_gather[0] = GetArg32(args, 2);
das_address_gather[1] = GetArg32(args, 3);
das_address = Convert<uint64_t>(das_address_gather);
std::array<uint32_t, 2> das_size_gather{};
das_size_gather[0] = GetArg32(args, 0);
das_size_gather[1] = GetArg32(args, 1);
das_size = Convert<uint64_t>(das_size_gather);
ret = CreateDeviceAddressSpace64From32(system, std::addressof(out_handle), das_address, das_size);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_AttachDeviceAddressSpace64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
DeviceName device_name{};
Handle das_handle{};
device_name = Convert<DeviceName>(GetArg32(args, 0));
das_handle = Convert<Handle>(GetArg32(args, 1));
ret = AttachDeviceAddressSpace64From32(system, device_name, das_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_DetachDeviceAddressSpace64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
DeviceName device_name{};
Handle das_handle{};
device_name = Convert<DeviceName>(GetArg32(args, 0));
das_handle = Convert<Handle>(GetArg32(args, 1));
ret = DetachDeviceAddressSpace64From32(system, device_name, das_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapDeviceAddressSpaceByForce64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle das_handle{};
Handle process_handle{};
uint64_t process_address{};
uint32_t size{};
uint64_t device_address{};
uint32_t option{};
das_handle = Convert<Handle>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> process_address_gather{};
process_address_gather[0] = GetArg32(args, 2);
process_address_gather[1] = GetArg32(args, 3);
process_address = Convert<uint64_t>(process_address_gather);
size = Convert<uint32_t>(GetArg32(args, 4));
std::array<uint32_t, 2> device_address_gather{};
device_address_gather[0] = GetArg32(args, 5);
device_address_gather[1] = GetArg32(args, 6);
device_address = Convert<uint64_t>(device_address_gather);
option = Convert<uint32_t>(GetArg32(args, 7));
ret = MapDeviceAddressSpaceByForce64From32(system, das_handle, process_handle, process_address, size, device_address, option);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapDeviceAddressSpaceAligned64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle das_handle{};
Handle process_handle{};
uint64_t process_address{};
uint32_t size{};
uint64_t device_address{};
uint32_t option{};
das_handle = Convert<Handle>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> process_address_gather{};
process_address_gather[0] = GetArg32(args, 2);
process_address_gather[1] = GetArg32(args, 3);
process_address = Convert<uint64_t>(process_address_gather);
size = Convert<uint32_t>(GetArg32(args, 4));
std::array<uint32_t, 2> device_address_gather{};
device_address_gather[0] = GetArg32(args, 5);
device_address_gather[1] = GetArg32(args, 6);
device_address = Convert<uint64_t>(device_address_gather);
option = Convert<uint32_t>(GetArg32(args, 7));
ret = MapDeviceAddressSpaceAligned64From32(system, das_handle, process_handle, process_address, size, device_address, option);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapDeviceAddressSpace64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle das_handle{};
Handle process_handle{};
uint64_t process_address{};
uint32_t size{};
uint64_t device_address{};
das_handle = Convert<Handle>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> process_address_gather{};
process_address_gather[0] = GetArg32(args, 2);
process_address_gather[1] = GetArg32(args, 3);
process_address = Convert<uint64_t>(process_address_gather);
size = Convert<uint32_t>(GetArg32(args, 4));
std::array<uint32_t, 2> device_address_gather{};
device_address_gather[0] = GetArg32(args, 5);
device_address_gather[1] = GetArg32(args, 6);
device_address = Convert<uint64_t>(device_address_gather);
ret = UnmapDeviceAddressSpace64From32(system, das_handle, process_handle, process_address, size, device_address);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_InvalidateProcessDataCache64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 2);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 1);
size_gather[1] = GetArg32(args, 4);
size = Convert<uint64_t>(size_gather);
ret = InvalidateProcessDataCache64From32(system, process_handle, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_StoreProcessDataCache64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 2);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 1);
size_gather[1] = GetArg32(args, 4);
size = Convert<uint64_t>(size_gather);
ret = StoreProcessDataCache64From32(system, process_handle, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_FlushProcessDataCache64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 2);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 1);
size_gather[1] = GetArg32(args, 4);
size = Convert<uint64_t>(size_gather);
ret = FlushProcessDataCache64From32(system, process_handle, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_DebugActiveProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t process_id{};
std::array<uint32_t, 2> process_id_gather{};
process_id_gather[0] = GetArg32(args, 2);
process_id_gather[1] = GetArg32(args, 3);
process_id = Convert<uint64_t>(process_id_gather);
ret = DebugActiveProcess64From32(system, std::addressof(out_handle), process_id);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_BreakDebugProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
debug_handle = Convert<Handle>(GetArg32(args, 0));
ret = BreakDebugProcess64From32(system, debug_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_TerminateDebugProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
debug_handle = Convert<Handle>(GetArg32(args, 0));
ret = TerminateDebugProcess64From32(system, debug_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetDebugEvent64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t out_info{};
Handle debug_handle{};
out_info = Convert<uint32_t>(GetArg32(args, 0));
debug_handle = Convert<Handle>(GetArg32(args, 1));
ret = GetDebugEvent64From32(system, out_info, debug_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_ContinueDebugEvent64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
uint32_t flags{};
uint32_t thread_ids{};
int32_t num_thread_ids{};
debug_handle = Convert<Handle>(GetArg32(args, 0));
flags = Convert<uint32_t>(GetArg32(args, 1));
thread_ids = Convert<uint32_t>(GetArg32(args, 2));
num_thread_ids = Convert<int32_t>(GetArg32(args, 3));
ret = ContinueDebugEvent64From32(system, debug_handle, flags, thread_ids, num_thread_ids);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetProcessList64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_num_processes{};
uint32_t out_process_ids{};
int32_t max_out_count{};
out_process_ids = Convert<uint32_t>(GetArg32(args, 1));
max_out_count = Convert<int32_t>(GetArg32(args, 2));
ret = GetProcessList64From32(system, std::addressof(out_num_processes), out_process_ids, max_out_count);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_num_processes));
}
static void SvcWrap_GetThreadList64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_num_threads{};
uint32_t out_thread_ids{};
int32_t max_out_count{};
Handle debug_handle{};
out_thread_ids = Convert<uint32_t>(GetArg32(args, 1));
max_out_count = Convert<int32_t>(GetArg32(args, 2));
debug_handle = Convert<Handle>(GetArg32(args, 3));
ret = GetThreadList64From32(system, std::addressof(out_num_threads), out_thread_ids, max_out_count, debug_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_num_threads));
}
static void SvcWrap_GetDebugThreadContext64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t out_context{};
Handle debug_handle{};
uint64_t thread_id{};
uint32_t context_flags{};
out_context = Convert<uint32_t>(GetArg32(args, 0));
debug_handle = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> thread_id_gather{};
thread_id_gather[0] = GetArg32(args, 2);
thread_id_gather[1] = GetArg32(args, 3);
thread_id = Convert<uint64_t>(thread_id_gather);
context_flags = Convert<uint32_t>(GetArg32(args, 4));
ret = GetDebugThreadContext64From32(system, out_context, debug_handle, thread_id, context_flags);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SetDebugThreadContext64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
uint64_t thread_id{};
uint32_t context{};
uint32_t context_flags{};
debug_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> thread_id_gather{};
thread_id_gather[0] = GetArg32(args, 2);
thread_id_gather[1] = GetArg32(args, 3);
thread_id = Convert<uint64_t>(thread_id_gather);
context = Convert<uint32_t>(GetArg32(args, 1));
context_flags = Convert<uint32_t>(GetArg32(args, 4));
ret = SetDebugThreadContext64From32(system, debug_handle, thread_id, context, context_flags);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_QueryDebugProcessMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
PageInfo out_page_info{};
uint32_t out_memory_info{};
Handle process_handle{};
uint32_t address{};
out_memory_info = Convert<uint32_t>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 2));
address = Convert<uint32_t>(GetArg32(args, 3));
ret = QueryDebugProcessMemory64From32(system, out_memory_info, std::addressof(out_page_info), process_handle, address);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_page_info));
}
static void SvcWrap_ReadDebugProcessMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t buffer{};
Handle debug_handle{};
uint32_t address{};
uint32_t size{};
buffer = Convert<uint32_t>(GetArg32(args, 0));
debug_handle = Convert<Handle>(GetArg32(args, 1));
address = Convert<uint32_t>(GetArg32(args, 2));
size = Convert<uint32_t>(GetArg32(args, 3));
ret = ReadDebugProcessMemory64From32(system, buffer, debug_handle, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_WriteDebugProcessMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
uint32_t buffer{};
uint32_t address{};
uint32_t size{};
debug_handle = Convert<Handle>(GetArg32(args, 0));
buffer = Convert<uint32_t>(GetArg32(args, 1));
address = Convert<uint32_t>(GetArg32(args, 2));
size = Convert<uint32_t>(GetArg32(args, 3));
ret = WriteDebugProcessMemory64From32(system, debug_handle, buffer, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SetHardwareBreakPoint64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
HardwareBreakPointRegisterName name{};
uint64_t flags{};
uint64_t value{};
name = Convert<HardwareBreakPointRegisterName>(GetArg32(args, 0));
std::array<uint32_t, 2> flags_gather{};
flags_gather[0] = GetArg32(args, 2);
flags_gather[1] = GetArg32(args, 3);
flags = Convert<uint64_t>(flags_gather);
std::array<uint32_t, 2> value_gather{};
value_gather[0] = GetArg32(args, 1);
value_gather[1] = GetArg32(args, 4);
value = Convert<uint64_t>(value_gather);
ret = SetHardwareBreakPoint64From32(system, name, flags, value);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetDebugThreadParam64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_64{};
uint32_t out_32{};
Handle debug_handle{};
uint64_t thread_id{};
DebugThreadParam param{};
debug_handle = Convert<Handle>(GetArg32(args, 2));
std::array<uint32_t, 2> thread_id_gather{};
thread_id_gather[0] = GetArg32(args, 0);
thread_id_gather[1] = GetArg32(args, 1);
thread_id = Convert<uint64_t>(thread_id_gather);
param = Convert<DebugThreadParam>(GetArg32(args, 3));
ret = GetDebugThreadParam64From32(system, std::addressof(out_64), std::addressof(out_32), debug_handle, thread_id, param);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_64_scatter = Convert<std::array<uint32_t, 2>>(out_64);
SetArg32(args, 1, out_64_scatter[0]);
SetArg32(args, 2, out_64_scatter[1]);
SetArg32(args, 3, Convert<uint32_t>(out_32));
}
static void SvcWrap_GetSystemInfo64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out{};
SystemInfoType info_type{};
Handle handle{};
uint64_t info_subtype{};
info_type = Convert<SystemInfoType>(GetArg32(args, 1));
handle = Convert<Handle>(GetArg32(args, 2));
std::array<uint32_t, 2> info_subtype_gather{};
info_subtype_gather[0] = GetArg32(args, 0);
info_subtype_gather[1] = GetArg32(args, 3);
info_subtype = Convert<uint64_t>(info_subtype_gather);
ret = GetSystemInfo64From32(system, std::addressof(out), info_type, handle, info_subtype);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_scatter = Convert<std::array<uint32_t, 2>>(out);
SetArg32(args, 1, out_scatter[0]);
SetArg32(args, 2, out_scatter[1]);
}
static void SvcWrap_CreatePort64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_server_handle{};
Handle out_client_handle{};
int32_t max_sessions{};
bool is_light{};
uint32_t name{};
max_sessions = Convert<int32_t>(GetArg32(args, 2));
is_light = Convert<bool>(GetArg32(args, 3));
name = Convert<uint32_t>(GetArg32(args, 0));
ret = CreatePort64From32(system, std::addressof(out_server_handle), std::addressof(out_client_handle), max_sessions, is_light, name);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_server_handle));
SetArg32(args, 2, Convert<uint32_t>(out_client_handle));
}
static void SvcWrap_ManageNamedPort64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_server_handle{};
uint32_t name{};
int32_t max_sessions{};
name = Convert<uint32_t>(GetArg32(args, 1));
max_sessions = Convert<int32_t>(GetArg32(args, 2));
ret = ManageNamedPort64From32(system, std::addressof(out_server_handle), name, max_sessions);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_server_handle));
}
static void SvcWrap_ConnectToPort64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
Handle port{};
port = Convert<Handle>(GetArg32(args, 1));
ret = ConnectToPort64From32(system, std::addressof(out_handle), port);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_SetProcessMemoryPermission64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
MemoryPermission perm{};
process_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 2);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 1);
size_gather[1] = GetArg32(args, 4);
size = Convert<uint64_t>(size_gather);
perm = Convert<MemoryPermission>(GetArg32(args, 5));
ret = SetProcessMemoryPermission64From32(system, process_handle, address, size, perm);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapProcessMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t dst_address{};
Handle process_handle{};
uint64_t src_address{};
uint32_t size{};
dst_address = Convert<uint32_t>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> src_address_gather{};
src_address_gather[0] = GetArg32(args, 2);
src_address_gather[1] = GetArg32(args, 3);
src_address = Convert<uint64_t>(src_address_gather);
size = Convert<uint32_t>(GetArg32(args, 4));
ret = MapProcessMemory64From32(system, dst_address, process_handle, src_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapProcessMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t dst_address{};
Handle process_handle{};
uint64_t src_address{};
uint32_t size{};
dst_address = Convert<uint32_t>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 1));
std::array<uint32_t, 2> src_address_gather{};
src_address_gather[0] = GetArg32(args, 2);
src_address_gather[1] = GetArg32(args, 3);
src_address = Convert<uint64_t>(src_address_gather);
size = Convert<uint32_t>(GetArg32(args, 4));
ret = UnmapProcessMemory64From32(system, dst_address, process_handle, src_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_QueryProcessMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
PageInfo out_page_info{};
uint32_t out_memory_info{};
Handle process_handle{};
uint64_t address{};
out_memory_info = Convert<uint32_t>(GetArg32(args, 0));
process_handle = Convert<Handle>(GetArg32(args, 2));
std::array<uint32_t, 2> address_gather{};
address_gather[0] = GetArg32(args, 1);
address_gather[1] = GetArg32(args, 3);
address = Convert<uint64_t>(address_gather);
ret = QueryProcessMemory64From32(system, out_memory_info, std::addressof(out_page_info), process_handle, address);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_page_info));
}
static void SvcWrap_MapProcessCodeMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t dst_address{};
uint64_t src_address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> dst_address_gather{};
dst_address_gather[0] = GetArg32(args, 2);
dst_address_gather[1] = GetArg32(args, 3);
dst_address = Convert<uint64_t>(dst_address_gather);
std::array<uint32_t, 2> src_address_gather{};
src_address_gather[0] = GetArg32(args, 1);
src_address_gather[1] = GetArg32(args, 4);
src_address = Convert<uint64_t>(src_address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 5);
size_gather[1] = GetArg32(args, 6);
size = Convert<uint64_t>(size_gather);
ret = MapProcessCodeMemory64From32(system, process_handle, dst_address, src_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapProcessCodeMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t dst_address{};
uint64_t src_address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg32(args, 0));
std::array<uint32_t, 2> dst_address_gather{};
dst_address_gather[0] = GetArg32(args, 2);
dst_address_gather[1] = GetArg32(args, 3);
dst_address = Convert<uint64_t>(dst_address_gather);
std::array<uint32_t, 2> src_address_gather{};
src_address_gather[0] = GetArg32(args, 1);
src_address_gather[1] = GetArg32(args, 4);
src_address = Convert<uint64_t>(src_address_gather);
std::array<uint32_t, 2> size_gather{};
size_gather[0] = GetArg32(args, 5);
size_gather[1] = GetArg32(args, 6);
size = Convert<uint64_t>(size_gather);
ret = UnmapProcessCodeMemory64From32(system, process_handle, dst_address, src_address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_CreateProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint32_t parameters{};
uint32_t caps{};
int32_t num_caps{};
parameters = Convert<uint32_t>(GetArg32(args, 1));
caps = Convert<uint32_t>(GetArg32(args, 2));
num_caps = Convert<int32_t>(GetArg32(args, 3));
ret = CreateProcess64From32(system, std::addressof(out_handle), parameters, caps, num_caps);
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_StartProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
int32_t priority{};
int32_t core_id{};
uint64_t main_thread_stack_size{};
process_handle = Convert<Handle>(GetArg32(args, 0));
priority = Convert<int32_t>(GetArg32(args, 1));
core_id = Convert<int32_t>(GetArg32(args, 2));
std::array<uint32_t, 2> main_thread_stack_size_gather{};
main_thread_stack_size_gather[0] = GetArg32(args, 3);
main_thread_stack_size_gather[1] = GetArg32(args, 4);
main_thread_stack_size = Convert<uint64_t>(main_thread_stack_size_gather);
ret = StartProcess64From32(system, process_handle, priority, core_id, main_thread_stack_size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_TerminateProcess64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
process_handle = Convert<Handle>(GetArg32(args, 0));
ret = TerminateProcess64From32(system, process_handle);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_GetProcessInfo64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_info{};
Handle process_handle{};
ProcessInfoType info_type{};
process_handle = Convert<Handle>(GetArg32(args, 1));
info_type = Convert<ProcessInfoType>(GetArg32(args, 2));
ret = GetProcessInfo64From32(system, std::addressof(out_info), process_handle, info_type);
SetArg32(args, 0, Convert<uint32_t>(ret));
auto out_info_scatter = Convert<std::array<uint32_t, 2>>(out_info);
SetArg32(args, 1, out_info_scatter[0]);
SetArg32(args, 2, out_info_scatter[1]);
}
static void SvcWrap_CreateResourceLimit64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
ret = CreateResourceLimit64From32(system, std::addressof(out_handle));
SetArg32(args, 0, Convert<uint32_t>(ret));
SetArg32(args, 1, Convert<uint32_t>(out_handle));
}
static void SvcWrap_SetResourceLimitLimitValue64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle resource_limit_handle{};
LimitableResource which{};
int64_t limit_value{};
resource_limit_handle = Convert<Handle>(GetArg32(args, 0));
which = Convert<LimitableResource>(GetArg32(args, 1));
std::array<uint32_t, 2> limit_value_gather{};
limit_value_gather[0] = GetArg32(args, 2);
limit_value_gather[1] = GetArg32(args, 3);
limit_value = Convert<int64_t>(limit_value_gather);
ret = SetResourceLimitLimitValue64From32(system, resource_limit_handle, which, limit_value);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_MapInsecureMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = MapInsecureMemory64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_UnmapInsecureMemory64From32(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t address{};
uint32_t size{};
address = Convert<uint32_t>(GetArg32(args, 0));
size = Convert<uint32_t>(GetArg32(args, 1));
ret = UnmapInsecureMemory64From32(system, address, size);
SetArg32(args, 0, Convert<uint32_t>(ret));
}
static void SvcWrap_SetHeapSize64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_address{};
uint64_t size{};
size = Convert<uint64_t>(GetArg64(args, 1));
ret = SetHeapSize64(system, std::addressof(out_address), size);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_address));
}
static void SvcWrap_SetMemoryPermission64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
MemoryPermission perm{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
perm = Convert<MemoryPermission>(GetArg64(args, 2));
ret = SetMemoryPermission64(system, address, size, perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SetMemoryAttribute64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
uint32_t mask{};
uint32_t attr{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
mask = Convert<uint32_t>(GetArg64(args, 2));
attr = Convert<uint32_t>(GetArg64(args, 3));
ret = SetMemoryAttribute64(system, address, size, mask, attr);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t dst_address{};
uint64_t src_address{};
uint64_t size{};
dst_address = Convert<uint64_t>(GetArg64(args, 0));
src_address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = MapMemory64(system, dst_address, src_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t dst_address{};
uint64_t src_address{};
uint64_t size{};
dst_address = Convert<uint64_t>(GetArg64(args, 0));
src_address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = UnmapMemory64(system, dst_address, src_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_QueryMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
PageInfo out_page_info{};
uint64_t out_memory_info{};
uint64_t address{};
out_memory_info = Convert<uint64_t>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 2));
ret = QueryMemory64(system, out_memory_info, std::addressof(out_page_info), address);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_page_info));
}
static void SvcWrap_ExitProcess64(Core::System& system, std::span<uint64_t, 8> args) {
ExitProcess64(system);
}
static void SvcWrap_CreateThread64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t func{};
uint64_t arg{};
uint64_t stack_bottom{};
int32_t priority{};
int32_t core_id{};
func = Convert<uint64_t>(GetArg64(args, 1));
arg = Convert<uint64_t>(GetArg64(args, 2));
stack_bottom = Convert<uint64_t>(GetArg64(args, 3));
priority = Convert<int32_t>(GetArg64(args, 4));
core_id = Convert<int32_t>(GetArg64(args, 5));
ret = CreateThread64(system, std::addressof(out_handle), func, arg, stack_bottom, priority, core_id);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_StartThread64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg64(args, 0));
ret = StartThread64(system, thread_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ExitThread64(Core::System& system, std::span<uint64_t, 8> args) {
ExitThread64(system);
}
static void SvcWrap_SleepThread64(Core::System& system, std::span<uint64_t, 8> args) {
int64_t ns{};
ns = Convert<int64_t>(GetArg64(args, 0));
SleepThread64(system, ns);
}
static void SvcWrap_GetThreadPriority64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_priority{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg64(args, 1));
ret = GetThreadPriority64(system, std::addressof(out_priority), thread_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_priority));
}
static void SvcWrap_SetThreadPriority64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
int32_t priority{};
thread_handle = Convert<Handle>(GetArg64(args, 0));
priority = Convert<int32_t>(GetArg64(args, 1));
ret = SetThreadPriority64(system, thread_handle, priority);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetThreadCoreMask64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_core_id{};
uint64_t out_affinity_mask{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg64(args, 2));
ret = GetThreadCoreMask64(system, std::addressof(out_core_id), std::addressof(out_affinity_mask), thread_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_core_id));
SetArg64(args, 2, Convert<uint64_t>(out_affinity_mask));
}
static void SvcWrap_SetThreadCoreMask64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
int32_t core_id{};
uint64_t affinity_mask{};
thread_handle = Convert<Handle>(GetArg64(args, 0));
core_id = Convert<int32_t>(GetArg64(args, 1));
affinity_mask = Convert<uint64_t>(GetArg64(args, 2));
ret = SetThreadCoreMask64(system, thread_handle, core_id, affinity_mask);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetCurrentProcessorNumber64(Core::System& system, std::span<uint64_t, 8> args) {
int32_t ret{};
ret = GetCurrentProcessorNumber64(system);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SignalEvent64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle event_handle{};
event_handle = Convert<Handle>(GetArg64(args, 0));
ret = SignalEvent64(system, event_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ClearEvent64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle event_handle{};
event_handle = Convert<Handle>(GetArg64(args, 0));
ret = ClearEvent64(system, event_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapSharedMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle shmem_handle{};
uint64_t address{};
uint64_t size{};
MemoryPermission map_perm{};
shmem_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
map_perm = Convert<MemoryPermission>(GetArg64(args, 3));
ret = MapSharedMemory64(system, shmem_handle, address, size, map_perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapSharedMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle shmem_handle{};
uint64_t address{};
uint64_t size{};
shmem_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = UnmapSharedMemory64(system, shmem_handle, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_CreateTransferMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t address{};
uint64_t size{};
MemoryPermission map_perm{};
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
map_perm = Convert<MemoryPermission>(GetArg64(args, 3));
ret = CreateTransferMemory64(system, std::addressof(out_handle), address, size, map_perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_CloseHandle64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle handle{};
handle = Convert<Handle>(GetArg64(args, 0));
ret = CloseHandle64(system, handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ResetSignal64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle handle{};
handle = Convert<Handle>(GetArg64(args, 0));
ret = ResetSignal64(system, handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_WaitSynchronization64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_index{};
uint64_t handles{};
int32_t num_handles{};
int64_t timeout_ns{};
handles = Convert<uint64_t>(GetArg64(args, 1));
num_handles = Convert<int32_t>(GetArg64(args, 2));
timeout_ns = Convert<int64_t>(GetArg64(args, 3));
ret = WaitSynchronization64(system, std::addressof(out_index), handles, num_handles, timeout_ns);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_index));
}
static void SvcWrap_CancelSynchronization64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle handle{};
handle = Convert<Handle>(GetArg64(args, 0));
ret = CancelSynchronization64(system, handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ArbitrateLock64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
uint64_t address{};
uint32_t tag{};
thread_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
tag = Convert<uint32_t>(GetArg64(args, 2));
ret = ArbitrateLock64(system, thread_handle, address, tag);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ArbitrateUnlock64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
address = Convert<uint64_t>(GetArg64(args, 0));
ret = ArbitrateUnlock64(system, address);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_WaitProcessWideKeyAtomic64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t cv_key{};
uint32_t tag{};
int64_t timeout_ns{};
address = Convert<uint64_t>(GetArg64(args, 0));
cv_key = Convert<uint64_t>(GetArg64(args, 1));
tag = Convert<uint32_t>(GetArg64(args, 2));
timeout_ns = Convert<int64_t>(GetArg64(args, 3));
ret = WaitProcessWideKeyAtomic64(system, address, cv_key, tag, timeout_ns);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SignalProcessWideKey64(Core::System& system, std::span<uint64_t, 8> args) {
uint64_t cv_key{};
int32_t count{};
cv_key = Convert<uint64_t>(GetArg64(args, 0));
count = Convert<int32_t>(GetArg64(args, 1));
SignalProcessWideKey64(system, cv_key, count);
}
static void SvcWrap_GetSystemTick64(Core::System& system, std::span<uint64_t, 8> args) {
int64_t ret{};
ret = GetSystemTick64(system);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ConnectToNamedPort64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t name{};
name = Convert<uint64_t>(GetArg64(args, 1));
ret = ConnectToNamedPort64(system, std::addressof(out_handle), name);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_SendSyncRequest64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle session_handle{};
session_handle = Convert<Handle>(GetArg64(args, 0));
ret = SendSyncRequest64(system, session_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SendSyncRequestWithUserBuffer64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t message_buffer{};
uint64_t message_buffer_size{};
Handle session_handle{};
message_buffer = Convert<uint64_t>(GetArg64(args, 0));
message_buffer_size = Convert<uint64_t>(GetArg64(args, 1));
session_handle = Convert<Handle>(GetArg64(args, 2));
ret = SendSyncRequestWithUserBuffer64(system, message_buffer, message_buffer_size, session_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SendAsyncRequestWithUserBuffer64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_event_handle{};
uint64_t message_buffer{};
uint64_t message_buffer_size{};
Handle session_handle{};
message_buffer = Convert<uint64_t>(GetArg64(args, 1));
message_buffer_size = Convert<uint64_t>(GetArg64(args, 2));
session_handle = Convert<Handle>(GetArg64(args, 3));
ret = SendAsyncRequestWithUserBuffer64(system, std::addressof(out_event_handle), message_buffer, message_buffer_size, session_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_event_handle));
}
static void SvcWrap_GetProcessId64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_process_id{};
Handle process_handle{};
process_handle = Convert<Handle>(GetArg64(args, 1));
ret = GetProcessId64(system, std::addressof(out_process_id), process_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_process_id));
}
static void SvcWrap_GetThreadId64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_thread_id{};
Handle thread_handle{};
thread_handle = Convert<Handle>(GetArg64(args, 1));
ret = GetThreadId64(system, std::addressof(out_thread_id), thread_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_thread_id));
}
static void SvcWrap_Break64(Core::System& system, std::span<uint64_t, 8> args) {
BreakReason break_reason{};
uint64_t arg{};
uint64_t size{};
break_reason = Convert<BreakReason>(GetArg64(args, 0));
arg = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
Break64(system, break_reason, arg, size);
}
static void SvcWrap_OutputDebugString64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t debug_str{};
uint64_t len{};
debug_str = Convert<uint64_t>(GetArg64(args, 0));
len = Convert<uint64_t>(GetArg64(args, 1));
ret = OutputDebugString64(system, debug_str, len);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ReturnFromException64(Core::System& system, std::span<uint64_t, 8> args) {
Result result{};
result = Convert<Result>(GetArg64(args, 0));
ReturnFromException64(system, result);
}
static void SvcWrap_GetInfo64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out{};
InfoType info_type{};
Handle handle{};
uint64_t info_subtype{};
info_type = Convert<InfoType>(GetArg64(args, 1));
handle = Convert<Handle>(GetArg64(args, 2));
info_subtype = Convert<uint64_t>(GetArg64(args, 3));
ret = GetInfo64(system, std::addressof(out), info_type, handle, info_subtype);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out));
}
static void SvcWrap_FlushEntireDataCache64(Core::System& system, std::span<uint64_t, 8> args) {
FlushEntireDataCache64(system);
}
static void SvcWrap_FlushDataCache64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = FlushDataCache64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapPhysicalMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = MapPhysicalMemory64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapPhysicalMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = UnmapPhysicalMemory64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetDebugFutureThreadInfo64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
lp64::LastThreadContext out_context{};
uint64_t out_thread_id{};
Handle debug_handle{};
int64_t ns{};
debug_handle = Convert<Handle>(GetArg64(args, 2));
ns = Convert<int64_t>(GetArg64(args, 3));
ret = GetDebugFutureThreadInfo64(system, std::addressof(out_context), std::addressof(out_thread_id), debug_handle, ns);
SetArg64(args, 0, Convert<uint64_t>(ret));
auto out_context_scatter = Convert<std::array<uint64_t, 4>>(out_context);
SetArg64(args, 1, out_context_scatter[0]);
SetArg64(args, 2, out_context_scatter[1]);
SetArg64(args, 3, out_context_scatter[2]);
SetArg64(args, 4, out_context_scatter[3]);
SetArg64(args, 5, Convert<uint64_t>(out_thread_id));
}
static void SvcWrap_GetLastThreadInfo64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
lp64::LastThreadContext out_context{};
uint64_t out_tls_address{};
uint32_t out_flags{};
ret = GetLastThreadInfo64(system, std::addressof(out_context), std::addressof(out_tls_address), std::addressof(out_flags));
SetArg64(args, 0, Convert<uint64_t>(ret));
auto out_context_scatter = Convert<std::array<uint64_t, 4>>(out_context);
SetArg64(args, 1, out_context_scatter[0]);
SetArg64(args, 2, out_context_scatter[1]);
SetArg64(args, 3, out_context_scatter[2]);
SetArg64(args, 4, out_context_scatter[3]);
SetArg64(args, 5, Convert<uint64_t>(out_tls_address));
SetArg64(args, 6, Convert<uint64_t>(out_flags));
}
static void SvcWrap_GetResourceLimitLimitValue64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_limit_value{};
Handle resource_limit_handle{};
LimitableResource which{};
resource_limit_handle = Convert<Handle>(GetArg64(args, 1));
which = Convert<LimitableResource>(GetArg64(args, 2));
ret = GetResourceLimitLimitValue64(system, std::addressof(out_limit_value), resource_limit_handle, which);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_limit_value));
}
static void SvcWrap_GetResourceLimitCurrentValue64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_current_value{};
Handle resource_limit_handle{};
LimitableResource which{};
resource_limit_handle = Convert<Handle>(GetArg64(args, 1));
which = Convert<LimitableResource>(GetArg64(args, 2));
ret = GetResourceLimitCurrentValue64(system, std::addressof(out_current_value), resource_limit_handle, which);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_current_value));
}
static void SvcWrap_SetThreadActivity64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle thread_handle{};
ThreadActivity thread_activity{};
thread_handle = Convert<Handle>(GetArg64(args, 0));
thread_activity = Convert<ThreadActivity>(GetArg64(args, 1));
ret = SetThreadActivity64(system, thread_handle, thread_activity);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetThreadContext364(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_context{};
Handle thread_handle{};
out_context = Convert<uint64_t>(GetArg64(args, 0));
thread_handle = Convert<Handle>(GetArg64(args, 1));
ret = GetThreadContext364(system, out_context, thread_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_WaitForAddress64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
ArbitrationType arb_type{};
int32_t value{};
int64_t timeout_ns{};
address = Convert<uint64_t>(GetArg64(args, 0));
arb_type = Convert<ArbitrationType>(GetArg64(args, 1));
value = Convert<int32_t>(GetArg64(args, 2));
timeout_ns = Convert<int64_t>(GetArg64(args, 3));
ret = WaitForAddress64(system, address, arb_type, value, timeout_ns);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SignalToAddress64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
SignalType signal_type{};
int32_t value{};
int32_t count{};
address = Convert<uint64_t>(GetArg64(args, 0));
signal_type = Convert<SignalType>(GetArg64(args, 1));
value = Convert<int32_t>(GetArg64(args, 2));
count = Convert<int32_t>(GetArg64(args, 3));
ret = SignalToAddress64(system, address, signal_type, value, count);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SynchronizePreemptionState64(Core::System& system, std::span<uint64_t, 8> args) {
SynchronizePreemptionState64(system);
}
static void SvcWrap_GetResourceLimitPeakValue64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_peak_value{};
Handle resource_limit_handle{};
LimitableResource which{};
resource_limit_handle = Convert<Handle>(GetArg64(args, 1));
which = Convert<LimitableResource>(GetArg64(args, 2));
ret = GetResourceLimitPeakValue64(system, std::addressof(out_peak_value), resource_limit_handle, which);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_peak_value));
}
static void SvcWrap_CreateIoPool64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
IoPoolType which{};
which = Convert<IoPoolType>(GetArg64(args, 1));
ret = CreateIoPool64(system, std::addressof(out_handle), which);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_CreateIoRegion64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
Handle io_pool{};
uint64_t physical_address{};
uint64_t size{};
MemoryMapping mapping{};
MemoryPermission perm{};
io_pool = Convert<Handle>(GetArg64(args, 1));
physical_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
mapping = Convert<MemoryMapping>(GetArg64(args, 4));
perm = Convert<MemoryPermission>(GetArg64(args, 5));
ret = CreateIoRegion64(system, std::addressof(out_handle), io_pool, physical_address, size, mapping, perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_KernelDebug64(Core::System& system, std::span<uint64_t, 8> args) {
KernelDebugType kern_debug_type{};
uint64_t arg0{};
uint64_t arg1{};
uint64_t arg2{};
kern_debug_type = Convert<KernelDebugType>(GetArg64(args, 0));
arg0 = Convert<uint64_t>(GetArg64(args, 1));
arg1 = Convert<uint64_t>(GetArg64(args, 2));
arg2 = Convert<uint64_t>(GetArg64(args, 3));
KernelDebug64(system, kern_debug_type, arg0, arg1, arg2);
}
static void SvcWrap_ChangeKernelTraceState64(Core::System& system, std::span<uint64_t, 8> args) {
KernelTraceState kern_trace_state{};
kern_trace_state = Convert<KernelTraceState>(GetArg64(args, 0));
ChangeKernelTraceState64(system, kern_trace_state);
}
static void SvcWrap_CreateSession64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_server_session_handle{};
Handle out_client_session_handle{};
bool is_light{};
uint64_t name{};
is_light = Convert<bool>(GetArg64(args, 2));
name = Convert<uint64_t>(GetArg64(args, 3));
ret = CreateSession64(system, std::addressof(out_server_session_handle), std::addressof(out_client_session_handle), is_light, name);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_server_session_handle));
SetArg64(args, 2, Convert<uint64_t>(out_client_session_handle));
}
static void SvcWrap_AcceptSession64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
Handle port{};
port = Convert<Handle>(GetArg64(args, 1));
ret = AcceptSession64(system, std::addressof(out_handle), port);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_ReplyAndReceive64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_index{};
uint64_t handles{};
int32_t num_handles{};
Handle reply_target{};
int64_t timeout_ns{};
handles = Convert<uint64_t>(GetArg64(args, 1));
num_handles = Convert<int32_t>(GetArg64(args, 2));
reply_target = Convert<Handle>(GetArg64(args, 3));
timeout_ns = Convert<int64_t>(GetArg64(args, 4));
ret = ReplyAndReceive64(system, std::addressof(out_index), handles, num_handles, reply_target, timeout_ns);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_index));
}
static void SvcWrap_ReplyAndReceiveWithUserBuffer64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_index{};
uint64_t message_buffer{};
uint64_t message_buffer_size{};
uint64_t handles{};
int32_t num_handles{};
Handle reply_target{};
int64_t timeout_ns{};
message_buffer = Convert<uint64_t>(GetArg64(args, 1));
message_buffer_size = Convert<uint64_t>(GetArg64(args, 2));
handles = Convert<uint64_t>(GetArg64(args, 3));
num_handles = Convert<int32_t>(GetArg64(args, 4));
reply_target = Convert<Handle>(GetArg64(args, 5));
timeout_ns = Convert<int64_t>(GetArg64(args, 6));
ret = ReplyAndReceiveWithUserBuffer64(system, std::addressof(out_index), message_buffer, message_buffer_size, handles, num_handles, reply_target, timeout_ns);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_index));
}
static void SvcWrap_CreateEvent64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_write_handle{};
Handle out_read_handle{};
ret = CreateEvent64(system, std::addressof(out_write_handle), std::addressof(out_read_handle));
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_write_handle));
SetArg64(args, 2, Convert<uint64_t>(out_read_handle));
}
static void SvcWrap_MapIoRegion64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle io_region{};
uint64_t address{};
uint64_t size{};
MemoryPermission perm{};
io_region = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
perm = Convert<MemoryPermission>(GetArg64(args, 3));
ret = MapIoRegion64(system, io_region, address, size, perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapIoRegion64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle io_region{};
uint64_t address{};
uint64_t size{};
io_region = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = UnmapIoRegion64(system, io_region, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapPhysicalMemoryUnsafe64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = MapPhysicalMemoryUnsafe64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapPhysicalMemoryUnsafe64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = UnmapPhysicalMemoryUnsafe64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SetUnsafeLimit64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t limit{};
limit = Convert<uint64_t>(GetArg64(args, 0));
ret = SetUnsafeLimit64(system, limit);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_CreateCodeMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = CreateCodeMemory64(system, std::addressof(out_handle), address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_ControlCodeMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle code_memory_handle{};
CodeMemoryOperation operation{};
uint64_t address{};
uint64_t size{};
MemoryPermission perm{};
code_memory_handle = Convert<Handle>(GetArg64(args, 0));
operation = Convert<CodeMemoryOperation>(GetArg64(args, 1));
address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
perm = Convert<MemoryPermission>(GetArg64(args, 4));
ret = ControlCodeMemory64(system, code_memory_handle, operation, address, size, perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SleepSystem64(Core::System& system, std::span<uint64_t, 8> args) {
SleepSystem64(system);
}
static void SvcWrap_ReadWriteRegister64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint32_t out_value{};
uint64_t address{};
uint32_t mask{};
uint32_t value{};
address = Convert<uint64_t>(GetArg64(args, 1));
mask = Convert<uint32_t>(GetArg64(args, 2));
value = Convert<uint32_t>(GetArg64(args, 3));
ret = ReadWriteRegister64(system, std::addressof(out_value), address, mask, value);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_value));
}
static void SvcWrap_SetProcessActivity64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
ProcessActivity process_activity{};
process_handle = Convert<Handle>(GetArg64(args, 0));
process_activity = Convert<ProcessActivity>(GetArg64(args, 1));
ret = SetProcessActivity64(system, process_handle, process_activity);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_CreateSharedMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t size{};
MemoryPermission owner_perm{};
MemoryPermission remote_perm{};
size = Convert<uint64_t>(GetArg64(args, 1));
owner_perm = Convert<MemoryPermission>(GetArg64(args, 2));
remote_perm = Convert<MemoryPermission>(GetArg64(args, 3));
ret = CreateSharedMemory64(system, std::addressof(out_handle), size, owner_perm, remote_perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_MapTransferMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle trmem_handle{};
uint64_t address{};
uint64_t size{};
MemoryPermission owner_perm{};
trmem_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
owner_perm = Convert<MemoryPermission>(GetArg64(args, 3));
ret = MapTransferMemory64(system, trmem_handle, address, size, owner_perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapTransferMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle trmem_handle{};
uint64_t address{};
uint64_t size{};
trmem_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = UnmapTransferMemory64(system, trmem_handle, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_CreateInterruptEvent64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_read_handle{};
int32_t interrupt_id{};
InterruptType interrupt_type{};
interrupt_id = Convert<int32_t>(GetArg64(args, 1));
interrupt_type = Convert<InterruptType>(GetArg64(args, 2));
ret = CreateInterruptEvent64(system, std::addressof(out_read_handle), interrupt_id, interrupt_type);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_read_handle));
}
static void SvcWrap_QueryPhysicalAddress64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
lp64::PhysicalMemoryInfo out_info{};
uint64_t address{};
address = Convert<uint64_t>(GetArg64(args, 1));
ret = QueryPhysicalAddress64(system, std::addressof(out_info), address);
SetArg64(args, 0, Convert<uint64_t>(ret));
auto out_info_scatter = Convert<std::array<uint64_t, 3>>(out_info);
SetArg64(args, 1, out_info_scatter[0]);
SetArg64(args, 2, out_info_scatter[1]);
SetArg64(args, 3, out_info_scatter[2]);
}
static void SvcWrap_QueryIoMapping64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_address{};
uint64_t out_size{};
uint64_t physical_address{};
uint64_t size{};
physical_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = QueryIoMapping64(system, std::addressof(out_address), std::addressof(out_size), physical_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_address));
SetArg64(args, 2, Convert<uint64_t>(out_size));
}
static void SvcWrap_CreateDeviceAddressSpace64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t das_address{};
uint64_t das_size{};
das_address = Convert<uint64_t>(GetArg64(args, 1));
das_size = Convert<uint64_t>(GetArg64(args, 2));
ret = CreateDeviceAddressSpace64(system, std::addressof(out_handle), das_address, das_size);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_AttachDeviceAddressSpace64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
DeviceName device_name{};
Handle das_handle{};
device_name = Convert<DeviceName>(GetArg64(args, 0));
das_handle = Convert<Handle>(GetArg64(args, 1));
ret = AttachDeviceAddressSpace64(system, device_name, das_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_DetachDeviceAddressSpace64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
DeviceName device_name{};
Handle das_handle{};
device_name = Convert<DeviceName>(GetArg64(args, 0));
das_handle = Convert<Handle>(GetArg64(args, 1));
ret = DetachDeviceAddressSpace64(system, device_name, das_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapDeviceAddressSpaceByForce64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle das_handle{};
Handle process_handle{};
uint64_t process_address{};
uint64_t size{};
uint64_t device_address{};
uint32_t option{};
das_handle = Convert<Handle>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 1));
process_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
device_address = Convert<uint64_t>(GetArg64(args, 4));
option = Convert<uint32_t>(GetArg64(args, 5));
ret = MapDeviceAddressSpaceByForce64(system, das_handle, process_handle, process_address, size, device_address, option);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapDeviceAddressSpaceAligned64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle das_handle{};
Handle process_handle{};
uint64_t process_address{};
uint64_t size{};
uint64_t device_address{};
uint32_t option{};
das_handle = Convert<Handle>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 1));
process_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
device_address = Convert<uint64_t>(GetArg64(args, 4));
option = Convert<uint32_t>(GetArg64(args, 5));
ret = MapDeviceAddressSpaceAligned64(system, das_handle, process_handle, process_address, size, device_address, option);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapDeviceAddressSpace64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle das_handle{};
Handle process_handle{};
uint64_t process_address{};
uint64_t size{};
uint64_t device_address{};
das_handle = Convert<Handle>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 1));
process_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
device_address = Convert<uint64_t>(GetArg64(args, 4));
ret = UnmapDeviceAddressSpace64(system, das_handle, process_handle, process_address, size, device_address);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_InvalidateProcessDataCache64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = InvalidateProcessDataCache64(system, process_handle, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_StoreProcessDataCache64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = StoreProcessDataCache64(system, process_handle, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_FlushProcessDataCache64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
ret = FlushProcessDataCache64(system, process_handle, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_DebugActiveProcess64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t process_id{};
process_id = Convert<uint64_t>(GetArg64(args, 1));
ret = DebugActiveProcess64(system, std::addressof(out_handle), process_id);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_BreakDebugProcess64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
debug_handle = Convert<Handle>(GetArg64(args, 0));
ret = BreakDebugProcess64(system, debug_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_TerminateDebugProcess64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
debug_handle = Convert<Handle>(GetArg64(args, 0));
ret = TerminateDebugProcess64(system, debug_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetDebugEvent64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_info{};
Handle debug_handle{};
out_info = Convert<uint64_t>(GetArg64(args, 0));
debug_handle = Convert<Handle>(GetArg64(args, 1));
ret = GetDebugEvent64(system, out_info, debug_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_ContinueDebugEvent64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
uint32_t flags{};
uint64_t thread_ids{};
int32_t num_thread_ids{};
debug_handle = Convert<Handle>(GetArg64(args, 0));
flags = Convert<uint32_t>(GetArg64(args, 1));
thread_ids = Convert<uint64_t>(GetArg64(args, 2));
num_thread_ids = Convert<int32_t>(GetArg64(args, 3));
ret = ContinueDebugEvent64(system, debug_handle, flags, thread_ids, num_thread_ids);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetProcessList64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_num_processes{};
uint64_t out_process_ids{};
int32_t max_out_count{};
out_process_ids = Convert<uint64_t>(GetArg64(args, 1));
max_out_count = Convert<int32_t>(GetArg64(args, 2));
ret = GetProcessList64(system, std::addressof(out_num_processes), out_process_ids, max_out_count);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_num_processes));
}
static void SvcWrap_GetThreadList64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int32_t out_num_threads{};
uint64_t out_thread_ids{};
int32_t max_out_count{};
Handle debug_handle{};
out_thread_ids = Convert<uint64_t>(GetArg64(args, 1));
max_out_count = Convert<int32_t>(GetArg64(args, 2));
debug_handle = Convert<Handle>(GetArg64(args, 3));
ret = GetThreadList64(system, std::addressof(out_num_threads), out_thread_ids, max_out_count, debug_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_num_threads));
}
static void SvcWrap_GetDebugThreadContext64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_context{};
Handle debug_handle{};
uint64_t thread_id{};
uint32_t context_flags{};
out_context = Convert<uint64_t>(GetArg64(args, 0));
debug_handle = Convert<Handle>(GetArg64(args, 1));
thread_id = Convert<uint64_t>(GetArg64(args, 2));
context_flags = Convert<uint32_t>(GetArg64(args, 3));
ret = GetDebugThreadContext64(system, out_context, debug_handle, thread_id, context_flags);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SetDebugThreadContext64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
uint64_t thread_id{};
uint64_t context{};
uint32_t context_flags{};
debug_handle = Convert<Handle>(GetArg64(args, 0));
thread_id = Convert<uint64_t>(GetArg64(args, 1));
context = Convert<uint64_t>(GetArg64(args, 2));
context_flags = Convert<uint32_t>(GetArg64(args, 3));
ret = SetDebugThreadContext64(system, debug_handle, thread_id, context, context_flags);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_QueryDebugProcessMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
PageInfo out_page_info{};
uint64_t out_memory_info{};
Handle process_handle{};
uint64_t address{};
out_memory_info = Convert<uint64_t>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 2));
address = Convert<uint64_t>(GetArg64(args, 3));
ret = QueryDebugProcessMemory64(system, out_memory_info, std::addressof(out_page_info), process_handle, address);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_page_info));
}
static void SvcWrap_ReadDebugProcessMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t buffer{};
Handle debug_handle{};
uint64_t address{};
uint64_t size{};
buffer = Convert<uint64_t>(GetArg64(args, 0));
debug_handle = Convert<Handle>(GetArg64(args, 1));
address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = ReadDebugProcessMemory64(system, buffer, debug_handle, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_WriteDebugProcessMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle debug_handle{};
uint64_t buffer{};
uint64_t address{};
uint64_t size{};
debug_handle = Convert<Handle>(GetArg64(args, 0));
buffer = Convert<uint64_t>(GetArg64(args, 1));
address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = WriteDebugProcessMemory64(system, debug_handle, buffer, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_SetHardwareBreakPoint64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
HardwareBreakPointRegisterName name{};
uint64_t flags{};
uint64_t value{};
name = Convert<HardwareBreakPointRegisterName>(GetArg64(args, 0));
flags = Convert<uint64_t>(GetArg64(args, 1));
value = Convert<uint64_t>(GetArg64(args, 2));
ret = SetHardwareBreakPoint64(system, name, flags, value);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetDebugThreadParam64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out_64{};
uint32_t out_32{};
Handle debug_handle{};
uint64_t thread_id{};
DebugThreadParam param{};
debug_handle = Convert<Handle>(GetArg64(args, 2));
thread_id = Convert<uint64_t>(GetArg64(args, 3));
param = Convert<DebugThreadParam>(GetArg64(args, 4));
ret = GetDebugThreadParam64(system, std::addressof(out_64), std::addressof(out_32), debug_handle, thread_id, param);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_64));
SetArg64(args, 2, Convert<uint64_t>(out_32));
}
static void SvcWrap_GetSystemInfo64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t out{};
SystemInfoType info_type{};
Handle handle{};
uint64_t info_subtype{};
info_type = Convert<SystemInfoType>(GetArg64(args, 1));
handle = Convert<Handle>(GetArg64(args, 2));
info_subtype = Convert<uint64_t>(GetArg64(args, 3));
ret = GetSystemInfo64(system, std::addressof(out), info_type, handle, info_subtype);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out));
}
static void SvcWrap_CreatePort64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_server_handle{};
Handle out_client_handle{};
int32_t max_sessions{};
bool is_light{};
uint64_t name{};
max_sessions = Convert<int32_t>(GetArg64(args, 2));
is_light = Convert<bool>(GetArg64(args, 3));
name = Convert<uint64_t>(GetArg64(args, 4));
ret = CreatePort64(system, std::addressof(out_server_handle), std::addressof(out_client_handle), max_sessions, is_light, name);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_server_handle));
SetArg64(args, 2, Convert<uint64_t>(out_client_handle));
}
static void SvcWrap_ManageNamedPort64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_server_handle{};
uint64_t name{};
int32_t max_sessions{};
name = Convert<uint64_t>(GetArg64(args, 1));
max_sessions = Convert<int32_t>(GetArg64(args, 2));
ret = ManageNamedPort64(system, std::addressof(out_server_handle), name, max_sessions);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_server_handle));
}
static void SvcWrap_ConnectToPort64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
Handle port{};
port = Convert<Handle>(GetArg64(args, 1));
ret = ConnectToPort64(system, std::addressof(out_handle), port);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_SetProcessMemoryPermission64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t address{};
uint64_t size{};
MemoryPermission perm{};
process_handle = Convert<Handle>(GetArg64(args, 0));
address = Convert<uint64_t>(GetArg64(args, 1));
size = Convert<uint64_t>(GetArg64(args, 2));
perm = Convert<MemoryPermission>(GetArg64(args, 3));
ret = SetProcessMemoryPermission64(system, process_handle, address, size, perm);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapProcessMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t dst_address{};
Handle process_handle{};
uint64_t src_address{};
uint64_t size{};
dst_address = Convert<uint64_t>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 1));
src_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = MapProcessMemory64(system, dst_address, process_handle, src_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapProcessMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t dst_address{};
Handle process_handle{};
uint64_t src_address{};
uint64_t size{};
dst_address = Convert<uint64_t>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 1));
src_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = UnmapProcessMemory64(system, dst_address, process_handle, src_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_QueryProcessMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
PageInfo out_page_info{};
uint64_t out_memory_info{};
Handle process_handle{};
uint64_t address{};
out_memory_info = Convert<uint64_t>(GetArg64(args, 0));
process_handle = Convert<Handle>(GetArg64(args, 2));
address = Convert<uint64_t>(GetArg64(args, 3));
ret = QueryProcessMemory64(system, out_memory_info, std::addressof(out_page_info), process_handle, address);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_page_info));
}
static void SvcWrap_MapProcessCodeMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t dst_address{};
uint64_t src_address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg64(args, 0));
dst_address = Convert<uint64_t>(GetArg64(args, 1));
src_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = MapProcessCodeMemory64(system, process_handle, dst_address, src_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapProcessCodeMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
uint64_t dst_address{};
uint64_t src_address{};
uint64_t size{};
process_handle = Convert<Handle>(GetArg64(args, 0));
dst_address = Convert<uint64_t>(GetArg64(args, 1));
src_address = Convert<uint64_t>(GetArg64(args, 2));
size = Convert<uint64_t>(GetArg64(args, 3));
ret = UnmapProcessCodeMemory64(system, process_handle, dst_address, src_address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_CreateProcess64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
uint64_t parameters{};
uint64_t caps{};
int32_t num_caps{};
parameters = Convert<uint64_t>(GetArg64(args, 1));
caps = Convert<uint64_t>(GetArg64(args, 2));
num_caps = Convert<int32_t>(GetArg64(args, 3));
ret = CreateProcess64(system, std::addressof(out_handle), parameters, caps, num_caps);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_StartProcess64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
int32_t priority{};
int32_t core_id{};
uint64_t main_thread_stack_size{};
process_handle = Convert<Handle>(GetArg64(args, 0));
priority = Convert<int32_t>(GetArg64(args, 1));
core_id = Convert<int32_t>(GetArg64(args, 2));
main_thread_stack_size = Convert<uint64_t>(GetArg64(args, 3));
ret = StartProcess64(system, process_handle, priority, core_id, main_thread_stack_size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_TerminateProcess64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle process_handle{};
process_handle = Convert<Handle>(GetArg64(args, 0));
ret = TerminateProcess64(system, process_handle);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_GetProcessInfo64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
int64_t out_info{};
Handle process_handle{};
ProcessInfoType info_type{};
process_handle = Convert<Handle>(GetArg64(args, 1));
info_type = Convert<ProcessInfoType>(GetArg64(args, 2));
ret = GetProcessInfo64(system, std::addressof(out_info), process_handle, info_type);
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_info));
}
static void SvcWrap_CreateResourceLimit64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle out_handle{};
ret = CreateResourceLimit64(system, std::addressof(out_handle));
SetArg64(args, 0, Convert<uint64_t>(ret));
SetArg64(args, 1, Convert<uint64_t>(out_handle));
}
static void SvcWrap_SetResourceLimitLimitValue64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
Handle resource_limit_handle{};
LimitableResource which{};
int64_t limit_value{};
resource_limit_handle = Convert<Handle>(GetArg64(args, 0));
which = Convert<LimitableResource>(GetArg64(args, 1));
limit_value = Convert<int64_t>(GetArg64(args, 2));
ret = SetResourceLimitLimitValue64(system, resource_limit_handle, which, limit_value);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_MapInsecureMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = MapInsecureMemory64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void SvcWrap_UnmapInsecureMemory64(Core::System& system, std::span<uint64_t, 8> args) {
Result ret{};
uint64_t address{};
uint64_t size{};
address = Convert<uint64_t>(GetArg64(args, 0));
size = Convert<uint64_t>(GetArg64(args, 1));
ret = UnmapInsecureMemory64(system, address, size);
SetArg64(args, 0, Convert<uint64_t>(ret));
}
static void Call32(Core::System& system, u32 imm, std::span<uint64_t, 8> args) {
switch (static_cast<SvcId>(imm)) {
case SvcId::SetHeapSize:
return SvcWrap_SetHeapSize64From32(system, args);
case SvcId::SetMemoryPermission:
return SvcWrap_SetMemoryPermission64From32(system, args);
case SvcId::SetMemoryAttribute:
return SvcWrap_SetMemoryAttribute64From32(system, args);
case SvcId::MapMemory:
return SvcWrap_MapMemory64From32(system, args);
case SvcId::UnmapMemory:
return SvcWrap_UnmapMemory64From32(system, args);
case SvcId::QueryMemory:
return SvcWrap_QueryMemory64From32(system, args);
case SvcId::ExitProcess:
return SvcWrap_ExitProcess64From32(system, args);
case SvcId::CreateThread:
return SvcWrap_CreateThread64From32(system, args);
case SvcId::StartThread:
return SvcWrap_StartThread64From32(system, args);
case SvcId::ExitThread:
return SvcWrap_ExitThread64From32(system, args);
case SvcId::SleepThread:
return SvcWrap_SleepThread64From32(system, args);
case SvcId::GetThreadPriority:
return SvcWrap_GetThreadPriority64From32(system, args);
case SvcId::SetThreadPriority:
return SvcWrap_SetThreadPriority64From32(system, args);
case SvcId::GetThreadCoreMask:
return SvcWrap_GetThreadCoreMask64From32(system, args);
case SvcId::SetThreadCoreMask:
return SvcWrap_SetThreadCoreMask64From32(system, args);
case SvcId::GetCurrentProcessorNumber:
return SvcWrap_GetCurrentProcessorNumber64From32(system, args);
case SvcId::SignalEvent:
return SvcWrap_SignalEvent64From32(system, args);
case SvcId::ClearEvent:
return SvcWrap_ClearEvent64From32(system, args);
case SvcId::MapSharedMemory:
return SvcWrap_MapSharedMemory64From32(system, args);
case SvcId::UnmapSharedMemory:
return SvcWrap_UnmapSharedMemory64From32(system, args);
case SvcId::CreateTransferMemory:
return SvcWrap_CreateTransferMemory64From32(system, args);
case SvcId::CloseHandle:
return SvcWrap_CloseHandle64From32(system, args);
case SvcId::ResetSignal:
return SvcWrap_ResetSignal64From32(system, args);
case SvcId::WaitSynchronization:
return SvcWrap_WaitSynchronization64From32(system, args);
case SvcId::CancelSynchronization:
return SvcWrap_CancelSynchronization64From32(system, args);
case SvcId::ArbitrateLock:
return SvcWrap_ArbitrateLock64From32(system, args);
case SvcId::ArbitrateUnlock:
return SvcWrap_ArbitrateUnlock64From32(system, args);
case SvcId::WaitProcessWideKeyAtomic:
return SvcWrap_WaitProcessWideKeyAtomic64From32(system, args);
case SvcId::SignalProcessWideKey:
return SvcWrap_SignalProcessWideKey64From32(system, args);
case SvcId::GetSystemTick:
return SvcWrap_GetSystemTick64From32(system, args);
case SvcId::ConnectToNamedPort:
return SvcWrap_ConnectToNamedPort64From32(system, args);
case SvcId::SendSyncRequestLight:
return SvcWrap_SendSyncRequestLight64From32(system, args);
case SvcId::SendSyncRequest:
return SvcWrap_SendSyncRequest64From32(system, args);
case SvcId::SendSyncRequestWithUserBuffer:
return SvcWrap_SendSyncRequestWithUserBuffer64From32(system, args);
case SvcId::SendAsyncRequestWithUserBuffer:
return SvcWrap_SendAsyncRequestWithUserBuffer64From32(system, args);
case SvcId::GetProcessId:
return SvcWrap_GetProcessId64From32(system, args);
case SvcId::GetThreadId:
return SvcWrap_GetThreadId64From32(system, args);
case SvcId::Break:
return SvcWrap_Break64From32(system, args);
case SvcId::OutputDebugString:
return SvcWrap_OutputDebugString64From32(system, args);
case SvcId::ReturnFromException:
return SvcWrap_ReturnFromException64From32(system, args);
case SvcId::GetInfo:
return SvcWrap_GetInfo64From32(system, args);
case SvcId::FlushEntireDataCache:
return SvcWrap_FlushEntireDataCache64From32(system, args);
case SvcId::FlushDataCache:
return SvcWrap_FlushDataCache64From32(system, args);
case SvcId::MapPhysicalMemory:
return SvcWrap_MapPhysicalMemory64From32(system, args);
case SvcId::UnmapPhysicalMemory:
return SvcWrap_UnmapPhysicalMemory64From32(system, args);
case SvcId::GetDebugFutureThreadInfo:
return SvcWrap_GetDebugFutureThreadInfo64From32(system, args);
case SvcId::GetLastThreadInfo:
return SvcWrap_GetLastThreadInfo64From32(system, args);
case SvcId::GetResourceLimitLimitValue:
return SvcWrap_GetResourceLimitLimitValue64From32(system, args);
case SvcId::GetResourceLimitCurrentValue:
return SvcWrap_GetResourceLimitCurrentValue64From32(system, args);
case SvcId::SetThreadActivity:
return SvcWrap_SetThreadActivity64From32(system, args);
case SvcId::GetThreadContext3:
return SvcWrap_GetThreadContext364From32(system, args);
case SvcId::WaitForAddress:
return SvcWrap_WaitForAddress64From32(system, args);
case SvcId::SignalToAddress:
return SvcWrap_SignalToAddress64From32(system, args);
case SvcId::SynchronizePreemptionState:
return SvcWrap_SynchronizePreemptionState64From32(system, args);
case SvcId::GetResourceLimitPeakValue:
return SvcWrap_GetResourceLimitPeakValue64From32(system, args);
case SvcId::CreateIoPool:
return SvcWrap_CreateIoPool64From32(system, args);
case SvcId::CreateIoRegion:
return SvcWrap_CreateIoRegion64From32(system, args);
case SvcId::KernelDebug:
return SvcWrap_KernelDebug64From32(system, args);
case SvcId::ChangeKernelTraceState:
return SvcWrap_ChangeKernelTraceState64From32(system, args);
case SvcId::CreateSession:
return SvcWrap_CreateSession64From32(system, args);
case SvcId::AcceptSession:
return SvcWrap_AcceptSession64From32(system, args);
case SvcId::ReplyAndReceiveLight:
return SvcWrap_ReplyAndReceiveLight64From32(system, args);
case SvcId::ReplyAndReceive:
return SvcWrap_ReplyAndReceive64From32(system, args);
case SvcId::ReplyAndReceiveWithUserBuffer:
return SvcWrap_ReplyAndReceiveWithUserBuffer64From32(system, args);
case SvcId::CreateEvent:
return SvcWrap_CreateEvent64From32(system, args);
case SvcId::MapIoRegion:
return SvcWrap_MapIoRegion64From32(system, args);
case SvcId::UnmapIoRegion:
return SvcWrap_UnmapIoRegion64From32(system, args);
case SvcId::MapPhysicalMemoryUnsafe:
return SvcWrap_MapPhysicalMemoryUnsafe64From32(system, args);
case SvcId::UnmapPhysicalMemoryUnsafe:
return SvcWrap_UnmapPhysicalMemoryUnsafe64From32(system, args);
case SvcId::SetUnsafeLimit:
return SvcWrap_SetUnsafeLimit64From32(system, args);
case SvcId::CreateCodeMemory:
return SvcWrap_CreateCodeMemory64From32(system, args);
case SvcId::ControlCodeMemory:
return SvcWrap_ControlCodeMemory64From32(system, args);
case SvcId::SleepSystem:
return SvcWrap_SleepSystem64From32(system, args);
case SvcId::ReadWriteRegister:
return SvcWrap_ReadWriteRegister64From32(system, args);
case SvcId::SetProcessActivity:
return SvcWrap_SetProcessActivity64From32(system, args);
case SvcId::CreateSharedMemory:
return SvcWrap_CreateSharedMemory64From32(system, args);
case SvcId::MapTransferMemory:
return SvcWrap_MapTransferMemory64From32(system, args);
case SvcId::UnmapTransferMemory:
return SvcWrap_UnmapTransferMemory64From32(system, args);
case SvcId::CreateInterruptEvent:
return SvcWrap_CreateInterruptEvent64From32(system, args);
case SvcId::QueryPhysicalAddress:
return SvcWrap_QueryPhysicalAddress64From32(system, args);
case SvcId::QueryIoMapping:
return SvcWrap_QueryIoMapping64From32(system, args);
case SvcId::CreateDeviceAddressSpace:
return SvcWrap_CreateDeviceAddressSpace64From32(system, args);
case SvcId::AttachDeviceAddressSpace:
return SvcWrap_AttachDeviceAddressSpace64From32(system, args);
case SvcId::DetachDeviceAddressSpace:
return SvcWrap_DetachDeviceAddressSpace64From32(system, args);
case SvcId::MapDeviceAddressSpaceByForce:
return SvcWrap_MapDeviceAddressSpaceByForce64From32(system, args);
case SvcId::MapDeviceAddressSpaceAligned:
return SvcWrap_MapDeviceAddressSpaceAligned64From32(system, args);
case SvcId::UnmapDeviceAddressSpace:
return SvcWrap_UnmapDeviceAddressSpace64From32(system, args);
case SvcId::InvalidateProcessDataCache:
return SvcWrap_InvalidateProcessDataCache64From32(system, args);
case SvcId::StoreProcessDataCache:
return SvcWrap_StoreProcessDataCache64From32(system, args);
case SvcId::FlushProcessDataCache:
return SvcWrap_FlushProcessDataCache64From32(system, args);
case SvcId::DebugActiveProcess:
return SvcWrap_DebugActiveProcess64From32(system, args);
case SvcId::BreakDebugProcess:
return SvcWrap_BreakDebugProcess64From32(system, args);
case SvcId::TerminateDebugProcess:
return SvcWrap_TerminateDebugProcess64From32(system, args);
case SvcId::GetDebugEvent:
return SvcWrap_GetDebugEvent64From32(system, args);
case SvcId::ContinueDebugEvent:
return SvcWrap_ContinueDebugEvent64From32(system, args);
case SvcId::GetProcessList:
return SvcWrap_GetProcessList64From32(system, args);
case SvcId::GetThreadList:
return SvcWrap_GetThreadList64From32(system, args);
case SvcId::GetDebugThreadContext:
return SvcWrap_GetDebugThreadContext64From32(system, args);
case SvcId::SetDebugThreadContext:
return SvcWrap_SetDebugThreadContext64From32(system, args);
case SvcId::QueryDebugProcessMemory:
return SvcWrap_QueryDebugProcessMemory64From32(system, args);
case SvcId::ReadDebugProcessMemory:
return SvcWrap_ReadDebugProcessMemory64From32(system, args);
case SvcId::WriteDebugProcessMemory:
return SvcWrap_WriteDebugProcessMemory64From32(system, args);
case SvcId::SetHardwareBreakPoint:
return SvcWrap_SetHardwareBreakPoint64From32(system, args);
case SvcId::GetDebugThreadParam:
return SvcWrap_GetDebugThreadParam64From32(system, args);
case SvcId::GetSystemInfo:
return SvcWrap_GetSystemInfo64From32(system, args);
case SvcId::CreatePort:
return SvcWrap_CreatePort64From32(system, args);
case SvcId::ManageNamedPort:
return SvcWrap_ManageNamedPort64From32(system, args);
case SvcId::ConnectToPort:
return SvcWrap_ConnectToPort64From32(system, args);
case SvcId::SetProcessMemoryPermission:
return SvcWrap_SetProcessMemoryPermission64From32(system, args);
case SvcId::MapProcessMemory:
return SvcWrap_MapProcessMemory64From32(system, args);
case SvcId::UnmapProcessMemory:
return SvcWrap_UnmapProcessMemory64From32(system, args);
case SvcId::QueryProcessMemory:
return SvcWrap_QueryProcessMemory64From32(system, args);
case SvcId::MapProcessCodeMemory:
return SvcWrap_MapProcessCodeMemory64From32(system, args);
case SvcId::UnmapProcessCodeMemory:
return SvcWrap_UnmapProcessCodeMemory64From32(system, args);
case SvcId::CreateProcess:
return SvcWrap_CreateProcess64From32(system, args);
case SvcId::StartProcess:
return SvcWrap_StartProcess64From32(system, args);
case SvcId::TerminateProcess:
return SvcWrap_TerminateProcess64From32(system, args);
case SvcId::GetProcessInfo:
return SvcWrap_GetProcessInfo64From32(system, args);
case SvcId::CreateResourceLimit:
return SvcWrap_CreateResourceLimit64From32(system, args);
case SvcId::SetResourceLimitLimitValue:
return SvcWrap_SetResourceLimitLimitValue64From32(system, args);
case SvcId::CallSecureMonitor:
return SvcWrap_CallSecureMonitor64From32(system, args);
case SvcId::MapInsecureMemory:
return SvcWrap_MapInsecureMemory64From32(system, args);
case SvcId::UnmapInsecureMemory:
return SvcWrap_UnmapInsecureMemory64From32(system, args);
default:
LOG_CRITICAL(Kernel_SVC, "Unknown SVC {:x}!", imm);
break;
}
}
static void Call64(Core::System& system, u32 imm, std::span<uint64_t, 8> args) {
switch (static_cast<SvcId>(imm)) {
case SvcId::SetHeapSize:
return SvcWrap_SetHeapSize64(system, args);
case SvcId::SetMemoryPermission:
return SvcWrap_SetMemoryPermission64(system, args);
case SvcId::SetMemoryAttribute:
return SvcWrap_SetMemoryAttribute64(system, args);
case SvcId::MapMemory:
return SvcWrap_MapMemory64(system, args);
case SvcId::UnmapMemory:
return SvcWrap_UnmapMemory64(system, args);
case SvcId::QueryMemory:
return SvcWrap_QueryMemory64(system, args);
case SvcId::ExitProcess:
return SvcWrap_ExitProcess64(system, args);
case SvcId::CreateThread:
return SvcWrap_CreateThread64(system, args);
case SvcId::StartThread:
return SvcWrap_StartThread64(system, args);
case SvcId::ExitThread:
return SvcWrap_ExitThread64(system, args);
case SvcId::SleepThread:
return SvcWrap_SleepThread64(system, args);
case SvcId::GetThreadPriority:
return SvcWrap_GetThreadPriority64(system, args);
case SvcId::SetThreadPriority:
return SvcWrap_SetThreadPriority64(system, args);
case SvcId::GetThreadCoreMask:
return SvcWrap_GetThreadCoreMask64(system, args);
case SvcId::SetThreadCoreMask:
return SvcWrap_SetThreadCoreMask64(system, args);
case SvcId::GetCurrentProcessorNumber:
return SvcWrap_GetCurrentProcessorNumber64(system, args);
case SvcId::SignalEvent:
return SvcWrap_SignalEvent64(system, args);
case SvcId::ClearEvent:
return SvcWrap_ClearEvent64(system, args);
case SvcId::MapSharedMemory:
return SvcWrap_MapSharedMemory64(system, args);
case SvcId::UnmapSharedMemory:
return SvcWrap_UnmapSharedMemory64(system, args);
case SvcId::CreateTransferMemory:
return SvcWrap_CreateTransferMemory64(system, args);
case SvcId::CloseHandle:
return SvcWrap_CloseHandle64(system, args);
case SvcId::ResetSignal:
return SvcWrap_ResetSignal64(system, args);
case SvcId::WaitSynchronization:
return SvcWrap_WaitSynchronization64(system, args);
case SvcId::CancelSynchronization:
return SvcWrap_CancelSynchronization64(system, args);
case SvcId::ArbitrateLock:
return SvcWrap_ArbitrateLock64(system, args);
case SvcId::ArbitrateUnlock:
return SvcWrap_ArbitrateUnlock64(system, args);
case SvcId::WaitProcessWideKeyAtomic:
return SvcWrap_WaitProcessWideKeyAtomic64(system, args);
case SvcId::SignalProcessWideKey:
return SvcWrap_SignalProcessWideKey64(system, args);
case SvcId::GetSystemTick:
return SvcWrap_GetSystemTick64(system, args);
case SvcId::ConnectToNamedPort:
return SvcWrap_ConnectToNamedPort64(system, args);
case SvcId::SendSyncRequestLight:
return SvcWrap_SendSyncRequestLight64(system, args);
case SvcId::SendSyncRequest:
return SvcWrap_SendSyncRequest64(system, args);
case SvcId::SendSyncRequestWithUserBuffer:
return SvcWrap_SendSyncRequestWithUserBuffer64(system, args);
case SvcId::SendAsyncRequestWithUserBuffer:
return SvcWrap_SendAsyncRequestWithUserBuffer64(system, args);
case SvcId::GetProcessId:
return SvcWrap_GetProcessId64(system, args);
case SvcId::GetThreadId:
return SvcWrap_GetThreadId64(system, args);
case SvcId::Break:
return SvcWrap_Break64(system, args);
case SvcId::OutputDebugString:
return SvcWrap_OutputDebugString64(system, args);
case SvcId::ReturnFromException:
return SvcWrap_ReturnFromException64(system, args);
case SvcId::GetInfo:
return SvcWrap_GetInfo64(system, args);
case SvcId::FlushEntireDataCache:
return SvcWrap_FlushEntireDataCache64(system, args);
case SvcId::FlushDataCache:
return SvcWrap_FlushDataCache64(system, args);
case SvcId::MapPhysicalMemory:
return SvcWrap_MapPhysicalMemory64(system, args);
case SvcId::UnmapPhysicalMemory:
return SvcWrap_UnmapPhysicalMemory64(system, args);
case SvcId::GetDebugFutureThreadInfo:
return SvcWrap_GetDebugFutureThreadInfo64(system, args);
case SvcId::GetLastThreadInfo:
return SvcWrap_GetLastThreadInfo64(system, args);
case SvcId::GetResourceLimitLimitValue:
return SvcWrap_GetResourceLimitLimitValue64(system, args);
case SvcId::GetResourceLimitCurrentValue:
return SvcWrap_GetResourceLimitCurrentValue64(system, args);
case SvcId::SetThreadActivity:
return SvcWrap_SetThreadActivity64(system, args);
case SvcId::GetThreadContext3:
return SvcWrap_GetThreadContext364(system, args);
case SvcId::WaitForAddress:
return SvcWrap_WaitForAddress64(system, args);
case SvcId::SignalToAddress:
return SvcWrap_SignalToAddress64(system, args);
case SvcId::SynchronizePreemptionState:
return SvcWrap_SynchronizePreemptionState64(system, args);
case SvcId::GetResourceLimitPeakValue:
return SvcWrap_GetResourceLimitPeakValue64(system, args);
case SvcId::CreateIoPool:
return SvcWrap_CreateIoPool64(system, args);
case SvcId::CreateIoRegion:
return SvcWrap_CreateIoRegion64(system, args);
case SvcId::KernelDebug:
return SvcWrap_KernelDebug64(system, args);
case SvcId::ChangeKernelTraceState:
return SvcWrap_ChangeKernelTraceState64(system, args);
case SvcId::CreateSession:
return SvcWrap_CreateSession64(system, args);
case SvcId::AcceptSession:
return SvcWrap_AcceptSession64(system, args);
case SvcId::ReplyAndReceiveLight:
return SvcWrap_ReplyAndReceiveLight64(system, args);
case SvcId::ReplyAndReceive:
return SvcWrap_ReplyAndReceive64(system, args);
case SvcId::ReplyAndReceiveWithUserBuffer:
return SvcWrap_ReplyAndReceiveWithUserBuffer64(system, args);
case SvcId::CreateEvent:
return SvcWrap_CreateEvent64(system, args);
case SvcId::MapIoRegion:
return SvcWrap_MapIoRegion64(system, args);
case SvcId::UnmapIoRegion:
return SvcWrap_UnmapIoRegion64(system, args);
case SvcId::MapPhysicalMemoryUnsafe:
return SvcWrap_MapPhysicalMemoryUnsafe64(system, args);
case SvcId::UnmapPhysicalMemoryUnsafe:
return SvcWrap_UnmapPhysicalMemoryUnsafe64(system, args);
case SvcId::SetUnsafeLimit:
return SvcWrap_SetUnsafeLimit64(system, args);
case SvcId::CreateCodeMemory:
return SvcWrap_CreateCodeMemory64(system, args);
case SvcId::ControlCodeMemory:
return SvcWrap_ControlCodeMemory64(system, args);
case SvcId::SleepSystem:
return SvcWrap_SleepSystem64(system, args);
case SvcId::ReadWriteRegister:
return SvcWrap_ReadWriteRegister64(system, args);
case SvcId::SetProcessActivity:
return SvcWrap_SetProcessActivity64(system, args);
case SvcId::CreateSharedMemory:
return SvcWrap_CreateSharedMemory64(system, args);
case SvcId::MapTransferMemory:
return SvcWrap_MapTransferMemory64(system, args);
case SvcId::UnmapTransferMemory:
return SvcWrap_UnmapTransferMemory64(system, args);
case SvcId::CreateInterruptEvent:
return SvcWrap_CreateInterruptEvent64(system, args);
case SvcId::QueryPhysicalAddress:
return SvcWrap_QueryPhysicalAddress64(system, args);
case SvcId::QueryIoMapping:
return SvcWrap_QueryIoMapping64(system, args);
case SvcId::CreateDeviceAddressSpace:
return SvcWrap_CreateDeviceAddressSpace64(system, args);
case SvcId::AttachDeviceAddressSpace:
return SvcWrap_AttachDeviceAddressSpace64(system, args);
case SvcId::DetachDeviceAddressSpace:
return SvcWrap_DetachDeviceAddressSpace64(system, args);
case SvcId::MapDeviceAddressSpaceByForce:
return SvcWrap_MapDeviceAddressSpaceByForce64(system, args);
case SvcId::MapDeviceAddressSpaceAligned:
return SvcWrap_MapDeviceAddressSpaceAligned64(system, args);
case SvcId::UnmapDeviceAddressSpace:
return SvcWrap_UnmapDeviceAddressSpace64(system, args);
case SvcId::InvalidateProcessDataCache:
return SvcWrap_InvalidateProcessDataCache64(system, args);
case SvcId::StoreProcessDataCache:
return SvcWrap_StoreProcessDataCache64(system, args);
case SvcId::FlushProcessDataCache:
return SvcWrap_FlushProcessDataCache64(system, args);
case SvcId::DebugActiveProcess:
return SvcWrap_DebugActiveProcess64(system, args);
case SvcId::BreakDebugProcess:
return SvcWrap_BreakDebugProcess64(system, args);
case SvcId::TerminateDebugProcess:
return SvcWrap_TerminateDebugProcess64(system, args);
case SvcId::GetDebugEvent:
return SvcWrap_GetDebugEvent64(system, args);
case SvcId::ContinueDebugEvent:
return SvcWrap_ContinueDebugEvent64(system, args);
case SvcId::GetProcessList:
return SvcWrap_GetProcessList64(system, args);
case SvcId::GetThreadList:
return SvcWrap_GetThreadList64(system, args);
case SvcId::GetDebugThreadContext:
return SvcWrap_GetDebugThreadContext64(system, args);
case SvcId::SetDebugThreadContext:
return SvcWrap_SetDebugThreadContext64(system, args);
case SvcId::QueryDebugProcessMemory:
return SvcWrap_QueryDebugProcessMemory64(system, args);
case SvcId::ReadDebugProcessMemory:
return SvcWrap_ReadDebugProcessMemory64(system, args);
case SvcId::WriteDebugProcessMemory:
return SvcWrap_WriteDebugProcessMemory64(system, args);
case SvcId::SetHardwareBreakPoint:
return SvcWrap_SetHardwareBreakPoint64(system, args);
case SvcId::GetDebugThreadParam:
return SvcWrap_GetDebugThreadParam64(system, args);
case SvcId::GetSystemInfo:
return SvcWrap_GetSystemInfo64(system, args);
case SvcId::CreatePort:
return SvcWrap_CreatePort64(system, args);
case SvcId::ManageNamedPort:
return SvcWrap_ManageNamedPort64(system, args);
case SvcId::ConnectToPort:
return SvcWrap_ConnectToPort64(system, args);
case SvcId::SetProcessMemoryPermission:
return SvcWrap_SetProcessMemoryPermission64(system, args);
case SvcId::MapProcessMemory:
return SvcWrap_MapProcessMemory64(system, args);
case SvcId::UnmapProcessMemory:
return SvcWrap_UnmapProcessMemory64(system, args);
case SvcId::QueryProcessMemory:
return SvcWrap_QueryProcessMemory64(system, args);
case SvcId::MapProcessCodeMemory:
return SvcWrap_MapProcessCodeMemory64(system, args);
case SvcId::UnmapProcessCodeMemory:
return SvcWrap_UnmapProcessCodeMemory64(system, args);
case SvcId::CreateProcess:
return SvcWrap_CreateProcess64(system, args);
case SvcId::StartProcess:
return SvcWrap_StartProcess64(system, args);
case SvcId::TerminateProcess:
return SvcWrap_TerminateProcess64(system, args);
case SvcId::GetProcessInfo:
return SvcWrap_GetProcessInfo64(system, args);
case SvcId::CreateResourceLimit:
return SvcWrap_CreateResourceLimit64(system, args);
case SvcId::SetResourceLimitLimitValue:
return SvcWrap_SetResourceLimitLimitValue64(system, args);
case SvcId::CallSecureMonitor:
return SvcWrap_CallSecureMonitor64(system, args);
case SvcId::MapInsecureMemory:
return SvcWrap_MapInsecureMemory64(system, args);
case SvcId::UnmapInsecureMemory:
return SvcWrap_UnmapInsecureMemory64(system, args);
default:
LOG_CRITICAL(Kernel_SVC, "Unknown SVC {:x}!", imm);
break;
}
}
// clang-format on
void Call(Core::System& system, u32 imm) {
auto& kernel = system.Kernel();
auto& process = GetCurrentProcess(kernel);
std::array<uint64_t, 8> args;
kernel.CurrentPhysicalCore().SaveSvcArguments(process, args);
kernel.EnterSVCProfile();
if (process.Is64Bit()) {
Call64(system, imm, args);
} else {
Call32(system, imm, args);
}
kernel.ExitSVCProfile();
kernel.CurrentPhysicalCore().LoadSvcArguments(process, args);
}
} // namespace Kernel::Svc