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core/CMakeLists: Make some warnings errors

Makes our error coverage a little more consistent across the board by
applying it to Linux side of things as well. This also makes it more
consistent with the warning settings in other libraries in the project.

This also updates httplib to 0.7.9, as there are several warning
cleanups made that allow us to enable several warnings as errors.
This commit is contained in:
Lioncash 2020-10-13 08:10:50 -04:00
parent d291fc1a51
commit 39c8d18feb
32 changed files with 3243 additions and 1539 deletions

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@ -90,6 +90,9 @@ if (ENABLE_WEB_SERVICE)
target_include_directories(httplib INTERFACE ./httplib) target_include_directories(httplib INTERFACE ./httplib)
target_compile_definitions(httplib INTERFACE -DCPPHTTPLIB_OPENSSL_SUPPORT) target_compile_definitions(httplib INTERFACE -DCPPHTTPLIB_OPENSSL_SUPPORT)
target_link_libraries(httplib INTERFACE ${OPENSSL_LIBRARIES}) target_link_libraries(httplib INTERFACE ${OPENSSL_LIBRARIES})
if (WIN32)
target_link_libraries(httplib INTERFACE crypt32 cryptui ws2_32)
endif()
endif() endif()
# Opus # Opus

File diff suppressed because it is too large Load Diff

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@ -16,14 +16,14 @@ namespace Common {
[[nodiscard]] constexpr u8 ToHexNibble(char c) { [[nodiscard]] constexpr u8 ToHexNibble(char c) {
if (c >= 65 && c <= 70) { if (c >= 65 && c <= 70) {
return c - 55; return static_cast<u8>(c - 55);
} }
if (c >= 97 && c <= 102) { if (c >= 97 && c <= 102) {
return c - 87; return static_cast<u8>(c - 87);
} }
return c - 48; return static_cast<u8>(c - 48);
} }
[[nodiscard]] std::vector<u8> HexStringToVector(std::string_view str, bool little_endian); [[nodiscard]] std::vector<u8> HexStringToVector(std::string_view str, bool little_endian);
@ -33,11 +33,11 @@ template <std::size_t Size, bool le = false>
std::array<u8, Size> out{}; std::array<u8, Size> out{};
if constexpr (le) { if constexpr (le) {
for (std::size_t i = 2 * Size - 2; i <= 2 * Size; i -= 2) { for (std::size_t i = 2 * Size - 2; i <= 2 * Size; i -= 2) {
out[i / 2] = (ToHexNibble(str[i]) << 4) | ToHexNibble(str[i + 1]); out[i / 2] = static_cast<u8>((ToHexNibble(str[i]) << 4) | ToHexNibble(str[i + 1]));
} }
} else { } else {
for (std::size_t i = 0; i < 2 * Size; i += 2) { for (std::size_t i = 0; i < 2 * Size; i += 2) {
out[i / 2] = (ToHexNibble(str[i]) << 4) | ToHexNibble(str[i + 1]); out[i / 2] = static_cast<u8>((ToHexNibble(str[i]) << 4) | ToHexNibble(str[i + 1]));
} }
} }
return out; return out;

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@ -623,6 +623,17 @@ if (MSVC)
# 'context' : truncation from 'type1' to 'type2' # 'context' : truncation from 'type1' to 'type2'
/we4305 /we4305
) )
else()
target_compile_options(core PRIVATE
-Werror=conversion
-Werror=ignored-qualifiers
-Werror=implicit-fallthrough
-Werror=reorder
-Werror=sign-compare
-Werror=unused-but-set-parameter
-Werror=unused-but-set-variable
-Werror=unused-variable
)
endif() endif()
create_target_directory_groups(core) create_target_directory_groups(core)

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@ -411,7 +411,7 @@ Loader::ResultStatus DeriveSDKeys(std::array<Key256, 2>& sd_keys, KeyManager& ke
// Combine sources and seed // Combine sources and seed
for (auto& source : sd_key_sources) { for (auto& source : sd_key_sources) {
for (std::size_t i = 0; i < source.size(); ++i) { for (std::size_t i = 0; i < source.size(); ++i) {
source[i] ^= sd_seed[i & 0xF]; source[i] = static_cast<u8>(source[i] ^ sd_seed[i & 0xF]);
} }
} }

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@ -266,8 +266,9 @@ std::multimap<u64, VirtualFile> RomFSBuildContext::Build() {
cur_file->offset = file_partition_size; cur_file->offset = file_partition_size;
file_partition_size += cur_file->size; file_partition_size += cur_file->size;
cur_file->entry_offset = entry_offset; cur_file->entry_offset = entry_offset;
entry_offset += sizeof(RomFSFileEntry) + entry_offset +=
Common::AlignUp(cur_file->path_len - cur_file->cur_path_ofs, 4); static_cast<u32>(sizeof(RomFSFileEntry) +
Common::AlignUp(cur_file->path_len - cur_file->cur_path_ofs, 4));
prev_file = cur_file; prev_file = cur_file;
} }
// Assign deferred parent/sibling ownership. // Assign deferred parent/sibling ownership.
@ -284,8 +285,9 @@ std::multimap<u64, VirtualFile> RomFSBuildContext::Build() {
for (const auto& it : directories) { for (const auto& it : directories) {
cur_dir = it.second; cur_dir = it.second;
cur_dir->entry_offset = entry_offset; cur_dir->entry_offset = entry_offset;
entry_offset += sizeof(RomFSDirectoryEntry) + entry_offset +=
Common::AlignUp(cur_dir->path_len - cur_dir->cur_path_ofs, 4); static_cast<u32>(sizeof(RomFSDirectoryEntry) +
Common::AlignUp(cur_dir->path_len - cur_dir->cur_path_ofs, 4));
} }
// Assign deferred parent/sibling ownership. // Assign deferred parent/sibling ownership.
for (auto it = directories.rbegin(); it->second != root; ++it) { for (auto it = directories.rbegin(); it->second != root; ++it) {

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@ -299,7 +299,7 @@ void IPSwitchCompiler::Parse() {
patch_text->GetName(), offset, Common::HexToString(replace)); patch_text->GetName(), offset, Common::HexToString(replace));
} }
patch.records.insert_or_assign(offset, std::move(replace)); patch.records.insert_or_assign(static_cast<u32>(offset), std::move(replace));
} }
patches.push_back(std::move(patch)); patches.push_back(std::move(patch));

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@ -108,7 +108,7 @@ std::vector<u8> CNMT::Serialize() const {
memcpy(out.data() + sizeof(CNMTHeader), &opt_header, sizeof(OptionalHeader)); memcpy(out.data() + sizeof(CNMTHeader), &opt_header, sizeof(OptionalHeader));
} }
auto offset = header.table_offset; u64_le offset = header.table_offset;
for (const auto& rec : content_records) { for (const auto& rec : content_records) {
memcpy(out.data() + offset + sizeof(CNMTHeader), &rec, sizeof(ContentRecord)); memcpy(out.data() + offset + sizeof(CNMTHeader), &rec, sizeof(ContentRecord));

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@ -29,7 +29,7 @@
namespace FileSys { namespace FileSys {
namespace { namespace {
constexpr u64 SINGLE_BYTE_MODULUS = 0x100; constexpr u32 SINGLE_BYTE_MODULUS = 0x100;
constexpr u64 DLC_BASE_TITLE_ID_MASK = 0xFFFFFFFFFFFFE000; constexpr u64 DLC_BASE_TITLE_ID_MASK = 0xFFFFFFFFFFFFE000;
constexpr std::array<const char*, 14> EXEFS_FILE_NAMES{ constexpr std::array<const char*, 14> EXEFS_FILE_NAMES{

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@ -84,10 +84,12 @@ void EmuWindow::TouchPressed(unsigned framebuffer_x, unsigned framebuffer_y) {
return; return;
std::lock_guard guard{touch_state->mutex}; std::lock_guard guard{touch_state->mutex};
touch_state->touch_x = static_cast<float>(framebuffer_x - framebuffer_layout.screen.left) / touch_state->touch_x =
(framebuffer_layout.screen.right - framebuffer_layout.screen.left); static_cast<float>(framebuffer_x - framebuffer_layout.screen.left) /
touch_state->touch_y = static_cast<float>(framebuffer_y - framebuffer_layout.screen.top) / static_cast<float>(framebuffer_layout.screen.right - framebuffer_layout.screen.left);
(framebuffer_layout.screen.bottom - framebuffer_layout.screen.top); touch_state->touch_y =
static_cast<float>(framebuffer_y - framebuffer_layout.screen.top) /
static_cast<float>(framebuffer_layout.screen.bottom - framebuffer_layout.screen.top);
touch_state->touch_pressed = true; touch_state->touch_pressed = true;
} }

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@ -14,8 +14,8 @@ namespace Layout {
template <class T> template <class T>
static Common::Rectangle<T> MaxRectangle(Common::Rectangle<T> window_area, static Common::Rectangle<T> MaxRectangle(Common::Rectangle<T> window_area,
float screen_aspect_ratio) { float screen_aspect_ratio) {
float scale = std::min(static_cast<float>(window_area.GetWidth()), const float scale = std::min(static_cast<float>(window_area.GetWidth()),
window_area.GetHeight() / screen_aspect_ratio); static_cast<float>(window_area.GetHeight()) / screen_aspect_ratio);
return Common::Rectangle<T>{0, 0, static_cast<T>(std::round(scale)), return Common::Rectangle<T>{0, 0, static_cast<T>(std::round(scale)),
static_cast<T>(std::round(scale * screen_aspect_ratio))}; static_cast<T>(std::round(scale * screen_aspect_ratio))};
} }
@ -27,7 +27,7 @@ FramebufferLayout DefaultFrameLayout(u32 width, u32 height) {
// so just calculate them both even if the other isn't showing. // so just calculate them both even if the other isn't showing.
FramebufferLayout res{width, height, false, {}}; FramebufferLayout res{width, height, false, {}};
const float window_aspect_ratio = static_cast<float>(height) / width; const float window_aspect_ratio = static_cast<float>(height) / static_cast<float>(width);
const float emulation_aspect_ratio = EmulationAspectRatio( const float emulation_aspect_ratio = EmulationAspectRatio(
static_cast<AspectRatio>(Settings::values.aspect_ratio.GetValue()), window_aspect_ratio); static_cast<AspectRatio>(Settings::values.aspect_ratio.GetValue()), window_aspect_ratio);

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@ -291,11 +291,11 @@ static void FpuWrite(std::size_t id, u128 val, Kernel::Thread* thread = nullptr)
*/ */
static u8 HexCharToValue(u8 hex) { static u8 HexCharToValue(u8 hex) {
if (hex >= '0' && hex <= '9') { if (hex >= '0' && hex <= '9') {
return hex - '0'; return static_cast<u8>(hex - '0');
} else if (hex >= 'a' && hex <= 'f') { } else if (hex >= 'a' && hex <= 'f') {
return hex - 'a' + 0xA; return static_cast<u8>(hex - 'a' + 0xA);
} else if (hex >= 'A' && hex <= 'F') { } else if (hex >= 'A' && hex <= 'F') {
return hex - 'A' + 0xA; return static_cast<u8>(hex - 'A' + 0xA);
} }
LOG_ERROR(Debug_GDBStub, "Invalid nibble: {} ({:02X})", hex, hex); LOG_ERROR(Debug_GDBStub, "Invalid nibble: {} ({:02X})", hex, hex);
@ -310,9 +310,9 @@ static u8 HexCharToValue(u8 hex) {
static u8 NibbleToHex(u8 n) { static u8 NibbleToHex(u8 n) {
n &= 0xF; n &= 0xF;
if (n < 0xA) { if (n < 0xA) {
return '0' + n; return static_cast<u8>('0' + n);
} else { } else {
return 'a' + n - 0xA; return static_cast<u8>('a' + n - 0xA);
} }
} }
@ -355,8 +355,8 @@ static u64 HexToLong(const u8* src, std::size_t len) {
*/ */
static void MemToGdbHex(u8* dest, const u8* src, std::size_t len) { static void MemToGdbHex(u8* dest, const u8* src, std::size_t len) {
while (len-- > 0) { while (len-- > 0) {
u8 tmp = *src++; const u8 tmp = *src++;
*dest++ = NibbleToHex(tmp >> 4); *dest++ = NibbleToHex(static_cast<u8>(tmp >> 4));
*dest++ = NibbleToHex(tmp); *dest++ = NibbleToHex(tmp);
} }
} }
@ -370,7 +370,7 @@ static void MemToGdbHex(u8* dest, const u8* src, std::size_t len) {
*/ */
static void GdbHexToMem(u8* dest, const u8* src, std::size_t len) { static void GdbHexToMem(u8* dest, const u8* src, std::size_t len) {
while (len-- > 0) { while (len-- > 0) {
*dest++ = (HexCharToValue(src[0]) << 4) | HexCharToValue(src[1]); *dest++ = static_cast<u8>((HexCharToValue(src[0]) << 4) | HexCharToValue(src[1]));
src += 2; src += 2;
} }
} }
@ -602,22 +602,22 @@ static void SendReply(const char* reply) {
memcpy(command_buffer + 1, reply, command_length); memcpy(command_buffer + 1, reply, command_length);
u8 checksum = CalculateChecksum(command_buffer, command_length + 1); const u8 checksum = CalculateChecksum(command_buffer, command_length + 1);
command_buffer[0] = GDB_STUB_START; command_buffer[0] = GDB_STUB_START;
command_buffer[command_length + 1] = GDB_STUB_END; command_buffer[command_length + 1] = GDB_STUB_END;
command_buffer[command_length + 2] = NibbleToHex(checksum >> 4); command_buffer[command_length + 2] = NibbleToHex(static_cast<u8>(checksum >> 4));
command_buffer[command_length + 3] = NibbleToHex(checksum); command_buffer[command_length + 3] = NibbleToHex(checksum);
u8* ptr = command_buffer; u8* ptr = command_buffer;
u32 left = command_length + 4; u32 left = command_length + 4;
while (left > 0) { while (left > 0) {
int sent_size = send(gdbserver_socket, reinterpret_cast<char*>(ptr), left, 0); const auto sent_size = send(gdbserver_socket, reinterpret_cast<char*>(ptr), left, 0);
if (sent_size < 0) { if (sent_size < 0) {
LOG_ERROR(Debug_GDBStub, "gdb: send failed"); LOG_ERROR(Debug_GDBStub, "gdb: send failed");
return Shutdown(); return Shutdown();
} }
left -= sent_size; left -= static_cast<u32>(sent_size);
ptr += sent_size; ptr += sent_size;
} }
} }
@ -777,10 +777,10 @@ static void ReadCommand() {
command_buffer[command_length++] = c; command_buffer[command_length++] = c;
} }
u8 checksum_received = HexCharToValue(ReadByte()) << 4; auto checksum_received = static_cast<u32>(HexCharToValue(ReadByte()) << 4);
checksum_received |= HexCharToValue(ReadByte()); checksum_received |= static_cast<u32>(HexCharToValue(ReadByte()));
u8 checksum_calculated = CalculateChecksum(command_buffer, command_length); const u32 checksum_calculated = CalculateChecksum(command_buffer, command_length);
if (checksum_received != checksum_calculated) { if (checksum_received != checksum_calculated) {
LOG_ERROR(Debug_GDBStub, LOG_ERROR(Debug_GDBStub,

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@ -38,10 +38,11 @@ public:
explicit RequestHelperBase(Kernel::HLERequestContext& context) explicit RequestHelperBase(Kernel::HLERequestContext& context)
: context(&context), cmdbuf(context.CommandBuffer()) {} : context(&context), cmdbuf(context.CommandBuffer()) {}
void Skip(unsigned size_in_words, bool set_to_null) { void Skip(u32 size_in_words, bool set_to_null) {
if (set_to_null) if (set_to_null) {
memset(cmdbuf + index, 0, size_in_words * sizeof(u32)); memset(cmdbuf + index, 0, size_in_words * sizeof(u32));
index += size_in_words; }
index += static_cast<ptrdiff_t>(size_in_words);
} }
/** /**
@ -49,15 +50,15 @@ public:
*/ */
void AlignWithPadding() { void AlignWithPadding() {
if (index & 3) { if (index & 3) {
Skip(4 - (index & 3), true); Skip(static_cast<u32>(4 - (index & 3)), true);
} }
} }
unsigned GetCurrentOffset() const { u32 GetCurrentOffset() const {
return static_cast<unsigned>(index); return static_cast<u32>(index);
} }
void SetCurrentOffset(unsigned offset) { void SetCurrentOffset(u32 offset) {
index = static_cast<ptrdiff_t>(offset); index = static_cast<ptrdiff_t>(offset);
} }
}; };
@ -89,7 +90,7 @@ public:
// The entire size of the raw data section in u32 units, including the 16 bytes of mandatory // The entire size of the raw data section in u32 units, including the 16 bytes of mandatory
// padding. // padding.
u32 raw_data_size = sizeof(IPC::DataPayloadHeader) / 4 + 4 + normal_params_size; u64 raw_data_size = sizeof(IPC::DataPayloadHeader) / 4 + 4 + normal_params_size;
u32 num_handles_to_move{}; u32 num_handles_to_move{};
u32 num_domain_objects{}; u32 num_domain_objects{};
@ -105,7 +106,7 @@ public:
raw_data_size += sizeof(DomainMessageHeader) / 4 + num_domain_objects; raw_data_size += sizeof(DomainMessageHeader) / 4 + num_domain_objects;
} }
header.data_size.Assign(raw_data_size); header.data_size.Assign(static_cast<u32>(raw_data_size));
if (num_handles_to_copy || num_handles_to_move) { if (num_handles_to_copy || num_handles_to_move) {
header.enable_handle_descriptor.Assign(1); header.enable_handle_descriptor.Assign(1);
} }

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@ -118,7 +118,7 @@ std::shared_ptr<Object> HandleTable::GetGeneric(Handle handle) const {
void HandleTable::Clear() { void HandleTable::Clear() {
for (u16 i = 0; i < table_size; ++i) { for (u16 i = 0; i < table_size; ++i) {
generations[i] = i + 1; generations[i] = static_cast<u16>(i + 1);
objects[i] = nullptr; objects[i] = nullptr;
} }
next_free_slot = 0; next_free_slot = 0;

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@ -72,7 +72,7 @@ u32 GlobalScheduler::SelectThreads() {
if (top_thread != nullptr) { if (top_thread != nullptr) {
// TODO(Blinkhawk): Implement Thread Pinning // TODO(Blinkhawk): Implement Thread Pinning
} else { } else {
idle_cores |= (1ul << core); idle_cores |= (1U << core);
} }
top_threads[core] = top_thread; top_threads[core] = top_thread;
} }
@ -126,7 +126,7 @@ u32 GlobalScheduler::SelectThreads() {
top_threads[core_id] = suggested; top_threads[core_id] = suggested;
} }
idle_cores &= ~(1ul << core_id); idle_cores &= ~(1U << core_id);
} }
u32 cores_needing_context_switch{}; u32 cores_needing_context_switch{};
for (u32 core = 0; core < Core::Hardware::NUM_CPU_CORES; core++) { for (u32 core = 0; core < Core::Hardware::NUM_CPU_CORES; core++) {
@ -134,7 +134,7 @@ u32 GlobalScheduler::SelectThreads() {
ASSERT(top_threads[core] == nullptr || ASSERT(top_threads[core] == nullptr ||
static_cast<u32>(top_threads[core]->GetProcessorID()) == core); static_cast<u32>(top_threads[core]->GetProcessorID()) == core);
if (update_thread(top_threads[core], sched)) { if (update_thread(top_threads[core], sched)) {
cores_needing_context_switch |= (1ul << core); cores_needing_context_switch |= (1U << core);
} }
} }
return cores_needing_context_switch; return cores_needing_context_switch;
@ -364,7 +364,7 @@ void GlobalScheduler::EnableInterruptAndSchedule(u32 cores_pending_reschedule,
} else { } else {
must_context_switch = true; must_context_switch = true;
} }
cores_pending_reschedule &= ~(1ul << core); cores_pending_reschedule &= ~(1U << core);
} }
if (must_context_switch) { if (must_context_switch) {
auto& core_scheduler = kernel.CurrentScheduler(); auto& core_scheduler = kernel.CurrentScheduler();
@ -767,7 +767,7 @@ void Scheduler::SwitchToCurrent() {
current_thread->context_guard.unlock(); current_thread->context_guard.unlock();
break; break;
} }
if (current_thread->GetProcessorID() != core_id) { if (static_cast<u32>(current_thread->GetProcessorID()) != core_id) {
current_thread->context_guard.unlock(); current_thread->context_guard.unlock();
break; break;
} }

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@ -196,7 +196,9 @@ private:
const std::string& content_type_name) { const std::string& content_type_name) {
if (client == nullptr) { if (client == nullptr) {
client = std::make_unique<httplib::SSLClient>(BOXCAT_HOSTNAME, PORT); client = std::make_unique<httplib::SSLClient>(BOXCAT_HOSTNAME, PORT);
client->set_timeout_sec(timeout_seconds); client->set_connection_timeout(timeout_seconds);
client->set_read_timeout(timeout_seconds);
client->set_write_timeout(timeout_seconds);
} }
httplib::Headers headers{ httplib::Headers headers{
@ -255,7 +257,7 @@ private:
return out; return out;
} }
std::unique_ptr<httplib::Client> client; std::unique_ptr<httplib::SSLClient> client;
std::string path; std::string path;
u64 title_id; u64 title_id;
u64 build_id; u64 build_id;
@ -443,7 +445,9 @@ std::optional<std::vector<u8>> Boxcat::GetLaunchParameter(TitleIDVersion title)
Boxcat::StatusResult Boxcat::GetStatus(std::optional<std::string>& global, Boxcat::StatusResult Boxcat::GetStatus(std::optional<std::string>& global,
std::map<std::string, EventStatus>& games) { std::map<std::string, EventStatus>& games) {
httplib::SSLClient client{BOXCAT_HOSTNAME, static_cast<int>(PORT)}; httplib::SSLClient client{BOXCAT_HOSTNAME, static_cast<int>(PORT)};
client.set_timeout_sec(static_cast<int>(TIMEOUT_SECONDS)); client.set_connection_timeout(static_cast<int>(TIMEOUT_SECONDS));
client.set_read_timeout(static_cast<int>(TIMEOUT_SECONDS));
client.set_write_timeout(static_cast<int>(TIMEOUT_SECONDS));
httplib::Headers headers{ httplib::Headers headers{
{std::string("Game-Assets-API-Version"), std::string(BOXCAT_API_VERSION)}, {std::string("Game-Assets-API-Version"), std::string(BOXCAT_API_VERSION)},

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@ -42,8 +42,8 @@ void Controller_Keyboard::OnUpdate(const Core::Timing::CoreTiming& core_timing,
cur_entry.modifier = 0; cur_entry.modifier = 0;
if (Settings::values.keyboard_enabled) { if (Settings::values.keyboard_enabled) {
for (std::size_t i = 0; i < keyboard_keys.size(); ++i) { for (std::size_t i = 0; i < keyboard_keys.size(); ++i) {
cur_entry.key[i / KEYS_PER_BYTE] |= auto& entry = cur_entry.key[i / KEYS_PER_BYTE];
(keyboard_keys[i]->GetStatus() << (i % KEYS_PER_BYTE)); entry = static_cast<u8>(entry | (keyboard_keys[i]->GetStatus() << (i % KEYS_PER_BYTE)));
} }
for (std::size_t i = 0; i < keyboard_mods.size(); ++i) { for (std::size_t i = 0; i < keyboard_mods.size(); ++i) {

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@ -269,7 +269,6 @@ void Controller_NPad::RequestPadStateUpdate(u32 npad_id) {
auto& rstick_entry = npad_pad_states[controller_idx].r_stick; auto& rstick_entry = npad_pad_states[controller_idx].r_stick;
const auto& button_state = buttons[controller_idx]; const auto& button_state = buttons[controller_idx];
const auto& analog_state = sticks[controller_idx]; const auto& analog_state = sticks[controller_idx];
const auto& motion_state = motions[controller_idx];
const auto [stick_l_x_f, stick_l_y_f] = const auto [stick_l_x_f, stick_l_y_f] =
analog_state[static_cast<std::size_t>(JoystickId::Joystick_Left)]->GetStatus(); analog_state[static_cast<std::size_t>(JoystickId::Joystick_Left)]->GetStatus();
const auto [stick_r_x_f, stick_r_y_f] = const auto [stick_r_x_f, stick_r_y_f] =
@ -391,18 +390,6 @@ void Controller_NPad::OnUpdate(const Core::Timing::CoreTiming& core_timing, u8*
libnx_entry.connection_status.raw = 0; libnx_entry.connection_status.raw = 0;
libnx_entry.connection_status.IsConnected.Assign(1); libnx_entry.connection_status.IsConnected.Assign(1);
auto& full_sixaxis_entry =
npad.sixaxis_full.sixaxis[npad.sixaxis_full.common.last_entry_index];
auto& handheld_sixaxis_entry =
npad.sixaxis_handheld.sixaxis[npad.sixaxis_handheld.common.last_entry_index];
auto& dual_left_sixaxis_entry =
npad.sixaxis_dual_left.sixaxis[npad.sixaxis_dual_left.common.last_entry_index];
auto& dual_right_sixaxis_entry =
npad.sixaxis_dual_right.sixaxis[npad.sixaxis_dual_right.common.last_entry_index];
auto& left_sixaxis_entry =
npad.sixaxis_left.sixaxis[npad.sixaxis_left.common.last_entry_index];
auto& right_sixaxis_entry =
npad.sixaxis_right.sixaxis[npad.sixaxis_right.common.last_entry_index];
switch (controller_type) { switch (controller_type) {
case NPadControllerType::None: case NPadControllerType::None:
@ -541,18 +528,6 @@ void Controller_NPad::OnMotionUpdate(const Core::Timing::CoreTiming& core_timing
} }
} }
auto& main_controller =
npad.main_controller_states.npad[npad.main_controller_states.common.last_entry_index];
auto& handheld_entry =
npad.handheld_states.npad[npad.handheld_states.common.last_entry_index];
auto& dual_entry = npad.dual_states.npad[npad.dual_states.common.last_entry_index];
auto& left_entry = npad.left_joy_states.npad[npad.left_joy_states.common.last_entry_index];
auto& right_entry =
npad.right_joy_states.npad[npad.right_joy_states.common.last_entry_index];
auto& pokeball_entry =
npad.pokeball_states.npad[npad.pokeball_states.common.last_entry_index];
auto& libnx_entry = npad.libnx.npad[npad.libnx.common.last_entry_index];
auto& full_sixaxis_entry = auto& full_sixaxis_entry =
npad.sixaxis_full.sixaxis[npad.sixaxis_full.common.last_entry_index]; npad.sixaxis_full.sixaxis[npad.sixaxis_full.common.last_entry_index];
auto& handheld_sixaxis_entry = auto& handheld_sixaxis_entry =

View File

@ -475,7 +475,7 @@ void Hid::StopSixAxisSensor(Kernel::HLERequestContext& ctx) {
void Hid::EnableSixAxisSensorFusion(Kernel::HLERequestContext& ctx) { void Hid::EnableSixAxisSensorFusion(Kernel::HLERequestContext& ctx) {
IPC::RequestParser rp{ctx}; IPC::RequestParser rp{ctx};
const auto enable{rp.Pop<bool>()}; [[maybe_unused]] const auto enable{rp.Pop<bool>()};
const auto handle{rp.Pop<u32>()}; const auto handle{rp.Pop<u32>()};
const auto applet_resource_user_id{rp.Pop<u64>()}; const auto applet_resource_user_id{rp.Pop<u64>()};

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@ -428,7 +428,7 @@ bool MiiManager::IsFullDatabase() const {
} }
u32 MiiManager::GetCount(SourceFlag source_flag) const { u32 MiiManager::GetCount(SourceFlag source_flag) const {
u32 count{}; std::size_t count{};
if ((source_flag & SourceFlag::Database) != SourceFlag::None) { if ((source_flag & SourceFlag::Database) != SourceFlag::None) {
// TODO(bunnei): We don't implement the Mii database, but when we do, update this // TODO(bunnei): We don't implement the Mii database, but when we do, update this
count += 0; count += 0;
@ -436,7 +436,7 @@ u32 MiiManager::GetCount(SourceFlag source_flag) const {
if ((source_flag & SourceFlag::Default) != SourceFlag::None) { if ((source_flag & SourceFlag::Default) != SourceFlag::None) {
count += DefaultMiiCount; count += DefaultMiiCount;
} }
return count; return static_cast<u32>(count);
} }
ResultVal<MiiInfo> MiiManager::UpdateLatest([[maybe_unused]] const MiiInfo& info, ResultVal<MiiInfo> MiiManager::UpdateLatest([[maybe_unused]] const MiiInfo& info,

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@ -89,9 +89,9 @@ Network::Protocol Translate(Type type, Protocol protocol) {
} }
} }
u16 TranslatePollEventsToHost(u16 flags) { u16 TranslatePollEventsToHost(u32 flags) {
u16 result = 0; u32 result = 0;
const auto translate = [&result, &flags](u16 from, u16 to) { const auto translate = [&result, &flags](u32 from, u32 to) {
if ((flags & from) != 0) { if ((flags & from) != 0) {
flags &= ~from; flags &= ~from;
result |= to; result |= to;
@ -105,12 +105,12 @@ u16 TranslatePollEventsToHost(u16 flags) {
translate(POLL_NVAL, Network::POLL_NVAL); translate(POLL_NVAL, Network::POLL_NVAL);
UNIMPLEMENTED_IF_MSG(flags != 0, "Unimplemented flags={}", flags); UNIMPLEMENTED_IF_MSG(flags != 0, "Unimplemented flags={}", flags);
return result; return static_cast<u16>(result);
} }
u16 TranslatePollEventsToGuest(u16 flags) { u16 TranslatePollEventsToGuest(u32 flags) {
u16 result = 0; u32 result = 0;
const auto translate = [&result, &flags](u16 from, u16 to) { const auto translate = [&result, &flags](u32 from, u32 to) {
if ((flags & from) != 0) { if ((flags & from) != 0) {
flags &= ~from; flags &= ~from;
result |= to; result |= to;
@ -125,7 +125,7 @@ u16 TranslatePollEventsToGuest(u16 flags) {
translate(Network::POLL_NVAL, POLL_NVAL); translate(Network::POLL_NVAL, POLL_NVAL);
UNIMPLEMENTED_IF_MSG(flags != 0, "Unimplemented flags={}", flags); UNIMPLEMENTED_IF_MSG(flags != 0, "Unimplemented flags={}", flags);
return result; return static_cast<u16>(result);
} }
Network::SockAddrIn Translate(SockAddrIn value) { Network::SockAddrIn Translate(SockAddrIn value) {

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@ -31,10 +31,10 @@ Network::Type Translate(Type type);
Network::Protocol Translate(Type type, Protocol protocol); Network::Protocol Translate(Type type, Protocol protocol);
/// Translate abstract poll event flags to guest poll event flags /// Translate abstract poll event flags to guest poll event flags
u16 TranslatePollEventsToHost(u16 flags); u16 TranslatePollEventsToHost(u32 flags);
/// Translate guest poll event flags to abstract poll event flags /// Translate guest poll event flags to abstract poll event flags
u16 TranslatePollEventsToGuest(u16 flags); u16 TranslatePollEventsToGuest(u32 flags);
/// Translate guest socket address structure to abstract socket address structure /// Translate guest socket address structure to abstract socket address structure
Network::SockAddrIn Translate(SockAddrIn value); Network::SockAddrIn Translate(SockAddrIn value);

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@ -820,7 +820,10 @@ static ResultCode ToCalendarTimeImpl(const TimeZoneRule& rules, s64 time, Calend
const ResultCode result{ const ResultCode result{
ToCalendarTimeInternal(rules, time, calendar_time, calendar.additiona_info)}; ToCalendarTimeInternal(rules, time, calendar_time, calendar.additiona_info)};
calendar.time.year = static_cast<s16>(calendar_time.year); calendar.time.year = static_cast<s16>(calendar_time.year);
calendar.time.month = calendar_time.month + 1; // Internal impl. uses 0-indexed month
// Internal impl. uses 0-indexed month
calendar.time.month = static_cast<s8>(calendar_time.month + 1);
calendar.time.day = calendar_time.day; calendar.time.day = calendar_time.day;
calendar.time.hour = calendar_time.hour; calendar.time.hour = calendar_time.hour;
calendar.time.minute = calendar_time.minute; calendar.time.minute = calendar_time.minute;
@ -872,13 +875,15 @@ ResultCode TimeZoneManager::ToPosixTime(const TimeZoneRule& rules,
const CalendarTime& calendar_time, s64& posix_time) const { const CalendarTime& calendar_time, s64& posix_time) const {
posix_time = 0; posix_time = 0;
CalendarTimeInternal internal_time{}; CalendarTimeInternal internal_time{
internal_time.year = calendar_time.year; .year = calendar_time.year,
internal_time.month = calendar_time.month - 1; // Internal impl. uses 0-indexed month // Internal impl. uses 0-indexed month
internal_time.day = calendar_time.day; .month = static_cast<s8>(calendar_time.month - 1),
internal_time.hour = calendar_time.hour; .day = calendar_time.day,
internal_time.minute = calendar_time.minute; .hour = calendar_time.hour,
internal_time.second = calendar_time.second; .minute = calendar_time.minute,
.second = calendar_time.second,
};
s32 hour{internal_time.hour}; s32 hour{internal_time.hour};
s32 minute{internal_time.minute}; s32 minute{internal_time.minute};

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@ -159,7 +159,7 @@ public:
header.data_size = static_cast<u32_le>(write_index - sizeof(Header)); header.data_size = static_cast<u32_le>(write_index - sizeof(Header));
header.data_offset = sizeof(Header); header.data_offset = sizeof(Header);
header.objects_size = 4; header.objects_size = 4;
header.objects_offset = sizeof(Header) + header.data_size; header.objects_offset = static_cast<u32>(sizeof(Header) + header.data_size);
std::memcpy(buffer.data(), &header, sizeof(Header)); std::memcpy(buffer.data(), &header, sizeof(Header));
return buffer; return buffer;

View File

@ -16,7 +16,7 @@ namespace Loader {
namespace { namespace {
constexpr u32 PageAlignSize(u32 size) { constexpr u32 PageAlignSize(u32 size) {
return (size + Core::Memory::PAGE_MASK) & ~Core::Memory::PAGE_MASK; return static_cast<u32>((size + Core::Memory::PAGE_MASK) & ~Core::Memory::PAGE_MASK);
} }
} // Anonymous namespace } // Anonymous namespace

View File

@ -127,7 +127,7 @@ FileType AppLoader_NRO::IdentifyType(const FileSys::VirtualFile& file) {
} }
static constexpr u32 PageAlignSize(u32 size) { static constexpr u32 PageAlignSize(u32 size) {
return (size + Core::Memory::PAGE_MASK) & ~Core::Memory::PAGE_MASK; return static_cast<u32>((size + Core::Memory::PAGE_MASK) & ~Core::Memory::PAGE_MASK);
} }
static bool LoadNroImpl(Kernel::Process& process, const std::vector<u8>& data, static bool LoadNroImpl(Kernel::Process& process, const std::vector<u8>& data,

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@ -47,7 +47,7 @@ std::vector<u8> DecompressSegment(const std::vector<u8>& compressed_data,
} }
constexpr u32 PageAlignSize(u32 size) { constexpr u32 PageAlignSize(u32 size) {
return (size + Core::Memory::PAGE_MASK) & ~Core::Memory::PAGE_MASK; return static_cast<u32>((size + Core::Memory::PAGE_MASK) & ~Core::Memory::PAGE_MASK);
} }
} // Anonymous namespace } // Anonymous namespace

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@ -59,7 +59,7 @@ struct NSOHeader {
static_assert(sizeof(NSOHeader) == 0x100, "NSOHeader has incorrect size."); static_assert(sizeof(NSOHeader) == 0x100, "NSOHeader has incorrect size.");
static_assert(std::is_trivially_copyable_v<NSOHeader>, "NSOHeader must be trivially copyable."); static_assert(std::is_trivially_copyable_v<NSOHeader>, "NSOHeader must be trivially copyable.");
constexpr u64 NSO_ARGUMENT_DATA_ALLOCATION_SIZE = 0x9000; constexpr u32 NSO_ARGUMENT_DATA_ALLOCATION_SIZE = 0x9000;
struct NSOArgumentHeader { struct NSOArgumentHeader {
u32_le allocated_size; u32_le allocated_size;

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@ -120,9 +120,9 @@ struct Memory::Impl {
if ((addr & 1) == 0) { if ((addr & 1) == 0) {
return Read<u16_le>(addr); return Read<u16_le>(addr);
} else { } else {
const u8 a{Read<u8>(addr)}; const u32 a{Read<u8>(addr)};
const u8 b{Read<u8>(addr + sizeof(u8))}; const u32 b{Read<u8>(addr + sizeof(u8))};
return (static_cast<u16>(b) << 8) | a; return static_cast<u16>((b << 8) | a);
} }
} }
@ -130,9 +130,9 @@ struct Memory::Impl {
if ((addr & 3) == 0) { if ((addr & 3) == 0) {
return Read<u32_le>(addr); return Read<u32_le>(addr);
} else { } else {
const u16 a{Read16(addr)}; const u32 a{Read16(addr)};
const u16 b{Read16(addr + sizeof(u16))}; const u32 b{Read16(addr + sizeof(u16))};
return (static_cast<u32>(b) << 16) | a; return (b << 16) | a;
} }
} }

View File

@ -153,8 +153,9 @@ std::vector<CheatEntry> TextCheatParser::Parse(std::string_view data) const {
return {}; return {};
} }
const auto value = static_cast<u32>(std::stoul(hex, nullptr, 0x10));
out[*current_entry].definition.opcodes[out[*current_entry].definition.num_opcodes++] = out[*current_entry].definition.opcodes[out[*current_entry].definition.num_opcodes++] =
std::stoul(hex, nullptr, 0x10); value;
i += 8; i += 8;
} else { } else {

View File

@ -238,14 +238,14 @@ SockAddrIn TranslateToSockAddrIn(sockaddr input_) {
return result; return result;
} }
u16 TranslatePollEvents(u16 events) { u16 TranslatePollEvents(u32 events) {
u16 result = 0; u32 result = 0;
if (events & POLL_IN) { if ((events & POLL_IN) != 0) {
events &= ~POLL_IN; events &= ~POLL_IN;
result |= POLLIN; result |= POLLIN;
} }
if (events & POLL_PRI) { if ((events & POLL_PRI) != 0) {
events &= ~POLL_PRI; events &= ~POLL_PRI;
#ifdef _WIN32 #ifdef _WIN32
LOG_WARNING(Service, "Winsock doesn't support POLLPRI"); LOG_WARNING(Service, "Winsock doesn't support POLLPRI");
@ -253,20 +253,20 @@ u16 TranslatePollEvents(u16 events) {
result |= POLL_PRI; result |= POLL_PRI;
#endif #endif
} }
if (events & POLL_OUT) { if ((events & POLL_OUT) != 0) {
events &= ~POLL_OUT; events &= ~POLL_OUT;
result |= POLLOUT; result |= POLLOUT;
} }
UNIMPLEMENTED_IF_MSG(events != 0, "Unhandled guest events=0x{:x}", events); UNIMPLEMENTED_IF_MSG(events != 0, "Unhandled guest events=0x{:x}", events);
return result; return static_cast<u16>(result);
} }
u16 TranslatePollRevents(u16 revents) { u16 TranslatePollRevents(u32 revents) {
u16 result = 0; u32 result = 0;
const auto translate = [&result, &revents](int host, unsigned guest) { const auto translate = [&result, &revents](u32 host, u32 guest) {
if (revents & host) { if ((revents & host) != 0) {
revents &= ~host; revents &= ~host;
result |= guest; result |= guest;
} }
@ -280,7 +280,7 @@ u16 TranslatePollRevents(u16 revents) {
UNIMPLEMENTED_IF_MSG(revents != 0, "Unhandled host revents=0x{:x}", revents); UNIMPLEMENTED_IF_MSG(revents != 0, "Unhandled host revents=0x{:x}", revents);
return result; return static_cast<u16>(result);
} }
template <typename T> template <typename T>
@ -350,7 +350,7 @@ std::pair<s32, Errno> Poll(std::vector<PollFD>& pollfds, s32 timeout) {
} }
for (size_t i = 0; i < num; ++i) { for (size_t i = 0; i < num; ++i) {
pollfds[i].revents = TranslatePollRevents(host_pollfds[i].revents); pollfds[i].revents = TranslatePollRevents(static_cast<u32>(host_pollfds[i].revents));
} }
if (result > 0) { if (result > 0) {
@ -408,7 +408,7 @@ std::pair<Socket::AcceptResult, Errno> Socket::Accept() {
Errno Socket::Connect(SockAddrIn addr_in) { Errno Socket::Connect(SockAddrIn addr_in) {
const sockaddr host_addr_in = TranslateFromSockAddrIn(addr_in); const sockaddr host_addr_in = TranslateFromSockAddrIn(addr_in);
if (connect(fd, &host_addr_in, sizeof(host_addr_in)) != INVALID_SOCKET) { if (connect(fd, &host_addr_in, sizeof(host_addr_in)) != SOCKET_ERROR) {
return Errno::SUCCESS; return Errno::SUCCESS;
} }
@ -503,10 +503,10 @@ std::pair<s32, Errno> Socket::Recv(int flags, std::vector<u8>& message) {
ASSERT(flags == 0); ASSERT(flags == 0);
ASSERT(message.size() < static_cast<size_t>(std::numeric_limits<int>::max())); ASSERT(message.size() < static_cast<size_t>(std::numeric_limits<int>::max()));
const int result = const auto result =
recv(fd, reinterpret_cast<char*>(message.data()), static_cast<int>(message.size()), 0); recv(fd, reinterpret_cast<char*>(message.data()), static_cast<int>(message.size()), 0);
if (result != SOCKET_ERROR) { if (result != SOCKET_ERROR) {
return {result, Errno::SUCCESS}; return {static_cast<s32>(result), Errno::SUCCESS};
} }
switch (const int ec = LastError()) { switch (const int ec = LastError()) {
@ -531,14 +531,14 @@ std::pair<s32, Errno> Socket::RecvFrom(int flags, std::vector<u8>& message, Sock
socklen_t* const p_addrlen = addr ? &addrlen : nullptr; socklen_t* const p_addrlen = addr ? &addrlen : nullptr;
sockaddr* const p_addr_in = addr ? &addr_in : nullptr; sockaddr* const p_addr_in = addr ? &addr_in : nullptr;
const int result = recvfrom(fd, reinterpret_cast<char*>(message.data()), const auto result = recvfrom(fd, reinterpret_cast<char*>(message.data()),
static_cast<int>(message.size()), 0, p_addr_in, p_addrlen); static_cast<int>(message.size()), 0, p_addr_in, p_addrlen);
if (result != SOCKET_ERROR) { if (result != SOCKET_ERROR) {
if (addr) { if (addr) {
ASSERT(addrlen == sizeof(addr_in)); ASSERT(addrlen == sizeof(addr_in));
*addr = TranslateToSockAddrIn(addr_in); *addr = TranslateToSockAddrIn(addr_in);
} }
return {result, Errno::SUCCESS}; return {static_cast<s32>(result), Errno::SUCCESS};
} }
switch (const int ec = LastError()) { switch (const int ec = LastError()) {
@ -558,10 +558,10 @@ std::pair<s32, Errno> Socket::Send(const std::vector<u8>& message, int flags) {
ASSERT(message.size() < static_cast<size_t>(std::numeric_limits<int>::max())); ASSERT(message.size() < static_cast<size_t>(std::numeric_limits<int>::max()));
ASSERT(flags == 0); ASSERT(flags == 0);
const int result = send(fd, reinterpret_cast<const char*>(message.data()), const auto result = send(fd, reinterpret_cast<const char*>(message.data()),
static_cast<int>(message.size()), 0); static_cast<int>(message.size()), 0);
if (result != SOCKET_ERROR) { if (result != SOCKET_ERROR) {
return {result, Errno::SUCCESS}; return {static_cast<s32>(result), Errno::SUCCESS};
} }
const int ec = LastError(); const int ec = LastError();
@ -591,10 +591,10 @@ std::pair<s32, Errno> Socket::SendTo(u32 flags, const std::vector<u8>& message,
to = &host_addr_in; to = &host_addr_in;
} }
const int result = sendto(fd, reinterpret_cast<const char*>(message.data()), const auto result = sendto(fd, reinterpret_cast<const char*>(message.data()),
static_cast<int>(message.size()), 0, to, tolen); static_cast<int>(message.size()), 0, to, tolen);
if (result != SOCKET_ERROR) { if (result != SOCKET_ERROR) {
return {result, Errno::SUCCESS}; return {static_cast<s32>(result), Errno::SUCCESS};
} }
const int ec = LastError(); const int ec = LastError();

View File

@ -67,28 +67,25 @@ struct Client::Impl {
const std::string& jwt = "", const std::string& username = "", const std::string& jwt = "", const std::string& username = "",
const std::string& token = "") { const std::string& token = "") {
if (cli == nullptr) { if (cli == nullptr) {
auto parsedUrl = LUrlParser::clParseURL::ParseURL(host); const auto parsedUrl = LUrlParser::clParseURL::ParseURL(host);
int port; int port{};
if (parsedUrl.m_Scheme == "http") { if (parsedUrl.m_Scheme == "http") {
if (!parsedUrl.GetPort(&port)) { if (!parsedUrl.GetPort(&port)) {
port = HTTP_PORT; port = HTTP_PORT;
} }
cli = std::make_unique<httplib::Client>(parsedUrl.m_Host.c_str(), port);
} else if (parsedUrl.m_Scheme == "https") { } else if (parsedUrl.m_Scheme == "https") {
if (!parsedUrl.GetPort(&port)) { if (!parsedUrl.GetPort(&port)) {
port = HTTPS_PORT; port = HTTPS_PORT;
} }
cli = std::make_unique<httplib::SSLClient>(parsedUrl.m_Host.c_str(), port);
} else { } else {
LOG_ERROR(WebService, "Bad URL scheme {}", parsedUrl.m_Scheme); LOG_ERROR(WebService, "Bad URL scheme {}", parsedUrl.m_Scheme);
return WebResult{WebResult::Code::InvalidURL, "Bad URL scheme", ""}; return WebResult{WebResult::Code::InvalidURL, "Bad URL scheme", ""};
} }
cli = std::make_unique<httplib::Client>(parsedUrl.m_Host.c_str(), port);
} }
if (cli == nullptr) { cli->set_connection_timeout(TIMEOUT_SECONDS);
LOG_ERROR(WebService, "Invalid URL {}", host + path); cli->set_read_timeout(TIMEOUT_SECONDS);
return WebResult{WebResult::Code::InvalidURL, "Invalid URL", ""}; cli->set_write_timeout(TIMEOUT_SECONDS);
}
cli->set_timeout_sec(TIMEOUT_SECONDS);
httplib::Headers params; httplib::Headers params;
if (!jwt.empty()) { if (!jwt.empty()) {