// Copyright 2017 Citra Emulator Project // Licensed under GPLv2 or any later version // Refer to the license.txt file included. #include #include #include #include #include #include "common/bit_field.h" #include "common/common_types.h" #include "common/file_util.h" #include "common/logging/log.h" #include "common/scm_rev.h" #include "common/string_util.h" #include "common/swap.h" #include "common/timer.h" #include "core/core.h" #include "core/hle/service/hid/hid.h" #include "core/hle/service/ir/extra_hid.h" #include "core/hle/service/ir/ir_rst.h" #include "core/movie.h" namespace Core { /*static*/ Movie Movie::s_instance; enum class PlayMode { None, Recording, Playing }; enum class ControllerStateType : u8 { PadAndCircle, Touch, Accelerometer, Gyroscope, IrRst, ExtraHidResponse }; #pragma pack(push, 1) struct ControllerState { ControllerStateType type; union { struct { union { u16_le hex; BitField<0, 1, u16_le> a; BitField<1, 1, u16_le> b; BitField<2, 1, u16_le> select; BitField<3, 1, u16_le> start; BitField<4, 1, u16_le> right; BitField<5, 1, u16_le> left; BitField<6, 1, u16_le> up; BitField<7, 1, u16_le> down; BitField<8, 1, u16_le> r; BitField<9, 1, u16_le> l; BitField<10, 1, u16_le> x; BitField<11, 1, u16_le> y; BitField<12, 1, u16_le> debug; BitField<13, 1, u16_le> gpio14; // Bits 14-15 are currently unused }; s16_le circle_pad_x; s16_le circle_pad_y; } pad_and_circle; struct { u16_le x; u16_le y; // This is a bool, u8 for platform compatibility u8 valid; } touch; struct { s16_le x; s16_le y; s16_le z; } accelerometer; struct { s16_le x; s16_le y; s16_le z; } gyroscope; struct { s16_le x; s16_le y; // These are bool, u8 for platform compatibility u8 zl; u8 zr; } ir_rst; struct { union { u32_le hex; BitField<0, 5, u32_le> battery_level; BitField<5, 1, u32_le> zl_not_held; BitField<6, 1, u32_le> zr_not_held; BitField<7, 1, u32_le> r_not_held; BitField<8, 12, u32_le> c_stick_x; BitField<20, 12, u32_le> c_stick_y; }; } extra_hid_response; }; }; static_assert(sizeof(ControllerState) == 7, "ControllerState should be 7 bytes"); #pragma pack(pop) constexpr std::array header_magic_bytes{{'C', 'T', 'M', 0x1B}}; #pragma pack(push, 1) struct CTMHeader { std::array filetype; /// Unique Identifier to check the file type (always "CTM"0x1B) u64_le program_id; /// ID of the ROM being executed. Also called title_id std::array revision; /// Git hash of the revision this movie was created with u64_le clock_init_time; /// The init time of the system clock std::array reserved; /// Make heading 256 bytes so it has consistent size }; static_assert(sizeof(CTMHeader) == 256, "CTMHeader should be 256 bytes"); #pragma pack(pop) bool Movie::IsPlayingInput() const { return play_mode == PlayMode::Playing; } bool Movie::IsRecordingInput() const { return play_mode == PlayMode::Recording; } void Movie::CheckInputEnd() { if (current_byte + sizeof(ControllerState) > recorded_input.size()) { LOG_INFO(Movie, "Playback finished"); play_mode = PlayMode::None; init_time = 0; playback_completion_callback(); } } void Movie::Play(Service::HID::PadState& pad_state, s16& circle_pad_x, s16& circle_pad_y) { ControllerState s; std::memcpy(&s, &recorded_input[current_byte], sizeof(ControllerState)); current_byte += sizeof(ControllerState); if (s.type != ControllerStateType::PadAndCircle) { LOG_ERROR(Movie, "Expected to read type {}, but found {}. Your playback will be out of sync", static_cast(ControllerStateType::PadAndCircle), static_cast(s.type)); return; } pad_state.a.Assign(s.pad_and_circle.a); pad_state.b.Assign(s.pad_and_circle.b); pad_state.select.Assign(s.pad_and_circle.select); pad_state.start.Assign(s.pad_and_circle.start); pad_state.right.Assign(s.pad_and_circle.right); pad_state.left.Assign(s.pad_and_circle.left); pad_state.up.Assign(s.pad_and_circle.up); pad_state.down.Assign(s.pad_and_circle.down); pad_state.r.Assign(s.pad_and_circle.r); pad_state.l.Assign(s.pad_and_circle.l); pad_state.x.Assign(s.pad_and_circle.x); pad_state.y.Assign(s.pad_and_circle.y); pad_state.debug.Assign(s.pad_and_circle.debug); pad_state.gpio14.Assign(s.pad_and_circle.gpio14); circle_pad_x = s.pad_and_circle.circle_pad_x; circle_pad_y = s.pad_and_circle.circle_pad_y; } void Movie::Play(Service::HID::TouchDataEntry& touch_data) { ControllerState s; std::memcpy(&s, &recorded_input[current_byte], sizeof(ControllerState)); current_byte += sizeof(ControllerState); if (s.type != ControllerStateType::Touch) { LOG_ERROR(Movie, "Expected to read type {}, but found {}. Your playback will be out of sync", static_cast(ControllerStateType::Touch), static_cast(s.type)); return; } touch_data.x = s.touch.x; touch_data.y = s.touch.y; touch_data.valid.Assign(s.touch.valid); } void Movie::Play(Service::HID::AccelerometerDataEntry& accelerometer_data) { ControllerState s; std::memcpy(&s, &recorded_input[current_byte], sizeof(ControllerState)); current_byte += sizeof(ControllerState); if (s.type != ControllerStateType::Accelerometer) { LOG_ERROR(Movie, "Expected to read type {}, but found {}. Your playback will be out of sync", static_cast(ControllerStateType::Accelerometer), static_cast(s.type)); return; } accelerometer_data.x = s.accelerometer.x; accelerometer_data.y = s.accelerometer.y; accelerometer_data.z = s.accelerometer.z; } void Movie::Play(Service::HID::GyroscopeDataEntry& gyroscope_data) { ControllerState s; std::memcpy(&s, &recorded_input[current_byte], sizeof(ControllerState)); current_byte += sizeof(ControllerState); if (s.type != ControllerStateType::Gyroscope) { LOG_ERROR(Movie, "Expected to read type {}, but found {}. Your playback will be out of sync", static_cast(ControllerStateType::Gyroscope), static_cast(s.type)); return; } gyroscope_data.x = s.gyroscope.x; gyroscope_data.y = s.gyroscope.y; gyroscope_data.z = s.gyroscope.z; } void Movie::Play(Service::IR::PadState& pad_state, s16& c_stick_x, s16& c_stick_y) { ControllerState s; std::memcpy(&s, &recorded_input[current_byte], sizeof(ControllerState)); current_byte += sizeof(ControllerState); if (s.type != ControllerStateType::IrRst) { LOG_ERROR(Movie, "Expected to read type {}, but found {}. Your playback will be out of sync", static_cast(ControllerStateType::IrRst), static_cast(s.type)); return; } c_stick_x = s.ir_rst.x; c_stick_y = s.ir_rst.y; pad_state.zl.Assign(s.ir_rst.zl); pad_state.zr.Assign(s.ir_rst.zr); } void Movie::Play(Service::IR::ExtraHIDResponse& extra_hid_response) { ControllerState s; std::memcpy(&s, &recorded_input[current_byte], sizeof(ControllerState)); current_byte += sizeof(ControllerState); if (s.type != ControllerStateType::ExtraHidResponse) { LOG_ERROR( Movie, "Expected to read type {}, but found {}. Your playback will be out of sync", static_cast(ControllerStateType::ExtraHidResponse), static_cast(s.type)); return; } extra_hid_response.buttons.battery_level.Assign( static_cast(s.extra_hid_response.battery_level)); extra_hid_response.c_stick.c_stick_x.Assign(s.extra_hid_response.c_stick_x); extra_hid_response.c_stick.c_stick_y.Assign(s.extra_hid_response.c_stick_y); extra_hid_response.buttons.r_not_held.Assign(static_cast(s.extra_hid_response.r_not_held)); extra_hid_response.buttons.zl_not_held.Assign( static_cast(s.extra_hid_response.zl_not_held)); extra_hid_response.buttons.zr_not_held.Assign( static_cast(s.extra_hid_response.zr_not_held)); } void Movie::Record(const ControllerState& controller_state) { recorded_input.resize(current_byte + sizeof(ControllerState)); std::memcpy(&recorded_input[current_byte], &controller_state, sizeof(ControllerState)); current_byte += sizeof(ControllerState); } void Movie::Record(const Service::HID::PadState& pad_state, const s16& circle_pad_x, const s16& circle_pad_y) { ControllerState s; s.type = ControllerStateType::PadAndCircle; s.pad_and_circle.a.Assign(static_cast(pad_state.a)); s.pad_and_circle.b.Assign(static_cast(pad_state.b)); s.pad_and_circle.select.Assign(static_cast(pad_state.select)); s.pad_and_circle.start.Assign(static_cast(pad_state.start)); s.pad_and_circle.right.Assign(static_cast(pad_state.right)); s.pad_and_circle.left.Assign(static_cast(pad_state.left)); s.pad_and_circle.up.Assign(static_cast(pad_state.up)); s.pad_and_circle.down.Assign(static_cast(pad_state.down)); s.pad_and_circle.r.Assign(static_cast(pad_state.r)); s.pad_and_circle.l.Assign(static_cast(pad_state.l)); s.pad_and_circle.x.Assign(static_cast(pad_state.x)); s.pad_and_circle.y.Assign(static_cast(pad_state.y)); s.pad_and_circle.debug.Assign(static_cast(pad_state.debug)); s.pad_and_circle.gpio14.Assign(static_cast(pad_state.gpio14)); s.pad_and_circle.circle_pad_x = circle_pad_x; s.pad_and_circle.circle_pad_y = circle_pad_y; Record(s); } void Movie::Record(const Service::HID::TouchDataEntry& touch_data) { ControllerState s; s.type = ControllerStateType::Touch; s.touch.x = touch_data.x; s.touch.y = touch_data.y; s.touch.valid = static_cast(touch_data.valid); Record(s); } void Movie::Record(const Service::HID::AccelerometerDataEntry& accelerometer_data) { ControllerState s; s.type = ControllerStateType::Accelerometer; s.accelerometer.x = accelerometer_data.x; s.accelerometer.y = accelerometer_data.y; s.accelerometer.z = accelerometer_data.z; Record(s); } void Movie::Record(const Service::HID::GyroscopeDataEntry& gyroscope_data) { ControllerState s; s.type = ControllerStateType::Gyroscope; s.gyroscope.x = gyroscope_data.x; s.gyroscope.y = gyroscope_data.y; s.gyroscope.z = gyroscope_data.z; Record(s); } void Movie::Record(const Service::IR::PadState& pad_state, const s16& c_stick_x, const s16& c_stick_y) { ControllerState s; s.type = ControllerStateType::IrRst; s.ir_rst.x = c_stick_x; s.ir_rst.y = c_stick_y; s.ir_rst.zl = static_cast(pad_state.zl); s.ir_rst.zr = static_cast(pad_state.zr); Record(s); } void Movie::Record(const Service::IR::ExtraHIDResponse& extra_hid_response) { ControllerState s; s.type = ControllerStateType::ExtraHidResponse; s.extra_hid_response.battery_level.Assign(extra_hid_response.buttons.battery_level); s.extra_hid_response.c_stick_x.Assign(extra_hid_response.c_stick.c_stick_x); s.extra_hid_response.c_stick_y.Assign(extra_hid_response.c_stick.c_stick_y); s.extra_hid_response.r_not_held.Assign(extra_hid_response.buttons.r_not_held); s.extra_hid_response.zl_not_held.Assign(extra_hid_response.buttons.zl_not_held); s.extra_hid_response.zr_not_held.Assign(extra_hid_response.buttons.zr_not_held); Record(s); } u64 Movie::GetOverrideInitTime() const { return init_time; } Movie::ValidationResult Movie::ValidateHeader(const CTMHeader& header, u64 program_id) const { if (header_magic_bytes != header.filetype) { LOG_ERROR(Movie, "Playback file does not have valid header"); return ValidationResult::Invalid; } std::string revision = fmt::format("{:02x}", fmt::join(header.revision, "")); if (!program_id) Core::System::GetInstance().GetAppLoader().ReadProgramId(program_id); if (program_id != header.program_id) { LOG_WARNING(Movie, "This movie was recorded using a ROM with a different program id"); return ValidationResult::GameDismatch; } if (revision != Common::g_scm_rev) { LOG_WARNING(Movie, "This movie was created on a different version of Citra, playback may desync"); return ValidationResult::RevisionDismatch; } return ValidationResult::OK; } void Movie::SaveMovie() { LOG_INFO(Movie, "Saving recorded movie to '{}'", record_movie_file); FileUtil::IOFile save_record(record_movie_file, "wb"); if (!save_record.IsGood()) { LOG_ERROR(Movie, "Unable to open file to save movie"); return; } CTMHeader header = {}; header.filetype = header_magic_bytes; header.clock_init_time = init_time; Core::System::GetInstance().GetAppLoader().ReadProgramId(header.program_id); std::string rev_bytes; CryptoPP::StringSource(Common::g_scm_rev, true, new CryptoPP::HexDecoder(new CryptoPP::StringSink(rev_bytes))); std::memcpy(header.revision.data(), rev_bytes.data(), sizeof(CTMHeader::revision)); save_record.WriteBytes(&header, sizeof(CTMHeader)); save_record.WriteBytes(recorded_input.data(), recorded_input.size()); if (!save_record.IsGood()) { LOG_ERROR(Movie, "Error saving movie"); } } void Movie::StartPlayback(const std::string& movie_file, std::function completion_callback) { LOG_INFO(Movie, "Loading Movie for playback"); FileUtil::IOFile save_record(movie_file, "rb"); const u64 size = save_record.GetSize(); if (save_record.IsGood() && size > sizeof(CTMHeader)) { CTMHeader header; save_record.ReadArray(&header, 1); if (ValidateHeader(header) != ValidationResult::Invalid) { play_mode = PlayMode::Playing; recorded_input.resize(size - sizeof(CTMHeader)); save_record.ReadArray(recorded_input.data(), recorded_input.size()); current_byte = 0; playback_completion_callback = completion_callback; } } else { LOG_ERROR(Movie, "Failed to playback movie: Unable to open '{}'", movie_file); } } void Movie::StartRecording(const std::string& movie_file) { LOG_INFO(Movie, "Enabling Movie recording"); play_mode = PlayMode::Recording; record_movie_file = movie_file; } static boost::optional ReadHeader(const std::string& movie_file) { FileUtil::IOFile save_record(movie_file, "rb"); const u64 size = save_record.GetSize(); if (!save_record || size <= sizeof(CTMHeader)) { return boost::none; } CTMHeader header; save_record.ReadArray(&header, 1); if (header_magic_bytes != header.filetype) { return boost::none; } return header; } void Movie::PrepareForPlayback(const std::string& movie_file) { auto header = ReadHeader(movie_file); if (header == boost::none) return; init_time = header.value().clock_init_time; } void Movie::PrepareForRecording() { init_time = (Settings::values.init_clock == Settings::InitClock::SystemTime ? Common::Timer::GetTimeSinceJan1970().count() : Settings::values.init_time); } Movie::ValidationResult Movie::ValidateMovie(const std::string& movie_file, u64 program_id) const { LOG_INFO(Movie, "Validating Movie file '{}'", movie_file); auto header = ReadHeader(movie_file); if (header == boost::none) return ValidationResult::Invalid; return ValidateHeader(header.value(), program_id); } u64 Movie::GetMovieProgramID(const std::string& movie_file) const { auto header = ReadHeader(movie_file); if (header == boost::none) return 0; return static_cast(header.value().program_id); } void Movie::Shutdown() { if (IsRecordingInput()) { SaveMovie(); } play_mode = PlayMode::None; recorded_input.resize(0); record_movie_file.clear(); current_byte = 0; init_time = 0; } template void Movie::Handle(Targs&... Fargs) { if (IsPlayingInput()) { ASSERT(current_byte + sizeof(ControllerState) <= recorded_input.size()); Play(Fargs...); CheckInputEnd(); } else if (IsRecordingInput()) { Record(Fargs...); } } void Movie::HandlePadAndCircleStatus(Service::HID::PadState& pad_state, s16& circle_pad_x, s16& circle_pad_y) { Handle(pad_state, circle_pad_x, circle_pad_y); } void Movie::HandleTouchStatus(Service::HID::TouchDataEntry& touch_data) { Handle(touch_data); } void Movie::HandleAccelerometerStatus(Service::HID::AccelerometerDataEntry& accelerometer_data) { Handle(accelerometer_data); } void Movie::HandleGyroscopeStatus(Service::HID::GyroscopeDataEntry& gyroscope_data) { Handle(gyroscope_data); } void Movie::HandleIrRst(Service::IR::PadState& pad_state, s16& c_stick_x, s16& c_stick_y) { Handle(pad_state, c_stick_x, c_stick_y); } void Movie::HandleExtraHidResponse(Service::IR::ExtraHIDResponse& extra_hid_response) { Handle(extra_hid_response); } } // namespace Core