Lime3DS/src/core/movie.cpp
zhupengfei fb14bd956a
citra_qt: Add indicator in status bar
Since we do not have an overlay yet, it can be confusing whether movie is being recorded or played. This makes it clear.

Status messages (e.g. system archive missing) will be overriden, but that shouldn't be too important when recording movies.

Doubled the status bar updating frequency to provide a better experience. It now updates every second.
2021-02-08 11:25:32 +08:00

683 lines
22 KiB
C++

// Copyright 2017 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#include <cstring>
#include <stdexcept>
#include <string>
#include <vector>
#include <boost/optional.hpp>
#include <cryptopp/hex.h>
#include <cryptopp/osrng.h>
#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> a;
BitField<1, 1, u16> b;
BitField<2, 1, u16> select;
BitField<3, 1, u16> start;
BitField<4, 1, u16> right;
BitField<5, 1, u16> left;
BitField<6, 1, u16> up;
BitField<7, 1, u16> down;
BitField<8, 1, u16> r;
BitField<9, 1, u16> l;
BitField<10, 1, u16> x;
BitField<11, 1, u16> y;
BitField<12, 1, u16> debug;
BitField<13, 1, u16> 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> battery_level;
BitField<5, 1, u32> zl_not_held;
BitField<6, 1, u32> zr_not_held;
BitField<7, 1, u32> r_not_held;
BitField<8, 12, u32> c_stick_x;
BitField<20, 12, u32> c_stick_y;
};
} extra_hid_response;
};
};
static_assert(sizeof(ControllerState) == 7, "ControllerState should be 7 bytes");
#pragma pack(pop)
constexpr std::array<u8, 4> header_magic_bytes{{'C', 'T', 'M', 0x1B}};
#pragma pack(push, 1)
struct CTMHeader {
std::array<u8, 4> 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<u8, 20> revision; /// Git hash of the revision this movie was created with
u64_le clock_init_time; /// The init time of the system clock
u64_le id; /// Unique identifier of the movie, used to support separate savestate slots
std::array<char, 32> author; /// Author of the movie
u32_le rerecord_count; /// Number of rerecords when making the movie
u64_le input_count; /// Number of inputs (button and pad states) when making the movie
std::array<u8, 164> reserved; /// Make heading 256 bytes so it has consistent size
};
static_assert(sizeof(CTMHeader) == 256, "CTMHeader should be 256 bytes");
#pragma pack(pop)
static u64 GetInputCount(const std::vector<u8>& input) {
u64 input_count = 0;
for (std::size_t pos = 0; pos < input.size(); pos += sizeof(ControllerState)) {
if (input.size() < pos + sizeof(ControllerState)) {
break;
}
ControllerState state;
std::memcpy(&state, input.data() + pos, sizeof(ControllerState));
if (state.type == ControllerStateType::PadAndCircle) {
input_count++;
}
}
return input_count;
}
template <class Archive>
void Movie::serialize(Archive& ar, const unsigned int file_version) {
// Only serialize what's needed to make savestates useful for TAS:
u64 _current_byte = static_cast<u64>(current_byte);
ar& _current_byte;
current_byte = static_cast<std::size_t>(_current_byte);
if (file_version > 0) {
ar& current_input;
}
std::vector<u8> recorded_input_ = recorded_input;
ar& recorded_input_;
ar& init_time;
if (file_version > 0) {
if (Archive::is_loading::value) {
u64 savestate_movie_id;
ar& savestate_movie_id;
if (id != savestate_movie_id) {
if (savestate_movie_id == 0) {
throw std::runtime_error("You must close your movie to load this state");
} else {
throw std::runtime_error("You must load the same movie to load this state");
}
}
} else {
ar& id;
}
}
if (Archive::is_loading::value && id != 0) {
if (read_only) { // Do not replace the previously recorded input.
if (play_mode == PlayMode::Recording) {
SaveMovie();
}
if (current_byte >= recorded_input.size()) {
throw std::runtime_error(
"This savestate was created at a later point and must be loaded in R+W mode");
}
play_mode = PlayMode::Playing;
total_input = GetInputCount(recorded_input);
} else {
recorded_input = std::move(recorded_input_);
play_mode = PlayMode::Recording;
rerecord_count++;
}
}
}
SERIALIZE_IMPL(Movie)
bool Movie::IsPlayingInput() const {
return play_mode == PlayMode::Playing;
}
bool Movie::IsRecordingInput() const {
return play_mode == PlayMode::Recording;
}
u64 Movie::GetCurrentInputIndex() const {
return current_input;
}
u64 Movie::GetTotalInputCount() const {
return total_input;
}
void Movie::CheckInputEnd() {
if (current_byte + sizeof(ControllerState) > recorded_input.size()) {
LOG_INFO(Movie, "Playback finished");
play_mode = PlayMode::None;
init_time = 0;
id = 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);
current_input++;
if (s.type != ControllerStateType::PadAndCircle) {
LOG_ERROR(Movie,
"Expected to read type {}, but found {}. Your playback will be out of sync",
static_cast<int>(ControllerStateType::PadAndCircle), 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<int>(ControllerStateType::Touch), 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<int>(ControllerStateType::Accelerometer), 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<int>(ControllerStateType::Gyroscope), 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<int>(ControllerStateType::IrRst), 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<int>(ControllerStateType::ExtraHidResponse), s.type);
return;
}
extra_hid_response.buttons.battery_level.Assign(
static_cast<u8>(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<u8>(s.extra_hid_response.r_not_held));
extra_hid_response.buttons.zl_not_held.Assign(
static_cast<u8>(s.extra_hid_response.zl_not_held));
extra_hid_response.buttons.zr_not_held.Assign(
static_cast<u8>(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) {
current_input++;
ControllerState s;
s.type = ControllerStateType::PadAndCircle;
s.pad_and_circle.a.Assign(static_cast<u16>(pad_state.a));
s.pad_and_circle.b.Assign(static_cast<u16>(pad_state.b));
s.pad_and_circle.select.Assign(static_cast<u16>(pad_state.select));
s.pad_and_circle.start.Assign(static_cast<u16>(pad_state.start));
s.pad_and_circle.right.Assign(static_cast<u16>(pad_state.right));
s.pad_and_circle.left.Assign(static_cast<u16>(pad_state.left));
s.pad_and_circle.up.Assign(static_cast<u16>(pad_state.up));
s.pad_and_circle.down.Assign(static_cast<u16>(pad_state.down));
s.pad_and_circle.r.Assign(static_cast<u16>(pad_state.r));
s.pad_and_circle.l.Assign(static_cast<u16>(pad_state.l));
s.pad_and_circle.x.Assign(static_cast<u16>(pad_state.x));
s.pad_and_circle.y.Assign(static_cast<u16>(pad_state.y));
s.pad_and_circle.debug.Assign(static_cast<u16>(pad_state.debug));
s.pad_and_circle.gpio14.Assign(static_cast<u16>(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<u8>(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<u8>(pad_state.zl);
s.ir_rst.zr = static_cast<u8>(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) 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 (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;
}
Movie::ValidationResult Movie::ValidateInput(const std::vector<u8>& input,
u64 expected_count) const {
return GetInputCount(input) == expected_count ? ValidationResult::OK
: ValidationResult::InputCountDismatch;
}
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;
header.id = id;
std::memcpy(header.author.data(), record_movie_author.data(),
std::min(header.author.size(), record_movie_author.size()));
header.rerecord_count = rerecord_count;
header.input_count = GetInputCount(recorded_input);
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::SetPlaybackCompletionCallback(std::function<void()> completion_callback) {
playback_completion_callback = completion_callback;
}
void Movie::StartPlayback(const std::string& movie_file) {
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;
record_movie_file = movie_file;
std::array<char, 33> author{}; // Add a null terminator
std::memcpy(author.data(), header.author.data(), header.author.size());
record_movie_author = author.data();
rerecord_count = header.rerecord_count;
total_input = header.input_count;
recorded_input.resize(size - sizeof(CTMHeader));
save_record.ReadArray(recorded_input.data(), recorded_input.size());
current_byte = 0;
current_input = 0;
id = header.id;
LOG_INFO(Movie, "Loaded Movie, ID: {:016X}", id);
}
} else {
LOG_ERROR(Movie, "Failed to playback movie: Unable to open '{}'", movie_file);
}
}
void Movie::StartRecording(const std::string& movie_file, const std::string& author) {
play_mode = PlayMode::Recording;
record_movie_file = movie_file;
record_movie_author = author;
rerecord_count = 1;
// Generate a random ID
CryptoPP::AutoSeededRandomPool rng;
rng.GenerateBlock(reinterpret_cast<CryptoPP::byte*>(&id), sizeof(id));
LOG_INFO(Movie, "Enabling Movie recording, ID: {:016X}", id);
}
void Movie::SetReadOnly(bool read_only_) {
read_only = read_only_;
}
static boost::optional<CTMHeader> 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) const {
LOG_INFO(Movie, "Validating Movie file '{}'", movie_file);
FileUtil::IOFile save_record(movie_file, "rb");
const u64 size = save_record.GetSize();
if (!save_record || size <= sizeof(CTMHeader)) {
return ValidationResult::Invalid;
}
CTMHeader header;
save_record.ReadArray(&header, 1);
if (header_magic_bytes != header.filetype) {
return ValidationResult::Invalid;
}
auto result = ValidateHeader(header);
if (result != ValidationResult::OK) {
return result;
}
if (!header.input_count) { // Probably created by an older version.
return ValidationResult::OK;
}
std::vector<u8> input(size - sizeof(header));
save_record.ReadArray(input.data(), input.size());
return ValidateInput(input, header.input_count);
}
Movie::MovieMetadata Movie::GetMovieMetadata(const std::string& movie_file) const {
auto header = ReadHeader(movie_file);
if (header == boost::none)
return {};
std::array<char, 33> author{}; // Add a null terminator
std::memcpy(author.data(), header->author.data(), header->author.size());
return {header->program_id, std::string{author.data()}, header->rerecord_count,
header->input_count};
}
void Movie::Shutdown() {
if (IsRecordingInput()) {
SaveMovie();
}
play_mode = PlayMode::None;
recorded_input.resize(0);
record_movie_file.clear();
current_byte = 0;
current_input = 0;
init_time = 0;
id = 0;
}
template <typename... Targs>
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