MSXMotherBoard.cc

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#include "MSXMotherBoard.hh"
 
#include "BooleanSetting.hh"
#include "CartridgeSlotManager.hh"
#include "CassettePort.hh"
#include "Command.hh"
#include "CommandException.hh"
#include "ConfigException.hh"
#include "Debugger.hh"
#include "DeviceFactory.hh"
#include "EventDelay.hh"
#include "EventDistributor.hh"
#include "FileException.hh"
#include "GlobalCliComm.hh"
#include "GlobalSettings.hh"
#include "HardwareConfig.hh"
#include "InfoTopic.hh"
#include "JoystickPort.hh"
#include "LedStatus.hh"
#include "MSXCPU.hh"
#include "MSXCPUInterface.hh"
#include "MSXCliComm.hh"
#include "MSXCommandController.hh"
#include "MSXDevice.hh"
#include "MSXDeviceSwitch.hh"
#include "MSXEventDistributor.hh"
#include "MSXMapperIO.hh"
#include "MSXMixer.hh"
#include "Observer.hh"
#include "PanasonicMemory.hh"
#include "PluggingController.hh"
#include "Reactor.hh"
#include "RealTime.hh"
#include "RenShaTurbo.hh"
#include "ReverseManager.hh"
#include "Schedulable.hh"
#include "Scheduler.hh"
#include "SimpleDebuggable.hh"
#include "StateChangeDistributor.hh"
#include "TclObject.hh"
#include "XMLElement.hh"
#include "serialize.hh"
#include "serialize_stl.hh"
 
#include "ScopedAssign.hh"
#include "one_of.hh"
#include "ranges.hh"
#include "stl.hh"
#include "unreachable.hh"
#include "view.hh"
 
#include <cassert>
#include <functional>
#include <iostream>
#include <memory>
 
using std::make_unique;
using std::string;
 
namespace openmsx {
 
class AddRemoveUpdate
{
public:
        explicit AddRemoveUpdate(MSXMotherBoard& motherBoard);
        AddRemoveUpdate(const AddRemoveUpdate&) = delete;
        AddRemoveUpdate(AddRemoveUpdate&&) = delete;
        AddRemoveUpdate& operator=(const AddRemoveUpdate&) = delete;
        AddRemoveUpdate& operator=(AddRemoveUpdate&&) = delete;
        ~AddRemoveUpdate();
private:
        MSXMotherBoard& motherBoard;
};
 
class ResetCmd final : public RecordedCommand
{
public:
        explicit ResetCmd(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens, TclObject& result,
                     EmuTime::param time) override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class LoadMachineCmd final : public Command
{
public:
        explicit LoadMachineCmd(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens, TclObject& result) override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
        void tabCompletion(std::vector<string>& tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class ListExtCmd final : public Command
{
public:
        explicit ListExtCmd(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens, TclObject& result) override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class RemoveExtCmd final : public RecordedCommand
{
public:
        explicit RemoveExtCmd(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens, TclObject& result,
                     EmuTime::param time) override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
        void tabCompletion(std::vector<string>& tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class MachineNameInfo final : public InfoTopic
{
public:
        explicit MachineNameInfo(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens,
                     TclObject& result) const override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class MachineTypeInfo final : public InfoTopic
{
public:
        explicit MachineTypeInfo(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens,
                     TclObject& result) const override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class MachineExtensionInfo final : public InfoTopic
{
public:
        explicit MachineExtensionInfo(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens,
                     TclObject& result) const override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
        void tabCompletion(std::vector<string>& tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class MachineMediaInfo final : public InfoTopic
{
public:
        explicit MachineMediaInfo(MSXMotherBoard& motherBoard);
        ~MachineMediaInfo() {
                assert(providers.empty());
        }
        void execute(std::span<const TclObject> tokens,
                     TclObject& result) const override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
        void tabCompletion(std::vector<string>& tokens) const override;
        void registerProvider(std::string_view name, MediaInfoProvider& provider);
        void unregisterProvider(MediaInfoProvider& provider);
private:
        struct ProviderInfo {
                ProviderInfo(std::string_view n, MediaInfoProvider* p)
                        : name(n), provider(p) {} // clang-15 workaround
                std::string_view name;
                MediaInfoProvider* provider;
        };
        // There will only be a handful of providers, use an unsorted vector.
        std::vector<ProviderInfo> providers;
};
 
class DeviceInfo final : public InfoTopic
{
public:
        explicit DeviceInfo(MSXMotherBoard& motherBoard);
        void execute(std::span<const TclObject> tokens,
                     TclObject& result) const override;
        [[nodiscard]] string help(std::span<const TclObject> tokens) const override;
        void tabCompletion(std::vector<string>& tokens) const override;
private:
        MSXMotherBoard& motherBoard;
};
 
class FastForwardHelper final : private Schedulable
{
public:
        explicit FastForwardHelper(MSXMotherBoard& motherBoard);
        void setTarget(EmuTime::param targetTime);
private:
        void executeUntil(EmuTime::param time) override;
        MSXMotherBoard& motherBoard;
};
 
class JoyPortDebuggable final : public SimpleDebuggable
{
public:
        explicit JoyPortDebuggable(MSXMotherBoard& motherBoard);
        [[nodiscard]] byte read(unsigned address, EmuTime::param time) override;
        void write(unsigned address, byte value) override;
};
 
class SettingObserver final : public Observer<Setting>
{
public:
        explicit SettingObserver(MSXMotherBoard& motherBoard);
        void update(const Setting& setting) noexcept override;
private:
        MSXMotherBoard& motherBoard;
};
 
 
static unsigned machineIDCounter = 0;
 
MSXMotherBoard::MSXMotherBoard(Reactor& reactor_)
        : reactor(reactor_)
        , machineID(strCat("machine", ++machineIDCounter))
        , msxCliComm(make_unique<MSXCliComm>(*this, reactor.getGlobalCliComm()))
        , msxEventDistributor(make_unique<MSXEventDistributor>())
        , stateChangeDistributor(make_unique<StateChangeDistributor>())
        , msxCommandController(make_unique<MSXCommandController>(
                reactor.getGlobalCommandController(), reactor,
                *this, *msxEventDistributor, machineID))
        , scheduler(make_unique<Scheduler>())
        , msxMixer(make_unique<MSXMixer>(
                reactor.getMixer(), *this,
                reactor.getGlobalSettings()))
        , videoSourceSetting(*msxCommandController)
        , suppressMessagesSetting(*msxCommandController, "suppressmessages",
                "Suppress info, warning and error messages for this machine. "
                "Intended use is for scripts that create temporary machines "
                "of which you don't want to see warning messages about blank "
                "SRAM content or PSG port directions for instance.",
                false, Setting::Save::NO)
        , fastForwardHelper(make_unique<FastForwardHelper>(*this))
        , settingObserver(make_unique<SettingObserver>(*this))
        , powerSetting(reactor.getGlobalSettings().getPowerSetting())
{
        slotManager = make_unique<CartridgeSlotManager>(*this);
        reverseManager = make_unique<ReverseManager>(*this);
        resetCommand = make_unique<ResetCmd>(*this);
        loadMachineCommand = make_unique<LoadMachineCmd>(*this);
        listExtCommand = make_unique<ListExtCmd>(*this);
        extCommand = make_unique<ExtCmd>(*this, "ext");
        removeExtCommand = make_unique<RemoveExtCmd>(*this);
        machineNameInfo = make_unique<MachineNameInfo>(*this);
        machineTypeInfo = make_unique<MachineTypeInfo>(*this);
        machineExtensionInfo = make_unique<MachineExtensionInfo>(*this);
        machineMediaInfo = make_unique<MachineMediaInfo>(*this);
        deviceInfo = make_unique<DeviceInfo>(*this);
        debugger = make_unique<Debugger>(*this);
 
        // Do this before machine-specific settings are created, otherwise
        // a setting-info CliComm message is send with a machine id that hasn't
        // been announced yet over CliComm.
        addRemoveUpdate = make_unique<AddRemoveUpdate>(*this);
 
        // TODO: Initialization of this field cannot be done much earlier because
        //       EventDelay creates a setting, calling getMSXCliComm()
        //       on MSXMotherBoard, so "pimpl" has to be set up already.
        eventDelay = make_unique<EventDelay>(
                *scheduler, *msxCommandController,
                reactor.getEventDistributor(), *msxEventDistributor,
                *reverseManager);
        realTime = make_unique<RealTime>(
                *this, reactor.getGlobalSettings(), *eventDelay);
 
        powerSetting.attach(*settingObserver);
        suppressMessagesSetting.attach(*settingObserver);
}
 
MSXMotherBoard::~MSXMotherBoard()
{
        suppressMessagesSetting.detach(*settingObserver);
        powerSetting.detach(*settingObserver);
        deleteMachine();
 
        assert(mapperIOCounter == 0);
        assert(availableDevices.empty());
        assert(extensions.empty());
        assert(!machineConfig2);
        assert(!getMachineConfig());
}
 
void MSXMotherBoard::deleteMachine()
{
        while (!extensions.empty()) {
                try {
                        removeExtension(*extensions.back());
                } catch (MSXException& e) {
                        std::cerr << "Internal error: failed to remove "
                                     "extension while deleting a machine: "
                                  << e.getMessage() << '\n';
                        assert(false);
                }
        }
 
        machineConfig2.reset();
        machineConfig = nullptr;
}
 
void MSXMotherBoard::setMachineConfig(HardwareConfig* machineConfig_)
{
        assert(!getMachineConfig());
        machineConfig = machineConfig_;
 
        // make sure the CPU gets instantiated from the main thread
        assert(!msxCpu);
        msxCpu = make_unique<MSXCPU>(*this);
        msxCpuInterface = make_unique<MSXCPUInterface>(*this);
}
 
std::string_view MSXMotherBoard::getMachineType() const
{
        if (const HardwareConfig* machine = getMachineConfig()) {
                if (const auto* info = machine->getConfig().findChild("info")) {
                        if (const auto* type = info->findChild("type")) {
                                return type->getData();
                        }
                }
        }
        return "";
}
 
bool MSXMotherBoard::isTurboR() const
{
        const HardwareConfig* config = getMachineConfig();
        assert(config);
        return config->getConfig().getChild("devices").findChild("S1990") != nullptr;
}
 
bool MSXMotherBoard::hasToshibaEngine() const
{
        const HardwareConfig* config = getMachineConfig();
        assert(config);
        const XMLElement& devices = config->getConfig().getChild("devices");
        return devices.findChild("T7775") != nullptr ||
               devices.findChild("T7937") != nullptr ||
                   devices.findChild("T9763") != nullptr ||
                   devices.findChild("T9769") != nullptr;
}
 
string MSXMotherBoard::loadMachine(const string& machine)
{
        assert(machineName.empty());
        assert(extensions.empty());
        assert(!machineConfig2);
        assert(!getMachineConfig());
 
        try {
                machineConfig2 = HardwareConfig::createMachineConfig(*this, machine);
                setMachineConfig(machineConfig2.get());
        } catch (FileException& e) {
                throw MSXException("Machine \"", machine, "\" not found: ",
                                   e.getMessage());
        } catch (MSXException& e) {
                throw MSXException("Error in \"", machine, "\" machine: ",
                                   e.getMessage());
        }
        try {
                machineConfig->parseSlots();
                machineConfig->createDevices();
        } catch (MSXException& e) {
                throw MSXException("Error in \"", machine, "\" machine: ",
                                   e.getMessage());
        }
        if (powerSetting.getBoolean()) {
                powerUp();
        }
        machineName = machine;
        return machineName;
}
 
std::unique_ptr<HardwareConfig> MSXMotherBoard::loadExtension(std::string_view name, std::string_view slotName)
{
        try {
                return HardwareConfig::createExtensionConfig(
                        *this, string(name), slotName);
        } catch (FileException& e) {
                throw MSXException(
                        "Extension \"", name, "\" not found: ", e.getMessage());
        } catch (MSXException& e) {
                throw MSXException(
                        "Error in \"", name, "\" extension: ", e.getMessage());
        }
}
 
string MSXMotherBoard::insertExtension(
        std::string_view name, std::unique_ptr<HardwareConfig> extension)
{
        try {
                extension->parseSlots();
                extension->createDevices();
        } catch (MSXException& e) {
                throw MSXException(
                        "Error in \"", name, "\" extension: ", e.getMessage());
        }
        string result = extension->getName();
        extensions.push_back(std::move(extension));
        getMSXCliComm().update(CliComm::UpdateType::EXTENSION, result, "add");
        return result;
}
 
HardwareConfig* MSXMotherBoard::findExtension(std::string_view extensionName)
{
        auto it = ranges::find(extensions, extensionName, &HardwareConfig::getName);
        return (it != end(extensions)) ? it->get() : nullptr;
}
 
void MSXMotherBoard::removeExtension(const HardwareConfig& extension)
{
        extension.testRemove();
        getMSXCliComm().update(CliComm::UpdateType::EXTENSION, extension.getName(), "remove");
        auto it = rfind_unguarded(extensions, &extension,
                                  [](auto& e) { return e.get(); });
        extensions.erase(it);
}
 
MSXCliComm& MSXMotherBoard::getMSXCliComm()
{
        return *msxCliComm;
}
 
PluggingController& MSXMotherBoard::getPluggingController()
{
        assert(getMachineConfig()); // needed for PluggableFactory::createAll()
        if (!pluggingController) {
                pluggingController = make_unique<PluggingController>(*this);
        }
        return *pluggingController;
}
 
MSXCPU& MSXMotherBoard::getCPU()
{
        assert(getMachineConfig()); // because CPU needs to know if we're
                                    // emulating turbor or not
        return *msxCpu;
}
 
MSXCPUInterface& MSXMotherBoard::getCPUInterface()
{
        assert(getMachineConfig());
        return *msxCpuInterface;
}
 
PanasonicMemory& MSXMotherBoard::getPanasonicMemory()
{
        if (!panasonicMemory) {
                panasonicMemory = make_unique<PanasonicMemory>(*this);
        }
        return *panasonicMemory;
}
 
MSXDeviceSwitch& MSXMotherBoard::getDeviceSwitch()
{
        if (!deviceSwitch) {
                deviceSwitch = DeviceFactory::createDeviceSwitch(*getMachineConfig());
        }
        return *deviceSwitch;
}
 
CassettePortInterface& MSXMotherBoard::getCassettePort()
{
        if (!cassettePort) {
                assert(getMachineConfig());
                if (getMachineConfig()->getConfig().findChild("CassettePort")) {
                        cassettePort = make_unique<CassettePort>(*getMachineConfig());
                } else {
                        cassettePort = make_unique<DummyCassettePort>();
                }
        }
        return *cassettePort;
}
 
JoystickPortIf& MSXMotherBoard::getJoystickPort(unsigned port)
{
        assert(port < 2);
        if (!joystickPort[0]) {
                assert(getMachineConfig());
                // some MSX machines only have 1 instead of 2 joystick ports
                std::string_view ports = getMachineConfig()->getConfig().getChildData(
                        "JoystickPorts", "AB");
                if (ports != one_of("AB", "", "A", "B")) {
                        throw ConfigException(
                                "Invalid JoystickPorts specification, "
                                "should be one of '', 'A', 'B' or 'AB'.");
                }
                PluggingController& ctrl = getPluggingController();
                if (ports == one_of("AB", "A")) {
                        joystickPort[0] = make_unique<JoystickPort>(
                                ctrl, "joyporta", "MSX Joystick port A");
                } else {
                        joystickPort[0] = make_unique<DummyJoystickPort>();
                }
                if (ports == one_of("AB", "B")) {
                        joystickPort[1] = make_unique<JoystickPort>(
                                ctrl, "joyportb", "MSX Joystick port B");
                } else {
                        joystickPort[1] = make_unique<DummyJoystickPort>();
                }
                joyPortDebuggable = make_unique<JoyPortDebuggable>(*this);
        }
        return *joystickPort[port];
}
 
RenShaTurbo& MSXMotherBoard::getRenShaTurbo()
{
        if (!renShaTurbo) {
                assert(getMachineConfig());
                renShaTurbo = make_unique<RenShaTurbo>(
                        *this,
                        getMachineConfig()->getConfig());
        }
        return *renShaTurbo;
}
 
LedStatus& MSXMotherBoard::getLedStatus()
{
        if (!ledStatus) {
                (void)getMSXCliComm(); // force init, to be on the safe side
                ledStatus = make_unique<LedStatus>(
                        reactor.getRTScheduler(),
                        *msxCommandController,
                        *msxCliComm);
        }
        return *ledStatus;
}
 
CommandController& MSXMotherBoard::getCommandController()
{
        return *msxCommandController;
}
 
InfoCommand& MSXMotherBoard::getMachineInfoCommand()
{
        return msxCommandController->getMachineInfoCommand();
}
 
EmuTime::param MSXMotherBoard::getCurrentTime() const
{
        return scheduler->getCurrentTime();
}
 
bool MSXMotherBoard::execute()
{
        if (!powered) {
                return false;
        }
        assert(getMachineConfig()); // otherwise powered cannot be true
 
        getCPU().execute(false);
        return true;
}
 
void MSXMotherBoard::fastForward(EmuTime::param time, bool fast)
{
        assert(powered);
        assert(getMachineConfig());
 
        if (time <= getCurrentTime()) return;
 
        ScopedAssign sa(fastForwarding, fast);
        realTime->disable();
        msxMixer->mute();
        fastForwardHelper->setTarget(time);
        while (time > getCurrentTime()) {
                // note: this can run (slightly) past the requested time
                getCPU().execute(true); // fast-forward mode
        }
        realTime->enable();
        msxMixer->unmute();
}
 
void MSXMotherBoard::pause()
{
        if (getMachineConfig()) {
                getCPU().setPaused(true);
        }
        msxMixer->mute();
}
 
void MSXMotherBoard::unpause()
{
        if (getMachineConfig()) {
                getCPU().setPaused(false);
        }
        msxMixer->unmute();
}
 
void MSXMotherBoard::addDevice(MSXDevice& device)
{
        availableDevices.push_back(&device);
}
 
void MSXMotherBoard::removeDevice(MSXDevice& device)
{
        move_pop_back(availableDevices, rfind_unguarded(availableDevices, &device));
}
 
void MSXMotherBoard::doReset()
{
        if (!powered) return;
        assert(getMachineConfig());
 
        EmuTime::param time = getCurrentTime();
        getCPUInterface().reset();
        for (auto& d : availableDevices) {
                d->reset(time);
        }
        getCPU().doReset(time);
        // let everyone know we're booting, note that the fact that this is
        // done after the reset call to the devices is arbitrary here
        reactor.getEventDistributor().distributeEvent(BootEvent());
}
 
byte MSXMotherBoard::readIRQVector() const
{
        byte result = 0xff;
        for (auto& d : availableDevices) {
                result &= d->readIRQVector();
        }
        return result;
}
 
void MSXMotherBoard::powerUp()
{
        if (powered) return;
        if (!getMachineConfig()) return;
 
        powered = true;
        // TODO: If our "powered" field is always equal to the power setting,
        //       there is not really a point in keeping it.
        // TODO: assert disabled see note in Reactor::run() where this method
        //       is called
        //assert(powerSetting.getBoolean() == powered);
        powerSetting.setBoolean(true);
        // TODO: We could make the power LED a device, so we don't have to handle
        //       it separately here.
        getLedStatus().setLed(LedStatus::POWER, true);
 
        EmuTime::param time = getCurrentTime();
        getCPUInterface().reset();
        for (auto& d : availableDevices) {
                d->powerUp(time);
        }
        getCPU().doReset(time);
        msxMixer->unmute();
        // let everyone know we're booting, note that the fact that this is
        // done after the reset call to the devices is arbitrary here
        reactor.getEventDistributor().distributeEvent(BootEvent());
}
 
void MSXMotherBoard::powerDown()
{
        if (!powered) return;
 
        powered = false;
        // TODO: This assertion fails in 1 case: when quitting with a running MSX.
        //       How do we want the Reactor to shutdown: immediately or after
        //       handling all pending commands/events/updates?
        //assert(powerSetting.getBoolean() == powered);
        powerSetting.setBoolean(false);
        getLedStatus().setLed(LedStatus::POWER, false);
 
        msxMixer->mute();
 
        EmuTime::param time = getCurrentTime();
        for (auto& d : availableDevices) {
                d->powerDown(time);
        }
}
 
void MSXMotherBoard::activate(bool active_)
{
        active = active_;
        auto event = active ? Event(MachineActivatedEvent())
                            : Event(MachineDeactivatedEvent());
        msxEventDistributor->distributeEvent(event, scheduler->getCurrentTime());
        if (active) {
                realTime->resync();
        }
}
 
void MSXMotherBoard::exitCPULoopAsync()
{
        if (getMachineConfig()) {
                getCPU().exitCPULoopAsync();
        }
}
 
void MSXMotherBoard::exitCPULoopSync()
{
        getCPU().exitCPULoopSync();
}
 
MSXDevice* MSXMotherBoard::findDevice(std::string_view name)
{
        auto it = ranges::find(availableDevices, name, &MSXDevice::getName);
        return (it != end(availableDevices)) ? *it : nullptr;
}
 
MSXMapperIO& MSXMotherBoard::createMapperIO()
{
        if (mapperIOCounter == 0) {
                mapperIO = DeviceFactory::createMapperIO(*getMachineConfig());
 
                MSXCPUInterface& cpuInterface = getCPUInterface();
                for (auto port : {0xfc, 0xfd, 0xfe, 0xff}) {
                        cpuInterface.register_IO_Out(narrow_cast<byte>(port), mapperIO.get());
                        cpuInterface.register_IO_In (narrow_cast<byte>(port), mapperIO.get());
                }
        }
        ++mapperIOCounter;
        return *mapperIO;
}
 
void MSXMotherBoard::destroyMapperIO()
{
        assert(mapperIO);
        assert(mapperIOCounter);
        --mapperIOCounter;
        if (mapperIOCounter == 0) {
                MSXCPUInterface& cpuInterface = getCPUInterface();
                for (auto port : {0xfc, 0xfd, 0xfe, 0xff}) {
                        cpuInterface.unregister_IO_Out(narrow_cast<byte>(port), mapperIO.get());
                        cpuInterface.unregister_IO_In (narrow_cast<byte>(port), mapperIO.get());
                }
 
                mapperIO.reset();
        }
}
 
string MSXMotherBoard::getUserName(const string& hwName)
{
        auto& s = userNames[hwName];
        unsigned n = 0;
        string userName;
        do {
                userName = strCat("untitled", ++n);
        } while (contains(s, userName));
        s.push_back(userName);
        return userName;
}
 
void MSXMotherBoard::freeUserName(const string& hwName, const string& userName)
{
        auto& s = userNames[hwName];
        move_pop_back(s, rfind_unguarded(s, userName));
}
 
void MSXMotherBoard::registerMediaInfo(std::string_view name, MediaInfoProvider& provider)
{
        machineMediaInfo->registerProvider(name, provider);
}
 
void MSXMotherBoard::unregisterMediaInfo(MediaInfoProvider& provider)
{
        machineMediaInfo->unregisterProvider(provider);
}
 
 
// AddRemoveUpdate
 
AddRemoveUpdate::AddRemoveUpdate(MSXMotherBoard& motherBoard_)
        : motherBoard(motherBoard_)
{
        motherBoard.getReactor().getGlobalCliComm().update(
                CliComm::UpdateType::HARDWARE, motherBoard.getMachineID(), "add");
}
 
AddRemoveUpdate::~AddRemoveUpdate()
{
        motherBoard.getReactor().getGlobalCliComm().update(
                CliComm::UpdateType::HARDWARE, motherBoard.getMachineID(), "remove");
}
 
 
// ResetCmd
ResetCmd::ResetCmd(MSXMotherBoard& motherBoard_)
        : RecordedCommand(motherBoard_.getCommandController(),
                          motherBoard_.getStateChangeDistributor(),
                          motherBoard_.getScheduler(),
                          "reset")
        , motherBoard(motherBoard_)
{
}
 
void ResetCmd::execute(std::span<const TclObject> /*tokens*/, TclObject& /*result*/,
                       EmuTime::param /*time*/)
{
        motherBoard.doReset();
}
 
string ResetCmd::help(std::span<const TclObject> /*tokens*/) const
{
        return "Resets the MSX.";
}
 
 
// LoadMachineCmd
LoadMachineCmd::LoadMachineCmd(MSXMotherBoard& motherBoard_)
        : Command(motherBoard_.getCommandController(), "load_machine")
        , motherBoard(motherBoard_)
{
        // The load_machine command should always directly follow a
        // create_machine command:
        // - It's not allowed to use load_machine on a machine that has
        //   already a machine configuration loaded earlier.
        // - We also disallow executing most machine-specific commands on an
        //   'empty machine' (an 'empty machine', is a machine returned by
        //   create_machine before the load_machine command is executed, so a
        //   machine without a machine configuration). The only exception is
        //   this load_machine command and machine_info.
        //
        // So if the only allowed command on an empty machine is
        // 'load_machine', (and an empty machine by itself isn't very useful),
        // then why isn't create_machine and load_machine merged into a single
        // command? The only reason for this is that load_machine sends out
        // events (machine specific) and maybe you already want to know the ID
        // of the new machine (this is returned by create_machine) before those
        // events will be send.
        //
        // Why not allow all commands on an empty machine? In the past we did
        // allow this, though it often was the source of bugs. We could in each
        // command (when needed) check for an empty machine and then return
        // some dummy/empty result or some error. But because I can't think of
        // any really useful command for an empty machine, it seemed easier to
        // just disallow most commands.
        setAllowedInEmptyMachine(true);
}
 
void LoadMachineCmd::execute(std::span<const TclObject> tokens, TclObject& result)
{
        checkNumArgs(tokens, 2, "machine");
        if (motherBoard.getMachineConfig()) {
                throw CommandException("Already loaded a config in this machine.");
        }
        result = motherBoard.loadMachine(string(tokens[1].getString()));
}
 
string LoadMachineCmd::help(std::span<const TclObject> /*tokens*/) const
{
        return "Load a msx machine configuration into an empty machine.";
}
 
void LoadMachineCmd::tabCompletion(std::vector<string>& tokens) const
{
        completeString(tokens, Reactor::getHwConfigs("machines"));
}
 
 
// ListExtCmd
ListExtCmd::ListExtCmd(MSXMotherBoard& motherBoard_)
        : Command(motherBoard_.getCommandController(), "list_extensions")
        , motherBoard(motherBoard_)
{
}
 
void ListExtCmd::execute(std::span<const TclObject> /*tokens*/, TclObject& result)
{
        result.addListElements(
                view::transform(motherBoard.getExtensions(), &HardwareConfig::getName));
}
 
string ListExtCmd::help(std::span<const TclObject> /*tokens*/) const
{
        return "Return a list of all inserted extensions.";
}
 
 
// ExtCmd
ExtCmd::ExtCmd(MSXMotherBoard& motherBoard_, std::string commandName_)
        : RecordedCommand(motherBoard_.getCommandController(),
                          motherBoard_.getStateChangeDistributor(),
                          motherBoard_.getScheduler(),
                          commandName_)
        , motherBoard(motherBoard_)
        , commandName(std::move(commandName_))
{
}
 
void ExtCmd::execute(std::span<const TclObject> tokens, TclObject& result,
                     EmuTime::param /*time*/)
{
        checkNumArgs(tokens, Between{2, 3}, "extension");
        if (tokens.size() == 3 && tokens[1].getString() != "insert") {
                throw SyntaxError();
        }
        try {
                auto name = tokens[tokens.size() - 1].getString();
                auto slotName = (commandName.size() == 4)
                        ? std::string_view(&commandName[3], 1)
                        : "any";
                auto extension = motherBoard.loadExtension(name, slotName);
                if (slotName != "any") {
                        const auto& manager = motherBoard.getSlotManager();
                        if (const auto* extConf = manager.getConfigForSlot(commandName[3] - 'a')) {
                                // still a cartridge inserted, (try to) remove it now
                                motherBoard.removeExtension(*extConf);
                        }
                }
                result = motherBoard.insertExtension(name, std::move(extension));
        } catch (MSXException& e) {
                throw CommandException(std::move(e).getMessage());
        }
}
 
string ExtCmd::help(std::span<const TclObject> /*tokens*/) const
{
        return "Insert a hardware extension.";
}
 
void ExtCmd::tabCompletion(std::vector<string>& tokens) const
{
        completeString(tokens, Reactor::getHwConfigs("extensions"));
}
 
 
// RemoveExtCmd
RemoveExtCmd::RemoveExtCmd(MSXMotherBoard& motherBoard_)
        : RecordedCommand(motherBoard_.getCommandController(),
                          motherBoard_.getStateChangeDistributor(),
                          motherBoard_.getScheduler(),
                          "remove_extension")
        , motherBoard(motherBoard_)
{
}
 
void RemoveExtCmd::execute(std::span<const TclObject> tokens, TclObject& /*result*/,
                           EmuTime::param /*time*/)
{
        checkNumArgs(tokens, 2, "extension");
        std::string_view extName = tokens[1].getString();
        HardwareConfig* extension = motherBoard.findExtension(extName);
        if (!extension) {
                throw CommandException("No such extension: ", extName);
        }
        try {
                motherBoard.removeExtension(*extension);
        } catch (MSXException& e) {
                throw CommandException("Can't remove extension '", extName,
                                       "': ", e.getMessage());
        }
}
 
string RemoveExtCmd::help(std::span<const TclObject> /*tokens*/) const
{
        return "Remove an extension from the MSX machine.";
}
 
void RemoveExtCmd::tabCompletion(std::vector<string>& tokens) const
{
        if (tokens.size() == 2) {
                completeString(tokens, view::transform(
                        motherBoard.getExtensions(),
                        [](auto& e) -> std::string_view { return e->getName(); }));
        }
}
 
 
// MachineNameInfo
 
MachineNameInfo::MachineNameInfo(MSXMotherBoard& motherBoard_)
        : InfoTopic(motherBoard_.getMachineInfoCommand(), "config_name")
        , motherBoard(motherBoard_)
{
}
 
void MachineNameInfo::execute(std::span<const TclObject> /*tokens*/,
                              TclObject& result) const
{
        result = motherBoard.getMachineName();
}
 
string MachineNameInfo::help(std::span<const TclObject> /*tokens*/) const
{
        return "Returns the configuration name for this machine.";
}
 
// MachineTypeInfo
 
MachineTypeInfo::MachineTypeInfo(MSXMotherBoard& motherBoard_)
        : InfoTopic(motherBoard_.getMachineInfoCommand(), "type")
        , motherBoard(motherBoard_)
{
}
 
void MachineTypeInfo::execute(std::span<const TclObject> /*tokens*/,
                              TclObject& result) const
{
        result = motherBoard.getMachineType();
}
 
string MachineTypeInfo::help(std::span<const TclObject> /*tokens*/) const
{
        return "Returns the machine type for this machine.";
}
 
 
// MachineExtensionInfo
 
MachineExtensionInfo::MachineExtensionInfo(MSXMotherBoard& motherBoard_)
        : InfoTopic(motherBoard_.getMachineInfoCommand(), "extension")
        , motherBoard(motherBoard_)
{
}
 
void MachineExtensionInfo::execute(std::span<const TclObject> tokens,
                              TclObject& result) const
{
        checkNumArgs(tokens, Between{2, 3}, Prefix{2}, "?extension-instance-name?");
        if (tokens.size() == 2) {
                result.addListElements(
                        view::transform(motherBoard.getExtensions(), &HardwareConfig::getName));
        } else if (tokens.size() == 3) {
                std::string_view extName = tokens[2].getString();
                const HardwareConfig* extension = motherBoard.findExtension(extName);
                if (!extension) {
                        throw CommandException("No such extension: ", extName);
                }
                if (extension->getType() == HardwareConfig::Type::EXTENSION) {
                        // A 'true' extension, as specified in an XML file
                        result.addDictKeyValue("config", extension->getConfigName());
                } else {
                        assert(extension->getType() == HardwareConfig::Type::ROM);
                        // A ROM cartridge, peek into the internal config for the original filename
                        const auto& filename = extension->getConfig()
                                .getChild("devices").getChild("primary").getChild("secondary")
                                .getChild("ROM").getChild("rom").getChildData("filename");
                        result.addDictKeyValue("rom", filename);
                }
                TclObject deviceList;
                deviceList.addListElements(
                        view::transform(extension->getDevices(), &MSXDevice::getName));
                result.addDictKeyValue("devices", deviceList);
        }
}
 
string MachineExtensionInfo::help(std::span<const TclObject> /*tokens*/) const
{
        return "Returns information about the given extension instance.";
}
 
void MachineExtensionInfo::tabCompletion(std::vector<string>& tokens) const
{
        if (tokens.size() == 3) {
                completeString(tokens, view::transform(
                        motherBoard.getExtensions(),
                        [](auto& e) -> std::string_view { return e->getName(); }));
        }
}
 
 
// MachineMediaInfo
 
MachineMediaInfo::MachineMediaInfo(MSXMotherBoard& motherBoard_)
        : InfoTopic(motherBoard_.getMachineInfoCommand(), "media")
{
}
 
void MachineMediaInfo::execute(std::span<const TclObject> tokens,
                              TclObject& result) const
{
        checkNumArgs(tokens, Between{2, 3}, Prefix{2}, "?media-slot-name?");
        if (tokens.size() == 2) {
                result.addListElements(
                        view::transform(providers, &ProviderInfo::name));
        } else if (tokens.size() == 3) {
                auto name = tokens[2].getString();
                if (auto it = ranges::find(providers, name, &ProviderInfo::name);
                    it != providers.end()) {
                        it->provider->getMediaInfo(result);
                } else {
                        throw CommandException("No info about media slot ", name);
                }
        }
}
 
string MachineMediaInfo::help(std::span<const TclObject> /*tokens*/) const
{
        return "Returns information about the given media slot.";
}
 
void MachineMediaInfo::tabCompletion(std::vector<string>& tokens) const
{
        if (tokens.size() == 3) {
                completeString(tokens, view::transform(
                        providers, &ProviderInfo::name));
        }
}
 
void MachineMediaInfo::registerProvider(std::string_view name, MediaInfoProvider& provider)
{
        assert(!contains(providers, name, &ProviderInfo::name));
        assert(!contains(providers, &provider, &ProviderInfo::provider));
        providers.emplace_back(name, &provider);
}
 
void MachineMediaInfo::unregisterProvider(MediaInfoProvider& provider)
{
        move_pop_back(providers,
                      rfind_unguarded(providers, &provider, &ProviderInfo::provider));
}
 
// DeviceInfo
 
DeviceInfo::DeviceInfo(MSXMotherBoard& motherBoard_)
        : InfoTopic(motherBoard_.getMachineInfoCommand(), "device")
        , motherBoard(motherBoard_)
{
}
 
void DeviceInfo::execute(std::span<const TclObject> tokens, TclObject& result) const
{
        checkNumArgs(tokens, Between{2, 3}, Prefix{2}, "?device?");
        switch (tokens.size()) {
        case 2:
                result.addListElements(
                        view::transform(motherBoard.availableDevices,
                                        [](auto& d) { return d->getName(); }));
                break;
        case 3: {
                std::string_view deviceName = tokens[2].getString();
                const MSXDevice* device = motherBoard.findDevice(deviceName);
                if (!device) {
                        throw CommandException("No such device: ", deviceName);
                }
                device->getDeviceInfo(result);
                break;
        }
        }
}
 
string DeviceInfo::help(std::span<const TclObject> /*tokens*/) const
{
        return "Without any arguments, returns the list of used device names.\n"
               "With a device name as argument, returns the type (and for some "
               "devices the subtype) of the given device.";
}
 
void DeviceInfo::tabCompletion(std::vector<string>& tokens) const
{
        if (tokens.size() == 3) {
                completeString(tokens, view::transform(
                        motherBoard.availableDevices,
                        [](auto& d) -> std::string_view { return d->getName(); }));
        }
}
 
 
// FastForwardHelper
 
FastForwardHelper::FastForwardHelper(MSXMotherBoard& motherBoard_)
        : Schedulable(motherBoard_.getScheduler())
        , motherBoard(motherBoard_)
{
}
 
void FastForwardHelper::setTarget(EmuTime::param targetTime)
{
        setSyncPoint(targetTime);
}
 
void FastForwardHelper::executeUntil(EmuTime::param /*time*/)
{
        motherBoard.exitCPULoopSync();
}
 
 
// class JoyPortDebuggable
 
JoyPortDebuggable::JoyPortDebuggable(MSXMotherBoard& motherBoard_)
        : SimpleDebuggable(motherBoard_, "joystickports", "MSX Joystick Ports", 2)
{
}
 
byte JoyPortDebuggable::read(unsigned address, EmuTime::param time)
{
        return getMotherBoard().getJoystickPort(address).read(time);
}
 
void JoyPortDebuggable::write(unsigned /*address*/, byte /*value*/)
{
        // ignore
}
 
 
// class SettingObserver
 
SettingObserver::SettingObserver(MSXMotherBoard& motherBoard_)
        : motherBoard(motherBoard_)
{
}
 
void SettingObserver::update(const Setting& setting) noexcept
{
        if (&setting == &motherBoard.powerSetting) {
                if (motherBoard.powerSetting.getBoolean()) {
                        motherBoard.powerUp();
                } else {
                        motherBoard.powerDown();
                }
        } else if (&setting == &motherBoard.suppressMessagesSetting) {
                motherBoard.msxCliComm->setSuppressMessages(motherBoard.suppressMessagesSetting.getBoolean());
        } else {
                UNREACHABLE;
        }
}
 
 
// serialize
// version 1: initial version
// version 2: added reRecordCount
// version 3: removed reRecordCount (moved to ReverseManager)
// version 4: moved joystickportA/B from MSXPSG to here
// version 5: do serialize renShaTurbo
template<typename Archive>
void MSXMotherBoard::serialize(Archive& ar, unsigned version)
{
        // don't serialize:
        //    machineID, userNames, availableDevices, addRemoveUpdate,
        //    sharedStuffMap, msxCliComm, msxEventDistributor,
        //    msxCommandController, slotManager, eventDelay,
        //    debugger, msxMixer, panasonicMemory, ledStatus
 
        // Scheduler must come early so that devices can query current time
        ar.serialize("scheduler", *scheduler);
        // MSXMixer has already set sync points, those are invalid now
        // the following call will fix this
        if constexpr (Archive::IS_LOADER) {
                msxMixer->reInit();
        }
 
        ar.serialize("name", machineName);
        ar.serializeWithID("config", machineConfig2, std::ref(*this));
        assert(getMachineConfig() == machineConfig2.get());
        ar.serializeWithID("extensions", extensions, std::ref(*this));
 
        if (mapperIO) ar.serialize("mapperIO", *mapperIO);
 
        if (auto& devSwitch = getDeviceSwitch();
            devSwitch.hasRegisteredDevices()) {
                ar.serialize("deviceSwitch", devSwitch);
        }
 
        if (getMachineConfig()) {
                ar.serialize("cpu", getCPU());
        }
        ar.serialize("cpuInterface", getCPUInterface());
 
        if (auto* port = dynamic_cast<CassettePort*>(&getCassettePort())) {
                ar.serialize("cassetteport", *port);
        }
        if (ar.versionAtLeast(version, 4)) {
                if (auto* port = dynamic_cast<JoystickPort*>(
                                joystickPort[0].get())) {
                        ar.serialize("joystickportA", *port);
                }
                if (auto* port = dynamic_cast<JoystickPort*>(
                                joystickPort[1].get())) {
                        ar.serialize("joystickportB", *port);
                }
        }
        if (ar.versionAtLeast(version, 5)) {
                if (renShaTurbo) ar.serialize("renShaTurbo", *renShaTurbo);
        }
 
        if constexpr (Archive::IS_LOADER) {
                powered = true; // must come before changing power setting
                powerSetting.setBoolean(true);
                getLedStatus().setLed(LedStatus::POWER, true);
                msxMixer->unmute();
        }
 
        if (version == 2) {
                assert(Archive::IS_LOADER);
                unsigned reRecordCount = 0; // silence warning
                ar.serialize("reRecordCount", reRecordCount);
                getReverseManager().setReRecordCount(reRecordCount);
        }
}
INSTANTIATE_SERIALIZE_METHODS(MSXMotherBoard)
 
} // namespace openmsx