//============================================================================ // // SSSS tt lll lll // SS SS tt ll ll // SS tttttt eeee ll ll aaaa // SSSS tt ee ee ll ll aa // SS tt eeeeee ll ll aaaaa -- "An Atari 2600 VCS Emulator" // SS SS tt ee ll ll aa aa // SSSS ttt eeeee llll llll aaaaa // // Copyright (c) 1995-2019 by Bradford W. Mott, Stephen Anthony // and the Stella Team // // See the file "License.txt" for information on usage and redistribution of // this file, and for a DISCLAIMER OF ALL WARRANTIES. //============================================================================ #ifndef CARTRIDGEFA2_HXX #define CARTRIDGEFA2_HXX class System; #include "bspf.hxx" #include "Cart.hxx" #ifdef DEBUGGER_SUPPORT #include "CartFA2Widget.hxx" #endif /** This is an extended version of the CBS RAM Plus bankswitching scheme supported by the Harmony cartridge. There are six (or seven) 4K banks, accessible by read/write to $1FF5 - $1FFA (or $1FFB), and 256 bytes of RAM. The 256 bytes of RAM can be loaded/saved to Harmony cart flash by accessing $1FF4 (see ramReadWrite() for more information), which is emulated by storing in a file. RAM read port is $1100 - $11FF, write port is $1000 - $10FF. For 29K versions of the scheme, the first 1K is ARM code (implements actual bankswitching on the Harmony cart), which is completely ignored by the emulator. Also supported is a 32K variant. In any event, only data at 1K - 29K of the ROM is used. @author Chris D. Walton */ class CartridgeFA2 : public Cartridge { friend class CartridgeFA2Widget; public: /** Create a new cartridge using the specified image @param image Pointer to the ROM image @param size The size of the ROM image @param md5 The md5sum of the ROM image @param osystem A reference to the OSystem currently in use */ CartridgeFA2(const BytePtr& image, uInt32 size, const string& md5, const Settings& settings); virtual ~CartridgeFA2() = default; public: /** Reset device to its power-on state */ void reset() override; /** Install cartridge in the specified system. Invoked by the system when the cartridge is attached to it. @param system The system the device should install itself in */ void install(System& system) override; /** Install pages for the specified bank in the system. @param bank The bank that should be installed in the system */ bool bank(uInt16 bank) override; /** Get the current bank. */ uInt16 getBank() const override; /** Query the number of banks supported by the cartridge. */ uInt16 bankCount() const override; /** Patch the cartridge ROM. @param address The ROM address to patch @param value The value to place into the address @return Success or failure of the patch operation */ bool patch(uInt16 address, uInt8 value) override; /** Access the internal ROM image for this cartridge. @param size Set to the size of the internal ROM image data @return A pointer to the internal ROM image data */ const uInt8* getImage(uInt32& size) const override; /** Save the current state of this cart to the given Serializer. @param out The Serializer object to use @return False on any errors, else true */ bool save(Serializer& out) const override; /** Load the current state of this cart from the given Serializer. @param in The Serializer object to use @return False on any errors, else true */ bool load(Serializer& in) override; /** Get a descriptor for the device name (used in error checking). @return The name of the object */ string name() const override { return "CartridgeFA2"; } /** Informs the cartridge about the name of the ROM file used when creating this cart. @param name The properties file name of the ROM */ void setRomName(const string& name) override; #ifdef DEBUGGER_SUPPORT /** Get debugger widget responsible for accessing the inner workings of the cart. */ CartDebugWidget* debugWidget(GuiObject* boss, const GUI::Font& lfont, const GUI::Font& nfont, int x, int y, int w, int h) override { return new CartridgeFA2Widget(boss, lfont, nfont, x, y, w, h, *this); } #endif public: /** Get the byte at the specified address. @return The byte at the specified address */ uInt8 peek(uInt16 address) override; /** Change the byte at the specified address to the given value @param address The address where the value should be stored @param value The value to be stored at the address @return True if the poke changed the device address space, else false */ bool poke(uInt16 address, uInt8 value) override; private: /** Either load or save internal RAM to Harmony flash (represented by a file in emulation). @return The value at $FF4 with bit 6 set or cleared (depending on whether the RAM access was busy or successful) */ uInt8 ramReadWrite(); /** Modify Harmony flash directly (represented by a file in emulation), ignoring any timing emulation. This is for use strictly in the debugger, so you can have low-level access to the Flash media. @param operation 0 for erase, 1 for read, 2 for write */ void flash(uInt8 operation); bool requiresOSystem() override { return true; } void setOSystem(OSystem* osystem) override { myOSystem = osystem; } private: // OSsytem currently in use const OSystem* myOSystem; // The 24K/28K ROM image of the cartridge uInt8 myImage[28 * 1024]; // Actual usable size of the ROM image uInt32 mySize; // The 256 bytes of RAM on the cartridge uInt8 myRAM[256]; // The time after which the first request of a load/save operation // will actually be completed // Due to flash RAM constraints, a read/write isn't instantaneous, // so we need to emulate the delay as well uInt64 myRamAccessTimeout; // Full pathname of the file to use when emulating load/save // of internal RAM to Harmony cart flash string myFlashFile; // Indicates the offset into the ROM image (aligns to current bank) uInt16 myBankOffset; private: // Following constructors and assignment operators not supported CartridgeFA2() = delete; CartridgeFA2(const CartridgeFA2&) = delete; CartridgeFA2(CartridgeFA2&&) = delete; CartridgeFA2& operator=(const CartridgeFA2&) = delete; CartridgeFA2& operator=(CartridgeFA2&&) = delete; }; #endif