agb/mgba-test-runner/c/include/mgba/internal/gba/hardware.h
2021-04-19 22:47:43 +01:00

216 lines
5.6 KiB
C

/* Copyright (c) 2013-2015 Jeffrey Pfau
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef GBA_HARDWARE_H
#define GBA_HARDWARE_H
#include <mgba-util/common.h>
CXX_GUARD_START
#include <mgba/core/log.h>
#include <mgba/core/timing.h>
#include <mgba/gba/interface.h>
mLOG_DECLARE_CATEGORY(GBA_HW);
#define EREADER_DOTCODE_STRIDE 1420
#define EREADER_DOTCODE_SIZE (EREADER_DOTCODE_STRIDE * 40)
#define EREADER_CARDS_MAX 16
#define IS_GPIO_REGISTER(reg) ((reg) == GPIO_REG_DATA || (reg) == GPIO_REG_DIRECTION || (reg) == GPIO_REG_CONTROL)
struct GBARTCGenericSource {
struct mRTCSource d;
struct GBA* p;
enum mRTCGenericType override;
int64_t value;
};
enum GBAHardwareDevice {
HW_NO_OVERRIDE = 0x8000,
HW_NONE = 0,
HW_RTC = 1,
HW_RUMBLE = 2,
HW_LIGHT_SENSOR = 4,
HW_GYRO = 8,
HW_TILT = 16,
HW_GB_PLAYER = 32,
HW_GB_PLAYER_DETECTION = 64,
HW_EREADER = 128
};
enum GPIORegister {
GPIO_REG_DATA = 0xC4,
GPIO_REG_DIRECTION = 0xC6,
GPIO_REG_CONTROL = 0xC8
};
enum GPIODirection {
GPIO_WRITE_ONLY = 0,
GPIO_READ_WRITE = 1
};
DECL_BITFIELD(RTCControl, uint32_t);
DECL_BIT(RTCControl, MinIRQ, 3);
DECL_BIT(RTCControl, Hour24, 6);
DECL_BIT(RTCControl, Poweroff, 7);
enum RTCCommand {
RTC_RESET = 0,
RTC_DATETIME = 2,
RTC_FORCE_IRQ = 3,
RTC_CONTROL = 4,
RTC_TIME = 6
};
DECL_BITFIELD(RTCCommandData, uint32_t);
DECL_BITS(RTCCommandData, Magic, 0, 4);
DECL_BITS(RTCCommandData, Command, 4, 3);
DECL_BIT(RTCCommandData, Reading, 7);
struct GBARTC {
int32_t bytesRemaining;
int32_t transferStep;
int32_t bitsRead;
int32_t bits;
int32_t commandActive;
RTCCommandData command;
RTCControl control;
uint8_t time[7];
};
struct GBAGBPKeyCallback {
struct mKeyCallback d;
struct GBACartridgeHardware* p;
};
struct GBAGBPSIODriver {
struct GBASIODriver d;
struct GBACartridgeHardware* p;
};
DECL_BITFIELD(GPIOPin, uint16_t);
DECL_BITFIELD(EReaderControl0, uint8_t);
DECL_BIT(EReaderControl0, Data, 0);
DECL_BIT(EReaderControl0, Clock, 1);
DECL_BIT(EReaderControl0, Direction, 2);
DECL_BIT(EReaderControl0, LedEnable, 3);
DECL_BIT(EReaderControl0, Scan, 4);
DECL_BIT(EReaderControl0, Phi, 5);
DECL_BIT(EReaderControl0, PowerEnable, 6);
DECL_BITFIELD(EReaderControl1, uint8_t);
DECL_BIT(EReaderControl1, Scanline, 1);
DECL_BIT(EReaderControl1, Unk1, 4);
DECL_BIT(EReaderControl1, Voltage, 5);
enum EReaderStateMachine {
EREADER_SERIAL_INACTIVE = 0,
EREADER_SERIAL_STARTING,
EREADER_SERIAL_BIT_0,
EREADER_SERIAL_BIT_1,
EREADER_SERIAL_BIT_2,
EREADER_SERIAL_BIT_3,
EREADER_SERIAL_BIT_4,
EREADER_SERIAL_BIT_5,
EREADER_SERIAL_BIT_6,
EREADER_SERIAL_BIT_7,
EREADER_SERIAL_END_BIT,
};
enum EReaderCommand {
EREADER_COMMAND_IDLE = 0, // TODO: Verify on hardware
EREADER_COMMAND_WRITE_DATA = 1,
EREADER_COMMAND_SET_INDEX = 0x22,
EREADER_COMMAND_READ_DATA = 0x23,
};
struct EReaderCard {
void* data;
size_t size;
};
struct GBACartridgeHardware {
struct GBA* p;
uint32_t devices;
enum GPIODirection readWrite;
uint16_t* gpioBase;
uint16_t pinState;
uint16_t direction;
struct GBARTC rtc;
uint16_t gyroSample;
bool gyroEdge;
unsigned lightCounter : 12;
uint8_t lightSample;
bool lightEdge;
uint16_t tiltX;
uint16_t tiltY;
int tiltState;
unsigned gbpInputsPosted;
int gbpTxPosition;
struct mTimingEvent gbpNextEvent;
struct GBAGBPKeyCallback gbpCallback;
struct GBAGBPSIODriver gbpDriver;
uint16_t eReaderData[44];
uint8_t eReaderSerial[92];
uint16_t eReaderRegisterUnk;
uint16_t eReaderRegisterReset;
EReaderControl0 eReaderRegisterControl0;
EReaderControl1 eReaderRegisterControl1;
uint16_t eReaderRegisterLed;
// TODO: Serialize these
enum EReaderStateMachine eReaderState;
enum EReaderCommand eReaderCommand;
uint8_t eReaderActiveRegister;
uint8_t eReaderByte;
int eReaderX;
int eReaderY;
uint8_t* eReaderDots;
struct EReaderCard eReaderCards[EREADER_CARDS_MAX];
};
void GBAHardwareInit(struct GBACartridgeHardware* gpio, uint16_t* gpioBase);
void GBAHardwareClear(struct GBACartridgeHardware* gpio);
void GBAHardwareInitRTC(struct GBACartridgeHardware* gpio);
void GBAHardwareInitGyro(struct GBACartridgeHardware* gpio);
void GBAHardwareInitRumble(struct GBACartridgeHardware* gpio);
void GBAHardwareInitLight(struct GBACartridgeHardware* gpio);
void GBAHardwareInitTilt(struct GBACartridgeHardware* gpio);
void GBAHardwareGPIOWrite(struct GBACartridgeHardware* gpio, uint32_t address, uint16_t value);
void GBAHardwareTiltWrite(struct GBACartridgeHardware* gpio, uint32_t address, uint8_t value);
uint8_t GBAHardwareTiltRead(struct GBACartridgeHardware* gpio, uint32_t address);
struct GBAVideo;
void GBAHardwarePlayerUpdate(struct GBA* gba);
bool GBAHardwarePlayerCheckScreen(const struct GBAVideo* video);
void GBAHardwareInitEReader(struct GBACartridgeHardware* hw);
void GBAHardwareEReaderWrite(struct GBACartridgeHardware* hw, uint32_t address, uint16_t value);
void GBAHardwareEReaderWriteFlash(struct GBACartridgeHardware* hw, uint32_t address, uint8_t value);
uint16_t GBAHardwareEReaderRead(struct GBACartridgeHardware* hw, uint32_t address);
uint8_t GBAHardwareEReaderReadFlash(struct GBACartridgeHardware* hw, uint32_t address);
void GBAHardwareEReaderScan(struct GBACartridgeHardware* hw, const void* data, size_t size);
void GBARTCGenericSourceInit(struct GBARTCGenericSource* rtc, struct GBA* gba);
struct GBASerializedState;
void GBAHardwareSerialize(const struct GBACartridgeHardware* gpio, struct GBASerializedState* state);
void GBAHardwareDeserialize(struct GBACartridgeHardware* gpio, const struct GBASerializedState* state);
CXX_GUARD_END
#endif