/* 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 "util/common.h" #include "gba/interface.h" #include "macros.h" #include #define IS_GPIO_REGISTER(reg) ((reg) == GPIO_REG_DATA || (reg) == GPIO_REG_DIRECTION || (reg) == GPIO_REG_CONTROL) struct GBARTCGenericSource { struct GBARTCSource d; struct GBA* p; enum { RTC_NO_OVERRIDE, RTC_FIXED, RTC_FAKE_EPOCH } 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 }; 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); #pragma pack(push, 1) 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]; }; #pragma pack(pop) struct GBARumble { void (*setRumble)(struct GBARumble*, int enable); }; struct GBAGBPKeyCallback { struct GBAKeyCallback d; struct GBACartridgeHardware* p; }; struct GBAGBPSIODriver { struct GBASIODriver d; struct GBACartridgeHardware* p; }; DECL_BITFIELD(GPIOPin, uint16_t); struct GBACartridgeHardware { struct GBA* p; int 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; int32_t gbpNextEvent; struct GBAGBPKeyCallback gbpCallback; struct GBAGBPSIODriver gbpDriver; }; 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 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); #endif