#pragma once #include "arm710.h" #include struct Timer { ARM710 *cpu; enum { MODE_512KHZ = 1<<3, PERIODIC = 1<<6, ENABLED = 1<<7 }; int64_t lastTicked; uint8_t config; uint32_t interval; int32_t value; int clockSpeed; int tickInterval() const { return (config & MODE_512KHZ) ? (clockSpeed / 512000) : (clockSpeed / 2000); } void load(uint32_t lval) { interval = lval; value = lval; } bool tick(int64_t cycles) { if (cycles >= (lastTicked + tickInterval())) { lastTicked += tickInterval(); if (config & ENABLED) { --value; if (value == 0) { if (config & PERIODIC) value = interval; return true; } } } return false; } void dump() { printf("enabled=%s periodic=%s interval=%d value=%d\n", (config & ENABLED) ? "true" : "false", (config & PERIODIC) ? "true" : "false", interval, value ); } }; enum UartRegs { UART0DATA = 0x600, UART0FCR = 0x604, UART0LCR = 0x608, UART0CON = 0x60C, UART0FLG = 0x610, UART0INT = 0x614, UART0INTM = 0x618, UART0INTR = 0x61C, UART0TEST1 = 0x620, UART0TEST2 = 0x624, UART0TEST3 = 0x628, UART1DATA = 0x700, UART1FCR = 0x704, UART1LCR = 0x708, UART1CON = 0x70C, UART1FLG = 0x710, UART1INT = 0x714, UART1INTM = 0x718, UART1INTR = 0x71C, UART1TEST1 = 0x720, UART1TEST2 = 0x724, UART1TEST3 = 0x728, }; struct UART { ARM710 *cpu; enum { IntRx = 1, IntTx = 2, IntModemStatus = 4, PortCtrlEnable = 1, PortCtrlSirEnable = 2, PortCtrlIrdaTx = 4, FrameCtrlBreak = 1, FrameCtrlParityEnable = 2, FrameCtrlEvenParity = 4, FrameCtrlExtraStopBit = 8, FrameCtrlUFifoEn = 0x10, FrameCtrlWrdLenMask = 0x60, FrameCtrlWlen5 = 0, FrameCtrlWlen6 = 0x20, FrameCtrlWlen7 = 0x40, FrameCtrlWlen8 = 0x60, RecvFrameError = 0x100, RecvParityError = 0x200, RecvOverrunError = 0x400, FlagClearToSend = 1, FlagDataSetReady = 2, FlagDataCarrierDetect = 4, FlagBusy = 8, FlagReceiveFifoEmpty = 0x10, FlagTransmitFifoFull = 0x20 }; uint8_t portControl = 0; uint8_t frameControl = 0; uint8_t interrupts = 0, interruptMask = 0; // UART0DATA = 0x600, byte write, long read // UART0FCR = 0x604, long // UART0LCR = 0x608, long // UART0CON = 0x60C, byte // UART0FLG = 0x610, byte // UART0INT = 0x614, long write, byte read // UART0INTM = 0x618, byte // UART0INTR = 0x61C, byte // UART0TEST1 = 0x620, // UART0TEST2 = 0x624, // UART0TEST3 = 0x628, uint32_t readReg8(uint32_t reg) { // UART0DATA if (reg == (UART0CON & 0xFF)) { return portControl; } else if (reg == (UART0FLG & 0xFF)) { // we pretend we are never busy, never have full fifo return FlagReceiveFifoEmpty; // UART0INT? // UART0INTM? // UART0INTR? } else { printf("unhandled 8bit uart read %x at pc=%08x lr=%08x\n", reg, cpu->getGPR(15), cpu->getGPR(14)); return 0xFF; } } uint32_t readReg32(uint32_t reg) { // UART0DATA if (reg == (UART0FCR & 0xFF)) { return frameControl; // UART0LCR } else if (reg == (UART0FLG & 0xFF)) { // we pretend we are never busy, never have full fifo return FlagReceiveFifoEmpty; } else { printf("unhandled 32bit uart read %x at pc=%08x lr=%08x\n", reg, cpu->getGPR(15), cpu->getGPR(14)); return 0xFFFFFFFF; } } void writeReg8(uint32_t reg, uint8_t value) { // UART0DATA if (reg == (UART0CON & 0xFF)) { portControl = value; printf("portcon updated: enable=%d sirenable=%d irdatx=%d\n", value&1, value&2, value&4); } else if (reg == (UART0INTM & 0xFF)) { interruptMask = value; printf("uart interruptmask updated: %d\n", value); // UART0INTR? } else { printf("unhandled 8bit uart write %x value %02x at pc=%08x lr=%08x\n", reg, value, cpu->getGPR(15), cpu->getGPR(14)); } } void writeReg32(uint32_t reg, uint32_t value) { if (reg == (UART0FCR & 0xFF)) { frameControl = value; printf("frameControl updated: break=%d parityEn=%d evenParity=%d extraStop=%d ufifoEn=%d wrdLen=%d\n", value&1, value&2, value&4, value&8, value&0x10, ((value&0x60)>>5)+5); } else if (reg == (UART0LCR & 0xFF)) { printf("** uart writing lcr %x **\n", value); } else if (reg == (UART0INT & 0xFF)) { printf("uart interrupts %x -> %x\n", interrupts, value); interrupts = value; } else { printf("unhandled 32bit uart write %x value %08x at pc=%08x lr=%08x\n", reg, value, cpu->getGPR(15), cpu->getGPR(14)); } } };