ref: 1e9bb75854a336de2a63f9a4fb4d67dd75d682f1
dir: /sys/src/9/bcm/uartmini.c/
/* * bcm2835 mini uart (UART1) */ #include "u.h" #include "../port/lib.h" #include "../port/error.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #define AUXREGS (VIRTIO+0x215000) #define OkLed 16 #define TxPin 14 #define RxPin 15 /* AUX regs */ enum { Irq = 0x00>>2, UartIrq = 1<<0, Enables = 0x04>>2, UartEn = 1<<0, MuIo = 0x40>>2, MuIer = 0x44>>2, RxIen = 1<<0, TxIen = 1<<1, MuIir = 0x48>>2, MuLcr = 0x4c>>2, Bitsmask= 3<<0, Bits7 = 2<<0, Bits8 = 3<<0, MuMcr = 0x50>>2, RtsN = 1<<1, MuLsr = 0x54>>2, TxDone = 1<<6, TxRdy = 1<<5, RxRdy = 1<<0, MuCntl = 0x60>>2, CtsFlow = 1<<3, TxEn = 1<<1, RxEn = 1<<0, MuBaud = 0x68>>2, }; extern PhysUart miniphysuart; static Uart miniuart = { .regs = (u32int*)AUXREGS, .name = "uart1", .freq = 250000000, .baud = 115200, .phys = &miniphysuart, }; static int baud(Uart*, int); static void interrupt(Ureg*, void *arg) { Uart *uart; u32int *ap; uart = arg; ap = (u32int*)uart->regs; coherence(); if(0 && (ap[Irq] & UartIrq) == 0) return; if(ap[MuLsr] & TxRdy) uartkick(uart); if(ap[MuLsr] & RxRdy){ do{ uartrecv(uart, ap[MuIo] & 0xFF); }while(ap[MuLsr] & RxRdy); } coherence(); } static Uart* pnp(void) { return &miniuart; } static void enable(Uart *uart, int ie) { u32int *ap; ap = (u32int*)uart->regs; delay(10); gpiosel(TxPin, Alt5); gpiosel(RxPin, Alt5); gpiopulloff(TxPin); gpiopullup(RxPin); ap[Enables] |= UartEn; ap[MuIir] = 6; ap[MuLcr] = Bits8; ap[MuCntl] = TxEn|RxEn; baud(uart, uart->baud); if(ie){ intrenable(IRQaux, interrupt, uart, BUSUNKNOWN, uart->name); ap[MuIer] = RxIen|TxIen; }else ap[MuIer] = 0; } static void disable(Uart *uart) { u32int *ap; ap = (u32int*)uart->regs; ap[MuCntl] = 0; ap[MuIer] = 0; } static void kick(Uart *uart) { u32int *ap; ap = (u32int*)uart->regs; if(uart->blocked) return; coherence(); while(ap[MuLsr] & TxRdy){ if(uart->op >= uart->oe && uartstageoutput(uart) == 0) break; ap[MuIo] = *(uart->op++); } if(ap[MuLsr] & TxDone) ap[MuIer] &= ~TxIen; else ap[MuIer] |= TxIen; coherence(); } /* TODO */ static void dobreak(Uart *uart, int ms) { USED(uart, ms); } static int baud(Uart *uart, int n) { u32int *ap; ap = (u32int*)uart->regs; if(uart->freq == 0 || n <= 0) return -1; ap[MuBaud] = (uart->freq + 4*n - 1) / (8 * n) - 1; uart->baud = n; return 0; } static int bits(Uart *uart, int n) { u32int *ap; int set; ap = (u32int*)uart->regs; switch(n){ case 7: set = Bits7; break; case 8: set = Bits8; break; default: return -1; } ap[MuLcr] = (ap[MuLcr] & ~Bitsmask) | set; uart->bits = n; return 0; } static int stop(Uart *uart, int n) { if(n != 1) return -1; uart->stop = n; return 0; } static int parity(Uart *uart, int n) { if(n != 'n') return -1; uart->parity = n; return 0; } /* * cts/rts flow control * need to bring signals to gpio pins before enabling this */ static void modemctl(Uart *uart, int on) { u32int *ap; ap = (u32int*)uart->regs; if(on) ap[MuCntl] |= CtsFlow; else ap[MuCntl] &= ~CtsFlow; uart->modem = on; } static void rts(Uart *uart, int on) { u32int *ap; ap = (u32int*)uart->regs; if(on) ap[MuMcr] &= ~RtsN; else ap[MuMcr] |= RtsN; } static long status(Uart *uart, void *buf, long n, long offset) { char *p; p = malloc(READSTR); if(p == nil) error(Enomem); snprint(p, READSTR, "b%d\n" "dev(%d) type(%d) framing(%d) overruns(%d) " "berr(%d) serr(%d)\n", uart->baud, uart->dev, uart->type, uart->ferr, uart->oerr, uart->berr, uart->serr ); n = readstr(offset, buf, n, p); free(p); return n; } static void donothing(Uart*, int) { } static void putc(Uart*, int c) { u32int *ap; ap = (u32int*)AUXREGS; while((ap[MuLsr] & TxRdy) == 0) ; ap[MuIo] = c; while((ap[MuLsr] & TxRdy) == 0) ; } static int getc(Uart*) { u32int *ap; ap = (u32int*)AUXREGS; while((ap[MuLsr] & RxRdy) == 0) ; return ap[MuIo] & 0xFF; } PhysUart miniphysuart = { .name = "mini", .pnp = pnp, .enable = enable, .disable = disable, .kick = kick, .dobreak = dobreak, .baud = baud, .bits = bits, .stop = stop, .parity = parity, .modemctl = donothing, .rts = rts, .dtr = donothing, .status = status, .fifo = donothing, .getc = getc, .putc = putc, };