ref: e81c54ba2ecc673a4d5f8aed0e9b52841fe07b0d
dir: /os/boot.original/rpcg/devuart.c/
#include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" /* * SMC1 in UART mode */ typedef struct Uartsmc Uartsmc; struct Uartsmc { IOCparam; ushort maxidl; ushort idlc; ushort brkln; ushort brkec; ushort brkcr; ushort rmask; }; typedef struct Uart Uart; struct Uart { int port; int setup; uchar txbusy; Queue* iq; Queue* oq; void (*rx)(Queue*, int); void (*boot)(uchar*, int); ulong frame; ulong overrun; uchar rxbuf[128]; char txbuf[16]; BD* rxb; BD* txb; }; Uart uart[1]; int predawn = 1; static void uartintr(Ureg*, void*); static void uartkick(void*); static int baudgen(int baud) { int d; d = ((m->cpuhz/baud)+8)>>4; if(d >= (1<<12)) return ((d+15)>>3)|1; return d<<1; } static void smcsetup(Uart *up, int baud) { IMM *io; Uartsmc *p; BD *bd; SMC *smc; archenableuart(SMC1ID, 0); io = m->iomem; io->pbpar |= IBIT(24)|IBIT(25); /* enable SMC1 TX/RX */ io->pbdir &= ~(IBIT(24)|IBIT(25)); io->brgc1 = baudgen(baud) | BaudEnable; io->simode &= ~0xF000; /* SMC1 to NMSI mode, Tx/Rx clocks are BRG1 */ bd = bdalloc(1); p = (Uartsmc*)KADDR(SMC1P); p->rbase = (ushort)bd; up->rxb = bd; bd->status = BDEmpty|BDWrap|BDInt; bd->length = 0; bd->addr = PADDR(up->rxbuf); bd = bdalloc(1); p->tbase = (ushort)bd; up->txb = bd; bd->status = BDWrap|BDInt; bd->length = 0; bd->addr = PADDR(up->txbuf); cpmop(InitRxTx, SMC1ID, 0); /* protocol parameters */ p->rfcr = 0x18; p->tfcr = 0x18; p->mrblr = 1; p->maxidl = 1; p->brkln = 0; p->brkec = 0; p->brkcr = 1; smc = IOREGS(0xA80, SMC); smc->smce = 0xff; /* clear events */ smc->smcm = 0x17; /* enable all possible interrupts */ setvec(VectorCPIC+4, uartintr, up); smc->smcmr = 0x4820; /* 8-bit mode, no parity, 1 stop bit, UART mode, ... */ smc->smcmr |= 3; /* enable rx/tx */ } static void uartintr(Ureg*, void *arg) { Uart *up; int ch, i; BD *bd; SMC *smc; Block *b; up = arg; smc = IOREGS(0xA80, SMC); smc->smce = 0xff; /* clear all events */ if((bd = up->rxb) != nil && (bd->status & BDEmpty) == 0){ if(up->iq != nil && bd->length > 0){ if(up->boot != nil){ up->boot(up->rxbuf, bd->length); }else if(up->rx != nil){ for(i=0; i<bd->length; i++){ ch = up->rxbuf[i]; up->rx(up->iq, ch); } }else{ b = iallocb(bd->length); memmove(b->wp, up->rxbuf, bd->length); b->wp += bd->length; qbwrite(up->iq, b); } } bd->status |= BDEmpty|BDInt; } else if((bd = up->txb) != nil && (bd->status & BDReady) == 0){ ch = -1; if(up->oq) ch = qbgetc(up->oq); if(ch != -1){ up->txbuf[0] = ch; bd->length = 1; bd->status |= BDReady; }else up->txbusy = 0; } /* TO DO: modem status, errors, etc */ } static void uartkick(void *arg) { Uart *up = arg; int s, c, i; s = splhi(); while(up->txbusy == 0 && (c = qbgetc(up->oq)) != -1){ if(predawn){ while(up->txb->status & BDReady) ; } else { for(i = 0; i < 100; i++){ if((up->txb->status & BDReady) == 0) break; delay(1); } } up->txbuf[0] = c; up->txb->length = 1; up->txb->status |= BDReady; up->txbusy = !predawn; } splx(s); } void uartspecial(int port, int baud, Queue **iq, Queue **oq, void (*rx)(Queue*,int)) { Uart *up = &uart[0]; if(up->setup) return; up->setup = 1; *iq = up->iq = qopen(4*1024, 0, 0, 0); *oq = up->oq = qopen(16*1024, 0, uartkick, up); up->rx = rx; USED(port); up->port = SMC1ID; if(baud == 0) baud = 9600; smcsetup(up, baud); /* if using SCCn's UART, would also set DTR and RTS, but SMC doesn't use them */ } void uartsetboot(void (*f)(uchar*, int)) { uart[0].boot = f; } void uartputs(char *s, int n) { Uart *up = &uart[0]; Block *b; int nl; char *p; nl = 0; for(p = s; p < s+n; p++) if(*p == '\n') nl++; b = iallocb(n+nl); while(n--){ if(*s == '\n') *b->wp++ = '\r'; *b->wp++ = *s++; } qbwrite(up->oq, b); } void uartwait(void) { Uart *up = &uart[0]; while(up->txbusy) ; }