ref: e81c54ba2ecc673a4d5f8aed0e9b52841fe07b0d
dir: /os/cerf405/uart.h/
/* * 405EP specific code for its uart. */ #define UR(p,r) ((uchar*)(p))[r] #define uartwr(u,r,v) (UR(u->regs,r) = (v)) #define uartwrreg(u,r,v) (UR(u->regs,r)= (u)->sticky[r] | (v)) #define uartrdreg(u,r) UR(u->regs,r) extern void uartsetup(ulong, void*, ulong, char*); extern void uartclock(void); static void uartportpower(Uart*, int) { /* TO DO: power control */ } /* * handle an interrupt to a single uart */ static void uartintrx(Ureg*, void* arg) { uartintr(arg); } /* * install the uarts (called by reset) */ void uartinstall(void) { static int already; if(already) return; already = 1; /* first two ports are always there */ uartsetup(0, (void*)PHYSUART0, 0, "eia0"); intrenable(VectorUART0, uartintrx, uart[0], BUSUNKNOWN, "uart0"); uartsetup(1, (void*)PHYSUART1, 0, "eia1"); intrenable(VectorUART1, uartintrx, uart[1], BUSUNKNOWN, "uart1"); addclock0link(uartclock, 22); } /* * If the UART's receiver can be connected to a DMA channel, * this function does what is necessary to create the * connection and returns the DMA channel number. * If the UART's receiver cannot be connected to a DMA channel, * a -1 is returned. */ char uartdmarcv(int dev) { USED(dev); return -1; } void uartputc(int c) { uchar *p; if(c == 0) return; p = (uchar*)PHYSUART0; while((UR(p,Lstat) & Outready) == 0){ ; } UR(p,Data) = c; eieio(); if(c == '\n') while((UR(p,Lstat) & Outready) == 0){ /* let fifo drain */ ; } } void uartputs(char *data, int len) { int s; // if(!uartspcl && !redirectconsole) // return; s = splhi(); while(--len >= 0){ if(*data == '\n') uartputc('\r'); uartputc(*data++); } splx(s); } void uartwait(void) { }