ref: 600bbfe4aaa9ad0f73d8d73eef1b7670e5f7d3a3
dir: /os/pc/uarti8250.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" /* * 8250 UART and compatibles. */ enum { Uart0 = 0x3F8, /* COM1 */ Uart0IRQ = 4, Uart1 = 0x2F8, /* COM2 */ Uart1IRQ = 3, UartFREQ = 1843200, }; enum { /* I/O ports */ Rbr = 0, /* Receiver Buffer (RO) */ Thr = 0, /* Transmitter Holding (WO) */ Ier = 1, /* Interrupt Enable */ Iir = 2, /* Interrupt Identification (RO) */ Fcr = 2, /* FIFO Control (WO) */ Lcr = 3, /* Line Control */ Mcr = 4, /* Modem Control */ Lsr = 5, /* Line Status */ Msr = 6, /* Modem Status */ Scr = 7, /* Scratch Pad */ Dll = 0, /* Divisor Latch LSB */ Dlm = 1, /* Divisor Latch MSB */ }; enum { /* Ier */ Erda = 0x01, /* Enable Received Data Available */ Ethre = 0x02, /* Enable Thr Empty */ Erls = 0x04, /* Enable Receiver Line Status */ Ems = 0x08, /* Enable Modem Status */ }; enum { /* Iir */ Ims = 0x00, /* Ms interrupt */ Ip = 0x01, /* Interrupt Pending (not) */ Ithre = 0x02, /* Thr Empty */ Irda = 0x04, /* Received Data Available */ Irls = 0x06, /* Receiver Line Status */ Ictoi = 0x0C, /* Character Time-out Indication */ IirMASK = 0x3F, Ifena = 0xC0, /* FIFOs enabled */ }; enum { /* Fcr */ FIFOena = 0x01, /* FIFO enable */ FIFOrclr = 0x02, /* clear Rx FIFO */ FIFOtclr = 0x04, /* clear Tx FIFO */ FIFO1 = 0x00, /* Rx FIFO trigger level 1 byte */ FIFO4 = 0x40, /* 4 bytes */ FIFO8 = 0x80, /* 8 bytes */ FIFO14 = 0xC0, /* 14 bytes */ }; enum { /* Lcr */ Wls5 = 0x00, /* Word Length Select 5 bits/byte */ Wls6 = 0x01, /* 6 bits/byte */ Wls7 = 0x02, /* 7 bits/byte */ Wls8 = 0x03, /* 8 bits/byte */ WlsMASK = 0x03, Stb = 0x04, /* 2 stop bits */ Pen = 0x08, /* Parity Enable */ Eps = 0x10, /* Even Parity Select */ Stp = 0x20, /* Stick Parity */ Brk = 0x40, /* Break */ Dlab = 0x80, /* Divisor Latch Access Bit */ }; enum { /* Mcr */ Dtr = 0x01, /* Data Terminal Ready */ Rts = 0x02, /* Ready To Send */ Out1 = 0x04, /* no longer in use */ Ie = 0x08, /* IRQ Enable */ Dm = 0x10, /* Diagnostic Mode loopback */ }; enum { /* Lsr */ Dr = 0x01, /* Data Ready */ Oe = 0x02, /* Overrun Error */ Pe = 0x04, /* Parity Error */ Fe = 0x08, /* Framing Error */ Bi = 0x10, /* Break Interrupt */ Thre = 0x20, /* Thr Empty */ Temt = 0x40, /* Tramsmitter Empty */ FIFOerr = 0x80, /* error in receiver FIFO */ }; enum { /* Msr */ Dcts = 0x01, /* Delta Cts */ Ddsr = 0x02, /* Delta Dsr */ Teri = 0x04, /* Trailing Edge of Ri */ Ddcd = 0x08, /* Delta Dcd */ Cts = 0x10, /* Clear To Send */ Dsr = 0x20, /* Data Set Ready */ Ri = 0x40, /* Ring Indicator */ Dcd = 0x80, /* Data Set Ready */ }; typedef struct Ctlr { int io; int irq; int tbdf; int iena; uchar sticky[8]; Lock; int hasfifo; int checkfifo; int fena; } Ctlr; extern PhysUart i8250physuart; static Ctlr i8250ctlr[2] = { { .io = Uart0, .irq = Uart0IRQ, .tbdf = BUSUNKNOWN, }, { .io = Uart1, .irq = Uart1IRQ, .tbdf = BUSUNKNOWN, }, }; static Uart i8250uart[2] = { { .regs = &i8250ctlr[0], .name = "COM1", .freq = UartFREQ, .phys = &i8250physuart, .special= 0, .next = &i8250uart[1], }, { .regs = &i8250ctlr[1], .name = "COM2", .freq = UartFREQ, .phys = &i8250physuart, .special= 0, .next = nil, }, }; #define csr8r(c, r) inb((c)->io+(r)) #define csr8w(c, r, v) outb((c)->io+(r), (c)->sticky[(r)]|(v)) static long i8250status(Uart* uart, void* buf, long n, long offset) { char *p; Ctlr *ctlr; uchar ier, lcr, mcr, msr; ctlr = uart->regs; p = malloc(READSTR); mcr = ctlr->sticky[Mcr]; msr = csr8r(ctlr, Msr); ier = ctlr->sticky[Ier]; lcr = ctlr->sticky[Lcr]; snprint(p, READSTR, "b%d c%d d%d e%d l%d m%d p%c r%d s%d i%d\n" "dev(%d) type(%d) framing(%d) overruns(%d) " "berr(%d) serr(%d)%s%s%s%s\n", uart->baud, uart->hup_dcd, (msr & Dsr) != 0, uart->hup_dsr, (lcr & WlsMASK) + 5, (ier & Ems) != 0, (lcr & Pen) ? ((lcr & Eps) ? 'e': 'o'): 'n', (mcr & Rts) != 0, (lcr & Stb) ? 2: 1, ctlr->fena, uart->dev, uart->type, uart->ferr, uart->oerr, uart->berr, uart->serr, (msr & Cts) ? " cts": "", (msr & Dsr) ? " dsr": "", (msr & Dcd) ? " dcd": "", (msr & Ri) ? " ring": "" ); n = readstr(offset, buf, n, p); free(p); return n; } static void i8250fifo(Uart* uart, int level) { Ctlr *ctlr; ctlr = uart->regs; if(ctlr->hasfifo == 0) return; /* * Changing the FIFOena bit in Fcr flushes data * from both receive and transmit FIFOs; there's * no easy way to guarantee not losing data on * the receive side, but it's possible to wait until * the transmitter is really empty. */ ilock(ctlr); while(!(csr8r(ctlr, Lsr) & Temt)) ; /* * Set the trigger level, default is the max. * value. * Some UARTs require FIFOena to be set before * other bits can take effect, so set it twice. */ ctlr->fena = level; switch(level){ case 0: break; case 1: level = FIFO1|FIFOena; break; case 4: level = FIFO4|FIFOena; break; case 8: level = FIFO8|FIFOena; break; default: level = FIFO14|FIFOena; break; } csr8w(ctlr, Fcr, level); csr8w(ctlr, Fcr, level); iunlock(ctlr); } static void i8250dtr(Uart* uart, int on) { Ctlr *ctlr; /* * Toggle DTR. */ ctlr = uart->regs; if(on) ctlr->sticky[Mcr] |= Dtr; else ctlr->sticky[Mcr] &= ~Dtr; csr8w(ctlr, Mcr, 0); } static void i8250rts(Uart* uart, int on) { Ctlr *ctlr; /* * Toggle RTS. */ ctlr = uart->regs; if(on) ctlr->sticky[Mcr] |= Rts; else ctlr->sticky[Mcr] &= ~Rts; csr8w(ctlr, Mcr, 0); } static void i8250modemctl(Uart* uart, int on) { Ctlr *ctlr; ctlr = uart->regs; ilock(&uart->tlock); if(on){ ctlr->sticky[Ier] |= Ems; csr8w(ctlr, Ier, ctlr->sticky[Ier]); uart->modem = 1; uart->cts = csr8r(ctlr, Msr) & Cts; } else{ ctlr->sticky[Ier] &= ~Ems; csr8w(ctlr, Ier, ctlr->sticky[Ier]); uart->modem = 0; uart->cts = 1; } iunlock(&uart->tlock); /* modem needs fifo */ (*uart->phys->fifo)(uart, on); } static int i8250parity(Uart* uart, int parity) { int lcr; Ctlr *ctlr; ctlr = uart->regs; lcr = ctlr->sticky[Lcr] & ~(Eps|Pen); switch(parity){ case 'e': lcr |= Eps|Pen; break; case 'o': lcr |= Pen; break; case 'n': break; default: return -1; } ctlr->sticky[Lcr] = lcr; csr8w(ctlr, Lcr, 0); uart->parity = parity; return 0; } static int i8250stop(Uart* uart, int stop) { int lcr; Ctlr *ctlr; ctlr = uart->regs; lcr = ctlr->sticky[Lcr] & ~Stb; switch(stop){ case 1: break; case 2: lcr |= Stb; break; default: return -1; } ctlr->sticky[Lcr] = lcr; csr8w(ctlr, Lcr, 0); uart->stop = stop; return 0; } static int i8250bits(Uart* uart, int bits) { int lcr; Ctlr *ctlr; ctlr = uart->regs; lcr = ctlr->sticky[Lcr] & ~WlsMASK; switch(bits){ case 5: lcr |= Wls5; break; case 6: lcr |= Wls6; break; case 7: lcr |= Wls7; break; case 8: lcr |= Wls8; break; default: return -1; } ctlr->sticky[Lcr] = lcr; csr8w(ctlr, Lcr, 0); uart->bits = bits; return 0; } static int i8250baud(Uart* uart, int baud) { ulong bgc; Ctlr *ctlr; /* * Set the Baud rate by calculating and setting the Baud rate * Generator Constant. This will work with fairly non-standard * Baud rates. */ if(uart->freq == 0 || baud <= 0) return -1; bgc = (uart->freq+8*baud-1)/(16*baud); ctlr = uart->regs; csr8w(ctlr, Lcr, Dlab); outb(ctlr->io+Dlm, bgc>>8); outb(ctlr->io+Dll, bgc); csr8w(ctlr, Lcr, 0); uart->baud = baud; return 0; } static void i8250break(Uart* uart, int ms) { Ctlr *ctlr; /* * Send a break. */ if(ms <= 0) ms = 200; ctlr = uart->regs; csr8w(ctlr, Lcr, Brk); tsleep(&up->sleep, return0, 0, ms); csr8w(ctlr, Lcr, 0); } static void i8250kick(Uart* uart) { int i; Ctlr *ctlr; if(uart->cts == 0 || uart->blocked) return; /* * 128 here is an arbitrary limit to make sure * we don't stay in this loop too long. If the * chip's output queue is longer than 128, too * bad -- presotto */ ctlr = uart->regs; for(i = 0; i < 128; i++){ if(!(csr8r(ctlr, Lsr) & Thre)) break; if(uart->op >= uart->oe && uartstageoutput(uart) == 0) break; outb(ctlr->io+Thr, *(uart->op++)); } } static void i8250interrupt(Ureg*, void* arg) { Ctlr *ctlr; Uart *uart; int iir, lsr, old, r; uart = arg; ctlr = uart->regs; for(iir = csr8r(ctlr, Iir); !(iir & Ip); iir = csr8r(ctlr, Iir)){ switch(iir & IirMASK){ case Ims: /* Ms interrupt */ r = csr8r(ctlr, Msr); if(r & Dcts){ ilock(&uart->tlock); old = uart->cts; uart->cts = r & Cts; if(old == 0 && uart->cts) uart->ctsbackoff = 2; iunlock(&uart->tlock); } if(r & Ddsr){ old = r & Dsr; if(uart->hup_dsr && uart->dsr && !old) uart->dohup = 1; uart->dsr = old; } if(r & Ddcd){ old = r & Dcd; if(uart->hup_dcd && uart->dcd && !old) uart->dohup = 1; uart->dcd = old; } break; case Ithre: /* Thr Empty */ uartkick(uart); break; case Irda: /* Received Data Available */ case Irls: /* Receiver Line Status */ case Ictoi: /* Character Time-out Indication */ /* * Consume any received data. * If the received byte came in with a break, * parity or framing error, throw it away; * overrun is an indication that something has * already been tossed. */ while((lsr = csr8r(ctlr, Lsr)) & Dr){ if(lsr & (FIFOerr|Oe)) uart->oerr++; if(lsr & Pe) uart->perr++; if(lsr & Fe) uart->ferr++; r = csr8r(ctlr, Rbr); if(!(lsr & (Bi|Fe|Pe))) uartrecv(uart, r); } break; default: iprint("weird uart interrupt 0x%2.2uX\n", iir); break; } } } static void i8250disable(Uart* uart) { Ctlr *ctlr; /* * Turn off DTR and RTS, disable interrupts and fifos. */ (*uart->phys->dtr)(uart, 0); (*uart->phys->rts)(uart, 0); (*uart->phys->fifo)(uart, 0); ctlr = uart->regs; ctlr->sticky[Ier] = 0; csr8w(ctlr, Ier, ctlr->sticky[Ier]); if(ctlr->iena != 0){ if(intrdisable(ctlr->irq, i8250interrupt, uart, ctlr->tbdf, uart->name) == 0) ctlr->iena = 0; } } static void i8250enable(Uart* uart, int ie) { Ctlr *ctlr; ctlr = uart->regs; /* * Check if there is a FIFO. * Changing the FIFOena bit in Fcr flushes data * from both receive and transmit FIFOs; there's * no easy way to guarantee not losing data on * the receive side, but it's possible to wait until * the transmitter is really empty. * Also, reading the Iir outwith i8250interrupt() * can be dangerous, but this should only happen * once, before interrupts are enabled. */ ilock(ctlr); if(!ctlr->checkfifo){ /* * Wait until the transmitter is really empty. */ while(!(csr8r(ctlr, Lsr) & Temt)) ; csr8w(ctlr, Fcr, FIFOena); if(csr8r(ctlr, Iir) & Ifena) ctlr->hasfifo = 1; csr8w(ctlr, Fcr, 0); ctlr->checkfifo = 1; } iunlock(ctlr); /* * Enable interrupts and turn on DTR and RTS. * Be careful if this is called to set up a polled serial line * early on not to try to enable interrupts as interrupt- * -enabling mechanisms might not be set up yet. */ if(ie){ if(ctlr->iena == 0){ intrenable(ctlr->irq, i8250interrupt, uart, ctlr->tbdf, uart->name); ctlr->iena = 1; } ctlr->sticky[Ier] = Ethre|Erda; ctlr->sticky[Mcr] |= Ie; } else{ ctlr->sticky[Ier] = 0; ctlr->sticky[Mcr] = 0; } csr8w(ctlr, Ier, ctlr->sticky[Ier]); csr8w(ctlr, Mcr, ctlr->sticky[Mcr]); (*uart->phys->dtr)(uart, 1); (*uart->phys->rts)(uart, 1); /* * During startup, the i8259 interrupt controller is reset. * This may result in a lost interrupt from the i8250 uart. * The i8250 thinks the interrupt is still outstanding and does not * generate any further interrupts. The workaround is to call the * interrupt handler to clear any pending interrupt events. * Note: this must be done after setting Ier. */ if(ie) i8250interrupt(nil, uart); } void* i8250alloc(int io, int irq, int tbdf) { Ctlr *ctlr; if((ctlr = malloc(sizeof(Ctlr))) != nil){ ctlr->io = io; ctlr->irq = irq; ctlr->tbdf = tbdf; } return ctlr; } static Uart* i8250pnp(void) { return i8250uart; } static int i8250getc(Uart *uart) { Ctlr *ctlr; ctlr = uart->regs; while(!(csr8r(ctlr, Lsr)&Dr)) delay(1); return csr8r(ctlr, Rbr); } static void i8250putc(Uart *uart, int c) { int i; Ctlr *ctlr; ctlr = uart->regs; for(i = 0; !(csr8r(ctlr, Lsr)&Thre) && i < 128; i++) delay(1); outb(ctlr->io+Thr, c); for(i = 0; !(csr8r(ctlr, Lsr)&Thre) && i < 128; i++) delay(1); } PhysUart i8250physuart = { .name = "i8250", .pnp = i8250pnp, .enable = i8250enable, .disable = i8250disable, .kick = i8250kick, .dobreak = i8250break, .baud = i8250baud, .bits = i8250bits, .stop = i8250stop, .parity = i8250parity, .modemctl = i8250modemctl, .rts = i8250rts, .dtr = i8250dtr, .status = i8250status, .fifo = i8250fifo, .getc = i8250getc, .putc = i8250putc, }; void i8250console(void) { Uart *uart; int n; char *cmd, *p; if((p = getconf("console")) == nil) return; n = strtoul(p, &cmd, 0); if(p == cmd) return; switch(n){ default: return; case 0: uart = &i8250uart[0]; break; case 1: uart = &i8250uart[1]; break; } (*uart->phys->enable)(uart, 0); uartctl(uart, "b9600 l8 pn s1"); if(*cmd != '\0') uartctl(uart, cmd); consuart = uart; uart->console = 1; } /* TODO these are not in 9front void i8250mouse(char* which, int (*putc)(Queue*, int), int setb1200) { char *p; int port; port = strtol(which, &p, 0); if(p == which || port < 0 || port > 1) error(Ebadarg); uartmouse(&i8250uart[port], putc, setb1200); } void i8250setmouseputc(char* which, int (*putc)(Queue*, int)) { char *p; int port; port = strtol(which, &p, 0); if(p == which || port < 0 || port > 1) error(Ebadarg); uartsetmouseputc(&i8250uart[port], putc); } */