/*- * Copyright (c) 1991 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * from: @(#)com.c 7.5 (Berkeley) 5/16/91 * $Id: scn.c,v 1.4 1994/02/23 07:59:05 phil Exp $ */ #include "scn.h" #if NSCN > 0 /* The pc532 has 4 duarts! */ #define NLINES 8 /* * scn2681 driver for the pc532. Phil Nelson Feb 8, 1993 * */ #include "param.h" #include "systm.h" #include "ioctl.h" #include "select.h" #include "tty.h" #include "proc.h" #include "user.h" #include "conf.h" #include "file.h" #include "uio.h" #include "kernel.h" #include "syslog.h" #include "types.h" #include "device.h" #include "scnreg.h" #include "../pc532/icu.h" #include "sl.h" int scnprobe(), scnattach(), scnintr(), scnparam(); void scnstart(); struct pc532_driver scndriver = { scnprobe, scnattach, "scn" }; int scnsoftCAR; int scn_active; /* int nlines = NLINES; */ int scnconsole = SCN_CONSOLE; int scnconsinit; int scndefaultrate = TTYDEF_SPEED; int scnmajor; struct duart_info uart[(NLINES+1)/2]; struct rs232_s line[NLINES]; struct tty *scn_tty[NLINES]; struct speedtab scnspeedtab[] = { 0, 0x40, /* code for line-hangup */ 50, 0x00, 75, 0x10, 110, 0x21, 134, 0x22, 150, 0x13, 200, 0x03, 300, 0x24, 600, 0x25, 1050, 0x07, 1200, 0x26, 1800, 0x1a, 2000, 0x17, 2400, 0x28, 4800, 0x29, 7200, 0x0a, 9600, 0x2b, 19200, 0x1c, 38400, 0x0c, 57600, 0x60, /* An illegal speed....? */ -1, -1 }; #define getspeedcode(sp,val) \ { int i=0; \ while (scnspeedtab[i].sp_speed != -1 && \ scnspeedtab[i].sp_speed != sp) \ i++; \ val = scnspeedtab[i].sp_code; \ } /* Unit is 0-7. Other parts of the minor number are things like hardware cts/rts handshaking. */ #define UNIT(x) (minor(x) & 0x7) /* Which uart is the device on? */ #define UART(x) (UNIT(x) >> 1) extern struct tty *constty; #ifdef KGDB #include "machine/remote-sl.h" extern int kgdb_dev; extern int kgdb_rate; extern int kgdb_debug_init; #endif /* Debug routine to print out the rs line structures. */ void print_rs(int unit) { struct rs232_s *rs = &line[unit]; printf ("\nline frame overrun parity break\n"); printf ("tty%1d state=%2x f=%2d o=%2d p=%2d b=%2d in=%x, out=%x grp=%d\n", unit, rs->framing_errors, rs->overrun_errors, rs->parity_errors, rs->break_interrupts, rs->uart->i_speed[rs->a_or_b], rs->uart->o_speed[rs->a_or_b], rs->uart->speed_grp); } /*==========================================================================* * scn_config * *==========================================================================*/ static int scn_config(unit, in_speed, out_speed, parity, stop_bits, data_bits ) int unit; /* which rs line */ int in_speed; /* input speed: 110, 300, 1200, etc */ int out_speed; /* output speed: 110, 300, 1200, etc */ int parity; /* some parity */ int stop_bits; /* 2 (110 baud) or 1 (other speeds) */ int data_bits; /* 5, 6, 7, or 8 */ { /* Set various line control parameters for RS232 I/O. */ register struct rs232_s *rs; char mr1_val, mr2_val; int sp_grp, sp_both; char set_speed; /* Non zero if we need to set the speed. */ char a_or_b; /* Used for ease of access. */ int in_code; int out_code; int x; /* Get the speed codes. */ getspeedcode(in_speed,in_code); getspeedcode(out_speed,out_code); /* Check for speed errors. */ if (in_code == -1 || out_code == -1) return (EINVAL); /* Set up rs pointer. */ rs = &line[unit]; a_or_b = rs->a_or_b; /* Check out the Speeds. There are two groups of speeds. If the new speeds are not in the same group, or the other line is not the same speed of the other group, do not change the speeds. Also, if the in speed and the out speed are in different groups, use the in speed. */ set_speed = FALSE; if ( (in_code != rs->uart->i_code[a_or_b]) || (out_code != rs->uart->o_code[a_or_b])) { /* We need to set the speeds .*/ set_speed = TRUE; if ( ((in_code & LC_SP_GRP) != (out_code & LC_SP_GRP)) && (((in_code | out_code) & LC_SP_BOTH) != 1) ) { /* Input speed and output speed are different groups. */ return (EINVAL); } sp_grp = ((in_code | out_code) & LC_SP_GRP)>>4; sp_both = in_code & out_code & LC_SP_BOTH; /* Check for compatibility and set the uart values */ if (sp_both) sp_grp = rs->uart->speed_grp; else if ((sp_grp != rs->uart->speed_grp) && !(rs->uart->i_code[1-a_or_b] & rs->uart->o_code[1-a_or_b] & LC_SP_BOTH)) { /* Can't change group, don`t change the speed rates. */ return (EINVAL); } rs->uart->i_code[a_or_b] = in_code; rs->uart->o_code[a_or_b] = out_code; rs->uart->i_speed[a_or_b] = in_speed; rs->uart->o_speed[a_or_b] = out_speed; } /* Lock out interrupts while setting the parameters. (Just for safety.) */ x=spltty(); WR_ADR (u_char, rs->cmd_port, CMD_MR1); mr1_val = RD_ADR (u_char, rs->mr_port); mr2_val = RD_ADR (u_char, rs->mr_port); if ((((mr1_val & 0xe0) | parity | data_bits) != mr1_val) || (((mr2_val & 0xf0) | stop_bits) != mr2_val)) { WR_ADR (u_char, rs->cmd_port, CMD_MR1); WR_ADR (u_char, rs->mr_port, (mr1_val & 0xe0) | parity | data_bits); WR_ADR (u_char, rs->mr_port, (mr2_val & 0xf0) | stop_bits); } if (set_speed) { if (rs->uart->speed_grp != sp_grp) { /* Change the group! */ rs->uart->speed_grp = sp_grp; WR_ADR (u_char, rs->acr_port, (sp_grp << 7) | rs->uart->acr_int_bits); } WR_ADR (u_char, rs->speed_port, ((in_code & 0x0f) << 4) | (out_code & 0x0f)); } DELAY(96000/out_speed); splx(x); return (0); } scnprobe(dev) struct pc532_device *dev; { int unit = UNIT(dev->pd_unit); /* Should do more ???? */ if (unit < NLINES) { switch (unit) { case 0: case 1: PL_tty |= SPL_UART0; break; case 2: case 3: PL_tty |= SPL_UART1; break; case 4: case 5: PL_tty |= SPL_UART2; break; case 6: case 7: PL_tty |= SPL_UART3; break; } PL_zero |= PL_tty; #if NSL > 0 PL_net |= PL_tty; PL_tty |= PL_net; #endif return(1); /* if dev is "working." */ } else { return(0); /* if dev is "not working." */ } } int scnattach(dp) struct pc532_device *dp; { struct tty *tp; u_char unit = UNIT(dp->pd_unit); u_char duart = unit >> 1; register struct rs232_s *rs = &line[unit]; int x; int speed; long line_base; long uart_base; long scn_first_adr; if (unit == 0) DELAY(5); /* Let the output go out.... */ scn_active |= 1 << unit; scnsoftCAR |= 1 << unit; /* XXX */ /* Record unit number, uart, channel a_or_b. */ rs->unit = unit; rs->uart = &uart[unit>>1]; rs->a_or_b = unit % 2; /* Precalculate port numbers for speed. Magic numbers in the code (once). */ scn_first_adr = SCN_FIRST_MAP_ADR; /* to get around a gcc bug. */ line_base = scn_first_adr + LINE_SZ * unit; uart_base = scn_first_adr + UART_SZ * duart; rs->xmit_port = DATA_ADR; rs->recv_port = DATA_ADR; rs->mr_port = MR_ADR; rs->stat_port = STAT_ADR; rs->speed_port = SPEED_ADR; rs->cmd_port = CMD_ADR; rs->acr_port = ACR_ADR; rs->ip_port = IP_ADR; rs->opset_port = SET_OP_ADR; rs->opclr_port = CLR_OP_ADR; /* Initialize error counts */ rs->framing_errors = 0; rs->overrun_errors = 0; rs->parity_errors = 0; rs->break_interrupts = 0; /* Set up the hardware to a base state, in particular * o reset transmitter and receiver * o set speeds and configurations * o receiver interrupts only (RxRDY and BREAK) */ x = spltty(); istop(rs); /* CTS off... */ WR_ADR (u_char, rs->cmd_port, CMD_DIS_RX | CMD_DIS_TX); WR_ADR (u_char, rs->cmd_port, CMD_RESET_RX); WR_ADR (u_char, rs->cmd_port, CMD_RESET_TX); WR_ADR (u_char, rs->cmd_port, CMD_RESET_ERR); WR_ADR (u_char, rs->cmd_port, CMD_RESET_BRK); WR_ADR (u_char, rs->cmd_port, CMD_MR1); WR_ADR (u_char, rs->mr_port, 0); /* No receiver control of RTS. */ WR_ADR (u_char, rs->mr_port, 0); #if 0 WR_ADR (u_char, rs->mr_port, 0x80); /* Enable receiver control of RTS */ WR_ADR (u_char, rs->mr_port, 0x10); /* Enable CTS transmitter control */ #endif /* Initialize the uart structure if this is channel A. */ if (rs->a_or_b == 0) { /* uart ports */ rs->uart->isr_port = ISR_ADR; rs->uart->imr_port = IMR_ADR; rs->uart->ipcr_port = IPCR_ADR; rs->uart->opcr_port = OPCR_ADR; /* Disable all interrupts. */ WR_ADR (u_char, rs->uart->imr_port, 0); rs->uart->imr_int_bits = 0; /* Output port config */ WR_ADR (u_char, rs->uart->opcr_port, 0); /* Speeds... */ rs->uart->speed_grp = 1; rs->uart->acr_int_bits = 0; /* Set initial speed to an illegal code that can be changed to any other baud. */ rs->uart->i_code[0] = rs->uart->o_code[0] = rs->uart->i_code[1] = rs->uart->o_code[1] = 0x2f; rs->uart->i_speed[0] = rs->uart->o_speed[0] = rs->uart->i_speed[1] = rs->uart->o_speed[1] = 0x0; } #if 0 rs->uart->acr_int_bits |= ACR_CTS << rs->a_or_b; /* Set CTS int */ #endif WR_ADR (u_char, rs->acr_port, (rs->uart->speed_grp << 7) | rs->uart->acr_int_bits); scn_config(unit, TTYDEF_SPEED, TTYDEF_SPEED, LC_NONE, LC_STOP1, LC_BITS8); /* Turn on the Rx and Tx. */ WR_ADR (u_char, rs->cmd_port, CMD_ENA_RX | CMD_ENA_TX); /* Set up the interrupts. */ rs->uart->imr_int_bits |= (/*IMR_RX_INT | IMR_TX_INT |*/ IMR_BRK_INT) << (4*rs->a_or_b) | IMR_IP_INT; WR_ADR (u_char, rs->uart->imr_port, rs->uart->imr_int_bits); splx(x); #ifdef KGDB if (kgdb_dev == makedev(scnmajor, unit+1)) { if (scnconsole == unit) kgdb_dev = -1; /* can't debug over console port */ else { (void) scninit(unit, kgdb_rate); if (kgdb_debug_init) { /* * Print prefix of device name, * let kgdb_connect print the rest. */ printf("scn%d: ", unit); kgdb_connect(1); } else printf("scn%d: kgdb enabled\n", unit); } } #endif /* print the device number... */ printf ("scn%d at mainbus0 addr 0x%x\n", unit, line_base); return (1); } /* ARGSUSED */ scnopen(dev_t dev, int flag, int mode, struct proc *p) { register struct tty *tp; register int unit = UNIT(dev); register struct rs232_s *rs = &line[unit]; int error = 0; if (unit >= NLINES || (scn_active & (1 << unit)) == 0) return (ENXIO); if(!scn_tty[unit]) { tp = scn_tty[unit] = ttymalloc(); } else tp = scn_tty[unit]; tp->t_oproc = scnstart; tp->t_param = scnparam; tp->t_dev = dev; if ((tp->t_state & TS_ISOPEN) == 0) { tp->t_state |= TS_WOPEN; ttychars(tp); if (tp->t_ispeed == 0) { tp->t_iflag = TTYDEF_IFLAG; tp->t_oflag = TTYDEF_OFLAG; tp->t_cflag = TTYDEF_CFLAG; tp->t_lflag = TTYDEF_LFLAG; tp->t_ispeed = tp->t_ospeed = scndefaultrate; } scnparam(tp, &tp->t_termios); ttsetwater(tp); /* Turn on DTR and RTS. */ istart(rs); rx_ints_on (rs); } else if (tp->t_state&TS_XCLUDE && p->p_ucred->cr_uid != 0) return (EBUSY); (void) spltty(); if ((scnsoftCAR & (1 << unit)) || get_dcd(rs)) tp->t_state |= TS_CARR_ON; while ((flag&O_NONBLOCK) == 0 && (tp->t_cflag&CLOCAL) == 0 && (tp->t_state & TS_CARR_ON) == 0) { tp->t_state |= TS_WOPEN; if (error = ttysleep(tp, (caddr_t)&tp->t_rawq, TTIPRI | PCATCH, ttopen, 0)) break; } (void) spl0(); if (error == 0) error = (*linesw[tp->t_line].l_open)(dev, tp); return (error); } /*ARGSUSED*/ scnclose(dev, flag, mode, p) dev_t dev; int flag, mode; struct proc *p; { register scn; register int unit = UNIT(dev); register struct tty *tp = scn_tty[unit]; register struct rs232_s *rs = &line[unit]; (*linesw[tp->t_line].l_close)(tp, flag); #ifdef KGDB /* do not disable interrupts if debugging */ if (kgdb_dev != makedev(scnmajor, unit)) #endif if ((tp->t_state&TS_ISOPEN) == 0) rx_ints_off (rs); if (tp->t_cflag&HUPCL || tp->t_state&TS_WOPEN || (tp->t_state&TS_ISOPEN) == 0) { WR_ADR (u_char, rs->opclr_port, DTR_BIT << rs->a_or_b); DELAY (10); WR_ADR (u_char, rs->opset_port, DTR_BIT << rs->a_or_b); } if ((tp->t_state&TS_ISOPEN) == 0) { ttyclose(tp); ttyfree(tp); scn_tty[unit] = (struct tty *)NULL; } return(0); } scnread(dev, uio, flag) dev_t dev; struct uio *uio; { register struct tty *tp = scn_tty[UNIT(dev)]; return ((*linesw[tp->t_line].l_read)(tp, uio, flag)); } scnwrite(dev, uio, flag) dev_t dev; struct uio *uio; { int unit = UNIT(dev); register struct tty *tp = scn_tty[unit]; return ((*linesw[tp->t_line].l_write)(tp, uio, flag)); } #if 0 scnintr(int uart_no) { int line0 = uart_no << 1; int line1 = (uart_no << 1)+1; register struct tty *tp0 = scn_tty[line0]; register struct tty *tp1 = scn_tty[line1]; register struct rs232_s *rs0 = &line[line0]; register struct rs232_s *rs1 = &line[line1]; register struct duart_info *uart = rs0->uart; char rs_work = TRUE; u_char rs_stat; u_char rs_ipcr; u_char ch; rs_stat = RD_ADR(u_char, uart->isr_port); printf ("scnintr, rs_stat = 0x%x\n", rs_stat); if (rs_stat & IMR_BRK_INT) { /* A break interrupt! */ rs0->lstatus = RD_ADR(u_char, rs0->stat_port); printf ("lstatus = 0x%x\n", rs0->lstatus); if (rs0->lstatus & SR_BREAK) { ++rs0->break_interrupts; RD_ADR(u_char, rs0->recv_port); /* Toss zero character. */ rs_stat &= ~IMR_RX_INT; } WR_ADR (u_char, rs0->cmd_port, CMD_RESET_BRK); rs0->lstatus = RD_ADR(u_char, rs0->stat_port); printf ("lstatus = 0x%x\n", rs0->lstatus); } if (rs_stat & IMR_RX_INT) { ch = RD_ADR(u_char, rs0->recv_port); printf ("input ch = \"%c\"\n", ch); } } /* Change this for real interrupts! */ _scnintr(int uart_no) #else /* Change this for real interrupts! */ scnintr(int uart_no) #endif { int line0 = uart_no << 1; int line1 = (uart_no << 1)+1; register struct tty *tp0 = scn_tty[line0]; register struct tty *tp1 = scn_tty[line1]; register struct rs232_s *rs0 = &line[line0]; register struct rs232_s *rs1 = &line[line1]; register struct duart_info *uart = rs0->uart; char rs_work = TRUE; u_char rs_stat; u_char rs_ipcr; u_char ch; while (rs_work) { /* Loop to pick up ALL pending interrupts for device. */ rs_work = FALSE; rs_stat = RD_ADR(u_char, uart->isr_port); /* if (rs_stat & ~(IMR_TX_INT | IMR_TXB_INT)) printf ("scn intr rs_stat = 0x%x\n", rs_stat); */ if ((rs_stat & IMR_TX_INT) && (tp0 != NULL) && (tp0->t_state & TS_BUSY)) { /* output char done. */ tp0->t_state &=~ (TS_BUSY|TS_FLUSH); tx_ints_off(rs0); if (tp0->t_line) (*linesw[tp0->t_line].l_start)(tp0); else scnstart(tp0); rs_work = TRUE; } if (rs_stat & IMR_BRK_INT && (tp0 != NULL)) { /* A break interrupt! */ rs0->lstatus = RD_ADR(u_char, rs0->stat_port); if (rs0->lstatus & SR_BREAK) { ++rs0->break_interrupts; } RD_ADR(u_char, rs0->recv_port); /* Toss zero character. */ rs_stat &= ~IMR_RX_INT; WR_ADR (u_char, rs0->cmd_port, CMD_RESET_BRK); rs_work = TRUE; } if (rs_stat & IMR_RX_INT && (tp0 != NULL)) { ch = RD_ADR(u_char, rs0->recv_port); if (tp0->t_state & TS_ISOPEN) (*linesw[tp0->t_line].l_rint)(ch, tp0); rs_work = TRUE; } if ((rs_stat & IMR_TXB_INT) && (tp1 != NULL) && (tp1->t_state & TS_BUSY)) { /* output char done. */ tp1->t_state &=~ (TS_BUSY|TS_FLUSH); if (tp1->t_line) (*linesw[tp1->t_line].l_start)(tp1); else scnstart(tp1); rs_work = TRUE; } if (rs_stat & IMR_BRKB_INT && (tp1 != NULL)) { /* A break interrupt! */ rs1->lstatus = RD_ADR(u_char, rs1->stat_port); if (rs1->lstatus & SR_BREAK) { ++rs1->break_interrupts; } RD_ADR(u_char, rs1->recv_port); /* Toss zero character. */ WR_ADR (u_char, rs1->cmd_port, CMD_RESET_BRK); rs_stat &= ~IMR_RXB_INT; rs_work = TRUE; } if (rs_stat & IMR_RXB_INT && (tp1 != NULL)) { ch = RD_ADR(u_char, rs1->recv_port); if (tp1->t_state & TS_ISOPEN) (*linesw[tp1->t_line].l_rint)(ch, tp1); rs_work = TRUE; } if (rs_stat & IMR_IP_INT) { rs_work = TRUE; rs_ipcr = RD_ADR (u_char, uart->ipcr_port); #if 0 /* RTS/CTS stuff! */ if (rs_ipcr & IPCR_CTS) cts_int(rs0); if (rs_ipcr & (IPCR_CTS << 1)) cts_int(rs1); #endif } } } #if 0 386 comintr body. -------------- register com; register u_char code; register struct tty *tp; unit--; com = com_addr[unit]; while (1) { code = inb(com+com_iir); switch (code & IIR_IMASK) { case IIR_NOPEND: return (1); case IIR_RXTOUT: case IIR_RXRDY: tp = com_tty[unit]; /* * Process received bytes. Inline for speed... */ #ifdef KGDB #define RCVBYTE() \ code = inb(com+com_data); \ if ((tp->t_state & TS_ISOPEN) == 0) { \ if (kgdb_dev == makedev(commajor, unit+1) && \ code == FRAME_END) \ kgdb_connect(0); /* trap into kgdb */ \ } else \ (*linesw[tp->t_line].l_rint)(code, tp) #else #define RCVBYTE() \ code = inb(com+com_data); \ if (tp->t_state & TS_ISOPEN) \ (*linesw[tp->t_line].l_rint)(code, tp) #endif RCVBYTE(); if (com_hasfifo & (1 << unit)) while ((code = inb(com+com_lsr)) & LSR_RCV_MASK) { if (code == LSR_RXRDY) { RCVBYTE(); } else comeint(unit, code, com); } break; case IIR_TXRDY: tp = com_tty[unit]; tp->t_state &=~ (TS_BUSY|TS_FLUSH); if (tp->t_line) (*linesw[tp->t_line].l_start)(tp); else comstart(tp); break; case IIR_RLS: comeint(unit, inb(com+com_lsr), com); break; default: if (code & IIR_NOPEND) return (1); log(LOG_WARNING, "com%d: weird interrupt: 0x%x\n", unit, code); /* fall through */ case IIR_MLSC: commint(unit, com); break; } } } comeint(unit, stat, com) register int unit, stat; register com; { register struct tty *tp; register int c; tp = com_tty[unit]; c = inb(com+com_data); if ((tp->t_state & TS_ISOPEN) == 0) { #ifdef KGDB /* we don't care about parity errors */ if (((stat & (LSR_BI|LSR_FE|LSR_PE)) == LSR_PE) && kgdb_dev == makedev(commajor, unit+1) && c == FRAME_END) kgdb_connect(0); /* trap into kgdb */ #endif return; } if (stat & (LSR_BI | LSR_FE)) c |= TTY_FE; else if (stat & LSR_PE) c |= TTY_PE; else if (stat & LSR_OE) { /* 30 Aug 92*/ c |= TTY_PE; /* Ought to have it's own define... */ log(LOG_WARNING, "com%d: silo overflow\n", unit); } (*linesw[tp->t_line].l_rint)(c, tp); } commint(unit, com) register int unit; register com; { register struct tty *tp; register int stat; tp = com_tty[unit]; stat = inb(com+com_msr); if ((stat & MSR_DDCD) && (comsoftCAR & (1 << unit)) == 0) { if (stat & MSR_DCD) (void)(*linesw[tp->t_line].l_modem)(tp, 1); else if ((*linesw[tp->t_line].l_modem)(tp, 0) == 0) outb(com+com_mcr, inb(com+com_mcr) & ~(MCR_DTR | MCR_RTS) | MCR_IENABLE); } else if ((stat & MSR_DCTS) && (tp->t_state & TS_ISOPEN) && (tp->t_flags & CRTSCTS)) { /* the line is up and we want to do rts/cts flow control */ if (stat & MSR_CTS) { tp->t_state &=~ TS_TTSTOP; ttstart(tp); } else tp->t_state |= TS_TTSTOP; } } #endif scnioctl(dev, cmd, data, flag, p) dev_t dev; int cmd; caddr_t data; int flag; struct proc *p; { register struct tty *tp; register int unit = UNIT(dev); register struct rs232_s *rs = &line[unit]; register scn; register int error; tp = scn_tty[unit]; error = (*linesw[tp->t_line].l_ioctl)(tp, cmd, data, flag, p); if (error >= 0) return (error); error = ttioctl(tp, cmd, data, flag, p); if (error >= 0) return (error); switch (cmd) { case TIOCSBRK: WR_ADR(u_char, rs->cmd_port, CMD_START_BRK); break; case TIOCCBRK: WR_ADR (u_char, rs->cmd_port, CMD_STOP_BRK); break; case TIOCSDTR: WR_ADR(u_char, rs->opset_port, DTR_BIT << rs->a_or_b); break; case TIOCCDTR: WR_ADR(u_char, rs->opclr_port, DTR_BIT << rs->a_or_b); break; case TIOCMSET: /* (void) scnmctl(dev, *(int *)data, DMSET); */ rs->scn_bits = *(long *)data; break; case TIOCMBIS: /* (void) scnmctl(dev, *(int *)data, DMBIS); */ rs->scn_bits |= *(int *)data; break; case TIOCMBIC: /* (void) scnmctl(dev, *(int *)data, DMBIC); */ rs->scn_bits &= ~(*(int *)data); break; case TIOCMGET: /* *(int *)data = scnmctl(dev, 0, DMGET); */ *(int *)data = rs->scn_bits; break; default: return (ENOTTY); } return (0); } scnparam(tp, t) register struct tty *tp; register struct termios *t; { int cflag = t->c_cflag; int unit = UNIT(tp->t_dev); int parity = LC_NONE, stop_bits = LC_STOP1, data_bits = LC_BITS8; int error; struct rs232_s *rs = &line[unit]; /* Is this a hang up? */ if (t->c_ospeed == B0) { WR_ADR (u_char, rs->opclr_port, DTR_BIT << rs->a_or_b); DELAY (10); WR_ADR (u_char, rs->opset_port, DTR_BIT << rs->a_or_b); return(0); } /* Parity? */ if (cflag&PARENB) { if ((cflag&PARODD) == 0) parity = LC_EVEN; else parity = LC_ODD; } /* Stop bits. */ if (cflag&CSTOPB) stop_bits = LC_STOP1; /* Data bits. */ switch (cflag&CSIZE) { case CS5: data_bits = LC_BITS5; break; case CS6: data_bits = LC_BITS6; break; case CS7: data_bits = LC_BITS7; break; case CS8: data_bits = LC_BITS8; break; } error = scn_config (unit, t->c_ispeed, t->c_ospeed, parity, stop_bits, data_bits); /* If successful, copy to tty */ if (!error) { tp->t_ispeed = t->c_ispeed; tp->t_ospeed = t->c_ospeed; tp->t_cflag = cflag; } return (error); } void scnstart(tp) register struct tty *tp; { int s, c; int unit = UNIT(tp->t_dev); struct rs232_s *rs = &line[unit]; s = spltty(); if (tp->t_state & (TS_TIMEOUT|TS_TTSTOP)) goto out; if (tp->t_outq.c_cc <= tp->t_lowat) { if (tp->t_state&TS_ASLEEP) { tp->t_state &= ~TS_ASLEEP; wakeup((caddr_t)&tp->t_outq); } selwakeup(&tp->t_wsel); } if (tp->t_outq.c_cc == 0) goto out; if (tx_rdy(rs)) { c = getc(&tp->t_outq); tp->t_state |= TS_BUSY; WR_ADR(u_char, rs->xmit_port, c); tx_ints_on(rs); } out: splx(s); } /* * Stop output on a line. */ /*ARGSUSED*/ scnstop(tp, flag) register struct tty *tp; { register int s; s = spltty(); if (tp->t_state & TS_BUSY) { if ((tp->t_state&TS_TTSTOP)==0) tp->t_state |= TS_FLUSH; } splx(s); } /* * Following are all routines needed for SCN to act as console */ scncnprobe(cp) struct consdev *cp; { #if 0 int unit; /* locate the major number */ for (scnmajor = 0; scnmajor < nchrdev; scnmajor++) if (cdevsw[scnmajor].d_open == scnopen) break; /* XXX: ick */ unit = CONUNIT; scn_addr[CONUNIT] = CONADDR; /* make sure hardware exists? XXX */ /* initialize required fields */ cp->cn_dev = makedev(scnmajor, unit+1); cp->cn_tp = scn_tty[unit]; #ifdef SCNCONSOLE cp->cn_pri = CN_REMOTE; /* Force a serial port console */ #else cp->cn_pri = CN_NORMAL; #endif #endif } scncninit(cp) struct consdev *cp; { #if 0 int unit = UNIT(cp->cn_dev); scninit(unit, scndefaultrate); scnconsole = unit; scnconsinit = 1; #endif } scninit(unit, rate) int unit, rate; { #if 0 register int scn; int s; short stat; #ifdef lint stat = unit; if (stat) return; #endif scn = scn_addr[unit]; s = splhigh(); outb(com+com_cfcr, CFCR_DLAB); rate = ttspeedtab(comdefaultrate, comspeedtab); outb(com+com_data, rate & 0xFF); outb(com+com_ier, rate >> 8); outb(com+com_cfcr, CFCR_8BITS); outb(com+com_ier, IER_ERXRDY | IER_ETXRDY); outb(com+com_fifo, FIFO_ENABLE|FIFO_RCV_RST|FIFO_XMT_RST|FIFO_TRIGGER_14); stat = inb(com+com_iir); splx(s); #endif } scncngetc(dev) { #if 0 register scn = scn_addr[UNIT(dev)]; short stat; int c, s; #ifdef lint stat = dev; if (stat) return(0); #endif s = splhigh(); while (((stat = inb(com+com_lsr)) & LSR_RXRDY) == 0) ; c = inb(com+com_data); stat = inb(com+com_iir); splx(s); return(c); #endif } /* * Console kernel output character routine. */ scncnputc(dev, c) dev_t dev; register int c; { #if 0 register com = com_addr[UNIT(dev)]; register int timo; short stat; int s = splhigh(); #ifdef lint stat = dev; if (stat) return; #endif #ifdef KGDB if (dev != kgdb_dev) #endif if (comconsinit == 0) { (void) cominit(UNIT(dev), comdefaultrate); comconsinit = 1; } /* wait for any pending transmission to finish */ timo = 50000; while (((stat = inb(com+com_lsr)) & LSR_TXRDY) == 0 && --timo) ; outb(com+com_data, c); /* wait for this transmission to complete */ timo = 1500000; while (((stat = inb(com+com_lsr)) & LSR_TXRDY) == 0 && --timo) ; /* clear any interrupts generated by this transmission */ stat = inb(com+com_iir); splx(s); #endif } int scnselect(dev, rw, p) dev_t dev; int rw; struct proc *p; { register struct tty *tp = scn_tty[UNIT(dev)]; int nread; int s = spltty(); struct proc *selp; switch (rw) { case FREAD: nread = ttnread(tp); if (nread > 0 || ((tp->t_cflag&CLOCAL) == 0 && (tp->t_state&TS_CARR_ON) == 0)) goto win; selrecord(p, &tp->t_rsel); break; case FWRITE: if (tp->t_outq.c_cc <= tp->t_lowat) goto win; selrecord(p, &tp->t_wsel); break; } splx(s); return (0); win: splx(s); return (1); } #endif