freebsd-skq/sys/dev/sx/sx.h
Poul-Henning Kamp 911dbd84c7 Introduce ttygone() which indicates that the hardware is detached.
Move dtrwait logic to the generic TTY level.
2004-07-11 15:18:39 +00:00

209 lines
8.7 KiB
C

/*
* Device driver for Specialix I/O8+ multiport serial card.
*
* Copyright 2003 Frank Mayhar <frank@exit.com>
*
* Derived from the "si" driver by Peter Wemm <peter@netplex.com.au>, using
* lots of information from the Linux "specialix" driver by Roger Wolff
* <R.E.Wolff@BitWizard.nl> and from the Intel CD1865 "Intelligent Eight-
* Channel Communications Controller" datasheet. Roger was also nice
* enough to answer numerous questions about stuff specific to the I/O8+
* not covered by the CD1865 datasheet.
*
* 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
* notices, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notices, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY ``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 AUTHORS BE LIABLE.
*
* $FreeBSD$
*/
/*
* Per-channel soft information structure, stored in the driver. It's called
* "sx_port" just because the si driver calls it "si_port."
*
* This information is mostly visible via ioctl().
*/
struct sx_port {
int sp_chan; /* Channel number, for convenience. */
struct tty *sp_tty;
int sp_state;
int sp_active_out; /* callout is open */
int sp_delta_overflows;
u_int sp_wopeners; /* Processes waiting for DCD. */
struct termios sp_iin; /* Initial state. */
struct termios sp_iout;
struct termios sp_lin; /* Lock state. */
struct termios sp_lout;
#ifdef SX_DEBUG
int sp_debug; /* debug mask */
#endif
};
/*
* Various important values.
*/
#define SX_NUMCHANS 8 /* Eight channels on an I/O8+. */
#define SX_PCI_IO_SPACE 8 /* How much address space to use. */
#define SX_CCR_TIMEOUT 10000 /* Channel Command Register timeout, 10ms. */
#define SX_GSVR_TIMEOUT 1000 /* GSVR reset timeout, 1ms. */
#define SX_CD1865_ID 0x10 /* ID of the I/O8+ CD1865 chip. */
#define SX_EI 0x80 /* "Enable interrupt" flag for I/O8+ commands.*/
#define SX_DATA_REG 0 /* Data register. */
#define SX_ADDR_REG 1 /* Address register. */
/*
* The I/O8+ has a 25MHz oscillator on board, but the CD1865 runs at half
* that.
*/
#define SX_CD1865_CLOCK 12500000 /* CD1865 clock on I/O8+. */
#define SX_CD1865_TICK 4000 /* Timer tick rate, via prescaler. */
#define SX_CD1865_PRESCALE (SX_CD1865_CLOCK/SX_CD1865_TICK) /* Prescale value.*/
#include <sys/callout.h>
/*
* Device numbering for the sx device.
*
* The minor number is broken up into four fields as follows:
* Field Bits Mask
* --------------------- ---- ----
* Channel (port) number 0-2 0x07
* "DTR pin is DTR" flag 3 0x08
* Unused (zero) 4 0x10
* Card number 5-6 0x60
* Callout device flag 7 0x80
*
* The next 8 bits in the word is the major number, followed by the
* "initial state device" flag and then the "lock state device" flag.
*/
#define SX_CHAN_MASK 0x07
#define SX_DTRPIN_MASK 0x08
#define SX_CARD_MASK 0x60
#define SX_TTY_MASK 0x7f
#define SX_CALLOUT_MASK 0x80
#define SX_INIT_STATE_MASK 0x10000
#define SX_LOCK_STATE_MASK 0x20000
#define SX_STATE_MASK 0x30000
#define SX_SPECIAL_MASK 0x30000
#define SX_CARDSHIFT 5
#define SX_MINOR2CHAN(m) (m & SX_CHAN_MASK)
#define SX_MINOR2CARD(m) ((m & SX_CARD_MASK) >> SX_CARDSHIFT)
#define SX_MINOR2TTY(m) (m & SX_TTY_MASK)
#define DEV_IS_CALLOUT(m) (m & SX_CALLOUT_MASK)
#define DEV_IS_STATE(m) (m & SX_STATE_MASK)
#define DEV_IS_SPECIAL(m) (m & SX_SPECIAL_MASK)
#define DEV_DTRPIN(m) (m & SX_DTRPIN_MASK)
#define MINOR2SC(m) ((struct sx_softc *)devclass_get_softc(sx_devclass,\
SX_MINOR2CARD(m)))
#define MINOR2PP(m) (MINOR2SC((m))->sc_ports + SX_MINOR2CHAN((m)))
#define MINOR2TP(m) (MINOR2PP((m))->sp_tty)
#define TP2PP(tp) (MINOR2PP(SX_MINOR2TTY(minor((tp)->t_dev))))
#define TP2SC(tp) (MINOR2SC(minor((tp)->t_dev)))
#define PP2SC(pp) (MINOR2SC(minor((pp)->sp_tty->t_dev)))
/* Buffer parameters */
#define SX_BUFFERSIZE CD1865_RFIFOSZ /* Just the size of the receive FIFO. */
#define SX_I_HIGH_WATER (TTYHOG - 2 * SX_BUFFERSIZE)
/*
* Precomputed bitrate clock divisors. Formula is
*
* Clock rate (Hz) 12500000
* divisor = --------------- or ------------
* 16 * bit rate 16 * bitrate
*
* All values are rounded to the nearest integer.
*/
#define CLK75 0x28b1 /* 10416.666667 */
#define CLK110 0x1bbe /* 7102.272727 */
#define CLK150 0x1458 /* 5208.333333 */
#define CLK300 0x0a2c /* 2604.166667 */
#define CLK600 0x0516 /* 1302.083333 */
#define CLK1200 0x028b /* 651.0416667 */
#define CLK2000 0x0187 /* 390.625 */
#define CLK2400 0x0146 /* 325.5208333 */
#define CLK4800 0x00a3 /* 162.7604167 */
#define CLK7200 0x006d /* 108.5069444 */
#define CLK9600 0x0051 /* 81.38020833 */
#define CLK19200 0x0029 /* 40.69010417 */
#define CLK38400 0x0014 /* 20.34505208 */
#define CLK57600 0x000e /* 13.56336806 */
#define CLK115200 0x0007 /* 6.781684028 */
/* sp_state */
#define SX_SS_CLOSED 0x00000 /* Port is closed. */
#define SX_SS_OPEN 0x00001 /* Port is open and active. */
#define SX_SS_XMIT 0x00002 /* We're transmitting data. */
#define SX_SS_INTR 0x00004 /* We're processing an interrupt. */
#define SX_SS_CLOSING 0x00008 /* in the middle of an sxclose() */
#define SX_SS_WAITWRITE 0x00010
#define SX_SS_BLOCKWRITE 0x00020
#define SX_SS_DTR_OFF 0x00040 /* DTR held off */
#define SX_SS_IFLOW 0x00080 /* Input (RTS) flow control on. */
#define SX_SS_OFLOW 0x00100 /* Output (CTS) flow control on. */
#define SX_SS_IRCV 0x00200 /* In a receive interrupt. */
#define SX_SS_IMODEM 0x00400 /* In a modem-signal interrupt. */
#define SX_SS_IRCVEXC 0x00800 /* In a receive-exception interrupt. */
#define SX_SS_IXMIT 0x01000 /* In a transmit interrupt. */
#define SX_SS_OSTOP 0x02000 /* Stopped by output flow control. */
#define SX_SS_ISTOP 0x04000 /* Stopped by input flow control. */
#define SX_SS_DTRPIN 0x08000 /* DTR/RTS pin is DTR. */
#define SX_SS_DOBRK 0x10000 /* Change break status. */
#define SX_SS_BREAK 0x20000 /* Doing break. */
#define SX_DTRPIN(pp) ((pp)->sp_state & SX_SS_DTRPIN) /* DTR/RTS pin is DTR.*/
#define SX_XMITTING(pp) ((pp)->sp_state & SX_SS_XMIT) /* We're transmitting. */
#define SX_INTR(pp) ((pp)->sp_state & SX_SS_INTR) /* In an interrupt. */
#define SX_IXMIT(pp) ((pp)->sp_state & SX_SS_IXMIT) /* Transmit interrupt. */
#define SX_IFLOW(pp) ((pp)->sp_state & SX_SS_IFLOW) /* Input flow control. */
#define SX_OFLOW(pp) ((pp)->sp_state & SX_SS_OFLOW) /* Output flow control.*/
#define SX_IRCV(pp) ((pp)->sp_state & SX_SS_IRCV) /* Receive interrupt. */
#define SX_IMODEM(pp) ((pp)->sp_state & SX_SS_IMODEM) /* Modem state change.*/
#define SX_IRCVEXC(pp) ((pp)->sp_state & SX_SS_IRCVEXC) /* Rcv exception. */
#define SX_OSTOP(pp) ((pp)->sp_state & SX_SS_OSTOP) /* Output stopped. */
#define SX_ISTOP(pp) ((pp)->sp_state & SX_SS_ISTOP) /* Input stopped. */
#define SX_DOBRK(pp) ((pp)->sp_state & SX_SS_DOBRK) /* Change break status.*/
#define SX_BREAK(pp) ((pp)->sp_state & SX_SS_BREAK) /* Doing break. */
#define DBG_ENTRY 0x00000001
#define DBG_DRAIN 0x00000002
#define DBG_OPEN 0x00000004
#define DBG_CLOSE 0x00000008
/* 0x00000010*/
#define DBG_WRITE 0x00000020
#define DBG_PARAM 0x00000040
#define DBG_INTR 0x00000080
#define DBG_IOCTL 0x00000100
/* 0x00000200 */
/* 0x00000400*/
#define DBG_OPTIM 0x00000800
#define DBG_START 0x00001000
#define DBG_EXIT 0x00002000
#define DBG_FAIL 0x00004000
#define DBG_STOP 0x00008000
#define DBG_AUTOBOOT 0x00010000
#define DBG_MODEM 0x00020000
#define DBG_MODEM_STATE 0x00040000
#define DBG_RECEIVE 0x00080000
#define DBG_POLL 0x00100000
#define DBG_TRANSMIT 0x00200000
#define DBG_RECEIVE_EXC 0x00400000
#define DBG_PRINTF 0x80000000
#define DBG_ALL 0xffffffff