📄 cirrus.h
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/**************************************************************************** ******* ******* ******* CIRRUS.H ******* ******* ******* **************************************************************************** Author : Jeremy Rolls Date : 3 Aug 1990 * * (C) 1990 - 2000 Specialix International Ltd., Byfleet, Surrey, UK. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. Version : 0.01 Mods ---------------------------------------------------------------------------- Date By Description ---------------------------------------------------------------------------- ***************************************************************************/#ifndef _cirrus_h#ifndef lint/* static char* _cirrus_h_sccs = "@(#)cirrus.h 1.16"; */#endif#define _cirrus_h 1/* Bit fields for particular registers shared with driver *//* COR1 - driver and RTA */#define COR1_ODD 0x80 /* Odd parity */#define COR1_EVEN 0x00 /* Even parity */#define COR1_NOP 0x00 /* No parity */#define COR1_FORCE 0x20 /* Force parity */#define COR1_NORMAL 0x40 /* With parity */#define COR1_1STOP 0x00 /* 1 stop bit */#define COR1_15STOP 0x04 /* 1.5 stop bits */#define COR1_2STOP 0x08 /* 2 stop bits */#define COR1_5BITS 0x00 /* 5 data bits */#define COR1_6BITS 0x01 /* 6 data bits */#define COR1_7BITS 0x02 /* 7 data bits */#define COR1_8BITS 0x03 /* 8 data bits */#define COR1_HOST 0xef /* Safe host bits *//* RTA only */#define COR1_CINPCK 0x00 /* Check parity of received characters */#define COR1_CNINPCK 0x10 /* Don't check parity *//* COR2 bits for both RTA and driver use */#define COR2_IXANY 0x80 /* IXANY - any character is XON */#define COR2_IXON 0x40 /* IXON - enable tx soft flowcontrol */#define COR2_RTSFLOW 0x02 /* Enable tx hardware flow control *//* Additional driver bits */#define COR2_HUPCL 0x20 /* Hang up on close */#define COR2_CTSFLOW 0x04 /* Enable rx hardware flow control */#define COR2_IXOFF 0x01 /* Enable rx software flow control */#define COR2_DTRFLOW 0x08 /* Enable tx hardware flow control *//* RTA use only */#define COR2_ETC 0x20 /* Embedded transmit options */#define COR2_LOCAL 0x10 /* Local loopback mode */#define COR2_REMOTE 0x08 /* Remote loopback mode */#define COR2_HOST 0xc2 /* Safe host bits *//* COR3 - RTA use only */#define COR3_SCDRNG 0x80 /* Enable special char detect for range */#define COR3_SCD34 0x40 /* Special character detect for SCHR's 3 + 4 */#define COR3_FCT 0x20 /* Flow control transparency */#define COR3_SCD12 0x10 /* Special character detect for SCHR's 1 + 2 */#define COR3_FIFO12 0x0c /* 12 chars for receive FIFO threshold */#define COR3_FIFO10 0x0a /* 10 chars for receive FIFO threshold */#define COR3_FIFO8 0x08 /* 8 chars for receive FIFO threshold */#define COR3_FIFO6 0x06 /* 6 chars for receive FIFO threshold */#define COR3_THRESHOLD COR3_FIFO8 /* MUST BE LESS THAN MCOR_THRESHOLD */#define COR3_DEFAULT (COR3_FCT | COR3_THRESHOLD) /* Default bits for COR3 *//* COR4 driver and RTA use */#define COR4_IGNCR 0x80 /* Throw away CR's on input */#define COR4_ICRNL 0x40 /* Map CR -> NL on input */#define COR4_INLCR 0x20 /* Map NL -> CR on input */#define COR4_IGNBRK 0x10 /* Ignore Break */#define COR4_NBRKINT 0x08 /* No interrupt on break (-BRKINT) */#define COR4_RAISEMOD 0x01 /* Raise modem output lines on non-zero baud *//* COR4 driver only */#define COR4_IGNPAR 0x04 /* IGNPAR (ignore characters with errors) */#define COR4_PARMRK 0x02 /* PARMRK */#define COR4_HOST 0xf8 /* Safe host bits *//* COR4 RTA only */#define COR4_CIGNPAR 0x02 /* Thrown away bad characters */#define COR4_CPARMRK 0x04 /* PARMRK characters */#define COR4_CNPARMRK 0x03 /* Don't PARMRK *//* COR5 driver and RTA use */#define COR5_ISTRIP 0x80 /* Strip input chars to 7 bits */#define COR5_LNE 0x40 /* Enable LNEXT processing */#define COR5_CMOE 0x20 /* Match good and errored characters */#define COR5_ONLCR 0x02 /* NL -> CR NL on output */#define COR5_OCRNL 0x01 /* CR -> NL on output *//*** Spare bits - these are not used in the CIRRUS registers, so we use** them to set various other features.*//*** tstop and tbusy indication*/#define COR5_TSTATE_ON 0x08 /* Turn on monitoring of tbusy and tstop */#define COR5_TSTATE_OFF 0x04 /* Turn off monitoring of tbusy and tstop *//*** TAB3*/#define COR5_TAB3 0x10 /* TAB3 mode */#define COR5_HOST 0xc3 /* Safe host bits *//* CCSR */#define CCSR_TXFLOFF 0x04 /* Tx is xoffed *//* MSVR1 *//* NB. DTR / CD swapped from Cirrus spec as the pins are also reversed on the RTA. This is because otherwise DCD would get lost on the 1 parallel / 3 serial option.*/#define MSVR1_CD 0x80 /* CD (DSR on Cirrus) */#define MSVR1_RTS 0x40 /* RTS (CTS on Cirrus) */#define MSVR1_RI 0x20 /* RI */#define MSVR1_DTR 0x10 /* DTR (CD on Cirrus) */#define MSVR1_CTS 0x01 /* CTS output pin (RTS on Cirrus) *//* Next two used to indicate state of tbusy and tstop to driver */#define MSVR1_TSTOP 0x08 /* Set if port flow controlled */#define MSVR1_TEMPTY 0x04 /* Set if port tx buffer empty */#define MSVR1_HOST 0xf3 /* The bits the host wants *//* Defines for the subscripts of a CONFIG packet */#define CONFIG_COR1 1 /* Option register 1 */#define CONFIG_COR2 2 /* Option register 2 */#define CONFIG_COR4 3 /* Option register 4 */#define CONFIG_COR5 4 /* Option register 5 */#define CONFIG_TXXON 5 /* Tx XON character */#define CONFIG_TXXOFF 6 /* Tx XOFF character */#define CONFIG_RXXON 7 /* Rx XON character */#define CONFIG_RXXOFF 8 /* Rx XOFF character */#define CONFIG_LNEXT 9 /* LNEXT character */#define CONFIG_TXBAUD 10 /* Tx baud rate */#define CONFIG_RXBAUD 11 /* Rx baud rate */#define PRE_EMPTIVE 0x80 /* Pre-emptive bit in command field *//* Packet types going from Host to remote - with the exception of OPEN, MOPEN, CONFIG, SBREAK and MEMDUMP the remaining bytes of the data array will not be used */#define OPEN 0x00 /* Open a port */#define CONFIG 0x01 /* Configure a port */#define MOPEN 0x02 /* Modem open (block for DCD) */#define CLOSE 0x03 /* Close a port */#define WFLUSH (0x04 | PRE_EMPTIVE) /* Write flush */#define RFLUSH (0x05 | PRE_EMPTIVE) /* Read flush */#define RESUME (0x06 | PRE_EMPTIVE) /* Resume if xoffed */#define SBREAK 0x07 /* Start break */#define EBREAK 0x08 /* End break */#define SUSPEND (0x09 | PRE_EMPTIVE) /* Susp op (behave as tho xoffed) */#define FCLOSE (0x0a | PRE_EMPTIVE) /* Force close */#define XPRINT 0x0b /* Xprint packet */#define MBIS (0x0c | PRE_EMPTIVE) /* Set modem lines */#define MBIC (0x0d | PRE_EMPTIVE) /* Clear modem lines */#define MSET (0x0e | PRE_EMPTIVE) /* Set modem lines */#define PCLOSE 0x0f /* Pseudo close - Leaves rx/tx enabled */#define MGET (0x10 | PRE_EMPTIVE) /* Force update of modem status */#define MEMDUMP (0x11 | PRE_EMPTIVE) /* Send back mem from addr supplied */#define READ_REGISTER (0x12 | PRE_EMPTIVE) /* Read CD1400 register (debug) *//* "Command" packets going from remote to host COMPLETE and MODEM_STATUS use data[4] / data[3] to indicate current state and modem status respectively*/#define COMPLETE (0x20 | PRE_EMPTIVE) /* Command complete */#define BREAK_RECEIVED (0x21 | PRE_EMPTIVE) /* Break received */#define MODEM_STATUS (0x22 | PRE_EMPTIVE) /* Change in modem status *//* "Command" packet that could go either way - handshake wake-up */#define HANDSHAKE (0x23 | PRE_EMPTIVE) /* Wake-up to HOST / RTA */#endif⌨️ 快捷键说明
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