/*- * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Ralph Campbell and Rick Macklem. * * 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: @(#)sccreg.h 8.1 (Berkeley) 6/10/93 * $Id: sccreg.h,v 1.3 1994/05/27 08:59:19 glass Exp $ */ /* * Mach Operating System * Copyright (c) 1991,1990,1989 Carnegie Mellon University * All Rights Reserved. * * Permission to use, copy, modify and distribute this software and its * documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie Mellon * the rights to redistribute these changes. */ /* * Definitions for Intel 82530 serial communications chip. * Each chip is a dual uart with the A channels used for the keyboard and * mouse with the B channel(s) for comm ports with modem control. Since * some registers are used for the other channel, the following macros * are used to access the register ports. */ typedef struct { /* Channel B is first, then A */ struct { char scc_pad0; volatile u_char scc_command; /* reg select */ char scc_pad1[3]; volatile u_char scc_data; /* Rx/Tx buffer */ char scc_pad3[2]; } scc_channel[2]; } scc_regmap_t; #define SCC_CHANNEL_A 1 #define SCC_CHANNEL_B 0 #define SCC_INIT_REG(scc,chan) { \ char tmp; \ tmp = (scc)->scc_channel[(chan)].scc_command; \ tmp = (scc)->scc_channel[(chan)].scc_command; \ } #define SCC_READ_REG(scc,chan,reg,val) { \ (scc)->scc_channel[(chan)].scc_command = (reg); \ (val) = (scc)->scc_channel[(chan)].scc_command; \ } #define SCC_READ_REG_ZERO(scc,chan,val) { \ (val) = (scc)->scc_channel[(chan)].scc_command; \ } #define SCC_WRITE_REG(scc,chan,reg,val) { \ (scc)->scc_channel[(chan)].scc_command = (reg); \ (scc)->scc_channel[(chan)].scc_command = (val); \ } #define SCC_WRITE_REG_ZERO(scc,chan,val) { \ (scc)->scc_channel[(chan)].scc_command = (val); \ } #define SCC_READ_DATA(scc,chan,val) { \ (val) = (scc)->scc_channel[(chan)].scc_data; \ } #define SCC_WRITE_DATA(scc,chan,val) { \ (scc)->scc_channel[(chan)].scc_data = (val); \ } #define SCC_RR0 0 /* status register */ #define SCC_RR1 1 /* special receive conditions */ #define SCC_RR2 2 /* (modified) interrupt vector */ #define SCC_RR3 3 /* interrupts pending (cha A only) */ #define SCC_RR8 8 /* recv buffer (alias for data) */ #define SCC_RR10 10 /* sdlc status */ #define SCC_RR12 12 /* BRG constant, low part */ #define SCC_RR13 13 /* BRG constant, high part */ #define SCC_RR15 15 /* interrupts currently enabled */ #define SCC_WR0 0 /* reg select, and commands */ #define SCC_WR1 1 /* interrupt and DMA enables */ #define SCC_WR2 2 /* interrupt vector */ #define SCC_WR3 3 /* receiver params and enables */ #define SCC_WR4 4 /* clock/char/parity params */ #define SCC_WR5 5 /* xmit params and enables */ #define SCC_WR6 6 /* synchr SYNCH/address */ #define SCC_WR7 7 /* synchr SYNCH/flag */ #define SCC_WR8 8 /* xmit buffer (alias for data) */ #define SCC_WR9 9 /* vectoring and resets */ #define SCC_WR10 10 /* synchr params */ #define SCC_WR11 11 /* clocking definitions */ #define SCC_WR12 12 /* BRG constant, low part */ #define SCC_WR13 13 /* BRG constant, high part */ #define SCC_WR14 14 /* BRG enables and commands */ #define SCC_WR15 15 /* interrupt enables */ /* * Read registers defines */ #define SCC_RR0_BREAK 0x80 /* break detected (rings twice), or */ #define SCC_RR0_ABORT 0x80 /* abort (synchr) */ #define SCC_RR0_TX_UNDERRUN 0x40 /* xmit buffer empty/end of message */ #define SCC_RR0_CTS 0x20 /* clear-to-send pin active (sampled only on intr and after RESI cmd */ #define SCC_RR0_SYNCH 0x10 /* SYNCH found/still hunting */ #define SCC_RR0_DCD 0x08 /* carrier-detect (same as CTS) */ #define SCC_RR0_TX_EMPTY 0x04 /* xmit buffer empty */ #define SCC_RR0_ZERO_COUNT 0x02 /* ? */ #define SCC_RR0_RX_AVAIL 0x01 /* recv fifo not empty */ #define SCC_RR1_EOF 0x80 /* end-of-frame, SDLC mode */ #define SCC_RR1_CRC_ERR 0x40 /* incorrect CRC or.. */ #define SCC_RR1_FRAME_ERR 0x40 /* ..bad frame */ #define SCC_RR1_RX_OVERRUN 0x20 /* rcv fifo overflow */ #define SCC_RR1_PARITY_ERR 0x10 /* incorrect parity in data */ #define SCC_RR1_RESIDUE0 0x08 #define SCC_RR1_RESIDUE1 0x04 #define SCC_RR1_RESIDUE2 0x02 #define SCC_RR1_ALL_SENT 0x01 /* RR2 contains the interrupt vector unmodified (channel A) or modified as follows (channel B, if vector-include-status) */ #define SCC_RR2_STATUS(val) ((val)&0xf) #define SCC_RR2_B_XMIT_DONE 0x0 #define SCC_RR2_B_EXT_STATUS 0x2 #define SCC_RR2_B_RECV_DONE 0x4 #define SCC_RR2_B_RECV_SPECIAL 0x6 #define SCC_RR2_A_XMIT_DONE 0x8 #define SCC_RR2_A_EXT_STATUS 0xa #define SCC_RR2_A_RECV_DONE 0xc #define SCC_RR2_A_RECV_SPECIAL 0xe /* Interrupts pending, to be read from channel A only (B raz) */ #define SCC_RR3_zero 0xc0 #define SCC_RR3_RX_IP_A 0x20 #define SCC_RR3_TX_IP_A 0x10 #define SCC_RR3_EXT_IP_A 0x08 #define SCC_RR3_RX_IP_B 0x04 #define SCC_RR3_TX_IP_B 0x02 #define SCC_RR3_EXT_IP_B 0x01 /* RR8 is the receive data buffer, a 3 deep FIFO */ #define SCC_RECV_BUFFER SCC_RR8 #define SCC_RECV_FIFO_DEEP 3 #define SCC_RR10_1CLKS 0x80 #define SCC_RR10_2CLKS 0x40 #define SCC_RR10_zero 0x2d #define SCC_RR10_LOOP_SND 0x10 #define SCC_RR10_ON_LOOP 0x02 /* RR12/RR13 hold the timing base, upper byte in RR13 */ #define SCC_GET_TIMING_BASE(scc,chan,val) { \ register char tmp; \ SCC_READ_REG(scc,chan,SCC_RR12,val);\ SCC_READ_REG(scc,chan,SCC_RR13,tmp);\ (val) = ((val)<<8)|(tmp&0xff);\ } #define SCC_RR15_BREAK_IE 0x80 #define SCC_RR15_TX_UNDERRUN_IE 0x40 #define SCC_RR15_CTS_IE 0x20 #define SCC_RR15_SYNCH_IE 0x10 #define SCC_RR15_DCD_IE 0x08 #define SCC_RR15_zero 0x05 #define SCC_RR15_ZERO_COUNT_IE 0x02 /* * Write registers defines */ /* WR0 is used for commands too */ #define SCC_RESET_TXURUN_LATCH 0xc0 #define SCC_RESET_TX_CRC 0x80 #define SCC_RESET_RX_CRC 0x40 #define SCC_RESET_HIGHEST_IUS 0x38 /* channel A only */ #define SCC_RESET_ERROR 0x30 #define SCC_RESET_TX_IP 0x28 #define SCC_IE_NEXT_CHAR 0x20 #define SCC_SEND_SDLC_ABORT 0x18 #define SCC_RESET_EXT_IP 0x10 #define SCC_WR1_DMA_ENABLE 0x80 /* dma control */ #define SCC_WR1_DMA_MODE 0x40 /* drive ~req for DMA controller */ #define SCC_WR1_DMA_RECV_DATA 0x20 /* from wire to host memory */ /* interrupt enable/conditions */ #define SCC_WR1_RXI_SPECIAL_O 0x18 /* on special only */ #define SCC_WR1_RXI_ALL_CHAR 0x10 /* on each char, or special */ #define SCC_WR1_RXI_FIRST_CHAR 0x08 /* on first char, or special */ #define SCC_WR1_RXI_DISABLE 0x00 /* never on recv */ #define SCC_WR1_PARITY_IE 0x04 /* on parity errors */ #define SCC_WR1_TX_IE 0x02 #define SCC_WR1_EXT_IE 0x01 /* WR2 is common and contains the interrupt vector (high nibble) */ #define SCC_WR3_RX_8_BITS 0xc0 #define SCC_WR3_RX_6_BITS 0x80 #define SCC_WR3_RX_7_BITS 0x40 #define SCC_WR3_RX_5_BITS 0x00 #define SCC_WR3_AUTO_ENABLE 0x20 #define SCC_WR3_HUNT_MODE 0x10 #define SCC_WR3_RX_CRC_ENABLE 0x08 #define SCC_WR3_SDLC_SRCH 0x04 #define SCC_WR3_INHIBIT_SYNCH 0x02 #define SCC_WR3_RX_ENABLE 0x01 /* Should be re-written after reset */ #define SCC_WR4_CLK_x64 0xc0 /* clock divide factor */ #define SCC_WR4_CLK_x32 0x80 #define SCC_WR4_CLK_x16 0x40 #define SCC_WR4_CLK_x1 0x00 #define SCC_WR4_EXT_SYNCH_MODE 0x30 /* synch modes */ #define SCC_WR4_SDLC_MODE 0x20 #define SCC_WR4_16BIT_SYNCH 0x10 #define SCC_WR4_8BIT_SYNCH 0x00 #define SCC_WR4_2_STOP 0x0c /* asynch modes */ #define SCC_WR4_1_5_STOP 0x08 #define SCC_WR4_1_STOP 0x04 #define SCC_WR4_SYNCH_MODE 0x00 #define SCC_WR4_EVEN_PARITY 0x02 #define SCC_WR4_PARITY_ENABLE 0x01 #define SCC_WR5_DTR 0x80 /* drive DTR pin */ #define SCC_WR5_TX_8_BITS 0x60 #define SCC_WR5_TX_6_BITS 0x40 #define SCC_WR5_TX_7_BITS 0x20 #define SCC_WR5_TX_5_BITS 0x00 #define SCC_WR5_SEND_BREAK 0x10 #define SCC_WR5_TX_ENABLE 0x08 #define SCC_WR5_CRC_16 0x04 /* CRC if non zero, .. */ #define SCC_WR5_SDLC 0x00 /* ..SDLC otherwise */ #define SCC_WR5_RTS 0x02 /* drive RTS pin */ #define SCC_WR5_TX_CRC_ENABLE 0x01 /* Registers WR6 and WR7 are for synch modes data, with among other things: */ #define SCC_WR6_BISYNCH_12 0x0f #define SCC_WR6_SDLC_RANGE_MASK 0x0f #define SCC_WR7_SDLC_FLAG 0x7e /* WR8 is the transmit data buffer (no FIFO) */ #define SCC_XMT_BUFFER SCC_WR8 #define SCC_WR9_HW_RESET 0xc0 /* force hardware reset */ #define SCC_WR9_RESET_CHA_A 0x80 #define SCC_WR9_RESET_CHA_B 0x40 #define SCC_WR9_NON_VECTORED 0x20 /* mbz for Zilog chip */ #define SCC_WR9_STATUS_HIGH 0x10 #define SCC_WR9_MASTER_IE 0x08 #define SCC_WR9_DLC 0x04 /* disable-lower-chain */ #define SCC_WR9_NV 0x02 /* no vector */ #define SCC_WR9_VIS 0x01 /* vector-includes-status */ #define SCC_WR10_CRC_PRESET 0x80 #define SCC_WR10_FM0 0x60 #define SCC_WR10_FM1 0x40 #define SCC_WR10_NRZI 0x20 #define SCC_WR10_NRZ 0x00 #define SCC_WR10_ACTIVE_ON_POLL 0x10 #define SCC_WR10_MARK_IDLE 0x08 /* flag if zero */ #define SCC_WR10_ABORT_ON_URUN 0x04 /* flag if zero */ #define SCC_WR10_LOOP_MODE 0x02 #define SCC_WR10_6BIT_SYNCH 0x01 #define SCC_WR10_8BIT_SYNCH 0x00 #define SCC_WR11_RTxC_XTAL 0x80 /* RTxC pin is input (ext oscill) */ #define SCC_WR11_RCLK_DPLL 0x60 /* clock received data on dpll */ #define SCC_WR11_RCLK_BAUDR 0x40 /* .. on BRG */ #define SCC_WR11_RCLK_TRc_PIN 0x20 /* .. on TRxC pin */ #define SCC_WR11_RCLK_RTc_PIN 0x00 /* .. on RTxC pin */ #define SCC_WR11_XTLK_DPLL 0x18 #define SCC_WR11_XTLK_BAUDR 0x10 #define SCC_WR11_XTLK_TRc_PIN 0x08 #define SCC_WR11_XTLK_RTc_PIN 0x00 #define SCC_WR11_TRc_OUT 0x04 /* drive TRxC pin as output from..*/ #define SCC_WR11_TRcOUT_DPLL 0x03 /* .. the dpll */ #define SCC_WR11_TRcOUT_BAUDR 0x02 /* .. the BRG */ #define SCC_WR11_TRcOUT_XMTCLK 0x01 /* .. the xmit clock */ #define SCC_WR11_TRcOUT_XTAL 0x00 /* .. the external oscillator */ /* WR12/WR13 are for timing base preset */ #define SCC_SET_TIMING_BASE(scc,chan,val) { \ SCC_WRITE_REG(scc,chan,SCC_RR12,val);\ SCC_WRITE_REG(scc,chan,SCC_RR13,(val)>>8);\ } /* More commands in this register */ #define SCC_WR14_NRZI_MODE 0xe0 /* synch modulations */ #define SCC_WR14_FM_MODE 0xc0 #define SCC_WR14_RTc_SOURCE 0xa0 /* clock is from pin .. */ #define SCC_WR14_BAUDR_SOURCE 0x80 /* .. or internal BRG */ #define SCC_WR14_DISABLE_DPLL 0x60 #define SCC_WR14_RESET_CLKMISS 0x40 #define SCC_WR14_SEARCH_MODE 0x20 /* ..and more bitsy */ #define SCC_WR14_LOCAL_LOOPB 0x10 #define SCC_WR14_AUTO_ECHO 0x08 #define SCC_WR14_DTR_REQUEST 0x04 #define SCC_WR14_BAUDR_SRC 0x02 #define SCC_WR14_BAUDR_ENABLE 0x01 #define SCC_WR15_BREAK_IE 0x80 #define SCC_WR15_TX_UNDERRUN_IE 0x40 #define SCC_WR15_CTS_IE 0x20 #define SCC_WR15_SYNCHUNT_IE 0x10 #define SCC_WR15_DCD_IE 0x08 #define SCC_WR15_zero 0x05 #define SCC_WR15_ZERO_COUNT_IE 0x02 /* bits in dm lsr, copied from dmreg.h */ #define DML_DSR 0000400 /* data set ready, not a real DM bit */ #define DML_RNG 0000200 /* ring */ #define DML_CAR 0000100 /* carrier detect */ #define DML_CTS 0000040 /* clear to send */ #define DML_SR 0000020 /* secondary receive */ #define DML_ST 0000010 /* secondary transmit */ #define DML_RTS 0000004 /* request to send */ #define DML_DTR 0000002 /* data terminal ready */ #define DML_LE 0000001 /* line enable */ /* * Minor device numbers for scc. Weird because B channel comes * first and the A channels are wired for keyboard/mouse and the * B channels for the comm port(s). */ #define SCCCOMM2_PORT 0x0 #define SCCMOUSE_PORT 0x1 #define SCCCOMM3_PORT 0x2 #define SCCKBD_PORT 0x3