NetBSD/sys/arch/mvme68k/dev/pcctworeg.h
scw 4f53e52d8a Add support for the VMEchip2 and the ncr53c710 SCSI IOP.
VMEchip2 support work is ongoing. SCSI is complete.
1999-02-20 00:11:59 +00:00

252 lines
11 KiB
C

/* $NetBSD: pcctworeg.h,v 1.3 1999/02/20 00:11:59 scw Exp $ */
/*-
* Copyright (c) 1999 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Steve C. Woodford
*
* 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 NetBSD
* Foundation, Inc. and its contributors.
* 4. Neither the name of The NetBSD Foundation 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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.
*/
/*
* PCCchip2 at $FFF42000
*/
#ifndef __mvme68k_pcctworeg_h
#define __mvme68k_pcctworeg_h
#define PCCTWO_BASE 0xfff42000 /* Phys Addr of PCCchip2 space */
#define PCCTWO_REG_OFF 0x0000 /* Offset of PCCchip2 registers */
#define PCCTWO_LPT_OFF 0x0000 /* Offset of parallel port registers */
#define PCCTWO_MEMC_OFF 0x1000 /* Offset of Memory Controller's regs */
#define PCCTWO_SCC_OFF 0x3000 /* Offset of CD2401 Serial Comms chip */
#define PCCTWO_IE_OFF 0x4000 /* Offset of 82596 LAN controller */
#define PCCTWO_NCRSC_OFF 0x5000 /* Offset of NCR53C710 SCSI chip */
#define PCCTWO_CLOCK_OFF 0x7e000 /* Offset of MK48T18 NVRAM */
#define PCCTWO_RTC_OFF 0x1ff8 /* Offset of MK48T18 RTC registers */
#define PCCTWO_PADDR(off) ((void *)(PCCTWO_BASE + (off)))
/*
* The PCCchip2 space is permanently mapped by pmap_bootstrap(). This
* macro translates PCCTWO offsets into the corresponding KVA.
*/
#define PCCTWO_VADDR(off) ((void *)IIOV(PCCTWO_BASE + (off)))
/*
* The layout of the PCCchip2's Registers
*/
struct pcctwo {
volatile u_char chip_id; /* Chip ID Register */
volatile u_char chip_rev; /* Chip Revision Register */
volatile u_char gen_ctrl; /* General Control Register */
volatile u_char vector_base; /* Vector Base Register */
volatile u_long tt1_compare; /* Tick Timer 1 Compare Register */
volatile u_long tt1_counter; /* Tick Timer 1 Counter Register */
volatile u_long tt2_compare; /* Tick Timer 2 Compare Register */
volatile u_long tt2_counter; /* Tick Timer 2 Counter Register */
volatile u_char prescale_cnt; /* Prescaler Count Register */
volatile u_char prescale_adj; /* Prescaler Clock Adjust Register */
volatile u_char tt2_ctrl; /* Tick Timer 2 Control Register */
volatile u_char tt1_ctrl; /* Tick Timer 1 Control Register */
volatile u_char gp_in_icr; /* GP Input Interrupt Control Reg. */
volatile u_char gpio_ctrl; /* GP Input/Output Control Register */
volatile u_char tt2_icr; /* Tick Timer 2 Interrupt Control Reg */
volatile u_char tt1_icr; /* Tick Timer 1 Interrupt Control Reg */
volatile u_char scc_err_sr; /* SCC Error Status Register */
volatile u_char scc_mod_icr; /* SCC Modem Interrupt Control Reg. */
volatile u_char scc_tx_icr; /* SCC Transmit Interrupt Control Reg */
volatile u_char scc_rx_icr; /* SCC Receive Interrupt Control Reg */
volatile u_char resvd1[3];
volatile u_char scc_mod_piack; /* SCC Modem PIACK Register */
volatile u_char resvd2;
volatile u_char scc_tx_piack; /* SCC Transmit PIACK Register */
volatile u_char resvd3;
volatile u_char scc_rx_piack; /* SCC Receive PIACK Register */
volatile u_char lanc_err_sr; /* LANC Error Status Register */
volatile u_char resvd4;
volatile u_char lanc_icr; /* LANC Interrupt Control Register */
volatile u_char lanc_berr_sr; /* LANC Bus Error Interrupt Ctrl Reg */
volatile u_char scsi_err_sr; /* SCSI Error Status Register */
volatile u_char resvd5[2];
volatile u_char scsi_icr; /* SCSI Interrupt Control Register */
volatile u_char prt_ack_icr; /* Printer ACK Interrupt Control Reg */
volatile u_char prt_fault_icr; /* Printer FAULT Interrupt Ctrl Reg */
volatile u_char prt_sel_icr; /* Printer SEL Interrupt Control Reg */
volatile u_char prt_pe_icr; /* Printer PE Interrupt Control Reg */
volatile u_char prt_busy_icr; /* Printer BUSY Interrupt Control Reg */
volatile u_char resvd6;
volatile u_char prt_input_sr; /* Printer Input Status Register */
volatile u_char prt_ctrl; /* Printer Port Control Register */
volatile u_short chip_speed; /* Chip Speed Register */
volatile u_short prt_data; /* Printer Data Register */
volatile u_char resvd7[2];
volatile u_char irq_level; /* Interrupt Priority Level Register */
volatile u_char irq_mask; /* Interrupt Mask Register */
};
/*
* Pointer to PCCChip2's Registers. Set up during system boot.
*/
extern struct pcctwo *sys_pcctwo;
/*
* We use the interrupt vector bases suggested in the Motorola Docs...
* The first is written to the PCCChip2 for interrupt sources under
* its control. The second is written to the CD2401's Local Interrupt
* Vector Register. Thus, we don't use the Auto-Vector facilities
* for the CD2401, as recommended in the PCCChip2 Programmer's Guide.
*/
#define PCCTWO_VECBASE 0x50
#define PCCTWO_SCC_VECBASE 0x5c
/*
* Vector Encoding (Offsets from PCCTWO_VECBASE)
* The order 0x0 -> 0xf also indicates priority, with 0x0 lowest.
*/
#define PCCTWOV_PRT_BUSY 0x0 /* Printer Port 'BSY' */
#define PCCTWOV_PRT_PE 0x1 /* Printer Port 'PE' (Paper Empty) */
#define PCCTWOV_PRT_SELECT 0x2 /* Printer Port 'SELECT' */
#define PCCTWOV_PRT_FAULT 0x3 /* Printer Port 'FAULT' */
#define PCCTWOV_PRT_ACK 0x4 /* Printer Port 'ACK' */
#define PCCTWOV_SCSI 0x5 /* SCSI Interrupt */
#define PCCTWOV_LANC_ERR 0x6 /* LAN Controller Error */
#define PCCTWOV_LANC_IRQ 0x7 /* LAN Controller Interrupt */
#define PCCTWOV_TIMER2 0x8 /* Tick Timer 2 Interrupt */
#define PCCTWOV_TIMER1 0x9 /* Tick Timer 1 Interrupt */
#define PCCTWOV_GPIO 0xa /* General Purpose Input Interrupt */
#define PCCTWOV_SCC_RX_EXCEP 0xc /* SCC Receive Exception */
#define PCCTWOV_SCC_MODEM 0xd /* SCC Modem (Non-Auto-vector mode) */
#define PCCTWOV_SCC_TX 0xe /* SCC Tx (Non-Auto-vector mode) */
#define PCCTWOV_SCC_RX 0xf /* SCC Rx (Non-Auto-vector mode) */
#define PCCTWOV_MAX 16
/*
* Bit Values for the General Control Register (sys_pcctwo->gen_ctrl)
*/
#define PCCTWO_GEN_CTRL_FAST (1u<<0) /* BBRAM Speed Control */
#define PCCTWO_GEN_CTRL_MIEN (1u<<1) /* Master Interrupt Enable */
#define PCCTWO_GEN_CTRL_C040 (1u<<2) /* Set when CPU is mc68k family */
#define PCCTWO_GEN_CTRL_DR0 (1u<<3) /* Download ROM at 0 (mvme166 only) */
/*
* Calculate the Prescaler Adjust value for a given
* value of BCLK in MHz. (sys_pcctwo->prescale_adj)
*/
#define PCCTWO_PRES_ADJ(mhz) (256 - (mhz))
/*
* Calculate the Tick Timer Compare register value for
* a given number of micro-seconds. With the PCCChip2,
* this is simple since the Tick Counters already have
* a 1uS period. (sys_pcctwo->tt[12]_compare)
*/
#define PCCTWO_US2LIM(us) (us)
/*
* The Tick Timer Control Registers (sys_pcctwo->tt[12]_ctrl)
*/
#define PCCTWO_TT_CTRL_CEN (1u<<0) /* Counter Enable */
#define PCCTWO_TT_CTRL_COC (1u<<1) /* Clear On Compare */
#define PCCTWO_TT_CTRL_COVF (1u<<2) /* Clear Overflow Counter */
#define PCCTWO_TT_CTRL_OVF(r) ((r)>>4)/* Value of the Overflow Counter */
/*
* All the Interrupt Control Registers on the PCCChip2 mostly
* share the same basic layout. These are defined as follows:
*/
#define PCCTWO_ICR_LEVEL_MASK 0x7 /* Mask for the interrupt level */
#define PCCTWO_ICR_ICLR (1u<<3) /* Clear Int. (edge-sensitive mode) */
#define PCCTWO_ICR_AVEC (1u<<3) /* Enable Auto-Vector Mode */
#define PCCTWO_ICR_IEN (1u<<4) /* Interrupt Enable */
#define PCCTWO_ICR_INT (1u<<5) /* Interrupt Active */
#define PCCTWO_ICR_LEVEL (0u<<6) /* Level Triggered */
#define PCCTWO_ICR_EDGE (1u<<6) /* Edge Triggered */
#define PCCTWO_ICR_RISE_HIGH (0u<<7) /* Polarity: Rising Edge or Hi Level */
#define PCCTWO_ICR_FALL_LOW (1u<<7) /* Polarity: Falling Edge or Lo Level */
#define PCCTWO_ICR_SC_RD(r) ((r)>>6)/* Get Snoop Control Bits */
#define PCCTWO_ICR_SC_WR(r) ((r)<<6)/* Write Snoop Control Bits */
/*
* Most of the Error Status Registers (sys_pcctwo->*_err_sr) mostly
* follow the same layout. These error registers are used when a
* device (eg. SCC, LANC) is mastering the PCCChip2's local bus (for
* example, performing a DMA) and some error occurs. The bits are
* defined as follows:
*/
#define PCCTWO_ERR_SR_SCLR (1u<<0) /* Clear Error Status */
#define PCCTWO_ERR_SR_LTO (1u<<1) /* Local Bus Timeout */
#define PCCTWO_ERR_SR_EXT (1u<<2) /* External (VMEbus) Error */
#define PCCTWO_ERR_SR_PRTY (1u<<3) /* DRAM Parity Error */
#define PCCTWO_ERR_SR_RTRY (1u<<4) /* Retry Required */
#define PCCTWO_ERR_SR_MASK 0x0Eu
/*
* General Purpose Input/Output Pin Control Register
* (sys_pcctwo->gpio_ctrl)
*/
#define PCCTWO_GPIO_CTRL_GPO (1u<<0) /* Controls the GP Output Pin */
#define PCCTWO_GPIO_CTRL_GPOE (1u<<1) /* General Purpose Output Enable */
#define PCCTWO_GPIO_CTRL_GPI (1u<<3) /* The current state of the GP Input */
/*
* Printer Input Status Register (sys_pcctwo->prt_input_sr)
*/
#define PCCTWO_PRT_IN_SR_BSY (1u<<0) /* State of printer's BSY Input */
#define PCCTWO_PRT_IN_SR_PE (1u<<1) /* State of printer's PE Input */
#define PCCTWO_PRT_IN_SR_SEL (1u<<2) /* State of printer's SELECT Input */
#define PCCTWO_PRT_IN_SR_FLT (1u<<3) /* State of printer's FAULT Input */
#define PCCTWO_PRT_IN_SR_ACK (1u<<4) /* State of printer's ACK Input */
#define PCCTWO_PRT_IN_SR_PINT (1u<<7) /* Printer Interrupt Status */
/*
* Printer Port Control Register (sys_pcctwo->prt_ctrl)
*/
#define PCCTWO_PRT_CTRL_MAN (1u<<0) /* Manual Strobe Control */
#define PCCTWO_PRT_CTRL_FAST (1u<<1) /* Fast Auto Strobe */
#define PCCTWO_PRT_CTRL_STB (1u<<2) /* Strobe Pin, in manual control mode */
#define PCCTWO_PRT_CTRL_INP (1u<<3) /* Printer Input Prime */
#define PCCTWO_PRT_CTRL_DOEN (1u<<4) /* Printer Data Output Enable */
#endif /* __mvme68k_pcctworeg_h */