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pciide_hpt_reg.h revision 1.1 
      1  1.1  bouyer /*      $NetBSD: pciide_hpt_reg.h,v 1.1 2000/06/12 21:20:51 bouyer Exp $       */
      2  1.1  bouyer 
      3  1.1  bouyer /*
      4  1.1  bouyer  * Copyright (c) 2000 Manuel Bouyer.
      5  1.1  bouyer  *
      6  1.1  bouyer  * Redistribution and use in source and binary forms, with or without
      7  1.1  bouyer  * modification, are permitted provided that the following conditions
      8  1.1  bouyer  * are met:
      9  1.1  bouyer  * 1. Redistributions of source code must retain the above copyright
     10  1.1  bouyer  *    notice, this list of conditions and the following disclaimer.
     11  1.1  bouyer  * 2. Redistributions in binary form must reproduce the above copyright
     12  1.1  bouyer  *    notice, this list of conditions and the following disclaimer in the
     13  1.1  bouyer  *    documentation and/or other materials provided with the distribution.
     14  1.1  bouyer  * 3. All advertising materials mentioning features or use of this software
     15  1.1  bouyer  *    must display the following acknowledgement:
     16  1.1  bouyer  *      This product includes software developed by the University of
     17  1.1  bouyer  *      California, Berkeley and its contributors.
     18  1.1  bouyer  * 4. Neither the name of the University nor the names of its contributors
     19  1.1  bouyer  *    may be used to endorse or promote products derived from this software
     20  1.1  bouyer  *    without specific prior written permission.
     21  1.1  bouyer  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     22  1.1  bouyer  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     23  1.1  bouyer  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     24  1.1  bouyer  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     25  1.1  bouyer  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     26  1.1  bouyer  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     27  1.1  bouyer  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     28  1.1  bouyer  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     29  1.1  bouyer  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     30  1.1  bouyer  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     31  1.1  bouyer  *
     32  1.1  bouyer  */
     33  1.1  bouyer 
     34  1.1  bouyer 
     35  1.1  bouyer /*
     36  1.1  bouyer  * Register definitions for the Highpoint HPT366 UDMA/66 * and HPT370 UDMA/100
     37  1.1  bouyer  * PCI IDE controller.
     38  1.1  bouyer  *
     39  1.1  bouyer  * The HPT366 has 2 PCI IDE functions, each of them has only one channel.
     40  1.1  bouyer  * The HPT370 has the 2 channels on the same PCI IDE function.
     41  1.1  bouyer  */
     42  1.1  bouyer 
     43  1.1  bouyer /*
     44  1.1  bouyer  * The HPT366 and HPT370 have the save vendor/device ID but not the
     45  1.1  bouyer  * same revision
     46  1.1  bouyer  */
     47  1.1  bouyer #define HPT366_REV 0x01
     48  1.1  bouyer #define HPT370_REV 0x03
     49  1.1  bouyer 
     50  1.1  bouyer #define HPT_IDETIM(chan, drive) (0x40 + ((drive) * 4) + ((chan) * 8))
     51  1.1  bouyer #define HPT_IDETIM_BUFEN		0x80000000
     52  1.1  bouyer #define HPT_IDETIM_MSTEN		0x40000000
     53  1.1  bouyer #define HPT_IDETIM_DMAEN		0x20000000
     54  1.1  bouyer #define HPT_IDETIM_UDMAEN		0x10000000
     55  1.1  bouyer 
     56  1.1  bouyer #define HPT366_CTRL1		0x50
     57  1.1  bouyer #define HPT366_CTRL1_BLKDIS(chan)	(0x40 << (chan))
     58  1.1  bouyer #define HPT366_CTRL1_CHANEN(chan)	(0x10 << (chan))
     59  1.1  bouyer #define HPT366_CTRL1_CLRBUF(chan)	(0x04 << (chan))
     60  1.1  bouyer #define HPT366_CTRL1_LEG(chan)		(0x01 << (chan))
     61  1.1  bouyer 
     62  1.1  bouyer #define HPT366_CTRL2		0x51
     63  1.1  bouyer #define HPT366_CTRL2_FASTIRQ		0x80
     64  1.1  bouyer #define HPT366_CTRL2_HOLDIRQ(chan)	(0x20 << (chan))
     65  1.1  bouyer #define HPT366_CTRL2_SGEN		0x10
     66  1.1  bouyer #define HPT366_CTRL2_CLEARFIFO(chan)	(0x04 << (chan))
     67  1.1  bouyer #define HPT366_CTRL2_CLEARBMSM		0x02
     68  1.1  bouyer #define HPT366_CTRL2_CLEARSG		0x01
     69  1.1  bouyer 
     70  1.1  bouyer #define HPT366_CTRL3(chan)	(0x52 + ((chan) * 4))
     71  1.1  bouyer #define HPT366_CTRL3_PDMA		0x8000
     72  1.1  bouyer #define HPT366_CTRL3_BP			0x4000
     73  1.1  bouyer #define HPT366_CTRL3_FASTIRQ_OFFSET	9
     74  1.1  bouyer #define HPT366_CTRL3_FASTIRQ_MASK	0x3
     75  1.1  bouyer 
     76  1.1  bouyer #define HPT370_CTRL1(chan)	(0x50 + ((chan) * 4))
     77  1.1  bouyer #define HPT370_CTRL1_CLRSG		0x80
     78  1.1  bouyer #define HPT370_CTRL1_READF		0x40
     79  1.1  bouyer #define HPT370_CTRL1_CLRST		0x20
     80  1.1  bouyer #define HPT370_CTRL1_CLRSGC		0x10
     81  1.1  bouyer #define HPT370_CTRL1_BLKDIS		0x08
     82  1.1  bouyer #define HPT370_CTRL1_EN			0x04
     83  1.1  bouyer #define HPT370_CTRL1_CLRDBUF		0x02
     84  1.1  bouyer #define HPT370_CTRL1_LEGEN		0x01
     85  1.1  bouyer 
     86  1.1  bouyer #define HPT370_CTRL2(chan)	(0x51 + ((chan) * 4))
     87  1.1  bouyer #define HPT370_CTRL2_FASTIRQ		0x02
     88  1.1  bouyer #define HPT370_CTRL2_HIRQ		0x01
     89  1.1  bouyer 
     90  1.1  bouyer #define HPT370_CTRL3(chan)	(0x52 + ((chan) * 4))
     91  1.1  bouyer #define HPT370_CTRL3_HIZ		0x8000
     92  1.1  bouyer #define HPT370_CTRL3_BP			0x4000
     93  1.1  bouyer #define HPT370_CTRL3_FASTIRQ_OFFSET	9
     94  1.1  bouyer #define HPT370_CTRL3_FASTIRQ_MASK	0x3
     95  1.1  bouyer 
     96  1.1  bouyer #define HPT_STAT1		0x58
     97  1.1  bouyer #define HPT_STAT1_IRQPOLL(chan)		(0x40 << (chan)) /* 366 only */
     98  1.1  bouyer #define HPT_STAT1_DMARQ(chan) 		(0x04 << ((chan) * 3))
     99  1.1  bouyer #define HPT_STAT1_DMACK(chan) 		(0x02 << ((chan) * 3))
    100  1.1  bouyer #define HPT_STAT1_IORDY(chan) 		(0x01 << ((chan) * 3))
    101  1.1  bouyer 
    102  1.1  bouyer #define HPT_STAT2		0x59
    103  1.1  bouyer #define HPT_STAT2_FLT_RST		0x40 /* 366 only */
    104  1.1  bouyer #define HPT_STAT2_RST(chan)		(0x40 << (chan))  /* 370 only */
    105  1.1  bouyer #define HPT_STAT2_POLLEN(chan)		(0x04 << ((chan) * 3))
    106  1.1  bouyer #define HPT_STAT2_IRQD1(chan)		(0x02 << ((chan) * 3))
    107  1.1  bouyer #define HPT_STAT2_IRQD0_CH1		0x08
    108  1.1  bouyer #define HPT_STAT2_POLLST		0x01
    109  1.1  bouyer 
    110  1.1  bouyer #define HPT_CSEL		0x5a
    111  1.1  bouyer #define HPT_CSEL_CBLID(chan)		 (0x01 << (1 - (chan)))
    112  1.1  bouyer 
    113  1.1  bouyer static u_int32_t hpt366_pio[] =
    114  1.1  bouyer 	{0x00d0a7aa, 0x00c8a753, 0x00c8a742, 0x00c8a731};
    115  1.1  bouyer static u_int32_t hpt366_dma[] =
    116  1.1  bouyer 	{0x20c8a797, 0x20c8a742, 0x20c8a731};
    117  1.1  bouyer static u_int32_t hpt366_udma[] =
    118  1.1  bouyer 	{0x10c8a731, 0x10cba731, 0x10caa731, 0x10cfa731, 0x10c9a731};
    119  1.1  bouyer 
    120  1.1  bouyer static u_int32_t hpt370_pio[] =
    121  1.1  bouyer 	{0x06914e8a, 0x06914e65, 0x06514e33, 0x06514e22, 0x06514e21};
    122  1.1  bouyer static u_int32_t hpt370_dma[] =
    123  1.1  bouyer 	{0x26514e97, 0x26514e33, 0x26514e21};
    124  1.1  bouyer static u_int32_t hpt370_udma[] =
    125  1.1  bouyer 	{0x16514e31, 0x164d4e31, 0x16494e31, 0x166d4e31, 0x16454e31};
    126