NetBSD/sys/dev/mvme/memc.c

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2008-04-09 00:40:42 +04:00
/* $NetBSD: memc.c,v 1.8 2008/04/08 20:42:22 cegger Exp $ */
/*-
* Copyright (c) 2000, 2002 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.
*/
/*
* Support for the MEMECC and MEMC40 memory controllers on MVME68K
* and MVME88K boards.
*/
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#include <sys/cdefs.h>
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__KERNEL_RCSID(0, "$NetBSD: memc.c,v 1.8 2008/04/08 20:42:22 cegger Exp $");
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#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/systm.h>
#include <sys/device.h>
#include <sys/malloc.h>
#include <sys/cpu.h>
#include <sys/bus.h>
#include <dev/mvme/memcvar.h>
#include <dev/mvme/memcreg.h>
#include <dev/mvme/pcctwovar.h>
#include <dev/mvme/pcctworeg.h>
#include <dev/vme/vmevar.h>
#include <dev/mvme/mvmebus.h>
#include <dev/mvme/vme_twovar.h>
#include <dev/mvme/vme_tworeg.h>
static struct memc_softc *memc_softcs[MEMC_NDEVS];
static int memc_softc_count;
static void memc040_attach(struct memc_softc *);
static void memecc_attach(struct memc_softc *);
static void memc_hook_error_intr(struct memc_softc *, int (*)(void *));
static int memecc_err_intr(void *);
static void memecc_log_error(struct memc_softc *, u_int8_t, int, int);
#define MEMECC_SCRUBBER_PERIOD 86400 /* ~24 hours */
/*
* The following stuff is used to decode the ECC syndrome code so
* that we can figure out exactly which address/bit needed to be
* corrected.
*/
#define MEMECC_SYN_BIT_MASK 0x0fu
#define MEMECC_SYN_BANK_A (0x00u << 4)
#define MEMECC_SYN_BANK_B (0x01u << 4)
#define MEMECC_SYN_BANK_C (0x02u << 4)
#define MEMECC_SYN_BANK_D (0x03u << 4)
#define MEMECC_SYN_BANK_SHIFT 4
#define MEMECC_SYN_BANK_MASK 0x03u
#define MEMECC_SYN_CHECKBIT_ERR 0x80u
#define MEMECC_SYN_INVALID 0xffu
static u_int8_t memc_syn_decode[256] = {
MEMECC_SYN_INVALID, /* 0x00 */
MEMECC_SYN_CHECKBIT_ERR | 0, /* 0x01: Checkbit 0 */
MEMECC_SYN_CHECKBIT_ERR | 1, /* 0x02: Checkbit 1 */
MEMECC_SYN_INVALID, /* 0x03 */
MEMECC_SYN_CHECKBIT_ERR | 2, /* 0x04: Checkbit 2 */
MEMECC_SYN_INVALID, /* 0x05 */
MEMECC_SYN_INVALID, /* 0x06 */
MEMECC_SYN_BANK_C | 10, /* 0x07: Bank C 10/26 */
MEMECC_SYN_CHECKBIT_ERR | 3, /* 0x08: Checkbit 3 */
MEMECC_SYN_INVALID, /* 0x09 */
MEMECC_SYN_INVALID, /* 0x0a */
MEMECC_SYN_BANK_C | 13, /* 0x0b: Bank C 13/29 */
MEMECC_SYN_INVALID, /* 0x0c */
MEMECC_SYN_BANK_D | 1, /* 0x0d: Bank D 1/17 */
MEMECC_SYN_BANK_D | 2, /* 0x0e: Bank D 2/18 */
MEMECC_SYN_INVALID, /* 0x0f */
MEMECC_SYN_CHECKBIT_ERR | 4, /* 0x10: Checkbit 4 */
MEMECC_SYN_INVALID, /* 0x11 */
MEMECC_SYN_INVALID, /* 0x12 */
MEMECC_SYN_BANK_C | 14, /* 0x13: Bank C 14/30 */
MEMECC_SYN_INVALID, /* 0x14 */
MEMECC_SYN_BANK_D | 4, /* 0x15: Bank D 4/20 */
MEMECC_SYN_BANK_D | 5, /* 0x16: Bank D 5/21 */
MEMECC_SYN_INVALID, /* 0x17 */
MEMECC_SYN_INVALID, /* 0x18 */
MEMECC_SYN_BANK_D | 8, /* 0x19: Bank D 8/24 */
MEMECC_SYN_BANK_D | 9, /* 0x1a: Bank D 9/25 */
MEMECC_SYN_INVALID, /* 0x1b */
MEMECC_SYN_BANK_D | 10, /* 0x1c: Bank D 10/26 */
MEMECC_SYN_INVALID, /* 0x1d */
MEMECC_SYN_INVALID, /* 0x1e */
MEMECC_SYN_INVALID, /* 0x1f */
MEMECC_SYN_CHECKBIT_ERR | 5, /* 0x20: Checkbit 5 */
MEMECC_SYN_INVALID, /* 0x21 */
MEMECC_SYN_INVALID, /* 0x22 */
MEMECC_SYN_BANK_C | 0, /* 0x23: Bank C 0/16 */
MEMECC_SYN_INVALID, /* 0x24 */
MEMECC_SYN_BANK_D | 7, /* 0x25: Bank D 7/23 */
MEMECC_SYN_BANK_D | 6, /* 0x26: Bank D 6/22 */
MEMECC_SYN_INVALID, /* 0x27 */
MEMECC_SYN_INVALID, /* 0x28 */
MEMECC_SYN_BANK_A | 15, /* 0x29: Bank A 15/31 */
MEMECC_SYN_BANK_D | 12, /* 0x2a: Bank D 12/28 */
MEMECC_SYN_INVALID, /* 0x2b */
MEMECC_SYN_BANK_D | 13, /* 0x2c: Bank D 13/29 */
MEMECC_SYN_INVALID, /* 0x2d */
MEMECC_SYN_INVALID, /* 0x2e */
MEMECC_SYN_INVALID, /* 0x2f */
MEMECC_SYN_INVALID, /* 0x30 */
MEMECC_SYN_BANK_A | 14, /* 0x31: Bank A 14/30 */
MEMECC_SYN_BANK_A | 0, /* 0x32: Bank A 0/16 */
MEMECC_SYN_INVALID, /* 0x33 */
MEMECC_SYN_BANK_A | 1, /* 0x34: Bank A 1/17 */
MEMECC_SYN_INVALID, /* 0x35 */
MEMECC_SYN_INVALID, /* 0x36 */
MEMECC_SYN_INVALID, /* 0x37 */
MEMECC_SYN_BANK_A | 2, /* 0x38: Bank A 2/18 */
MEMECC_SYN_INVALID, /* 0x39 */
MEMECC_SYN_INVALID, /* 0x3a */
MEMECC_SYN_INVALID, /* 0x3b */
MEMECC_SYN_INVALID, /* 0x3c */
MEMECC_SYN_BANK_C | 3, /* 0x3d: Bank C 3/19 */
MEMECC_SYN_INVALID, /* 0x3e */
MEMECC_SYN_INVALID, /* 0x3f */
MEMECC_SYN_CHECKBIT_ERR | 6, /* 0x40: Checkbit 6 */
MEMECC_SYN_INVALID, /* 0x41 */
MEMECC_SYN_INVALID, /* 0x42 */
MEMECC_SYN_BANK_C | 1, /* 0x43: Bank C 1/17 */
MEMECC_SYN_INVALID, /* 0x44 */
MEMECC_SYN_BANK_C | 4, /* 0x45: Bank C 4/20 */
MEMECC_SYN_BANK_C | 8, /* 0x46: Bank C 8/24 */
MEMECC_SYN_INVALID, /* 0x47 */
MEMECC_SYN_INVALID, /* 0x48 */
MEMECC_SYN_BANK_C | 7, /* 0x49: Bank C 7/23 */
MEMECC_SYN_BANK_D | 15, /* 0x4a: Bank D 15/31 */
MEMECC_SYN_INVALID, /* 0x4b */
MEMECC_SYN_BANK_D | 14, /* 0x4c: Bank D 14/30 */
MEMECC_SYN_INVALID, /* 0x4d */
MEMECC_SYN_INVALID, /* 0x4e */
MEMECC_SYN_BANK_B | 3, /* 0x4f: Bank B 3/19 */
MEMECC_SYN_INVALID, /* 0x50 */
MEMECC_SYN_BANK_B | 4, /* 0x51: Bank B 4/20 */
MEMECC_SYN_BANK_B | 7, /* 0x52: Bank B 7/23 */
MEMECC_SYN_INVALID, /* 0x53 */
MEMECC_SYN_BANK_A | 4, /* 0x54: Bank A 4/20 */
MEMECC_SYN_INVALID, /* 0x55 */
MEMECC_SYN_INVALID, /* 0x56 */
MEMECC_SYN_INVALID, /* 0x57 */
MEMECC_SYN_BANK_A | 5, /* 0x58: Bank A 5/21 */
MEMECC_SYN_INVALID, /* 0x59 */
MEMECC_SYN_INVALID, /* 0x5a */
MEMECC_SYN_INVALID, /* 0x5b */
MEMECC_SYN_INVALID, /* 0x5c */
MEMECC_SYN_INVALID, /* 0x5d */
MEMECC_SYN_INVALID, /* 0x5e */
MEMECC_SYN_INVALID, /* 0x5f */
MEMECC_SYN_INVALID, /* 0x60 */
MEMECC_SYN_BANK_B | 5, /* 0x61: Bank B 5/21 */
MEMECC_SYN_BANK_B | 6, /* 0x62: Bank B 6/22 */
MEMECC_SYN_INVALID, /* 0x63 */
MEMECC_SYN_BANK_A | 8, /* 0x64: Bank A 8/24 */
MEMECC_SYN_INVALID, /* 0x65 */
MEMECC_SYN_INVALID, /* 0x66 */
MEMECC_SYN_INVALID, /* 0x67 */
MEMECC_SYN_BANK_A | 9, /* 0x68: Bank A 9/25 */
MEMECC_SYN_INVALID, /* 0x69 */
MEMECC_SYN_INVALID, /* 0x6a */
MEMECC_SYN_INVALID, /* 0x6b */
MEMECC_SYN_INVALID, /* 0x6c */
MEMECC_SYN_INVALID, /* 0x6d */
MEMECC_SYN_INVALID, /* 0x6e */
MEMECC_SYN_INVALID, /* 0x6f */
MEMECC_SYN_BANK_A | 10, /* 0x70: Bank A 10/26 */
MEMECC_SYN_INVALID, /* 0x71 */
MEMECC_SYN_INVALID, /* 0x72 */
MEMECC_SYN_INVALID, /* 0x73 */
MEMECC_SYN_INVALID, /* 0x74 */
MEMECC_SYN_INVALID, /* 0x75 */
MEMECC_SYN_INVALID, /* 0x76 */
MEMECC_SYN_INVALID, /* 0x77 */
MEMECC_SYN_INVALID, /* 0x78 */
MEMECC_SYN_INVALID, /* 0x79 */
MEMECC_SYN_BANK_C | 11, /* 0x7a: Bank C 11/27 */
MEMECC_SYN_INVALID, /* 0x7b */
MEMECC_SYN_INVALID, /* 0x7c */
MEMECC_SYN_INVALID, /* 0x7d */
MEMECC_SYN_INVALID, /* 0x7e */
MEMECC_SYN_INVALID, /* 0x7f */
MEMECC_SYN_CHECKBIT_ERR | 7, /* 0x80: Checkbit 7 */
MEMECC_SYN_INVALID, /* 0x81 */
MEMECC_SYN_INVALID, /* 0x82 */
MEMECC_SYN_BANK_C | 2, /* 0x83: Bank C 2/18 */
MEMECC_SYN_INVALID, /* 0x84 */
MEMECC_SYN_BANK_C | 5, /* 0x85: Bank C 5/21 */
MEMECC_SYN_BANK_C | 9, /* 0x86: Bank C 9/25 */
MEMECC_SYN_INVALID, /* 0x87 */
MEMECC_SYN_INVALID, /* 0x88 */
MEMECC_SYN_BANK_C | 6, /* 0x89: Bank C 6/22 */
MEMECC_SYN_BANK_C | 12, /* 0x8a: Bank C 12/28 */
MEMECC_SYN_INVALID, /* 0x8b */
MEMECC_SYN_BANK_D | 0, /* 0x8c: Bank D 0/16 */
MEMECC_SYN_INVALID, /* 0x8d */
MEMECC_SYN_INVALID, /* 0x8e */
MEMECC_SYN_INVALID, /* 0x8f */
MEMECC_SYN_INVALID, /* 0x90 */
MEMECC_SYN_BANK_B | 8, /* 0x91: Bank B 8/24 */
MEMECC_SYN_BANK_C | 15, /* 0x92: Bank C 15/31 */
MEMECC_SYN_INVALID, /* 0x93 */
MEMECC_SYN_BANK_A | 7, /* 0x94: Bank A 7/23 */
MEMECC_SYN_INVALID, /* 0x95 */
MEMECC_SYN_INVALID, /* 0x96 */
MEMECC_SYN_INVALID, /* 0x97 */
MEMECC_SYN_BANK_A | 6, /* 0x98: Bank A 6/22 */
MEMECC_SYN_INVALID, /* 0x99 */
MEMECC_SYN_INVALID, /* 0x9a */
MEMECC_SYN_INVALID, /* 0x9b */
MEMECC_SYN_INVALID, /* 0x9c */
MEMECC_SYN_INVALID, /* 0x9d */
MEMECC_SYN_BANK_B | 11, /* 0x9e: Bank B 11/27 */
MEMECC_SYN_INVALID, /* 0x9f */
MEMECC_SYN_INVALID, /* 0xa0 */
MEMECC_SYN_BANK_B | 9, /* 0xa1: Bank B 9/25 */
MEMECC_SYN_BANK_B | 12, /* 0xa2: Bank B 12/28 */
MEMECC_SYN_INVALID, /* 0xa3 */
MEMECC_SYN_BANK_B | 15, /* 0xa4: Bank B 15/31 */
MEMECC_SYN_INVALID, /* 0xa5 */
MEMECC_SYN_INVALID, /* 0xa6 */
MEMECC_SYN_BANK_A | 11, /* 0xa7: Bank A 11/27 */
MEMECC_SYN_BANK_A | 12, /* 0xa8: Bank A 12/28 */
MEMECC_SYN_INVALID, /* 0xa9 */
MEMECC_SYN_INVALID, /* 0xaa */
MEMECC_SYN_INVALID, /* 0xab */
MEMECC_SYN_INVALID, /* 0xac */
MEMECC_SYN_INVALID, /* 0xad */
MEMECC_SYN_INVALID, /* 0xae */
MEMECC_SYN_INVALID, /* 0xaf */
MEMECC_SYN_BANK_A | 13, /* 0xb0: Bank A 13/29 */
MEMECC_SYN_INVALID, /* 0xb1 */
MEMECC_SYN_INVALID, /* 0xb2 */
MEMECC_SYN_INVALID, /* 0xb3 */
MEMECC_SYN_INVALID, /* 0xb4 */
MEMECC_SYN_INVALID, /* 0xb5 */
MEMECC_SYN_INVALID, /* 0xb6 */
MEMECC_SYN_INVALID, /* 0xb7 */
MEMECC_SYN_INVALID, /* 0xb8 */
MEMECC_SYN_INVALID, /* 0xb9 */
MEMECC_SYN_INVALID, /* 0xba */
MEMECC_SYN_INVALID, /* 0xbb */
MEMECC_SYN_INVALID, /* 0xbc */
MEMECC_SYN_INVALID, /* 0xbd */
MEMECC_SYN_INVALID, /* 0xbe */
MEMECC_SYN_INVALID, /* 0xbf */
MEMECC_SYN_INVALID, /* 0xc0 */
MEMECC_SYN_BANK_B | 10, /* 0xc1: Bank B 10/26 */
MEMECC_SYN_BANK_B | 13, /* 0xc2: Bank B 13/29 */
MEMECC_SYN_INVALID, /* 0xc3 */
MEMECC_SYN_BANK_B | 14, /* 0xc4: Bank B 14/30 */
MEMECC_SYN_INVALID, /* 0xc5 */
MEMECC_SYN_INVALID, /* 0xc6 */
MEMECC_SYN_INVALID, /* 0xc7 */
MEMECC_SYN_BANK_B | 0, /* 0xc8: Bank B 0/16 */
MEMECC_SYN_INVALID, /* 0xc9 */
MEMECC_SYN_INVALID, /* 0xca */
MEMECC_SYN_INVALID, /* 0xcb */
MEMECC_SYN_INVALID, /* 0xcc */
MEMECC_SYN_INVALID, /* 0xcd */
MEMECC_SYN_INVALID, /* 0xce */
MEMECC_SYN_INVALID, /* 0xcf */
MEMECC_SYN_BANK_B | 1, /* 0xd0: Bank B 1/17 */
MEMECC_SYN_INVALID, /* 0xd1 */
MEMECC_SYN_INVALID, /* 0xd2 */
MEMECC_SYN_BANK_A | 3, /* 0xd3: Bank A 3/19 */
MEMECC_SYN_INVALID, /* 0xd4 */
MEMECC_SYN_INVALID, /* 0xd5 */
MEMECC_SYN_INVALID, /* 0xd6 */
MEMECC_SYN_INVALID, /* 0xd7 */
MEMECC_SYN_INVALID, /* 0xd8 */
MEMECC_SYN_INVALID, /* 0xd9 */
MEMECC_SYN_INVALID, /* 0xda */
MEMECC_SYN_INVALID, /* 0xdb */
MEMECC_SYN_INVALID, /* 0xdc */
MEMECC_SYN_INVALID, /* 0xdd */
MEMECC_SYN_INVALID, /* 0xde */
MEMECC_SYN_INVALID, /* 0xdf */
MEMECC_SYN_BANK_B | 2, /* 0xe0: Bank B 2/18 */
MEMECC_SYN_INVALID, /* 0xe1 */
MEMECC_SYN_INVALID, /* 0xe2 */
MEMECC_SYN_INVALID, /* 0xe3 */
MEMECC_SYN_INVALID, /* 0xe4 */
MEMECC_SYN_INVALID, /* 0xe5 */
MEMECC_SYN_INVALID, /* 0xe6 */
MEMECC_SYN_INVALID, /* 0xe7 */
MEMECC_SYN_INVALID, /* 0xe8 */
MEMECC_SYN_BANK_D | 11, /* 0xe9: Bank D 11/27 */
MEMECC_SYN_INVALID, /* 0xea */
MEMECC_SYN_INVALID, /* 0xeb */
MEMECC_SYN_INVALID, /* 0xec */
MEMECC_SYN_INVALID, /* 0xed */
MEMECC_SYN_INVALID, /* 0xee */
MEMECC_SYN_INVALID, /* 0xef */
MEMECC_SYN_INVALID, /* 0xf0 */
MEMECC_SYN_INVALID, /* 0xf1 */
MEMECC_SYN_INVALID, /* 0xf2 */
MEMECC_SYN_INVALID, /* 0xf3 */
MEMECC_SYN_BANK_D | 3, /* 0xf4: Bank D 3/19 */
MEMECC_SYN_INVALID, /* 0xf5 */
MEMECC_SYN_INVALID, /* 0xf6 */
MEMECC_SYN_INVALID, /* 0xf7 */
MEMECC_SYN_INVALID, /* 0xf8 */
MEMECC_SYN_INVALID, /* 0xf9 */
MEMECC_SYN_INVALID, /* 0xfa */
MEMECC_SYN_INVALID, /* 0xfb */
MEMECC_SYN_INVALID, /* 0xfc */
MEMECC_SYN_INVALID, /* 0xfd */
MEMECC_SYN_INVALID, /* 0xfe */
MEMECC_SYN_INVALID /* 0xff */
};
/* ARGSUSED */
void
memc_init(sc)
struct memc_softc *sc;
{
u_int8_t chipid;
u_int8_t memcfg;
if (memc_softc_count == MEMC_NDEVS)
panic("memc_attach: too many memc devices!");
memc_softcs[memc_softc_count++] = sc;
chipid = memc_reg_read(sc, MEMC_REG_CHIP_ID);
memcfg = memc_reg_read(sc, MEMC_REG_MEMORY_CONFIG);
printf(": %dMB %s Memory Controller Chip (Rev %d)\n",
MEMC_MEMORY_CONFIG_2_MB(memcfg),
(chipid == MEMC_CHIP_ID_MEMC040) ? "Parity" : "ECC",
memc_reg_read(sc, MEMC_REG_CHIP_REVISION));
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printf("%s: Base Address: 0x%x, ", device_xname(&sc->sc_dev),
MEMC_BASE_ADDRESS(memc_reg_read(sc, MEMC_REG_BASE_ADDRESS_HI),
memc_reg_read(sc, MEMC_REG_BASE_ADDRESS_LO)));
printf("Fast RAM Read %sabled\n", (memc_reg_read(sc,
MEMC_REG_MEMORY_CONFIG) & MEMC_MEMORY_CONFIG_FSTRD) ?
"En" : "Dis");
switch (chipid) {
case MEMC_CHIP_ID_MEMC040:
memc040_attach(sc);
break;
case MEMC_CHIP_ID_MEMECC:
memecc_attach(sc);
break;
}
}
static void
memc040_attach(struct memc_softc *sc)
{
/* XXX: TBD */
}
static void
memecc_attach(struct memc_softc *sc)
{
u_int8_t rv;
/*
* First, disable bus-error and interrupts on ECC errors.
* Also switch off SWAIT to enhance performance.
*/
rv = memc_reg_read(sc, MEMECC_REG_DRAM_CONTROL);
rv &= ~(MEMECC_DRAM_CONTROL_NCEBEN |
MEMECC_DRAM_CONTROL_NCEIEN |
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MEMECC_DRAM_CONTROL_SWAIT);
rv |= MEMECC_DRAM_CONTROL_RAMEN;
memc_reg_write(sc, MEMECC_REG_DRAM_CONTROL, rv);
rv = memc_reg_read(sc, MEMECC_REG_SCRUB_CONTROL);
rv &= ~(MEMECC_SCRUB_CONTROL_SCRBEN | MEMECC_SCRUB_CONTROL_SBEIEN);
memc_reg_write(sc, MEMECC_REG_SCRUB_CONTROL, rv);
/*
* Ensure error correction is enabled
*/
rv = memc_reg_read(sc, MEMECC_REG_DATA_CONTROL);
rv &= ~MEMECC_DATA_CONTROL_DERC;
memc_reg_write(sc, MEMECC_REG_DATA_CONTROL, rv);
/*
* Clear any error currently in the logs
*/
rv = memc_reg_read(sc, MEMECC_REG_ERROR_LOGGER);
#ifdef DIAGNOSTIC
if ((rv & MEMECC_ERROR_LOGGER_MASK) != 0)
memecc_log_error(sc, rv, 0, 0);
#endif
memc_reg_write(sc, MEMECC_REG_ERROR_LOGGER,
MEMECC_ERROR_LOGGER_ERRLOG);
rv = memc_reg_read(sc, MEMECC_REG_ERROR_LOGGER + 2);
#ifdef DIAGNOSTIC
if ((rv & MEMECC_ERROR_LOGGER_MASK) != 0)
memecc_log_error(sc, rv, 2, 0);
#endif
memc_reg_write(sc, MEMECC_REG_ERROR_LOGGER + 2,
MEMECC_ERROR_LOGGER_ERRLOG);
/*
* Now hook the ECC error interrupt
*/
if (memc_softc_count == 1)
memc_hook_error_intr(sc, memecc_err_intr);
/*
* Enable bus-error and interrupt on uncorrectable ECC
*/
rv = memc_reg_read(sc, MEMECC_REG_DRAM_CONTROL);
rv |= MEMECC_DRAM_CONTROL_NCEBEN | MEMECC_DRAM_CONTROL_NCEIEN;
memc_reg_write(sc, MEMECC_REG_DRAM_CONTROL, rv);
/*
* Set up the scrubber to run roughly once every 24 hours
* with minimal impact on the local bus. With these on/off
* time settings, a scrub of a 32MB DRAM board will take
* roughly half a minute.
*/
memc_reg_write(sc, MEMECC_REG_SCRUB_PERIOD_HI,
MEMECC_SCRUB_PERIOD_HI(MEMECC_SCRUBBER_PERIOD));
memc_reg_write(sc, MEMECC_REG_SCRUB_PERIOD_LO,
MEMECC_SCRUB_PERIOD_LO(MEMECC_SCRUBBER_PERIOD));
memc_reg_write(sc, MEMECC_REG_SCRUB_TIME_ONOFF,
MEMECC_SCRUB_TIME_ON_1 | MEMECC_SCRUB_TIME_OFF_16);
/*
* Start the scrubber, and enable interrupts on Correctable errors
*/
memc_reg_write(sc, MEMECC_REG_SCRUB_CONTROL,
memc_reg_read(sc, MEMECC_REG_SCRUB_CONTROL) |
MEMECC_SCRUB_CONTROL_SCRBEN | MEMECC_SCRUB_CONTROL_SBEIEN);
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printf("%s: Logging ECC errors at ipl %d\n", device_xname(&sc->sc_dev),
MEMC_IRQ_LEVEL);
}
static void
memc_hook_error_intr(struct memc_softc *sc, int (*func)(void *))
{
#if 0
evcnt_attach_dynamic(&sc->sc_evcnt, EVCNT_TYPE_INTR,
(*sc->sc_isrevcnt)(sc->sc_isrcookie, MEMC_IRQ_LEVEL),
"memory", "ecc errors");
#endif
/*
* On boards without a VMEChip2, the interrupt is routed
* via the MCChip (mvme162/mvme172).
*/
if (vmetwo_not_present)
pcctwointr_establish(MCCHIPV_PARITY_ERR, func, MEMC_IRQ_LEVEL,
sc, &sc->sc_evcnt);
else
vmetwo_local_intr_establish(MEMC_IRQ_LEVEL,
VME2_VEC_PARITY_ERROR, func, sc, &sc->sc_evcnt);
}
/* ARGSUSED */
static int
memecc_err_intr(void *arg)
{
struct memc_softc *sc;
u_int8_t rv;
int i, j, cnt = 0;
/*
* For each memory controller we found ...
*/
for (i = 0; i < memc_softc_count; i++) {
sc = memc_softcs[i];
/*
* There are two error loggers per controller, the registers of
* the 2nd are offset from the 1st by 2 bytes.
*/
for (j = 0; j <= 2; j += 2) {
rv = memc_reg_read(sc, MEMECC_REG_ERROR_LOGGER + j);
if ((rv & MEMECC_ERROR_LOGGER_MASK) != 0) {
memecc_log_error(sc, rv, j, 1);
memc_reg_write(sc, MEMECC_REG_ERROR_LOGGER + j,
MEMECC_ERROR_LOGGER_ERRLOG);
cnt++;
}
}
}
return (cnt);
}
/*
* Log an ECC error to the console.
* Note: Since this usually runs at an elevated ipl (above clock), we
* should probably schedule a soft interrupt to log the error details.
* (But only for errors where we would not normally panic.)
*/
static void
memecc_log_error(struct memc_softc *sc, u_int8_t errlog, int off, int mbepanic)
{
u_int32_t addr;
u_int8_t rv, syndrome;
const char *bm = "CPU";
const char *rdwr;
const char *etype;
char syntext[32];
/*
* Get the address associated with the error.
*/
rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_HIHI + off);
addr = (u_int32_t)rv;
rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_HI + off);
addr = (addr << 8) | (u_int32_t)rv;
rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_MID + off);
addr = (addr << 8) | (u_int32_t)rv;
rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_LO + off);
addr = (addr << 8) | (u_int32_t)rv;
/*
* And the Syndrome bits
*/
syndrome = memc_reg_read(sc, MEMECC_REG_ERROR_SYNDROME + off);
rdwr = ((errlog & MEMECC_ERROR_LOGGER_ERD) != 0) ? " read" : " write";
if ((errlog & MEMECC_ERROR_LOGGER_EALT) != 0)
bm = "Peripheral Device";
else
if ((errlog & MEMECC_ERROR_LOGGER_ESCRB) != 0) {
bm = "Scrubber";
rdwr = "";
}
if ((errlog & MEMECC_ERROR_LOGGER_SBE) != 0) {
int syncode, bank, bitnum;
etype = "Correctable";
syncode = memc_syn_decode[syndrome];
bitnum = (syncode & MEMECC_SYN_BIT_MASK) + (off ? 16 : 0);
bank = (syncode >> MEMECC_SYN_BANK_SHIFT) &MEMECC_SYN_BANK_MASK;
if (syncode == MEMECC_SYN_INVALID)
strcpy(syntext, "Invalid!");
else
if ((syncode & MEMECC_SYN_CHECKBIT_ERR) != 0)
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snprintf(syntext, sizeof(syntext),
"Checkbit#%d", bitnum);
else {
addr |= (u_int32_t) (bank << 2);
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snprintf(syntext, sizeof(syntext),
"DRAM Bank %c, Bit#%d", 'A' + bank, bitnum);
}
} else if ((errlog & MEMECC_ERROR_LOGGER_MBE) != 0)
etype = "Uncorrectable";
else
etype = "Spurious";
printf("%s: %s error on %s%s access to 0x%08x.\n",
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device_xname(&sc->sc_dev), etype, bm, rdwr, addr);
if ((errlog & MEMECC_ERROR_LOGGER_SBE) != 0)
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printf("%s: ECC Syndrome 0x%02x (%s)\n", device_xname(&sc->sc_dev),
syndrome, syntext);
/*
* If an uncorrectable error was detected by an alternate
* bus master or the scrubber, panic immediately.
* We can't rely on the contents of memory at this point.
*
* Uncorrectable errors detected when the CPU was accessing
* DRAM will cause the CPU to take a bus error trap. Depending
* on whether the error was in kernel or user mode, the system
* with either panic or kill the affected process. Basically,
* we don't have to deal with it here.
*
* XXX: I'm not sure whether it's our responsibility to
* perform some dummy writes to the offending address in this
* case to re-generate a good ECC. Note that we'd have to write
* an entire block of 4 words since we can only narrow down the
* faulty address for correctable errors...
*/
if (mbepanic && (errlog & MEMECC_ERROR_LOGGER_MBE) &&
(errlog & (MEMECC_ERROR_LOGGER_ESCRB|MEMECC_ERROR_LOGGER_EALT))) {
/*
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* Ensure we don't get a Bus Error while panicking...
*/
rv = memc_reg_read(sc, MEMECC_REG_DRAM_CONTROL + off);
rv &= ~(MEMECC_DRAM_CONTROL_NCEBEN |
MEMECC_DRAM_CONTROL_NCEIEN);
memc_reg_write(sc, MEMECC_REG_DRAM_CONTROL + off, rv);
rv = memc_reg_read(sc, MEMECC_REG_SCRUB_CONTROL + off);
rv &= ~(MEMECC_SCRUB_CONTROL_SBEIEN |
MEMECC_SCRUB_CONTROL_SCRBEN);
memc_reg_write(sc, MEMECC_REG_SCRUB_CONTROL + off, rv);
panic("%s: Halting system to preserve data integrity.",
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device_xname(&sc->sc_dev));
}
}