memc.c revision 1.10.22.1
1 1.10.22.1 tls /* $NetBSD: memc.c,v 1.10.22.1 2012/11/20 03:02:12 tls Exp $ */ 2 1.1 scw 3 1.1 scw /*- 4 1.1 scw * Copyright (c) 2000, 2002 The NetBSD Foundation, Inc. 5 1.1 scw * All rights reserved. 6 1.1 scw * 7 1.1 scw * This code is derived from software contributed to The NetBSD Foundation 8 1.1 scw * by Steve C. Woodford. 9 1.1 scw * 10 1.1 scw * Redistribution and use in source and binary forms, with or without 11 1.1 scw * modification, are permitted provided that the following conditions 12 1.1 scw * are met: 13 1.1 scw * 1. Redistributions of source code must retain the above copyright 14 1.1 scw * notice, this list of conditions and the following disclaimer. 15 1.1 scw * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 scw * notice, this list of conditions and the following disclaimer in the 17 1.1 scw * documentation and/or other materials provided with the distribution. 18 1.1 scw * 19 1.1 scw * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 scw * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 scw * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 scw * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 scw * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 scw * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 scw * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 scw * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 scw * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 scw * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 scw * POSSIBILITY OF SUCH DAMAGE. 30 1.1 scw */ 31 1.1 scw 32 1.1 scw /* 33 1.1 scw * Support for the MEMECC and MEMC40 memory controllers on MVME68K 34 1.1 scw * and MVME88K boards. 35 1.1 scw */ 36 1.2 lukem 37 1.2 lukem #include <sys/cdefs.h> 38 1.10.22.1 tls __KERNEL_RCSID(0, "$NetBSD: memc.c,v 1.10.22.1 2012/11/20 03:02:12 tls Exp $"); 39 1.1 scw 40 1.1 scw #include <sys/param.h> 41 1.1 scw #include <sys/kernel.h> 42 1.1 scw #include <sys/systm.h> 43 1.1 scw #include <sys/device.h> 44 1.1 scw #include <sys/malloc.h> 45 1.1 scw 46 1.7 ad #include <sys/cpu.h> 47 1.7 ad #include <sys/bus.h> 48 1.1 scw 49 1.1 scw #include <dev/mvme/memcvar.h> 50 1.1 scw #include <dev/mvme/memcreg.h> 51 1.1 scw #include <dev/mvme/pcctwovar.h> 52 1.1 scw #include <dev/mvme/pcctworeg.h> 53 1.1 scw 54 1.1 scw #include <dev/vme/vmevar.h> 55 1.1 scw #include <dev/mvme/mvmebus.h> 56 1.1 scw #include <dev/mvme/vme_twovar.h> 57 1.1 scw #include <dev/mvme/vme_tworeg.h> 58 1.1 scw 59 1.1 scw 60 1.1 scw static struct memc_softc *memc_softcs[MEMC_NDEVS]; 61 1.1 scw static int memc_softc_count; 62 1.1 scw 63 1.1 scw static void memc040_attach(struct memc_softc *); 64 1.1 scw static void memecc_attach(struct memc_softc *); 65 1.1 scw static void memc_hook_error_intr(struct memc_softc *, int (*)(void *)); 66 1.1 scw 67 1.1 scw static int memecc_err_intr(void *); 68 1.1 scw static void memecc_log_error(struct memc_softc *, u_int8_t, int, int); 69 1.1 scw 70 1.1 scw #define MEMECC_SCRUBBER_PERIOD 86400 /* ~24 hours */ 71 1.1 scw 72 1.1 scw /* 73 1.1 scw * The following stuff is used to decode the ECC syndrome code so 74 1.1 scw * that we can figure out exactly which address/bit needed to be 75 1.1 scw * corrected. 76 1.1 scw */ 77 1.1 scw #define MEMECC_SYN_BIT_MASK 0x0fu 78 1.1 scw #define MEMECC_SYN_BANK_A (0x00u << 4) 79 1.1 scw #define MEMECC_SYN_BANK_B (0x01u << 4) 80 1.1 scw #define MEMECC_SYN_BANK_C (0x02u << 4) 81 1.1 scw #define MEMECC_SYN_BANK_D (0x03u << 4) 82 1.1 scw #define MEMECC_SYN_BANK_SHIFT 4 83 1.1 scw #define MEMECC_SYN_BANK_MASK 0x03u 84 1.1 scw #define MEMECC_SYN_CHECKBIT_ERR 0x80u 85 1.1 scw #define MEMECC_SYN_INVALID 0xffu 86 1.1 scw 87 1.1 scw static u_int8_t memc_syn_decode[256] = { 88 1.1 scw MEMECC_SYN_INVALID, /* 0x00 */ 89 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 0, /* 0x01: Checkbit 0 */ 90 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 1, /* 0x02: Checkbit 1 */ 91 1.1 scw MEMECC_SYN_INVALID, /* 0x03 */ 92 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 2, /* 0x04: Checkbit 2 */ 93 1.1 scw MEMECC_SYN_INVALID, /* 0x05 */ 94 1.1 scw MEMECC_SYN_INVALID, /* 0x06 */ 95 1.1 scw MEMECC_SYN_BANK_C | 10, /* 0x07: Bank C 10/26 */ 96 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 3, /* 0x08: Checkbit 3 */ 97 1.1 scw MEMECC_SYN_INVALID, /* 0x09 */ 98 1.1 scw MEMECC_SYN_INVALID, /* 0x0a */ 99 1.1 scw MEMECC_SYN_BANK_C | 13, /* 0x0b: Bank C 13/29 */ 100 1.1 scw MEMECC_SYN_INVALID, /* 0x0c */ 101 1.1 scw MEMECC_SYN_BANK_D | 1, /* 0x0d: Bank D 1/17 */ 102 1.1 scw MEMECC_SYN_BANK_D | 2, /* 0x0e: Bank D 2/18 */ 103 1.1 scw MEMECC_SYN_INVALID, /* 0x0f */ 104 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 4, /* 0x10: Checkbit 4 */ 105 1.1 scw MEMECC_SYN_INVALID, /* 0x11 */ 106 1.1 scw MEMECC_SYN_INVALID, /* 0x12 */ 107 1.1 scw MEMECC_SYN_BANK_C | 14, /* 0x13: Bank C 14/30 */ 108 1.1 scw MEMECC_SYN_INVALID, /* 0x14 */ 109 1.1 scw MEMECC_SYN_BANK_D | 4, /* 0x15: Bank D 4/20 */ 110 1.1 scw MEMECC_SYN_BANK_D | 5, /* 0x16: Bank D 5/21 */ 111 1.1 scw MEMECC_SYN_INVALID, /* 0x17 */ 112 1.1 scw MEMECC_SYN_INVALID, /* 0x18 */ 113 1.1 scw MEMECC_SYN_BANK_D | 8, /* 0x19: Bank D 8/24 */ 114 1.1 scw MEMECC_SYN_BANK_D | 9, /* 0x1a: Bank D 9/25 */ 115 1.1 scw MEMECC_SYN_INVALID, /* 0x1b */ 116 1.1 scw MEMECC_SYN_BANK_D | 10, /* 0x1c: Bank D 10/26 */ 117 1.1 scw MEMECC_SYN_INVALID, /* 0x1d */ 118 1.1 scw MEMECC_SYN_INVALID, /* 0x1e */ 119 1.1 scw MEMECC_SYN_INVALID, /* 0x1f */ 120 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 5, /* 0x20: Checkbit 5 */ 121 1.1 scw MEMECC_SYN_INVALID, /* 0x21 */ 122 1.1 scw MEMECC_SYN_INVALID, /* 0x22 */ 123 1.1 scw MEMECC_SYN_BANK_C | 0, /* 0x23: Bank C 0/16 */ 124 1.1 scw MEMECC_SYN_INVALID, /* 0x24 */ 125 1.1 scw MEMECC_SYN_BANK_D | 7, /* 0x25: Bank D 7/23 */ 126 1.1 scw MEMECC_SYN_BANK_D | 6, /* 0x26: Bank D 6/22 */ 127 1.1 scw MEMECC_SYN_INVALID, /* 0x27 */ 128 1.1 scw MEMECC_SYN_INVALID, /* 0x28 */ 129 1.1 scw MEMECC_SYN_BANK_A | 15, /* 0x29: Bank A 15/31 */ 130 1.1 scw MEMECC_SYN_BANK_D | 12, /* 0x2a: Bank D 12/28 */ 131 1.1 scw MEMECC_SYN_INVALID, /* 0x2b */ 132 1.1 scw MEMECC_SYN_BANK_D | 13, /* 0x2c: Bank D 13/29 */ 133 1.1 scw MEMECC_SYN_INVALID, /* 0x2d */ 134 1.1 scw MEMECC_SYN_INVALID, /* 0x2e */ 135 1.1 scw MEMECC_SYN_INVALID, /* 0x2f */ 136 1.1 scw MEMECC_SYN_INVALID, /* 0x30 */ 137 1.1 scw MEMECC_SYN_BANK_A | 14, /* 0x31: Bank A 14/30 */ 138 1.1 scw MEMECC_SYN_BANK_A | 0, /* 0x32: Bank A 0/16 */ 139 1.1 scw MEMECC_SYN_INVALID, /* 0x33 */ 140 1.1 scw MEMECC_SYN_BANK_A | 1, /* 0x34: Bank A 1/17 */ 141 1.1 scw MEMECC_SYN_INVALID, /* 0x35 */ 142 1.1 scw MEMECC_SYN_INVALID, /* 0x36 */ 143 1.1 scw MEMECC_SYN_INVALID, /* 0x37 */ 144 1.1 scw MEMECC_SYN_BANK_A | 2, /* 0x38: Bank A 2/18 */ 145 1.1 scw MEMECC_SYN_INVALID, /* 0x39 */ 146 1.1 scw MEMECC_SYN_INVALID, /* 0x3a */ 147 1.1 scw MEMECC_SYN_INVALID, /* 0x3b */ 148 1.1 scw MEMECC_SYN_INVALID, /* 0x3c */ 149 1.1 scw MEMECC_SYN_BANK_C | 3, /* 0x3d: Bank C 3/19 */ 150 1.1 scw MEMECC_SYN_INVALID, /* 0x3e */ 151 1.1 scw MEMECC_SYN_INVALID, /* 0x3f */ 152 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 6, /* 0x40: Checkbit 6 */ 153 1.1 scw MEMECC_SYN_INVALID, /* 0x41 */ 154 1.1 scw MEMECC_SYN_INVALID, /* 0x42 */ 155 1.1 scw MEMECC_SYN_BANK_C | 1, /* 0x43: Bank C 1/17 */ 156 1.1 scw MEMECC_SYN_INVALID, /* 0x44 */ 157 1.1 scw MEMECC_SYN_BANK_C | 4, /* 0x45: Bank C 4/20 */ 158 1.1 scw MEMECC_SYN_BANK_C | 8, /* 0x46: Bank C 8/24 */ 159 1.1 scw MEMECC_SYN_INVALID, /* 0x47 */ 160 1.1 scw MEMECC_SYN_INVALID, /* 0x48 */ 161 1.1 scw MEMECC_SYN_BANK_C | 7, /* 0x49: Bank C 7/23 */ 162 1.1 scw MEMECC_SYN_BANK_D | 15, /* 0x4a: Bank D 15/31 */ 163 1.1 scw MEMECC_SYN_INVALID, /* 0x4b */ 164 1.1 scw MEMECC_SYN_BANK_D | 14, /* 0x4c: Bank D 14/30 */ 165 1.1 scw MEMECC_SYN_INVALID, /* 0x4d */ 166 1.1 scw MEMECC_SYN_INVALID, /* 0x4e */ 167 1.1 scw MEMECC_SYN_BANK_B | 3, /* 0x4f: Bank B 3/19 */ 168 1.1 scw MEMECC_SYN_INVALID, /* 0x50 */ 169 1.1 scw MEMECC_SYN_BANK_B | 4, /* 0x51: Bank B 4/20 */ 170 1.1 scw MEMECC_SYN_BANK_B | 7, /* 0x52: Bank B 7/23 */ 171 1.1 scw MEMECC_SYN_INVALID, /* 0x53 */ 172 1.1 scw MEMECC_SYN_BANK_A | 4, /* 0x54: Bank A 4/20 */ 173 1.1 scw MEMECC_SYN_INVALID, /* 0x55 */ 174 1.1 scw MEMECC_SYN_INVALID, /* 0x56 */ 175 1.1 scw MEMECC_SYN_INVALID, /* 0x57 */ 176 1.1 scw MEMECC_SYN_BANK_A | 5, /* 0x58: Bank A 5/21 */ 177 1.1 scw MEMECC_SYN_INVALID, /* 0x59 */ 178 1.1 scw MEMECC_SYN_INVALID, /* 0x5a */ 179 1.1 scw MEMECC_SYN_INVALID, /* 0x5b */ 180 1.1 scw MEMECC_SYN_INVALID, /* 0x5c */ 181 1.1 scw MEMECC_SYN_INVALID, /* 0x5d */ 182 1.1 scw MEMECC_SYN_INVALID, /* 0x5e */ 183 1.1 scw MEMECC_SYN_INVALID, /* 0x5f */ 184 1.1 scw MEMECC_SYN_INVALID, /* 0x60 */ 185 1.1 scw MEMECC_SYN_BANK_B | 5, /* 0x61: Bank B 5/21 */ 186 1.1 scw MEMECC_SYN_BANK_B | 6, /* 0x62: Bank B 6/22 */ 187 1.1 scw MEMECC_SYN_INVALID, /* 0x63 */ 188 1.1 scw MEMECC_SYN_BANK_A | 8, /* 0x64: Bank A 8/24 */ 189 1.1 scw MEMECC_SYN_INVALID, /* 0x65 */ 190 1.1 scw MEMECC_SYN_INVALID, /* 0x66 */ 191 1.1 scw MEMECC_SYN_INVALID, /* 0x67 */ 192 1.1 scw MEMECC_SYN_BANK_A | 9, /* 0x68: Bank A 9/25 */ 193 1.1 scw MEMECC_SYN_INVALID, /* 0x69 */ 194 1.1 scw MEMECC_SYN_INVALID, /* 0x6a */ 195 1.1 scw MEMECC_SYN_INVALID, /* 0x6b */ 196 1.1 scw MEMECC_SYN_INVALID, /* 0x6c */ 197 1.1 scw MEMECC_SYN_INVALID, /* 0x6d */ 198 1.1 scw MEMECC_SYN_INVALID, /* 0x6e */ 199 1.1 scw MEMECC_SYN_INVALID, /* 0x6f */ 200 1.1 scw MEMECC_SYN_BANK_A | 10, /* 0x70: Bank A 10/26 */ 201 1.1 scw MEMECC_SYN_INVALID, /* 0x71 */ 202 1.1 scw MEMECC_SYN_INVALID, /* 0x72 */ 203 1.1 scw MEMECC_SYN_INVALID, /* 0x73 */ 204 1.1 scw MEMECC_SYN_INVALID, /* 0x74 */ 205 1.1 scw MEMECC_SYN_INVALID, /* 0x75 */ 206 1.1 scw MEMECC_SYN_INVALID, /* 0x76 */ 207 1.1 scw MEMECC_SYN_INVALID, /* 0x77 */ 208 1.1 scw MEMECC_SYN_INVALID, /* 0x78 */ 209 1.1 scw MEMECC_SYN_INVALID, /* 0x79 */ 210 1.1 scw MEMECC_SYN_BANK_C | 11, /* 0x7a: Bank C 11/27 */ 211 1.1 scw MEMECC_SYN_INVALID, /* 0x7b */ 212 1.1 scw MEMECC_SYN_INVALID, /* 0x7c */ 213 1.1 scw MEMECC_SYN_INVALID, /* 0x7d */ 214 1.1 scw MEMECC_SYN_INVALID, /* 0x7e */ 215 1.1 scw MEMECC_SYN_INVALID, /* 0x7f */ 216 1.1 scw MEMECC_SYN_CHECKBIT_ERR | 7, /* 0x80: Checkbit 7 */ 217 1.1 scw MEMECC_SYN_INVALID, /* 0x81 */ 218 1.1 scw MEMECC_SYN_INVALID, /* 0x82 */ 219 1.1 scw MEMECC_SYN_BANK_C | 2, /* 0x83: Bank C 2/18 */ 220 1.1 scw MEMECC_SYN_INVALID, /* 0x84 */ 221 1.1 scw MEMECC_SYN_BANK_C | 5, /* 0x85: Bank C 5/21 */ 222 1.1 scw MEMECC_SYN_BANK_C | 9, /* 0x86: Bank C 9/25 */ 223 1.1 scw MEMECC_SYN_INVALID, /* 0x87 */ 224 1.1 scw MEMECC_SYN_INVALID, /* 0x88 */ 225 1.1 scw MEMECC_SYN_BANK_C | 6, /* 0x89: Bank C 6/22 */ 226 1.1 scw MEMECC_SYN_BANK_C | 12, /* 0x8a: Bank C 12/28 */ 227 1.1 scw MEMECC_SYN_INVALID, /* 0x8b */ 228 1.1 scw MEMECC_SYN_BANK_D | 0, /* 0x8c: Bank D 0/16 */ 229 1.1 scw MEMECC_SYN_INVALID, /* 0x8d */ 230 1.1 scw MEMECC_SYN_INVALID, /* 0x8e */ 231 1.1 scw MEMECC_SYN_INVALID, /* 0x8f */ 232 1.1 scw MEMECC_SYN_INVALID, /* 0x90 */ 233 1.1 scw MEMECC_SYN_BANK_B | 8, /* 0x91: Bank B 8/24 */ 234 1.1 scw MEMECC_SYN_BANK_C | 15, /* 0x92: Bank C 15/31 */ 235 1.1 scw MEMECC_SYN_INVALID, /* 0x93 */ 236 1.1 scw MEMECC_SYN_BANK_A | 7, /* 0x94: Bank A 7/23 */ 237 1.1 scw MEMECC_SYN_INVALID, /* 0x95 */ 238 1.1 scw MEMECC_SYN_INVALID, /* 0x96 */ 239 1.1 scw MEMECC_SYN_INVALID, /* 0x97 */ 240 1.1 scw MEMECC_SYN_BANK_A | 6, /* 0x98: Bank A 6/22 */ 241 1.1 scw MEMECC_SYN_INVALID, /* 0x99 */ 242 1.1 scw MEMECC_SYN_INVALID, /* 0x9a */ 243 1.1 scw MEMECC_SYN_INVALID, /* 0x9b */ 244 1.1 scw MEMECC_SYN_INVALID, /* 0x9c */ 245 1.1 scw MEMECC_SYN_INVALID, /* 0x9d */ 246 1.1 scw MEMECC_SYN_BANK_B | 11, /* 0x9e: Bank B 11/27 */ 247 1.1 scw MEMECC_SYN_INVALID, /* 0x9f */ 248 1.1 scw MEMECC_SYN_INVALID, /* 0xa0 */ 249 1.1 scw MEMECC_SYN_BANK_B | 9, /* 0xa1: Bank B 9/25 */ 250 1.1 scw MEMECC_SYN_BANK_B | 12, /* 0xa2: Bank B 12/28 */ 251 1.1 scw MEMECC_SYN_INVALID, /* 0xa3 */ 252 1.1 scw MEMECC_SYN_BANK_B | 15, /* 0xa4: Bank B 15/31 */ 253 1.1 scw MEMECC_SYN_INVALID, /* 0xa5 */ 254 1.1 scw MEMECC_SYN_INVALID, /* 0xa6 */ 255 1.1 scw MEMECC_SYN_BANK_A | 11, /* 0xa7: Bank A 11/27 */ 256 1.1 scw MEMECC_SYN_BANK_A | 12, /* 0xa8: Bank A 12/28 */ 257 1.1 scw MEMECC_SYN_INVALID, /* 0xa9 */ 258 1.1 scw MEMECC_SYN_INVALID, /* 0xaa */ 259 1.1 scw MEMECC_SYN_INVALID, /* 0xab */ 260 1.1 scw MEMECC_SYN_INVALID, /* 0xac */ 261 1.1 scw MEMECC_SYN_INVALID, /* 0xad */ 262 1.1 scw MEMECC_SYN_INVALID, /* 0xae */ 263 1.1 scw MEMECC_SYN_INVALID, /* 0xaf */ 264 1.1 scw MEMECC_SYN_BANK_A | 13, /* 0xb0: Bank A 13/29 */ 265 1.1 scw MEMECC_SYN_INVALID, /* 0xb1 */ 266 1.1 scw MEMECC_SYN_INVALID, /* 0xb2 */ 267 1.1 scw MEMECC_SYN_INVALID, /* 0xb3 */ 268 1.1 scw MEMECC_SYN_INVALID, /* 0xb4 */ 269 1.1 scw MEMECC_SYN_INVALID, /* 0xb5 */ 270 1.1 scw MEMECC_SYN_INVALID, /* 0xb6 */ 271 1.1 scw MEMECC_SYN_INVALID, /* 0xb7 */ 272 1.1 scw MEMECC_SYN_INVALID, /* 0xb8 */ 273 1.1 scw MEMECC_SYN_INVALID, /* 0xb9 */ 274 1.1 scw MEMECC_SYN_INVALID, /* 0xba */ 275 1.1 scw MEMECC_SYN_INVALID, /* 0xbb */ 276 1.1 scw MEMECC_SYN_INVALID, /* 0xbc */ 277 1.1 scw MEMECC_SYN_INVALID, /* 0xbd */ 278 1.1 scw MEMECC_SYN_INVALID, /* 0xbe */ 279 1.1 scw MEMECC_SYN_INVALID, /* 0xbf */ 280 1.1 scw MEMECC_SYN_INVALID, /* 0xc0 */ 281 1.1 scw MEMECC_SYN_BANK_B | 10, /* 0xc1: Bank B 10/26 */ 282 1.1 scw MEMECC_SYN_BANK_B | 13, /* 0xc2: Bank B 13/29 */ 283 1.1 scw MEMECC_SYN_INVALID, /* 0xc3 */ 284 1.1 scw MEMECC_SYN_BANK_B | 14, /* 0xc4: Bank B 14/30 */ 285 1.1 scw MEMECC_SYN_INVALID, /* 0xc5 */ 286 1.1 scw MEMECC_SYN_INVALID, /* 0xc6 */ 287 1.1 scw MEMECC_SYN_INVALID, /* 0xc7 */ 288 1.1 scw MEMECC_SYN_BANK_B | 0, /* 0xc8: Bank B 0/16 */ 289 1.1 scw MEMECC_SYN_INVALID, /* 0xc9 */ 290 1.1 scw MEMECC_SYN_INVALID, /* 0xca */ 291 1.1 scw MEMECC_SYN_INVALID, /* 0xcb */ 292 1.1 scw MEMECC_SYN_INVALID, /* 0xcc */ 293 1.1 scw MEMECC_SYN_INVALID, /* 0xcd */ 294 1.1 scw MEMECC_SYN_INVALID, /* 0xce */ 295 1.1 scw MEMECC_SYN_INVALID, /* 0xcf */ 296 1.1 scw MEMECC_SYN_BANK_B | 1, /* 0xd0: Bank B 1/17 */ 297 1.1 scw MEMECC_SYN_INVALID, /* 0xd1 */ 298 1.1 scw MEMECC_SYN_INVALID, /* 0xd2 */ 299 1.1 scw MEMECC_SYN_BANK_A | 3, /* 0xd3: Bank A 3/19 */ 300 1.1 scw MEMECC_SYN_INVALID, /* 0xd4 */ 301 1.1 scw MEMECC_SYN_INVALID, /* 0xd5 */ 302 1.1 scw MEMECC_SYN_INVALID, /* 0xd6 */ 303 1.1 scw MEMECC_SYN_INVALID, /* 0xd7 */ 304 1.1 scw MEMECC_SYN_INVALID, /* 0xd8 */ 305 1.1 scw MEMECC_SYN_INVALID, /* 0xd9 */ 306 1.1 scw MEMECC_SYN_INVALID, /* 0xda */ 307 1.1 scw MEMECC_SYN_INVALID, /* 0xdb */ 308 1.1 scw MEMECC_SYN_INVALID, /* 0xdc */ 309 1.1 scw MEMECC_SYN_INVALID, /* 0xdd */ 310 1.1 scw MEMECC_SYN_INVALID, /* 0xde */ 311 1.1 scw MEMECC_SYN_INVALID, /* 0xdf */ 312 1.1 scw MEMECC_SYN_BANK_B | 2, /* 0xe0: Bank B 2/18 */ 313 1.1 scw MEMECC_SYN_INVALID, /* 0xe1 */ 314 1.1 scw MEMECC_SYN_INVALID, /* 0xe2 */ 315 1.1 scw MEMECC_SYN_INVALID, /* 0xe3 */ 316 1.1 scw MEMECC_SYN_INVALID, /* 0xe4 */ 317 1.1 scw MEMECC_SYN_INVALID, /* 0xe5 */ 318 1.1 scw MEMECC_SYN_INVALID, /* 0xe6 */ 319 1.1 scw MEMECC_SYN_INVALID, /* 0xe7 */ 320 1.1 scw MEMECC_SYN_INVALID, /* 0xe8 */ 321 1.1 scw MEMECC_SYN_BANK_D | 11, /* 0xe9: Bank D 11/27 */ 322 1.1 scw MEMECC_SYN_INVALID, /* 0xea */ 323 1.1 scw MEMECC_SYN_INVALID, /* 0xeb */ 324 1.1 scw MEMECC_SYN_INVALID, /* 0xec */ 325 1.1 scw MEMECC_SYN_INVALID, /* 0xed */ 326 1.1 scw MEMECC_SYN_INVALID, /* 0xee */ 327 1.1 scw MEMECC_SYN_INVALID, /* 0xef */ 328 1.1 scw MEMECC_SYN_INVALID, /* 0xf0 */ 329 1.1 scw MEMECC_SYN_INVALID, /* 0xf1 */ 330 1.1 scw MEMECC_SYN_INVALID, /* 0xf2 */ 331 1.1 scw MEMECC_SYN_INVALID, /* 0xf3 */ 332 1.1 scw MEMECC_SYN_BANK_D | 3, /* 0xf4: Bank D 3/19 */ 333 1.1 scw MEMECC_SYN_INVALID, /* 0xf5 */ 334 1.1 scw MEMECC_SYN_INVALID, /* 0xf6 */ 335 1.1 scw MEMECC_SYN_INVALID, /* 0xf7 */ 336 1.1 scw MEMECC_SYN_INVALID, /* 0xf8 */ 337 1.1 scw MEMECC_SYN_INVALID, /* 0xf9 */ 338 1.1 scw MEMECC_SYN_INVALID, /* 0xfa */ 339 1.1 scw MEMECC_SYN_INVALID, /* 0xfb */ 340 1.1 scw MEMECC_SYN_INVALID, /* 0xfc */ 341 1.1 scw MEMECC_SYN_INVALID, /* 0xfd */ 342 1.1 scw MEMECC_SYN_INVALID, /* 0xfe */ 343 1.1 scw MEMECC_SYN_INVALID /* 0xff */ 344 1.1 scw }; 345 1.1 scw 346 1.1 scw 347 1.1 scw /* ARGSUSED */ 348 1.1 scw void 349 1.10 dsl memc_init(struct memc_softc *sc) 350 1.1 scw { 351 1.1 scw u_int8_t chipid; 352 1.1 scw u_int8_t memcfg; 353 1.1 scw 354 1.1 scw if (memc_softc_count == MEMC_NDEVS) 355 1.1 scw panic("memc_attach: too many memc devices!"); 356 1.1 scw 357 1.1 scw memc_softcs[memc_softc_count++] = sc; 358 1.1 scw 359 1.1 scw chipid = memc_reg_read(sc, MEMC_REG_CHIP_ID); 360 1.1 scw memcfg = memc_reg_read(sc, MEMC_REG_MEMORY_CONFIG); 361 1.1 scw 362 1.1 scw printf(": %dMB %s Memory Controller Chip (Rev %d)\n", 363 1.1 scw MEMC_MEMORY_CONFIG_2_MB(memcfg), 364 1.1 scw (chipid == MEMC_CHIP_ID_MEMC040) ? "Parity" : "ECC", 365 1.1 scw memc_reg_read(sc, MEMC_REG_CHIP_REVISION)); 366 1.1 scw 367 1.10.22.1 tls printf("%s: Base Address: 0x%x, ", device_xname(sc->sc_dev), 368 1.1 scw MEMC_BASE_ADDRESS(memc_reg_read(sc, MEMC_REG_BASE_ADDRESS_HI), 369 1.1 scw memc_reg_read(sc, MEMC_REG_BASE_ADDRESS_LO))); 370 1.1 scw 371 1.1 scw printf("Fast RAM Read %sabled\n", (memc_reg_read(sc, 372 1.1 scw MEMC_REG_MEMORY_CONFIG) & MEMC_MEMORY_CONFIG_FSTRD) ? 373 1.1 scw "En" : "Dis"); 374 1.1 scw 375 1.1 scw switch (chipid) { 376 1.1 scw case MEMC_CHIP_ID_MEMC040: 377 1.1 scw memc040_attach(sc); 378 1.1 scw break; 379 1.1 scw case MEMC_CHIP_ID_MEMECC: 380 1.1 scw memecc_attach(sc); 381 1.1 scw break; 382 1.1 scw } 383 1.1 scw } 384 1.1 scw 385 1.1 scw static void 386 1.1 scw memc040_attach(struct memc_softc *sc) 387 1.1 scw { 388 1.1 scw 389 1.1 scw /* XXX: TBD */ 390 1.1 scw } 391 1.1 scw 392 1.1 scw static void 393 1.1 scw memecc_attach(struct memc_softc *sc) 394 1.1 scw { 395 1.1 scw u_int8_t rv; 396 1.1 scw 397 1.1 scw /* 398 1.1 scw * First, disable bus-error and interrupts on ECC errors. 399 1.1 scw * Also switch off SWAIT to enhance performance. 400 1.1 scw */ 401 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_DRAM_CONTROL); 402 1.1 scw rv &= ~(MEMECC_DRAM_CONTROL_NCEBEN | 403 1.1 scw MEMECC_DRAM_CONTROL_NCEIEN | 404 1.5 perry MEMECC_DRAM_CONTROL_SWAIT); 405 1.1 scw rv |= MEMECC_DRAM_CONTROL_RAMEN; 406 1.1 scw memc_reg_write(sc, MEMECC_REG_DRAM_CONTROL, rv); 407 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_SCRUB_CONTROL); 408 1.1 scw rv &= ~(MEMECC_SCRUB_CONTROL_SCRBEN | MEMECC_SCRUB_CONTROL_SBEIEN); 409 1.1 scw memc_reg_write(sc, MEMECC_REG_SCRUB_CONTROL, rv); 410 1.1 scw 411 1.1 scw /* 412 1.1 scw * Ensure error correction is enabled 413 1.1 scw */ 414 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_DATA_CONTROL); 415 1.1 scw rv &= ~MEMECC_DATA_CONTROL_DERC; 416 1.1 scw memc_reg_write(sc, MEMECC_REG_DATA_CONTROL, rv); 417 1.1 scw 418 1.1 scw /* 419 1.1 scw * Clear any error currently in the logs 420 1.1 scw */ 421 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_LOGGER); 422 1.1 scw #ifdef DIAGNOSTIC 423 1.1 scw if ((rv & MEMECC_ERROR_LOGGER_MASK) != 0) 424 1.1 scw memecc_log_error(sc, rv, 0, 0); 425 1.1 scw #endif 426 1.1 scw memc_reg_write(sc, MEMECC_REG_ERROR_LOGGER, 427 1.1 scw MEMECC_ERROR_LOGGER_ERRLOG); 428 1.1 scw 429 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_LOGGER + 2); 430 1.1 scw #ifdef DIAGNOSTIC 431 1.1 scw if ((rv & MEMECC_ERROR_LOGGER_MASK) != 0) 432 1.1 scw memecc_log_error(sc, rv, 2, 0); 433 1.1 scw #endif 434 1.1 scw memc_reg_write(sc, MEMECC_REG_ERROR_LOGGER + 2, 435 1.1 scw MEMECC_ERROR_LOGGER_ERRLOG); 436 1.1 scw 437 1.1 scw /* 438 1.1 scw * Now hook the ECC error interrupt 439 1.1 scw */ 440 1.1 scw if (memc_softc_count == 1) 441 1.1 scw memc_hook_error_intr(sc, memecc_err_intr); 442 1.1 scw 443 1.1 scw /* 444 1.1 scw * Enable bus-error and interrupt on uncorrectable ECC 445 1.1 scw */ 446 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_DRAM_CONTROL); 447 1.1 scw rv |= MEMECC_DRAM_CONTROL_NCEBEN | MEMECC_DRAM_CONTROL_NCEIEN; 448 1.1 scw memc_reg_write(sc, MEMECC_REG_DRAM_CONTROL, rv); 449 1.1 scw 450 1.1 scw /* 451 1.1 scw * Set up the scrubber to run roughly once every 24 hours 452 1.1 scw * with minimal impact on the local bus. With these on/off 453 1.1 scw * time settings, a scrub of a 32MB DRAM board will take 454 1.1 scw * roughly half a minute. 455 1.1 scw */ 456 1.1 scw memc_reg_write(sc, MEMECC_REG_SCRUB_PERIOD_HI, 457 1.1 scw MEMECC_SCRUB_PERIOD_HI(MEMECC_SCRUBBER_PERIOD)); 458 1.1 scw memc_reg_write(sc, MEMECC_REG_SCRUB_PERIOD_LO, 459 1.1 scw MEMECC_SCRUB_PERIOD_LO(MEMECC_SCRUBBER_PERIOD)); 460 1.1 scw memc_reg_write(sc, MEMECC_REG_SCRUB_TIME_ONOFF, 461 1.1 scw MEMECC_SCRUB_TIME_ON_1 | MEMECC_SCRUB_TIME_OFF_16); 462 1.1 scw 463 1.1 scw /* 464 1.1 scw * Start the scrubber, and enable interrupts on Correctable errors 465 1.1 scw */ 466 1.1 scw memc_reg_write(sc, MEMECC_REG_SCRUB_CONTROL, 467 1.1 scw memc_reg_read(sc, MEMECC_REG_SCRUB_CONTROL) | 468 1.1 scw MEMECC_SCRUB_CONTROL_SCRBEN | MEMECC_SCRUB_CONTROL_SBEIEN); 469 1.1 scw 470 1.10.22.1 tls printf("%s: Logging ECC errors at ipl %d\n", device_xname(sc->sc_dev), 471 1.1 scw MEMC_IRQ_LEVEL); 472 1.1 scw } 473 1.1 scw 474 1.1 scw static void 475 1.1 scw memc_hook_error_intr(struct memc_softc *sc, int (*func)(void *)) 476 1.1 scw { 477 1.1 scw 478 1.1 scw #if 0 479 1.1 scw evcnt_attach_dynamic(&sc->sc_evcnt, EVCNT_TYPE_INTR, 480 1.1 scw (*sc->sc_isrevcnt)(sc->sc_isrcookie, MEMC_IRQ_LEVEL), 481 1.1 scw "memory", "ecc errors"); 482 1.1 scw #endif 483 1.1 scw 484 1.1 scw /* 485 1.1 scw * On boards without a VMEChip2, the interrupt is routed 486 1.1 scw * via the MCChip (mvme162/mvme172). 487 1.1 scw */ 488 1.1 scw if (vmetwo_not_present) 489 1.1 scw pcctwointr_establish(MCCHIPV_PARITY_ERR, func, MEMC_IRQ_LEVEL, 490 1.1 scw sc, &sc->sc_evcnt); 491 1.1 scw else 492 1.1 scw vmetwo_local_intr_establish(MEMC_IRQ_LEVEL, 493 1.1 scw VME2_VEC_PARITY_ERROR, func, sc, &sc->sc_evcnt); 494 1.1 scw } 495 1.1 scw 496 1.1 scw /* ARGSUSED */ 497 1.1 scw static int 498 1.1 scw memecc_err_intr(void *arg) 499 1.1 scw { 500 1.1 scw struct memc_softc *sc; 501 1.1 scw u_int8_t rv; 502 1.1 scw int i, j, cnt = 0; 503 1.1 scw 504 1.1 scw /* 505 1.1 scw * For each memory controller we found ... 506 1.1 scw */ 507 1.1 scw for (i = 0; i < memc_softc_count; i++) { 508 1.1 scw sc = memc_softcs[i]; 509 1.1 scw 510 1.1 scw /* 511 1.1 scw * There are two error loggers per controller, the registers of 512 1.1 scw * the 2nd are offset from the 1st by 2 bytes. 513 1.1 scw */ 514 1.1 scw for (j = 0; j <= 2; j += 2) { 515 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_LOGGER + j); 516 1.1 scw if ((rv & MEMECC_ERROR_LOGGER_MASK) != 0) { 517 1.1 scw memecc_log_error(sc, rv, j, 1); 518 1.1 scw memc_reg_write(sc, MEMECC_REG_ERROR_LOGGER + j, 519 1.1 scw MEMECC_ERROR_LOGGER_ERRLOG); 520 1.1 scw cnt++; 521 1.1 scw } 522 1.1 scw } 523 1.1 scw } 524 1.1 scw 525 1.1 scw return (cnt); 526 1.1 scw } 527 1.1 scw 528 1.1 scw /* 529 1.1 scw * Log an ECC error to the console. 530 1.1 scw * Note: Since this usually runs at an elevated ipl (above clock), we 531 1.1 scw * should probably schedule a soft interrupt to log the error details. 532 1.1 scw * (But only for errors where we would not normally panic.) 533 1.1 scw */ 534 1.1 scw static void 535 1.1 scw memecc_log_error(struct memc_softc *sc, u_int8_t errlog, int off, int mbepanic) 536 1.1 scw { 537 1.1 scw u_int32_t addr; 538 1.1 scw u_int8_t rv, syndrome; 539 1.1 scw const char *bm = "CPU"; 540 1.1 scw const char *rdwr; 541 1.1 scw const char *etype; 542 1.1 scw char syntext[32]; 543 1.1 scw 544 1.1 scw /* 545 1.1 scw * Get the address associated with the error. 546 1.1 scw */ 547 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_HIHI + off); 548 1.1 scw addr = (u_int32_t)rv; 549 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_HI + off); 550 1.1 scw addr = (addr << 8) | (u_int32_t)rv; 551 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_MID + off); 552 1.1 scw addr = (addr << 8) | (u_int32_t)rv; 553 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_ERROR_ADDRESS_LO + off); 554 1.1 scw addr = (addr << 8) | (u_int32_t)rv; 555 1.1 scw 556 1.1 scw /* 557 1.1 scw * And the Syndrome bits 558 1.1 scw */ 559 1.1 scw syndrome = memc_reg_read(sc, MEMECC_REG_ERROR_SYNDROME + off); 560 1.1 scw 561 1.1 scw rdwr = ((errlog & MEMECC_ERROR_LOGGER_ERD) != 0) ? " read" : " write"; 562 1.1 scw 563 1.1 scw if ((errlog & MEMECC_ERROR_LOGGER_EALT) != 0) 564 1.1 scw bm = "Peripheral Device"; 565 1.1 scw else 566 1.1 scw if ((errlog & MEMECC_ERROR_LOGGER_ESCRB) != 0) { 567 1.1 scw bm = "Scrubber"; 568 1.1 scw rdwr = ""; 569 1.1 scw } 570 1.1 scw 571 1.1 scw if ((errlog & MEMECC_ERROR_LOGGER_SBE) != 0) { 572 1.1 scw int syncode, bank, bitnum; 573 1.1 scw 574 1.1 scw etype = "Correctable"; 575 1.1 scw syncode = memc_syn_decode[syndrome]; 576 1.1 scw bitnum = (syncode & MEMECC_SYN_BIT_MASK) + (off ? 16 : 0); 577 1.1 scw bank = (syncode >> MEMECC_SYN_BANK_SHIFT) &MEMECC_SYN_BANK_MASK; 578 1.1 scw 579 1.1 scw if (syncode == MEMECC_SYN_INVALID) 580 1.1 scw strcpy(syntext, "Invalid!"); 581 1.1 scw else 582 1.1 scw if ((syncode & MEMECC_SYN_CHECKBIT_ERR) != 0) 583 1.3 itojun snprintf(syntext, sizeof(syntext), 584 1.3 itojun "Checkbit#%d", bitnum); 585 1.1 scw else { 586 1.1 scw addr |= (u_int32_t) (bank << 2); 587 1.3 itojun snprintf(syntext, sizeof(syntext), 588 1.3 itojun "DRAM Bank %c, Bit#%d", 'A' + bank, bitnum); 589 1.1 scw } 590 1.1 scw } else if ((errlog & MEMECC_ERROR_LOGGER_MBE) != 0) 591 1.1 scw etype = "Uncorrectable"; 592 1.1 scw else 593 1.1 scw etype = "Spurious"; 594 1.1 scw 595 1.1 scw printf("%s: %s error on %s%s access to 0x%08x.\n", 596 1.10.22.1 tls device_xname(sc->sc_dev), etype, bm, rdwr, addr); 597 1.1 scw 598 1.1 scw if ((errlog & MEMECC_ERROR_LOGGER_SBE) != 0) 599 1.10.22.1 tls printf("%s: ECC Syndrome 0x%02x (%s)\n", device_xname(sc->sc_dev), 600 1.1 scw syndrome, syntext); 601 1.1 scw 602 1.1 scw /* 603 1.1 scw * If an uncorrectable error was detected by an alternate 604 1.1 scw * bus master or the scrubber, panic immediately. 605 1.1 scw * We can't rely on the contents of memory at this point. 606 1.1 scw * 607 1.1 scw * Uncorrectable errors detected when the CPU was accessing 608 1.1 scw * DRAM will cause the CPU to take a bus error trap. Depending 609 1.1 scw * on whether the error was in kernel or user mode, the system 610 1.1 scw * with either panic or kill the affected process. Basically, 611 1.1 scw * we don't have to deal with it here. 612 1.1 scw * 613 1.1 scw * XXX: I'm not sure whether it's our responsibility to 614 1.1 scw * perform some dummy writes to the offending address in this 615 1.1 scw * case to re-generate a good ECC. Note that we'd have to write 616 1.1 scw * an entire block of 4 words since we can only narrow down the 617 1.1 scw * faulty address for correctable errors... 618 1.1 scw */ 619 1.1 scw if (mbepanic && (errlog & MEMECC_ERROR_LOGGER_MBE) && 620 1.1 scw (errlog & (MEMECC_ERROR_LOGGER_ESCRB|MEMECC_ERROR_LOGGER_EALT))) { 621 1.1 scw /* 622 1.4 wiz * Ensure we don't get a Bus Error while panicking... 623 1.1 scw */ 624 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_DRAM_CONTROL + off); 625 1.1 scw rv &= ~(MEMECC_DRAM_CONTROL_NCEBEN | 626 1.1 scw MEMECC_DRAM_CONTROL_NCEIEN); 627 1.1 scw memc_reg_write(sc, MEMECC_REG_DRAM_CONTROL + off, rv); 628 1.1 scw rv = memc_reg_read(sc, MEMECC_REG_SCRUB_CONTROL + off); 629 1.1 scw rv &= ~(MEMECC_SCRUB_CONTROL_SBEIEN | 630 1.1 scw MEMECC_SCRUB_CONTROL_SCRBEN); 631 1.1 scw memc_reg_write(sc, MEMECC_REG_SCRUB_CONTROL + off, rv); 632 1.1 scw 633 1.1 scw panic("%s: Halting system to preserve data integrity.", 634 1.10.22.1 tls device_xname(sc->sc_dev)); 635 1.1 scw } 636 1.1 scw } 637
Indexes created Thu Oct 02 14:10:14 GMT 2025