qemu/hw/misc/eccmemctl.c
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   1/*
   2 * QEMU Sparc Sun4m ECC memory controller emulation
   3 *
   4 * Copyright (c) 2007 Robert Reif
   5 *
   6 * Permission is hereby granted, free of charge, to any person obtaining a copy
   7 * of this software and associated documentation files (the "Software"), to deal
   8 * in the Software without restriction, including without limitation the rights
   9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  10 * copies of the Software, and to permit persons to whom the Software is
  11 * furnished to do so, subject to the following conditions:
  12 *
  13 * The above copyright notice and this permission notice shall be included in
  14 * all copies or substantial portions of the Software.
  15 *
  16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
  19 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
  22 * THE SOFTWARE.
  23 */
  24
  25#include "qemu/osdep.h"
  26#include "hw/sysbus.h"
  27#include "trace.h"
  28
  29/* There are 3 versions of this chip used in SMP sun4m systems:
  30 * MCC (version 0, implementation 0) SS-600MP
  31 * EMC (version 0, implementation 1) SS-10
  32 * SMC (version 0, implementation 2) SS-10SX and SS-20
  33 *
  34 * Chipset docs:
  35 * "Sun-4M System Architecture (revision 2.0) by Chuck Narad", 950-1373-01,
  36 * http://mediacast.sun.com/users/Barton808/media/Sun4M_SystemArchitecture_edited2.pdf
  37 */
  38
  39#define ECC_MCC        0x00000000
  40#define ECC_EMC        0x10000000
  41#define ECC_SMC        0x20000000
  42
  43/* Register indexes */
  44#define ECC_MER        0               /* Memory Enable Register */
  45#define ECC_MDR        1               /* Memory Delay Register */
  46#define ECC_MFSR       2               /* Memory Fault Status Register */
  47#define ECC_VCR        3               /* Video Configuration Register */
  48#define ECC_MFAR0      4               /* Memory Fault Address Register 0 */
  49#define ECC_MFAR1      5               /* Memory Fault Address Register 1 */
  50#define ECC_DR         6               /* Diagnostic Register */
  51#define ECC_ECR0       7               /* Event Count Register 0 */
  52#define ECC_ECR1       8               /* Event Count Register 1 */
  53
  54/* ECC fault control register */
  55#define ECC_MER_EE     0x00000001      /* Enable ECC checking */
  56#define ECC_MER_EI     0x00000002      /* Enable Interrupts on
  57                                          correctable errors */
  58#define ECC_MER_MRR0   0x00000004      /* SIMM 0 */
  59#define ECC_MER_MRR1   0x00000008      /* SIMM 1 */
  60#define ECC_MER_MRR2   0x00000010      /* SIMM 2 */
  61#define ECC_MER_MRR3   0x00000020      /* SIMM 3 */
  62#define ECC_MER_MRR4   0x00000040      /* SIMM 4 */
  63#define ECC_MER_MRR5   0x00000080      /* SIMM 5 */
  64#define ECC_MER_MRR6   0x00000100      /* SIMM 6 */
  65#define ECC_MER_MRR7   0x00000200      /* SIMM 7 */
  66#define ECC_MER_REU    0x00000100      /* Memory Refresh Enable (600MP) */
  67#define ECC_MER_MRR    0x000003fc      /* MRR mask */
  68#define ECC_MER_A      0x00000400      /* Memory controller addr map select */
  69#define ECC_MER_DCI    0x00000800      /* Disables Coherent Invalidate ACK */
  70#define ECC_MER_VER    0x0f000000      /* Version */
  71#define ECC_MER_IMPL   0xf0000000      /* Implementation */
  72#define ECC_MER_MASK_0 0x00000103      /* Version 0 (MCC) mask */
  73#define ECC_MER_MASK_1 0x00000bff      /* Version 1 (EMC) mask */
  74#define ECC_MER_MASK_2 0x00000bff      /* Version 2 (SMC) mask */
  75
  76/* ECC memory delay register */
  77#define ECC_MDR_RRI    0x000003ff      /* Refresh Request Interval */
  78#define ECC_MDR_MI     0x00001c00      /* MIH Delay */
  79#define ECC_MDR_CI     0x0000e000      /* Coherent Invalidate Delay */
  80#define ECC_MDR_MDL    0x001f0000      /* MBus Master arbitration delay */
  81#define ECC_MDR_MDH    0x03e00000      /* MBus Master arbitration delay */
  82#define ECC_MDR_GAD    0x7c000000      /* Graphics Arbitration Delay */
  83#define ECC_MDR_RSC    0x80000000      /* Refresh load control */
  84#define ECC_MDR_MASK   0x7fffffff
  85
  86/* ECC fault status register */
  87#define ECC_MFSR_CE    0x00000001      /* Correctable error */
  88#define ECC_MFSR_BS    0x00000002      /* C2 graphics bad slot access */
  89#define ECC_MFSR_TO    0x00000004      /* Timeout on write */
  90#define ECC_MFSR_UE    0x00000008      /* Uncorrectable error */
  91#define ECC_MFSR_DW    0x000000f0      /* Index of double word in block */
  92#define ECC_MFSR_SYND  0x0000ff00      /* Syndrome for correctable error */
  93#define ECC_MFSR_ME    0x00010000      /* Multiple errors */
  94#define ECC_MFSR_C2ERR 0x00020000      /* C2 graphics error */
  95
  96/* ECC fault address register 0 */
  97#define ECC_MFAR0_PADDR 0x0000000f     /* PA[32-35] */
  98#define ECC_MFAR0_TYPE  0x000000f0     /* Transaction type */
  99#define ECC_MFAR0_SIZE  0x00000700     /* Transaction size */
 100#define ECC_MFAR0_CACHE 0x00000800     /* Mapped cacheable */
 101#define ECC_MFAR0_LOCK  0x00001000     /* Error occurred in atomic cycle */
 102#define ECC_MFAR0_BMODE 0x00002000     /* Boot mode */
 103#define ECC_MFAR0_VADDR 0x003fc000     /* VA[12-19] (superset bits) */
 104#define ECC_MFAR0_S     0x08000000     /* Supervisor mode */
 105#define ECC_MFARO_MID   0xf0000000     /* Module ID */
 106
 107/* ECC diagnostic register */
 108#define ECC_DR_CBX     0x00000001
 109#define ECC_DR_CB0     0x00000002
 110#define ECC_DR_CB1     0x00000004
 111#define ECC_DR_CB2     0x00000008
 112#define ECC_DR_CB4     0x00000010
 113#define ECC_DR_CB8     0x00000020
 114#define ECC_DR_CB16    0x00000040
 115#define ECC_DR_CB32    0x00000080
 116#define ECC_DR_DMODE   0x00000c00
 117
 118#define ECC_NREGS      9
 119#define ECC_SIZE       (ECC_NREGS * sizeof(uint32_t))
 120
 121#define ECC_DIAG_SIZE  4
 122#define ECC_DIAG_MASK  (ECC_DIAG_SIZE - 1)
 123
 124#define TYPE_ECC_MEMCTL "eccmemctl"
 125#define ECC_MEMCTL(obj) OBJECT_CHECK(ECCState, (obj), TYPE_ECC_MEMCTL)
 126
 127typedef struct ECCState {
 128    SysBusDevice parent_obj;
 129
 130    MemoryRegion iomem, iomem_diag;
 131    qemu_irq irq;
 132    uint32_t regs[ECC_NREGS];
 133    uint8_t diag[ECC_DIAG_SIZE];
 134    uint32_t version;
 135} ECCState;
 136
 137static void ecc_mem_write(void *opaque, hwaddr addr, uint64_t val,
 138                          unsigned size)
 139{
 140    ECCState *s = opaque;
 141
 142    switch (addr >> 2) {
 143    case ECC_MER:
 144        if (s->version == ECC_MCC)
 145            s->regs[ECC_MER] = (val & ECC_MER_MASK_0);
 146        else if (s->version == ECC_EMC)
 147            s->regs[ECC_MER] = s->version | (val & ECC_MER_MASK_1);
 148        else if (s->version == ECC_SMC)
 149            s->regs[ECC_MER] = s->version | (val & ECC_MER_MASK_2);
 150        trace_ecc_mem_writel_mer(val);
 151        break;
 152    case ECC_MDR:
 153        s->regs[ECC_MDR] =  val & ECC_MDR_MASK;
 154        trace_ecc_mem_writel_mdr(val);
 155        break;
 156    case ECC_MFSR:
 157        s->regs[ECC_MFSR] =  val;
 158        qemu_irq_lower(s->irq);
 159        trace_ecc_mem_writel_mfsr(val);
 160        break;
 161    case ECC_VCR:
 162        s->regs[ECC_VCR] =  val;
 163        trace_ecc_mem_writel_vcr(val);
 164        break;
 165    case ECC_DR:
 166        s->regs[ECC_DR] =  val;
 167        trace_ecc_mem_writel_dr(val);
 168        break;
 169    case ECC_ECR0:
 170        s->regs[ECC_ECR0] =  val;
 171        trace_ecc_mem_writel_ecr0(val);
 172        break;
 173    case ECC_ECR1:
 174        s->regs[ECC_ECR0] =  val;
 175        trace_ecc_mem_writel_ecr1(val);
 176        break;
 177    }
 178}
 179
 180static uint64_t ecc_mem_read(void *opaque, hwaddr addr,
 181                             unsigned size)
 182{
 183    ECCState *s = opaque;
 184    uint32_t ret = 0;
 185
 186    switch (addr >> 2) {
 187    case ECC_MER:
 188        ret = s->regs[ECC_MER];
 189        trace_ecc_mem_readl_mer(ret);
 190        break;
 191    case ECC_MDR:
 192        ret = s->regs[ECC_MDR];
 193        trace_ecc_mem_readl_mdr(ret);
 194        break;
 195    case ECC_MFSR:
 196        ret = s->regs[ECC_MFSR];
 197        trace_ecc_mem_readl_mfsr(ret);
 198        break;
 199    case ECC_VCR:
 200        ret = s->regs[ECC_VCR];
 201        trace_ecc_mem_readl_vcr(ret);
 202        break;
 203    case ECC_MFAR0:
 204        ret = s->regs[ECC_MFAR0];
 205        trace_ecc_mem_readl_mfar0(ret);
 206        break;
 207    case ECC_MFAR1:
 208        ret = s->regs[ECC_MFAR1];
 209        trace_ecc_mem_readl_mfar1(ret);
 210        break;
 211    case ECC_DR:
 212        ret = s->regs[ECC_DR];
 213        trace_ecc_mem_readl_dr(ret);
 214        break;
 215    case ECC_ECR0:
 216        ret = s->regs[ECC_ECR0];
 217        trace_ecc_mem_readl_ecr0(ret);
 218        break;
 219    case ECC_ECR1:
 220        ret = s->regs[ECC_ECR0];
 221        trace_ecc_mem_readl_ecr1(ret);
 222        break;
 223    }
 224    return ret;
 225}
 226
 227static const MemoryRegionOps ecc_mem_ops = {
 228    .read = ecc_mem_read,
 229    .write = ecc_mem_write,
 230    .endianness = DEVICE_NATIVE_ENDIAN,
 231    .valid = {
 232        .min_access_size = 4,
 233        .max_access_size = 4,
 234    },
 235};
 236
 237static void ecc_diag_mem_write(void *opaque, hwaddr addr,
 238                               uint64_t val, unsigned size)
 239{
 240    ECCState *s = opaque;
 241
 242    trace_ecc_diag_mem_writeb(addr, val);
 243    s->diag[addr & ECC_DIAG_MASK] = val;
 244}
 245
 246static uint64_t ecc_diag_mem_read(void *opaque, hwaddr addr,
 247                                  unsigned size)
 248{
 249    ECCState *s = opaque;
 250    uint32_t ret = s->diag[(int)addr];
 251
 252    trace_ecc_diag_mem_readb(addr, ret);
 253    return ret;
 254}
 255
 256static const MemoryRegionOps ecc_diag_mem_ops = {
 257    .read = ecc_diag_mem_read,
 258    .write = ecc_diag_mem_write,
 259    .endianness = DEVICE_NATIVE_ENDIAN,
 260    .valid = {
 261        .min_access_size = 1,
 262        .max_access_size = 1,
 263    },
 264};
 265
 266static const VMStateDescription vmstate_ecc = {
 267    .name ="ECC",
 268    .version_id = 3,
 269    .minimum_version_id = 3,
 270    .fields = (VMStateField[]) {
 271        VMSTATE_UINT32_ARRAY(regs, ECCState, ECC_NREGS),
 272        VMSTATE_BUFFER(diag, ECCState),
 273        VMSTATE_UINT32(version, ECCState),
 274        VMSTATE_END_OF_LIST()
 275    }
 276};
 277
 278static void ecc_reset(DeviceState *d)
 279{
 280    ECCState *s = ECC_MEMCTL(d);
 281
 282    if (s->version == ECC_MCC) {
 283        s->regs[ECC_MER] &= ECC_MER_REU;
 284    } else {
 285        s->regs[ECC_MER] &= (ECC_MER_VER | ECC_MER_IMPL | ECC_MER_MRR |
 286                             ECC_MER_DCI);
 287    }
 288    s->regs[ECC_MDR] = 0x20;
 289    s->regs[ECC_MFSR] = 0;
 290    s->regs[ECC_VCR] = 0;
 291    s->regs[ECC_MFAR0] = 0x07c00000;
 292    s->regs[ECC_MFAR1] = 0;
 293    s->regs[ECC_DR] = 0;
 294    s->regs[ECC_ECR0] = 0;
 295    s->regs[ECC_ECR1] = 0;
 296}
 297
 298static void ecc_init(Object *obj)
 299{
 300    ECCState *s = ECC_MEMCTL(obj);
 301    SysBusDevice *dev = SYS_BUS_DEVICE(obj);
 302
 303    sysbus_init_irq(dev, &s->irq);
 304
 305    memory_region_init_io(&s->iomem, obj, &ecc_mem_ops, s, "ecc", ECC_SIZE);
 306    sysbus_init_mmio(dev, &s->iomem);
 307}
 308
 309static void ecc_realize(DeviceState *dev, Error **errp)
 310{
 311    ECCState *s = ECC_MEMCTL(dev);
 312    SysBusDevice *sbd = SYS_BUS_DEVICE(dev);
 313
 314    s->regs[0] = s->version;
 315
 316    if (s->version == ECC_MCC) { // SS-600MP only
 317        memory_region_init_io(&s->iomem_diag, OBJECT(dev), &ecc_diag_mem_ops, s,
 318                              "ecc.diag", ECC_DIAG_SIZE);
 319        sysbus_init_mmio(sbd, &s->iomem_diag);
 320    }
 321}
 322
 323static Property ecc_properties[] = {
 324    DEFINE_PROP_UINT32("version", ECCState, version, -1),
 325    DEFINE_PROP_END_OF_LIST(),
 326};
 327
 328static void ecc_class_init(ObjectClass *klass, void *data)
 329{
 330    DeviceClass *dc = DEVICE_CLASS(klass);
 331
 332    dc->realize = ecc_realize;
 333    dc->reset = ecc_reset;
 334    dc->vmsd = &vmstate_ecc;
 335    dc->props = ecc_properties;
 336}
 337
 338static const TypeInfo ecc_info = {
 339    .name          = TYPE_ECC_MEMCTL,
 340    .parent        = TYPE_SYS_BUS_DEVICE,
 341    .instance_size = sizeof(ECCState),
 342    .instance_init = ecc_init,
 343    .class_init    = ecc_class_init,
 344};
 345
 346
 347static void ecc_register_types(void)
 348{
 349    type_register_static(&ecc_info);
 350}
 351
 352type_init(ecc_register_types)
 353