static void
ecc_e31200_callout(void *xsc)
{
struct ecc_e31200_softc *sc = xsc;
ecc_e31200_status(sc);
callout_reset(&sc->ecc_callout, hz, ecc_e31200_callout, sc);
}
static int
ecc_e31200_attach(device_t dev)
{
struct ecc_e31200_softc *sc = device_get_softc(dev);
uint32_t capa, dmfc, mch_barlo, mch_barhi;
uint64_t mch_bar;
int bus, slot;
dev = sc->ecc_device; /* XXX */
bus = pci_get_bus(dev);
slot = pci_get_slot(dev);
capa = pcib_read_config(dev, bus, slot, 0, PCI_E31200_CAPID0_A, 4);
dmfc = __SHIFTOUT(capa, PCI_E31200_CAPID0_A_DMFC);
if (dmfc == PCI_E31200_CAPID0_A_DMFC_1333) {
ecc_printf(sc, "CAP DDR3 1333 ");
} else if (dmfc == PCI_E31200_CAPID0_A_DMFC_1067) {
ecc_printf(sc, "CAP DDR3 1067 ");
} else if (dmfc == PCI_E31200_CAPID0_A_DMFC_ALL) {
ecc_printf(sc, "no CAP ");
} else {
ecc_printf(sc, "unknown DMFC %#x\n", dmfc);
return 0;
}
if (capa & PCI_E31200_CAPID0_A_ECCDIS) {
kprintf("NON-ECC\n");
return 0;
} else {
kprintf("ECC\n");
}
mch_barlo = pcib_read_config(dev, bus, slot, 0,
PCI_E31200_MCHBAR_LO, 4);
mch_barhi = pcib_read_config(dev, bus, slot, 0,
PCI_E31200_MCHBAR_HI, 4);
mch_bar = (uint64_t)mch_barlo | (((uint64_t)mch_barhi) << 32);
if (bootverbose)
ecc_printf(sc, "MCHBAR %jx\n", (uintmax_t)mch_bar);
if (mch_bar & PCI_E31200_MCHBAR_LO_EN) {
uint64_t map_addr = mch_bar & PCI_E31200_MCHBAR_ADDRMASK;
uint32_t dimm_ch0, dimm_ch1;
sc->ecc_addr = pmap_mapdev_uncacheable(map_addr,
MCH_E31200_SIZE);
if (bootverbose) {
ecc_printf(sc, "LOG0_C0 %#x\n",
CSR_READ_4(sc, MCH_E31200_ERRLOG0_C0));
ecc_printf(sc, "LOG0_C1 %#x\n",
CSR_READ_4(sc, MCH_E31200_ERRLOG0_C1));
}
dimm_ch0 = CSR_READ_4(sc, MCH_E31200_DIMM_CH0);
dimm_ch1 = CSR_READ_4(sc, MCH_E31200_DIMM_CH1);
if (bootverbose) {
ecc_e31200_chaninfo(sc, dimm_ch0, "channel0");
ecc_e31200_chaninfo(sc, dimm_ch1, "channel1");
}
if (((dimm_ch0 | dimm_ch1) & MCH_E31200_DIMM_ECC) == 0) {
ecc_printf(sc, "No ECC active\n");
pmap_unmapdev((vm_offset_t)sc->ecc_addr,
MCH_E31200_SIZE);
return 0;
}
}
ecc_e31200_status(sc);
callout_init_mp(&sc->ecc_callout);
callout_reset(&sc->ecc_callout, hz, ecc_e31200_callout, sc);
return 0;
}
static int
ecc_e31200_attach(device_t dev)
{
struct ecc_e31200_softc *sc = device_get_softc(dev);
uint32_t capa, dmfc, mch_barlo, mch_barhi;
uint64_t mch_bar;
int bus, slot, dmfc_parsed = 1;
dev = sc->ecc_device; /* XXX */
bus = pci_get_bus(dev);
slot = pci_get_slot(dev);
capa = pcib_read_config(dev, bus, slot, 0, PCI_E31200_CAPID0_A, 4);
if (sc->ecc_ver == ECC_E31200_VER_1) {
dmfc = __SHIFTOUT(capa, PCI_E31200_CAPID0_A_DMFC);
} else { /* V2/V3 */
uint32_t capb;
capb = pcib_read_config(dev, bus, slot, 0,
PCI_E31200_CAPID0_B, 4);
dmfc = __SHIFTOUT(capb, PCI_E31200_CAPID0_B_DMFC);
}
if (dmfc == PCI_E31200_CAPID0_DMFC_1067) {
ecc_printf(sc, "CAP DDR3 1067 ");
} else if (dmfc == PCI_E31200_CAPID0_DMFC_1333) {
ecc_printf(sc, "CAP DDR3 1333 ");
} else {
if (sc->ecc_ver == ECC_E31200_VER_1) {
if (dmfc == PCI_E31200_CAPID0_DMFC_V1_ALL)
ecc_printf(sc, "no CAP ");
else
dmfc_parsed = 0;
} else { /* V2/V3 */
if (dmfc == PCI_E31200_CAPID0_DMFC_1600)
ecc_printf(sc, "CAP DDR3 1600 ");
else if (dmfc == PCI_E31200_CAPID0_DMFC_1867)
ecc_printf(sc, "CAP DDR3 1867 ");
else if (dmfc == PCI_E31200_CAPID0_DMFC_2133)
ecc_printf(sc, "CAP DDR3 2133 ");
else if (dmfc == PCI_E31200_CAPID0_DMFC_2400)
ecc_printf(sc, "CAP DDR3 2400 ");
else if (dmfc == PCI_E31200_CAPID0_DMFC_2667)
ecc_printf(sc, "CAP DDR3 2667 ");
else if (dmfc == PCI_E31200_CAPID0_DMFC_2933)
ecc_printf(sc, "CAP DDR3 2933 ");
else
dmfc_parsed = 0;
}
}
if (!dmfc_parsed) {
ecc_printf(sc, "unknown DMFC %#x\n", dmfc);
return 0;
}
if (capa & PCI_E31200_CAPID0_A_ECCDIS) {
kprintf("NON-ECC\n");
return 0;
} else {
kprintf("ECC\n");
}
mch_barlo = pcib_read_config(dev, bus, slot, 0,
PCI_E31200_MCHBAR_LO, 4);
mch_barhi = pcib_read_config(dev, bus, slot, 0,
PCI_E31200_MCHBAR_HI, 4);
mch_bar = (uint64_t)mch_barlo | (((uint64_t)mch_barhi) << 32);
if (bootverbose)
ecc_printf(sc, "MCHBAR %jx\n", (uintmax_t)mch_bar);
if (mch_bar & PCI_E31200_MCHBAR_LO_EN) {
uint64_t map_addr = mch_bar & PCI_E31200_MCHBAR_ADDRMASK;
uint32_t dimm_ch0, dimm_ch1;
int ecc_active;
sc->ecc_addr = pmap_mapdev_uncacheable(map_addr,
MCH_E31200_SIZE);
if (bootverbose) {
ecc_printf(sc, "LOG0_C0 %#x\n",
CSR_READ_4(sc, MCH_E31200_ERRLOG0_C0));
ecc_printf(sc, "LOG0_C1 %#x\n",
CSR_READ_4(sc, MCH_E31200_ERRLOG0_C1));
}
dimm_ch0 = CSR_READ_4(sc, MCH_E31200_DIMM_CH0);
dimm_ch1 = CSR_READ_4(sc, MCH_E31200_DIMM_CH1);
if (bootverbose) {
ecc_e31200_chaninfo(sc, dimm_ch0, "channel0");
ecc_e31200_chaninfo(sc, dimm_ch1, "channel1");
}
ecc_active = 1;
if (sc->ecc_ver == ECC_E31200_VER_1 ||
sc->ecc_ver == ECC_E31200_VER_2) {
if (((dimm_ch0 | dimm_ch1) & MCH_E31200_DIMM_ECC) ==
MCH_E31200_DIMM_ECC_NONE) {
ecc_active = 0;
ecc_printf(sc, "No ECC active\n");
}
} else { /* V3 */
uint32_t ecc_mode0, ecc_mode1;
ecc_mode0 = __SHIFTOUT(dimm_ch0, MCH_E31200_DIMM_ECC);
ecc_mode1 = __SHIFTOUT(dimm_ch1, MCH_E31200_DIMM_ECC);
/*
* Only active ALL/NONE is supported
*/
if (ecc_mode0 != MCH_E31200_DIMM_ECC_NONE &&
ecc_mode0 != MCH_E31200_DIMM_ECC_ALL) {
ecc_active = 0;
ecc_printf(sc, "channel0, invalid ECC "
"active 0x%x\n", ecc_mode0);
}
if (ecc_mode1 != MCH_E31200_DIMM_ECC_NONE &&
ecc_mode1 != MCH_E31200_DIMM_ECC_ALL) {
ecc_active = 0;
ecc_printf(sc, "channel1, invalid ECC "
"active 0x%x\n", ecc_mode1);
}
if (ecc_mode0 == MCH_E31200_DIMM_ECC_NONE &&
ecc_mode1 == MCH_E31200_DIMM_ECC_NONE) {
ecc_active = 0;
ecc_printf(sc, "No ECC active\n");
}
}
if (!ecc_active) {
pmap_unmapdev((vm_offset_t)sc->ecc_addr,
MCH_E31200_SIZE);
return 0;
}
} else {
ecc_printf(sc, "MCHBAR is not enabled\n");
}
ecc_e31200_status(sc);
callout_init_mp(&sc->ecc_callout);
callout_reset(&sc->ecc_callout, hz, ecc_e31200_callout, sc);
return 0;
}
