Message ID | 20210408210330.100221-1-gedwards@ddn.com (mailing list archive) |
---|---|
State | New, archived |
Headers | show |
Series | rasdaemon: Add Ice Lake and Sapphire Rapids MSCOD values | expand |
Em Thu, 8 Apr 2021 15:03:30 -0600 Greg Edwards <gedwards@ddn.com> escreveu: > Based on mcelog commits: > > ee90ff20ce6a ("mcelog: Add support for Icelake server, Icelake-D, and Snow Ridge") > 391abaac9bdf ("mcelog: Add decode for MCi_MISC from 10nm memory controller") > 59cb7ad4bc72 ("mcelog: i10nm: Fix mapping from bank number to functional unit") > c0acd0e6a639 ("mcelog: Add support for Sapphirerapids server.") > > Signed-off-by: Greg Edwards <gedwards@ddn.com> Applied, thanks! Regards, Mauro > --- > Makefile.am | 2 +- > mce-intel-i10nm.c | 509 ++++++++++++++++++++++++++++++++++++++++++++++ > mce-intel.c | 5 + > ras-mce-handler.c | 14 +- > ras-mce-handler.h | 5 + > 5 files changed, 533 insertions(+), 2 deletions(-) > create mode 100644 mce-intel-i10nm.c > > diff --git a/Makefile.am b/Makefile.am > index de0109840017..3d399a1a6d6c 100644 > --- a/Makefile.am > +++ b/Makefile.am > @@ -37,7 +37,7 @@ if WITH_MCE > mce-intel-sb.c mce-intel-ivb.c mce-intel-haswell.c \ > mce-intel-knl.c mce-intel-broadwell-de.c \ > mce-intel-broadwell-epex.c mce-intel-skylake-xeon.c \ > - mce-amd-k8.c mce-amd-smca.c > + mce-amd-k8.c mce-amd-smca.c mce-intel-i10nm.c > endif > if WITH_EXTLOG > rasdaemon_SOURCES += ras-extlog-handler.c > diff --git a/mce-intel-i10nm.c b/mce-intel-i10nm.c > new file mode 100644 > index 000000000000..3c5d22f441be > --- /dev/null > +++ b/mce-intel-i10nm.c > @@ -0,0 +1,509 @@ > +/* > + * The code below came from Tony Luck's mcelog code, > + * released under GNU Public General License, v.2 > + * > + * Copyright (C) 2019 Intel Corporation > + * Decode Intel 10nm specific machine check errors. > + * > + * This program is free software; you can redistribute it and/or modify > + * it under the terms of the GNU General Public License as published by > + * the Free Software Foundation; either version 2 of the License, or > + * (at your option) any later version. > + * > + * This program is distributed in the hope that it will be useful, > + * but WITHOUT ANY WARRANTY; without even the implied warranty of > + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the > + * GNU General Public License for more details. > + * > + * You should have received a copy of the GNU General Public License > + * along with this program; if not, write to the Free Software > + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA > +*/ > + > +#include <inttypes.h> > +#include <stdio.h> > +#include <string.h> > + > +#include "ras-mce-handler.h" > +#include "bitfield.h" > + > +static char *pcu_1[] = { > + [0x0D] = "MCA_LLC_BIST_ACTIVE_TIMEOUT", > + [0x0E] = "MCA_DMI_TRAINING_TIMEOUT", > + [0x0F] = "MCA_DMI_STRAP_SET_ARRIVAL_TIMEOUT", > + [0x10] = "MCA_DMI_CPU_RESET_ACK_TIMEOUT", > + [0x11] = "MCA_MORE_THAN_ONE_LT_AGENT", > + [0x14] = "MCA_INCOMPATIBLE_PCH_TYPE", > + [0x1E] = "MCA_BIOS_RST_CPL_INVALID_SEQ", > + [0x1F] = "MCA_BIOS_INVALID_PKG_STATE_CONFIG", > + [0x2D] = "MCA_PCU_PMAX_CALIB_ERROR", > + [0x2E] = "MCA_TSC100_SYNC_TIMEOUT", > + [0x3A] = "MCA_GPSB_TIMEOUT", > + [0x3B] = "MCA_PMSB_TIMEOUT", > + [0x3E] = "MCA_IOSFSB_PMREQ_CMP_TIMEOUT", > + [0x40] = "MCA_SVID_VCCIN_VR_ICC_MAX_FAILURE", > + [0x42] = "MCA_SVID_VCCIN_VR_VOUT_FAILURE", > + [0x43] = "MCA_SVID_CPU_VR_CAPABILITY_ERROR", > + [0x44] = "MCA_SVID_CRITICAL_VR_FAILED", > + [0x45] = "MCA_SVID_SA_ITD_ERROR", > + [0x46] = "MCA_SVID_READ_REG_FAILED", > + [0x47] = "MCA_SVID_WRITE_REG_FAILED", > + [0x4A] = "MCA_SVID_PKGC_REQUEST_FAILED", > + [0x4B] = "MCA_SVID_IMON_REQUEST_FAILED", > + [0x4C] = "MCA_SVID_ALERT_REQUEST_FAILED", > + [0x4D] = "MCA_SVID_MCP_VR_RAMP_ERROR", > + [0x56] = "MCA_FIVR_PD_HARDERR", > + [0x58] = "MCA_WATCHDOG_TIMEOUT_PKGC_SLAVE", > + [0x59] = "MCA_WATCHDOG_TIMEOUT_PKGC_MASTER", > + [0x5A] = "MCA_WATCHDOG_TIMEOUT_PKGS_MASTER", > + [0x5B] = "MCA_WATCHDOG_TIMEOUT_MSG_CH_FSM", > + [0x5C] = "MCA_WATCHDOG_TIMEOUT_BULK_CR_FSM", > + [0x5D] = "MCA_WATCHDOG_TIMEOUT_IOSFSB_FSM", > + [0x60] = "MCA_PKGS_SAFE_WP_TIMEOUT", > + [0x61] = "MCA_PKGS_CPD_UNCPD_TIMEOUT", > + [0x62] = "MCA_PKGS_INVALID_REQ_PCH", > + [0x63] = "MCA_PKGS_INVALID_REQ_INTERNAL", > + [0x64] = "MCA_PKGS_INVALID_RSP_INTERNAL", > + [0x65 ... 0x7A] = "MCA_PKGS_RESET_PREP_TIMEOUT", > + [0x7B] = "MCA_PKGS_SMBUS_VPP_PAUSE_TIMEOUT", > + [0x7C] = "MCA_PKGS_SMBUS_MCP_PAUSE_TIMEOUT", > + [0x7D] = "MCA_PKGS_SMBUS_SPD_PAUSE_TIMEOUT", > + [0x80] = "MCA_PKGC_DISP_BUSY_TIMEOUT", > + [0x81] = "MCA_PKGC_INVALID_RSP_PCH", > + [0x83] = "MCA_PKGC_WATCHDOG_HANG_CBZ_DOWN", > + [0x84] = "MCA_PKGC_WATCHDOG_HANG_CBZ_UP", > + [0x87] = "MCA_PKGC_WATCHDOG_HANG_C2_BLKMASTER", > + [0x88] = "MCA_PKGC_WATCHDOG_HANG_C2_PSLIMIT", > + [0x89] = "MCA_PKGC_WATCHDOG_HANG_SETDISP", > + [0x8B] = "MCA_PKGC_ALLOW_L1_ERROR", > + [0x90] = "MCA_RECOVERABLE_DIE_THERMAL_TOO_HOT", > + [0xA0] = "MCA_ADR_SIGNAL_TIMEOUT", > + [0xA1] = "MCA_BCLK_FREQ_OC_ABOVE_THRESHOLD", > + [0xB0] = "MCA_DISPATCHER_RUN_BUSY_TIMEOUT", > +}; > + > +static char *pcu_2[] = { > + [0x04] = "Clock/power IP response timeout", > + [0x05] = "SMBus controller raised SMI", > + [0x09] = "PM controller received invalid transaction", > +}; > + > +static char *pcu_3[] = { > + [0x01] = "Instruction address out of valid space", > + [0x02] = "Double bit RAM error on Instruction Fetch", > + [0x03] = "Invalid OpCode seen", > + [0x04] = "Stack Underflow", > + [0x05] = "Stack Overflow", > + [0x06] = "Data address out of valid space", > + [0x07] = "Double bit RAM error on Data Fetch", > +}; > + > +static struct field pcu1[] = { > + FIELD(0, pcu_1), > + {} > +}; > + > +static struct field pcu2[] = { > + FIELD(0, pcu_2), > + {} > +}; > + > +static struct field pcu3[] = { > + FIELD(0, pcu_3), > + {} > +}; > + > +static struct field upi1[] = { > + SBITFIELD(22, "Phy Control Error"), > + SBITFIELD(23, "Unexpected Retry.Ack flit"), > + SBITFIELD(24, "Unexpected Retry.Req flit"), > + SBITFIELD(25, "RF parity error"), > + SBITFIELD(26, "Routeback Table error"), > + SBITFIELD(27, "Unexpected Tx Protocol flit (EOP, Header or Data)"), > + SBITFIELD(28, "Rx Header-or-Credit BGF credit overflow/underflow"), > + SBITFIELD(29, "Link Layer Reset still in progress when Phy enters L0"), > + SBITFIELD(30, "Link Layer reset initiated while protocol traffic not idle"), > + SBITFIELD(31, "Link Layer Tx Parity Error"), > + {} > +}; > + > +static char *upi_2[] = { > + [0x00] = "Phy Initialization Failure (NumInit)", > + [0x01] = "Phy Detected Drift Buffer Alarm", > + [0x02] = "Phy Detected Latency Buffer Rollover", > + [0x10] = "LL Rx detected CRC error: unsuccessful LLR (entered Abort state)", > + [0x11] = "LL Rx Unsupported/Undefined packet", > + [0x12] = "LL or Phy Control Error", > + [0x13] = "LL Rx Parameter Exception", > + [0x1F] = "LL Detected Control Error", > + [0x20] = "Phy Initialization Abort", > + [0x21] = "Phy Inband Reset", > + [0x22] = "Phy Lane failure, recovery in x8 width", > + [0x23] = "Phy L0c error corrected without Phy reset", > + [0x24] = "Phy L0c error triggering Phy reset", > + [0x25] = "Phy L0p exit error corrected with reset", > + [0x30] = "LL Rx detected CRC error: successful LLR without Phy Reinit", > + [0x31] = "LL Rx detected CRC error: successful LLR with Phy Reinit", > + [0x32] = "Tx received LLR", > +}; > + > +static struct field upi2[] = { > + FIELD(0, upi_2), > + {} > +}; > + > +static struct field m2m[] = { > + SBITFIELD(16, "MC read data error"), > + SBITFIELD(17, "Reserved"), > + SBITFIELD(18, "MC partial write data error"), > + SBITFIELD(19, "Full write data error"), > + SBITFIELD(20, "M2M clock-domain-crossing buffer (BGF) error"), > + SBITFIELD(21, "M2M time out"), > + SBITFIELD(22, "M2M tracker parity error"), > + SBITFIELD(23, "fatal Bucket1 error"), > + {} > +}; > + > +static char *imc_0[] = { > + [0x01] = "Address parity error", > + [0x02] = "Data parity error", > + [0x03] = "Data ECC error", > + [0x04] = "Data byte enable parity error", > + [0x07] = "Transaction ID parity error", > + [0x08] = "Corrected patrol scrub error", > + [0x10] = "Uncorrected patrol scrub error", > + [0x20] = "Corrected spare error", > + [0x40] = "Uncorrected spare error", > + [0x80] = "Corrected read error", > + [0xA0] = "Uncorrected read error", > + [0xC0] = "Uncorrected metadata", > +}; > + > +static char *imc_1[] = { > + [0x00] = "WDB read parity error", > + [0x03] = "RPA parity error", > + [0x06] = "DDR_T_DPPP data BE error", > + [0x07] = "DDR_T_DPPP data error", > + [0x08] = "DDR link failure", > + [0x11] = "PCLS CAM error", > + [0x12] = "PCLS data error", > +}; > + > +static char *imc_2[] = { > + [0x00] = "DDR4 command / address parity error", > + [0x20] = "HBM command / address parity error", > + [0x21] = "HBM data parity error", > +}; > + > +static char *imc_4[] = { > + [0x00] = "RPQ parity (primary) error", > +}; > + > +static char *imc_8[] = { > + [0x00] = "DDR-T bad request", > + [0x01] = "DDR Data response to an invalid entry", > + [0x02] = "DDR data response to an entry not expecting data", > + [0x03] = "DDR4 completion to an invalid entry", > + [0x04] = "DDR-T completion to an invalid entry", > + [0x05] = "DDR data/completion FIFO overflow", > + [0x06] = "DDR-T ERID correctable parity error", > + [0x07] = "DDR-T ERID uncorrectable error", > + [0x08] = "DDR-T interrupt received while outstanding interrupt was not ACKed", > + [0x09] = "ERID FI FO overflow", > + [0x0A] = "DDR-T error on FNV write credits", > + [0x0B] = "DDR-T error on FNV read credits", > + [0x0C] = "DDR-T scheduler error", > + [0x0D] = "DDR-T FNV error event", > + [0x0E] = "DDR-T FNV thermal event", > + [0x0F] = "CMI packet while idle", > + [0x10] = "DDR_T_RPQ_REQ_PARITY_ERR", > + [0x11] = "DDR_T_WPQ_REQ_PARITY_ERR", > + [0x12] = "2LM_NMFILLWR_CAM_ERR", > + [0x13] = "CMI_CREDIT_OVERSUB_ERR", > + [0x14] = "CMI_CREDIT_TOTAL_ERR", > + [0x15] = "CMI_CREDIT_RSVD_POOL_ERR", > + [0x16] = "DDR_T_RD_ERROR", > + [0x17] = "WDB_FIFO_ERR", > + [0x18] = "CMI_REQ_FIFO_OVERFLOW", > + [0x19] = "CMI_REQ_FIFO_UNDERFLOW", > + [0x1A] = "CMI_RSP_FIFO_OVERFLOW", > + [0x1B] = "CMI_RSP_FIFO_UNDERFLOW", > + [0x1C] = "CMI _MISC_MC_CRDT_ERRORS", > + [0x1D] = "CMI_MISC_MC_ARB_ERRORS", > + [0x1E] = "DDR_T_WR_CMPL_FI FO_OVERFLOW", > + [0x1F] = "DDR_T_WR_CMPL_FI FO_UNDERFLOW", > + [0x20] = "CMI_RD_CPL_FIFO_OVERFLOW", > + [0x21] = "CMI_RD_CPL_FIFO_UNDERFLOW", > + [0x22] = "TME_KEY_PAR_ERR", > + [0x23] = "TME_CMI_MISC_ERR", > + [0x24] = "TME_CMI_OVFL_ERR", > + [0x25] = "TME_CMI_UFL_ERR", > + [0x26] = "TME_TEM_SECURE_ERR", > + [0x27] = "TME_UFILL_PAR_ERR", > + [0x29] = "INTERNAL_ERR", > + [0x2A] = "TME_INTEGRITY_ERR", > + [0x2B] = "TME_TDX_ERR", > + [0x2C] = "TME_UFILL_TEM_SECURE_ERR", > + [0x2D] = "TME_KEY_POISON_ERR", > + [0x2E] = "TME_SECURITY_ENGINE_ERR", > +}; > + > +static char *imc_10[] = { > + [0x08] = "CORR_PATSCRUB_MIRR2ND_ERR", > + [0x10] = "UC_PATSCRUB_MIRR2ND_ERR", > + [0x20] = "COR_SPARE_MIRR2ND_ERR", > + [0x40] = "UC_SPARE_MIRR2ND_ERR", > + [0x80] = "HA_RD_MIRR2ND_ERR", > + [0xA0] = "HA_UNCORR_RD_MIRR2ND_ERR", > +}; > + > +static struct field imc0[] = { > + FIELD(0, imc_0), > + {} > +}; > + > +static struct field imc1[] = { > + FIELD(0, imc_1), > + {} > +}; > + > +static struct field imc2[] = { > + FIELD(0, imc_2), > + {} > +}; > + > +static struct field imc4[] = { > + FIELD(0, imc_4), > + {} > +}; > + > +static struct field imc8[] = { > + FIELD(0, imc_8), > + {} > +}; > + > +static struct field imc10[] = { > + FIELD(0, imc_10), > + {} > +}; > + > +static void i10nm_imc_misc(struct mce_event *e) > +{ > + uint32_t column = EXTRACT(e->misc, 9, 18) << 2; > + uint32_t row = EXTRACT(e->misc, 19, 39); > + uint32_t bank = EXTRACT(e->misc, 42, 43); > + uint32_t bankgroup = EXTRACT(e->misc, 40, 41) | (EXTRACT(e->misc, 44, 44) << 2); > + uint32_t fdevice = EXTRACT(e->misc, 46, 51); > + uint32_t subrank = EXTRACT(e->misc, 52, 55); > + uint32_t rank = EXTRACT(e->misc, 56, 58); > + uint32_t eccmode = EXTRACT(e->misc, 59, 62); > + uint32_t transient = EXTRACT(e->misc, 63, 63); > + > + mce_snprintf(e->error_msg, "bank: 0x%x bankgroup: 0x%x row: 0x%x column: 0x%x", bank, bankgroup, row, column); > + if (!transient && !EXTRACT(e->status, 61, 61)) > + mce_snprintf(e->error_msg, "failed device: 0x%x", fdevice); > + mce_snprintf(e->error_msg, "rank: 0x%x subrank: 0x%x", rank, subrank); > + mce_snprintf(e->error_msg, "ecc mode: "); > + switch (eccmode) { > + case 0: mce_snprintf(e->error_msg, "SDDC memory mode"); break; > + case 1: mce_snprintf(e->error_msg, "SDDC"); break; > + case 4: mce_snprintf(e->error_msg, "ADDDC memory mode"); break; > + case 5: mce_snprintf(e->error_msg, "ADDDC"); break; > + case 8: mce_snprintf(e->error_msg, "DDRT read"); break; > + default: mce_snprintf(e->error_msg, "unknown"); break; > + } > + if (transient) > + mce_snprintf(e->error_msg, "transient"); > +} > + > +enum banktype { > + BT_UNKNOWN, > + BT_PCU, > + BT_UPI, > + BT_M2M, > + BT_IMC, > +}; > + > +static enum banktype icelake[32] = { > + [4] = BT_PCU, > + [5] = BT_UPI, > + [7 ... 8] = BT_UPI, > + [12] = BT_M2M, > + [16] = BT_M2M, > + [20] = BT_M2M, > + [24] = BT_M2M, > + [13 ... 15] = BT_IMC, > + [17 ... 19] = BT_IMC, > + [21 ... 23] = BT_IMC, > + [25 ... 27] = BT_IMC, > +}; > + > +static enum banktype icelake_de[32] = { > + [4] = BT_PCU, > + [12] = BT_M2M, > + [16] = BT_M2M, > + [13 ... 15] = BT_IMC, > + [17 ... 19] = BT_IMC, > +}; > + > +static enum banktype tremont[32] = { > + [4] = BT_PCU, > + [12] = BT_M2M, > + [13 ... 15] = BT_IMC, > +}; > + > +static enum banktype sapphire[32] = { > + [4] = BT_PCU, > + [5] = BT_UPI, > + [12] = BT_M2M, > + [13 ... 20] = BT_IMC, > +}; > + > +void i10nm_memerr_misc(struct mce_event *e, int *channel); > + > +void i10nm_decode_model(enum cputype cputype, struct ras_events *ras, > + struct mce_event *e) > +{ > + enum banktype banktype; > + uint64_t f, status = e->status; > + uint32_t mca = status & 0xffff; > + int channel = -1; > + > + switch (cputype) { > + case CPU_ICELAKE_XEON: > + banktype = icelake[e->bank]; > + break; > + case CPU_ICELAKE_DE: > + banktype = icelake_de[e->bank]; > + break; > + case CPU_TREMONT_D: > + banktype = tremont[e->bank]; > + break; > + case CPU_SAPPHIRERAPIDS: > + banktype = sapphire[e->bank]; > + break; > + default: > + return; > + } > + > + switch (banktype) { > + case BT_UNKNOWN: > + break; > + > + case BT_PCU: > + mce_snprintf(e->error_msg, "PCU: "); > + f = EXTRACT(status, 24, 31); > + if (f) > + decode_bitfield(e, f, pcu1); > + f = EXTRACT(status, 20, 23); > + if (f) > + decode_bitfield(e, f, pcu2); > + f = EXTRACT(status, 16, 19); > + if (f) > + decode_bitfield(e, f, pcu3); > + break; > + > + case BT_UPI: > + mce_snprintf(e->error_msg, "UPI: "); > + f = EXTRACT(status, 22, 31); > + if (f) > + decode_bitfield(e, status, upi1); > + f = EXTRACT(status, 16, 21); > + decode_bitfield(e, f, upi2); > + break; > + > + case BT_M2M: > + mce_snprintf(e->error_msg, "M2M: "); > + f = EXTRACT(status, 24, 25); > + mce_snprintf(e->error_msg, "MscodDDRType=0x%" PRIx64, f); > + f = EXTRACT(status, 26, 31); > + mce_snprintf(e->error_msg, "MscodMiscErrs=0x%" PRIx64, f); > + decode_bitfield(e, status, m2m); > + break; > + > + case BT_IMC: > + mce_snprintf(e->error_msg, "MemCtrl: "); > + f = EXTRACT(status, 16, 23); > + switch (EXTRACT(status, 24, 31)) { > + case 0: decode_bitfield(e, f, imc0); break; > + case 1: decode_bitfield(e, f, imc1); break; > + case 2: decode_bitfield(e, f, imc2); break; > + case 4: decode_bitfield(e, f, imc4); break; > + case 8: decode_bitfield(e, f, imc8); break; > + case 0x10: decode_bitfield(e, f, imc10); break; > + } > + i10nm_imc_misc(e); > + break; > + } > + > + /* > + * Memory error specific code. Returns if the error is not a MC one > + */ > + > + /* Check if the error is at the memory controller */ > + if ((mca >> 7) != 1) > + return; > + > + /* Ignore unless this is an corrected extended error from an iMC bank */ > + if (banktype != BT_IMC || (status & MCI_STATUS_UC)) > + return; > + > + /* > + * Parse the reported channel > + */ > + > + i10nm_memerr_misc(e, &channel); > + if (channel == -1) > + return; > + mce_snprintf(e->mc_location, "memory_channel=%d", channel); > +} > + > +/* > + * There isn't enough information to identify the DIMM. But > + * we can derive the channel from the bank number. > + * There can be four memory controllers with two channels each. > + */ > +void i10nm_memerr_misc(struct mce_event *e, int *channel) > +{ > + uint64_t status = e->status; > + unsigned int chan, imc; > + > + /* Check this is a memory error */ > + if (!test_prefix(7, status & 0xefff)) > + return; > + > + chan = EXTRACT(status, 0, 3); > + if (chan == 0xf) > + return; > + > + switch (e->bank) { > + case 12: /* M2M 0 */ > + case 13: /* IMC 0, Channel 0 */ > + case 14: /* IMC 0, Channel 1 */ > + case 15: /* IMC 0, Channel 2 */ > + imc = 0; > + break; > + case 16: /* M2M 1 */ > + case 17: /* IMC 1, Channel 0 */ > + case 18: /* IMC 1, Channel 1 */ > + case 19: /* IMC 1, Channel 2 */ > + imc = 1; > + break; > + case 20: /* M2M 2 */ > + case 21: /* IMC 2, Channel 0 */ > + case 22: /* IMC 2, Channel 1 */ > + case 23: /* IMC 2, Channel 2 */ > + imc = 2; > + break; > + case 24: /* M2M 3 */ > + case 25: /* IMC 3, Channel 0 */ > + case 26: /* IMC 3, Channel 1 */ > + case 27: /* IMC 3, Channel 2 */ > + imc = 3; > + break; > + default: > + return; > + } > + > + channel[0] = imc * 3 + chan; > +} > diff --git a/mce-intel.c b/mce-intel.c > index 747a75fb892e..e083e9c20968 100644 > --- a/mce-intel.c > +++ b/mce-intel.c > @@ -411,6 +411,11 @@ int parse_intel_event(struct ras_events *ras, struct mce_event *e) > case CPU_SKYLAKE_XEON: > skylake_s_decode_model(ras, e); > break; > + case CPU_ICELAKE_XEON: > + case CPU_ICELAKE_DE: > + case CPU_TREMONT_D: > + case CPU_SAPPHIRERAPIDS: > + i10nm_decode_model(mce->cputype, ras, e); > default: > break; > } > diff --git a/ras-mce-handler.c b/ras-mce-handler.c > index 016acae528de..805004a547c6 100644 > --- a/ras-mce-handler.c > +++ b/ras-mce-handler.c > @@ -56,7 +56,11 @@ static char *cputype_name[] = { > [CPU_KNIGHTS_MILL] = "Knights Mill", > [CPU_SKYLAKE_XEON] = "Skylake server", > [CPU_AMD_SMCA] = "AMD Scalable MCA", > - [CPU_DHYANA] = "Hygon Family 18h Moksha" > + [CPU_DHYANA] = "Hygon Family 18h Moksha", > + [CPU_ICELAKE_XEON] = "Icelake server", > + [CPU_ICELAKE_DE] = "Icelake server D Family", > + [CPU_TREMONT_D] = "Tremont microserver", > + [CPU_SAPPHIRERAPIDS] = "Sapphirerapids server", > }; > > static enum cputype select_intel_cputype(struct ras_events *ras) > @@ -108,6 +112,14 @@ static enum cputype select_intel_cputype(struct ras_events *ras) > return CPU_KNIGHTS_MILL; > else if (mce->model == 0x55) > return CPU_SKYLAKE_XEON; > + else if (mce->model == 0x6a) > + return CPU_ICELAKE_XEON; > + else if (mce->model == 0x6c) > + return CPU_ICELAKE_DE; > + else if (mce->model == 0x86) > + return CPU_TREMONT_D; > + else if (mce->model == 0x8f) > + return CPU_SAPPHIRERAPIDS; > > if (mce->model > 0x1a) { > log(ALL, LOG_INFO, > diff --git a/ras-mce-handler.h b/ras-mce-handler.h > index ec9a07660e17..c6216ee009ea 100644 > --- a/ras-mce-handler.h > +++ b/ras-mce-handler.h > @@ -49,6 +49,10 @@ enum cputype { > CPU_SKYLAKE_XEON, > CPU_AMD_SMCA, > CPU_DHYANA, > + CPU_ICELAKE_XEON, > + CPU_ICELAKE_DE, > + CPU_TREMONT_D, > + CPU_SAPPHIRERAPIDS, > }; > > struct mce_event { > @@ -129,6 +133,7 @@ void tulsa_decode_model(struct mce_event *e); > void broadwell_de_decode_model(struct ras_events *ras, struct mce_event *e); > void broadwell_epex_decode_model(struct ras_events *ras, struct mce_event *e); > void skylake_s_decode_model(struct ras_events *ras, struct mce_event *e); > +void i10nm_decode_model(enum cputype cputype, struct ras_events *ras, struct mce_event *e); > > /* AMD error code decode function */ > void decode_amd_errcode(struct mce_event *e); Thanks, Mauro
diff --git a/Makefile.am b/Makefile.am index de0109840017..3d399a1a6d6c 100644 --- a/Makefile.am +++ b/Makefile.am @@ -37,7 +37,7 @@ if WITH_MCE mce-intel-sb.c mce-intel-ivb.c mce-intel-haswell.c \ mce-intel-knl.c mce-intel-broadwell-de.c \ mce-intel-broadwell-epex.c mce-intel-skylake-xeon.c \ - mce-amd-k8.c mce-amd-smca.c + mce-amd-k8.c mce-amd-smca.c mce-intel-i10nm.c endif if WITH_EXTLOG rasdaemon_SOURCES += ras-extlog-handler.c diff --git a/mce-intel-i10nm.c b/mce-intel-i10nm.c new file mode 100644 index 000000000000..3c5d22f441be --- /dev/null +++ b/mce-intel-i10nm.c @@ -0,0 +1,509 @@ +/* + * The code below came from Tony Luck's mcelog code, + * released under GNU Public General License, v.2 + * + * Copyright (C) 2019 Intel Corporation + * Decode Intel 10nm specific machine check errors. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA +*/ + +#include <inttypes.h> +#include <stdio.h> +#include <string.h> + +#include "ras-mce-handler.h" +#include "bitfield.h" + +static char *pcu_1[] = { + [0x0D] = "MCA_LLC_BIST_ACTIVE_TIMEOUT", + [0x0E] = "MCA_DMI_TRAINING_TIMEOUT", + [0x0F] = "MCA_DMI_STRAP_SET_ARRIVAL_TIMEOUT", + [0x10] = "MCA_DMI_CPU_RESET_ACK_TIMEOUT", + [0x11] = "MCA_MORE_THAN_ONE_LT_AGENT", + [0x14] = "MCA_INCOMPATIBLE_PCH_TYPE", + [0x1E] = "MCA_BIOS_RST_CPL_INVALID_SEQ", + [0x1F] = "MCA_BIOS_INVALID_PKG_STATE_CONFIG", + [0x2D] = "MCA_PCU_PMAX_CALIB_ERROR", + [0x2E] = "MCA_TSC100_SYNC_TIMEOUT", + [0x3A] = "MCA_GPSB_TIMEOUT", + [0x3B] = "MCA_PMSB_TIMEOUT", + [0x3E] = "MCA_IOSFSB_PMREQ_CMP_TIMEOUT", + [0x40] = "MCA_SVID_VCCIN_VR_ICC_MAX_FAILURE", + [0x42] = "MCA_SVID_VCCIN_VR_VOUT_FAILURE", + [0x43] = "MCA_SVID_CPU_VR_CAPABILITY_ERROR", + [0x44] = "MCA_SVID_CRITICAL_VR_FAILED", + [0x45] = "MCA_SVID_SA_ITD_ERROR", + [0x46] = "MCA_SVID_READ_REG_FAILED", + [0x47] = "MCA_SVID_WRITE_REG_FAILED", + [0x4A] = "MCA_SVID_PKGC_REQUEST_FAILED", + [0x4B] = "MCA_SVID_IMON_REQUEST_FAILED", + [0x4C] = "MCA_SVID_ALERT_REQUEST_FAILED", + [0x4D] = "MCA_SVID_MCP_VR_RAMP_ERROR", + [0x56] = "MCA_FIVR_PD_HARDERR", + [0x58] = "MCA_WATCHDOG_TIMEOUT_PKGC_SLAVE", + [0x59] = "MCA_WATCHDOG_TIMEOUT_PKGC_MASTER", + [0x5A] = "MCA_WATCHDOG_TIMEOUT_PKGS_MASTER", + [0x5B] = "MCA_WATCHDOG_TIMEOUT_MSG_CH_FSM", + [0x5C] = "MCA_WATCHDOG_TIMEOUT_BULK_CR_FSM", + [0x5D] = "MCA_WATCHDOG_TIMEOUT_IOSFSB_FSM", + [0x60] = "MCA_PKGS_SAFE_WP_TIMEOUT", + [0x61] = "MCA_PKGS_CPD_UNCPD_TIMEOUT", + [0x62] = "MCA_PKGS_INVALID_REQ_PCH", + [0x63] = "MCA_PKGS_INVALID_REQ_INTERNAL", + [0x64] = "MCA_PKGS_INVALID_RSP_INTERNAL", + [0x65 ... 0x7A] = "MCA_PKGS_RESET_PREP_TIMEOUT", + [0x7B] = "MCA_PKGS_SMBUS_VPP_PAUSE_TIMEOUT", + [0x7C] = "MCA_PKGS_SMBUS_MCP_PAUSE_TIMEOUT", + [0x7D] = "MCA_PKGS_SMBUS_SPD_PAUSE_TIMEOUT", + [0x80] = "MCA_PKGC_DISP_BUSY_TIMEOUT", + [0x81] = "MCA_PKGC_INVALID_RSP_PCH", + [0x83] = "MCA_PKGC_WATCHDOG_HANG_CBZ_DOWN", + [0x84] = "MCA_PKGC_WATCHDOG_HANG_CBZ_UP", + [0x87] = "MCA_PKGC_WATCHDOG_HANG_C2_BLKMASTER", + [0x88] = "MCA_PKGC_WATCHDOG_HANG_C2_PSLIMIT", + [0x89] = "MCA_PKGC_WATCHDOG_HANG_SETDISP", + [0x8B] = "MCA_PKGC_ALLOW_L1_ERROR", + [0x90] = "MCA_RECOVERABLE_DIE_THERMAL_TOO_HOT", + [0xA0] = "MCA_ADR_SIGNAL_TIMEOUT", + [0xA1] = "MCA_BCLK_FREQ_OC_ABOVE_THRESHOLD", + [0xB0] = "MCA_DISPATCHER_RUN_BUSY_TIMEOUT", +}; + +static char *pcu_2[] = { + [0x04] = "Clock/power IP response timeout", + [0x05] = "SMBus controller raised SMI", + [0x09] = "PM controller received invalid transaction", +}; + +static char *pcu_3[] = { + [0x01] = "Instruction address out of valid space", + [0x02] = "Double bit RAM error on Instruction Fetch", + [0x03] = "Invalid OpCode seen", + [0x04] = "Stack Underflow", + [0x05] = "Stack Overflow", + [0x06] = "Data address out of valid space", + [0x07] = "Double bit RAM error on Data Fetch", +}; + +static struct field pcu1[] = { + FIELD(0, pcu_1), + {} +}; + +static struct field pcu2[] = { + FIELD(0, pcu_2), + {} +}; + +static struct field pcu3[] = { + FIELD(0, pcu_3), + {} +}; + +static struct field upi1[] = { + SBITFIELD(22, "Phy Control Error"), + SBITFIELD(23, "Unexpected Retry.Ack flit"), + SBITFIELD(24, "Unexpected Retry.Req flit"), + SBITFIELD(25, "RF parity error"), + SBITFIELD(26, "Routeback Table error"), + SBITFIELD(27, "Unexpected Tx Protocol flit (EOP, Header or Data)"), + SBITFIELD(28, "Rx Header-or-Credit BGF credit overflow/underflow"), + SBITFIELD(29, "Link Layer Reset still in progress when Phy enters L0"), + SBITFIELD(30, "Link Layer reset initiated while protocol traffic not idle"), + SBITFIELD(31, "Link Layer Tx Parity Error"), + {} +}; + +static char *upi_2[] = { + [0x00] = "Phy Initialization Failure (NumInit)", + [0x01] = "Phy Detected Drift Buffer Alarm", + [0x02] = "Phy Detected Latency Buffer Rollover", + [0x10] = "LL Rx detected CRC error: unsuccessful LLR (entered Abort state)", + [0x11] = "LL Rx Unsupported/Undefined packet", + [0x12] = "LL or Phy Control Error", + [0x13] = "LL Rx Parameter Exception", + [0x1F] = "LL Detected Control Error", + [0x20] = "Phy Initialization Abort", + [0x21] = "Phy Inband Reset", + [0x22] = "Phy Lane failure, recovery in x8 width", + [0x23] = "Phy L0c error corrected without Phy reset", + [0x24] = "Phy L0c error triggering Phy reset", + [0x25] = "Phy L0p exit error corrected with reset", + [0x30] = "LL Rx detected CRC error: successful LLR without Phy Reinit", + [0x31] = "LL Rx detected CRC error: successful LLR with Phy Reinit", + [0x32] = "Tx received LLR", +}; + +static struct field upi2[] = { + FIELD(0, upi_2), + {} +}; + +static struct field m2m[] = { + SBITFIELD(16, "MC read data error"), + SBITFIELD(17, "Reserved"), + SBITFIELD(18, "MC partial write data error"), + SBITFIELD(19, "Full write data error"), + SBITFIELD(20, "M2M clock-domain-crossing buffer (BGF) error"), + SBITFIELD(21, "M2M time out"), + SBITFIELD(22, "M2M tracker parity error"), + SBITFIELD(23, "fatal Bucket1 error"), + {} +}; + +static char *imc_0[] = { + [0x01] = "Address parity error", + [0x02] = "Data parity error", + [0x03] = "Data ECC error", + [0x04] = "Data byte enable parity error", + [0x07] = "Transaction ID parity error", + [0x08] = "Corrected patrol scrub error", + [0x10] = "Uncorrected patrol scrub error", + [0x20] = "Corrected spare error", + [0x40] = "Uncorrected spare error", + [0x80] = "Corrected read error", + [0xA0] = "Uncorrected read error", + [0xC0] = "Uncorrected metadata", +}; + +static char *imc_1[] = { + [0x00] = "WDB read parity error", + [0x03] = "RPA parity error", + [0x06] = "DDR_T_DPPP data BE error", + [0x07] = "DDR_T_DPPP data error", + [0x08] = "DDR link failure", + [0x11] = "PCLS CAM error", + [0x12] = "PCLS data error", +}; + +static char *imc_2[] = { + [0x00] = "DDR4 command / address parity error", + [0x20] = "HBM command / address parity error", + [0x21] = "HBM data parity error", +}; + +static char *imc_4[] = { + [0x00] = "RPQ parity (primary) error", +}; + +static char *imc_8[] = { + [0x00] = "DDR-T bad request", + [0x01] = "DDR Data response to an invalid entry", + [0x02] = "DDR data response to an entry not expecting data", + [0x03] = "DDR4 completion to an invalid entry", + [0x04] = "DDR-T completion to an invalid entry", + [0x05] = "DDR data/completion FIFO overflow", + [0x06] = "DDR-T ERID correctable parity error", + [0x07] = "DDR-T ERID uncorrectable error", + [0x08] = "DDR-T interrupt received while outstanding interrupt was not ACKed", + [0x09] = "ERID FI FO overflow", + [0x0A] = "DDR-T error on FNV write credits", + [0x0B] = "DDR-T error on FNV read credits", + [0x0C] = "DDR-T scheduler error", + [0x0D] = "DDR-T FNV error event", + [0x0E] = "DDR-T FNV thermal event", + [0x0F] = "CMI packet while idle", + [0x10] = "DDR_T_RPQ_REQ_PARITY_ERR", + [0x11] = "DDR_T_WPQ_REQ_PARITY_ERR", + [0x12] = "2LM_NMFILLWR_CAM_ERR", + [0x13] = "CMI_CREDIT_OVERSUB_ERR", + [0x14] = "CMI_CREDIT_TOTAL_ERR", + [0x15] = "CMI_CREDIT_RSVD_POOL_ERR", + [0x16] = "DDR_T_RD_ERROR", + [0x17] = "WDB_FIFO_ERR", + [0x18] = "CMI_REQ_FIFO_OVERFLOW", + [0x19] = "CMI_REQ_FIFO_UNDERFLOW", + [0x1A] = "CMI_RSP_FIFO_OVERFLOW", + [0x1B] = "CMI_RSP_FIFO_UNDERFLOW", + [0x1C] = "CMI _MISC_MC_CRDT_ERRORS", + [0x1D] = "CMI_MISC_MC_ARB_ERRORS", + [0x1E] = "DDR_T_WR_CMPL_FI FO_OVERFLOW", + [0x1F] = "DDR_T_WR_CMPL_FI FO_UNDERFLOW", + [0x20] = "CMI_RD_CPL_FIFO_OVERFLOW", + [0x21] = "CMI_RD_CPL_FIFO_UNDERFLOW", + [0x22] = "TME_KEY_PAR_ERR", + [0x23] = "TME_CMI_MISC_ERR", + [0x24] = "TME_CMI_OVFL_ERR", + [0x25] = "TME_CMI_UFL_ERR", + [0x26] = "TME_TEM_SECURE_ERR", + [0x27] = "TME_UFILL_PAR_ERR", + [0x29] = "INTERNAL_ERR", + [0x2A] = "TME_INTEGRITY_ERR", + [0x2B] = "TME_TDX_ERR", + [0x2C] = "TME_UFILL_TEM_SECURE_ERR", + [0x2D] = "TME_KEY_POISON_ERR", + [0x2E] = "TME_SECURITY_ENGINE_ERR", +}; + +static char *imc_10[] = { + [0x08] = "CORR_PATSCRUB_MIRR2ND_ERR", + [0x10] = "UC_PATSCRUB_MIRR2ND_ERR", + [0x20] = "COR_SPARE_MIRR2ND_ERR", + [0x40] = "UC_SPARE_MIRR2ND_ERR", + [0x80] = "HA_RD_MIRR2ND_ERR", + [0xA0] = "HA_UNCORR_RD_MIRR2ND_ERR", +}; + +static struct field imc0[] = { + FIELD(0, imc_0), + {} +}; + +static struct field imc1[] = { + FIELD(0, imc_1), + {} +}; + +static struct field imc2[] = { + FIELD(0, imc_2), + {} +}; + +static struct field imc4[] = { + FIELD(0, imc_4), + {} +}; + +static struct field imc8[] = { + FIELD(0, imc_8), + {} +}; + +static struct field imc10[] = { + FIELD(0, imc_10), + {} +}; + +static void i10nm_imc_misc(struct mce_event *e) +{ + uint32_t column = EXTRACT(e->misc, 9, 18) << 2; + uint32_t row = EXTRACT(e->misc, 19, 39); + uint32_t bank = EXTRACT(e->misc, 42, 43); + uint32_t bankgroup = EXTRACT(e->misc, 40, 41) | (EXTRACT(e->misc, 44, 44) << 2); + uint32_t fdevice = EXTRACT(e->misc, 46, 51); + uint32_t subrank = EXTRACT(e->misc, 52, 55); + uint32_t rank = EXTRACT(e->misc, 56, 58); + uint32_t eccmode = EXTRACT(e->misc, 59, 62); + uint32_t transient = EXTRACT(e->misc, 63, 63); + + mce_snprintf(e->error_msg, "bank: 0x%x bankgroup: 0x%x row: 0x%x column: 0x%x", bank, bankgroup, row, column); + if (!transient && !EXTRACT(e->status, 61, 61)) + mce_snprintf(e->error_msg, "failed device: 0x%x", fdevice); + mce_snprintf(e->error_msg, "rank: 0x%x subrank: 0x%x", rank, subrank); + mce_snprintf(e->error_msg, "ecc mode: "); + switch (eccmode) { + case 0: mce_snprintf(e->error_msg, "SDDC memory mode"); break; + case 1: mce_snprintf(e->error_msg, "SDDC"); break; + case 4: mce_snprintf(e->error_msg, "ADDDC memory mode"); break; + case 5: mce_snprintf(e->error_msg, "ADDDC"); break; + case 8: mce_snprintf(e->error_msg, "DDRT read"); break; + default: mce_snprintf(e->error_msg, "unknown"); break; + } + if (transient) + mce_snprintf(e->error_msg, "transient"); +} + +enum banktype { + BT_UNKNOWN, + BT_PCU, + BT_UPI, + BT_M2M, + BT_IMC, +}; + +static enum banktype icelake[32] = { + [4] = BT_PCU, + [5] = BT_UPI, + [7 ... 8] = BT_UPI, + [12] = BT_M2M, + [16] = BT_M2M, + [20] = BT_M2M, + [24] = BT_M2M, + [13 ... 15] = BT_IMC, + [17 ... 19] = BT_IMC, + [21 ... 23] = BT_IMC, + [25 ... 27] = BT_IMC, +}; + +static enum banktype icelake_de[32] = { + [4] = BT_PCU, + [12] = BT_M2M, + [16] = BT_M2M, + [13 ... 15] = BT_IMC, + [17 ... 19] = BT_IMC, +}; + +static enum banktype tremont[32] = { + [4] = BT_PCU, + [12] = BT_M2M, + [13 ... 15] = BT_IMC, +}; + +static enum banktype sapphire[32] = { + [4] = BT_PCU, + [5] = BT_UPI, + [12] = BT_M2M, + [13 ... 20] = BT_IMC, +}; + +void i10nm_memerr_misc(struct mce_event *e, int *channel); + +void i10nm_decode_model(enum cputype cputype, struct ras_events *ras, + struct mce_event *e) +{ + enum banktype banktype; + uint64_t f, status = e->status; + uint32_t mca = status & 0xffff; + int channel = -1; + + switch (cputype) { + case CPU_ICELAKE_XEON: + banktype = icelake[e->bank]; + break; + case CPU_ICELAKE_DE: + banktype = icelake_de[e->bank]; + break; + case CPU_TREMONT_D: + banktype = tremont[e->bank]; + break; + case CPU_SAPPHIRERAPIDS: + banktype = sapphire[e->bank]; + break; + default: + return; + } + + switch (banktype) { + case BT_UNKNOWN: + break; + + case BT_PCU: + mce_snprintf(e->error_msg, "PCU: "); + f = EXTRACT(status, 24, 31); + if (f) + decode_bitfield(e, f, pcu1); + f = EXTRACT(status, 20, 23); + if (f) + decode_bitfield(e, f, pcu2); + f = EXTRACT(status, 16, 19); + if (f) + decode_bitfield(e, f, pcu3); + break; + + case BT_UPI: + mce_snprintf(e->error_msg, "UPI: "); + f = EXTRACT(status, 22, 31); + if (f) + decode_bitfield(e, status, upi1); + f = EXTRACT(status, 16, 21); + decode_bitfield(e, f, upi2); + break; + + case BT_M2M: + mce_snprintf(e->error_msg, "M2M: "); + f = EXTRACT(status, 24, 25); + mce_snprintf(e->error_msg, "MscodDDRType=0x%" PRIx64, f); + f = EXTRACT(status, 26, 31); + mce_snprintf(e->error_msg, "MscodMiscErrs=0x%" PRIx64, f); + decode_bitfield(e, status, m2m); + break; + + case BT_IMC: + mce_snprintf(e->error_msg, "MemCtrl: "); + f = EXTRACT(status, 16, 23); + switch (EXTRACT(status, 24, 31)) { + case 0: decode_bitfield(e, f, imc0); break; + case 1: decode_bitfield(e, f, imc1); break; + case 2: decode_bitfield(e, f, imc2); break; + case 4: decode_bitfield(e, f, imc4); break; + case 8: decode_bitfield(e, f, imc8); break; + case 0x10: decode_bitfield(e, f, imc10); break; + } + i10nm_imc_misc(e); + break; + } + + /* + * Memory error specific code. Returns if the error is not a MC one + */ + + /* Check if the error is at the memory controller */ + if ((mca >> 7) != 1) + return; + + /* Ignore unless this is an corrected extended error from an iMC bank */ + if (banktype != BT_IMC || (status & MCI_STATUS_UC)) + return; + + /* + * Parse the reported channel + */ + + i10nm_memerr_misc(e, &channel); + if (channel == -1) + return; + mce_snprintf(e->mc_location, "memory_channel=%d", channel); +} + +/* + * There isn't enough information to identify the DIMM. But + * we can derive the channel from the bank number. + * There can be four memory controllers with two channels each. + */ +void i10nm_memerr_misc(struct mce_event *e, int *channel) +{ + uint64_t status = e->status; + unsigned int chan, imc; + + /* Check this is a memory error */ + if (!test_prefix(7, status & 0xefff)) + return; + + chan = EXTRACT(status, 0, 3); + if (chan == 0xf) + return; + + switch (e->bank) { + case 12: /* M2M 0 */ + case 13: /* IMC 0, Channel 0 */ + case 14: /* IMC 0, Channel 1 */ + case 15: /* IMC 0, Channel 2 */ + imc = 0; + break; + case 16: /* M2M 1 */ + case 17: /* IMC 1, Channel 0 */ + case 18: /* IMC 1, Channel 1 */ + case 19: /* IMC 1, Channel 2 */ + imc = 1; + break; + case 20: /* M2M 2 */ + case 21: /* IMC 2, Channel 0 */ + case 22: /* IMC 2, Channel 1 */ + case 23: /* IMC 2, Channel 2 */ + imc = 2; + break; + case 24: /* M2M 3 */ + case 25: /* IMC 3, Channel 0 */ + case 26: /* IMC 3, Channel 1 */ + case 27: /* IMC 3, Channel 2 */ + imc = 3; + break; + default: + return; + } + + channel[0] = imc * 3 + chan; +} diff --git a/mce-intel.c b/mce-intel.c index 747a75fb892e..e083e9c20968 100644 --- a/mce-intel.c +++ b/mce-intel.c @@ -411,6 +411,11 @@ int parse_intel_event(struct ras_events *ras, struct mce_event *e) case CPU_SKYLAKE_XEON: skylake_s_decode_model(ras, e); break; + case CPU_ICELAKE_XEON: + case CPU_ICELAKE_DE: + case CPU_TREMONT_D: + case CPU_SAPPHIRERAPIDS: + i10nm_decode_model(mce->cputype, ras, e); default: break; } diff --git a/ras-mce-handler.c b/ras-mce-handler.c index 016acae528de..805004a547c6 100644 --- a/ras-mce-handler.c +++ b/ras-mce-handler.c @@ -56,7 +56,11 @@ static char *cputype_name[] = { [CPU_KNIGHTS_MILL] = "Knights Mill", [CPU_SKYLAKE_XEON] = "Skylake server", [CPU_AMD_SMCA] = "AMD Scalable MCA", - [CPU_DHYANA] = "Hygon Family 18h Moksha" + [CPU_DHYANA] = "Hygon Family 18h Moksha", + [CPU_ICELAKE_XEON] = "Icelake server", + [CPU_ICELAKE_DE] = "Icelake server D Family", + [CPU_TREMONT_D] = "Tremont microserver", + [CPU_SAPPHIRERAPIDS] = "Sapphirerapids server", }; static enum cputype select_intel_cputype(struct ras_events *ras) @@ -108,6 +112,14 @@ static enum cputype select_intel_cputype(struct ras_events *ras) return CPU_KNIGHTS_MILL; else if (mce->model == 0x55) return CPU_SKYLAKE_XEON; + else if (mce->model == 0x6a) + return CPU_ICELAKE_XEON; + else if (mce->model == 0x6c) + return CPU_ICELAKE_DE; + else if (mce->model == 0x86) + return CPU_TREMONT_D; + else if (mce->model == 0x8f) + return CPU_SAPPHIRERAPIDS; if (mce->model > 0x1a) { log(ALL, LOG_INFO, diff --git a/ras-mce-handler.h b/ras-mce-handler.h index ec9a07660e17..c6216ee009ea 100644 --- a/ras-mce-handler.h +++ b/ras-mce-handler.h @@ -49,6 +49,10 @@ enum cputype { CPU_SKYLAKE_XEON, CPU_AMD_SMCA, CPU_DHYANA, + CPU_ICELAKE_XEON, + CPU_ICELAKE_DE, + CPU_TREMONT_D, + CPU_SAPPHIRERAPIDS, }; struct mce_event { @@ -129,6 +133,7 @@ void tulsa_decode_model(struct mce_event *e); void broadwell_de_decode_model(struct ras_events *ras, struct mce_event *e); void broadwell_epex_decode_model(struct ras_events *ras, struct mce_event *e); void skylake_s_decode_model(struct ras_events *ras, struct mce_event *e); +void i10nm_decode_model(enum cputype cputype, struct ras_events *ras, struct mce_event *e); /* AMD error code decode function */ void decode_amd_errcode(struct mce_event *e);
Based on mcelog commits: ee90ff20ce6a ("mcelog: Add support for Icelake server, Icelake-D, and Snow Ridge") 391abaac9bdf ("mcelog: Add decode for MCi_MISC from 10nm memory controller") 59cb7ad4bc72 ("mcelog: i10nm: Fix mapping from bank number to functional unit") c0acd0e6a639 ("mcelog: Add support for Sapphirerapids server.") Signed-off-by: Greg Edwards <gedwards@ddn.com> --- Makefile.am | 2 +- mce-intel-i10nm.c | 509 ++++++++++++++++++++++++++++++++++++++++++++++ mce-intel.c | 5 + ras-mce-handler.c | 14 +- ras-mce-handler.h | 5 + 5 files changed, 533 insertions(+), 2 deletions(-) create mode 100644 mce-intel-i10nm.c