/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_PLAT_ECC_NUM_H #define _SYS_PLAT_ECC_NUM_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include #include #include #include #include #include /* * This file contains the common definitions used by the platform * unum ecc logging. */ typedef enum { PLAT_ECC_ERROR_MESSAGE, PLAT_ECC_INDICTMENT_MESSAGE, PLAT_ECC_ERROR2_MESSAGE, PLAT_ECC_INDICTMENT2_MESSAGE, PLAT_ECC_CAPABILITY_MESSAGE } plat_ecc_message_type_t; /* Platform-specific function for sending mailbox message */ extern int plat_send_ecc_mailbox_msg(plat_ecc_message_type_t, void *); /* For figuring out unique CPU id */ extern int plat_make_fru_cpuid(int, int, int); /* For figuring out board number for given CPU id */ extern int plat_make_fru_boardnum(int); /* For initializing the taskqs */ extern void plat_ecc_init(void); /* For setting the capability value */ extern void plat_ecc_capability_sc_set(uint32_t cap); /* For sending a capability message to the SC */ extern int plat_ecc_capability_send(void); /* * The following variables enable and disable the fruid message logging on SC. * ecc_log_fruid_enable can be set in /etc/system or via mdb. A value * of 1 is default, and indicates the messages are sent. A value of 0 * indicates that the messages are not sent. */ extern int ecc_log_fruid_enable; #define ECC_FRUID_ENABLE_DEFAULT 1 #define PLAT_ECC_JNUMBER_LENGTH 60 typedef struct plat_ecc_error_data { uint8_t version; /* Starting with 1 */ uint8_t error_code; /* Error Code */ uint16_t proc_num; /* Processor Number of */ /* CPU in error */ uint8_t bank_no; /* 0 or 1 */ uint8_t ecache_dimm_no; /* 0 to 3 */ uint8_t error_type; /* single, two, three, quad */ /* or multiple bit error status */ uint8_t databit_type; /* Identify the databit type: */ /* MTAG, ECC, MTAGECC or Data */ uint8_t databit_no; /* Failed Databit number */ uint8_t node_no; /* Wildcat node number */ uint16_t detecting_proc; /* Processor detecting the ECC error */ char Jnumber[60]; /* Jnumber of the Dimm or Ecache */ } plat_ecc_error_data_t; #define PLAT_ECC_VERSION 2 #define PLAT_ERROR_CODE_UNK 0x0 /* Unknown */ #define PLAT_ERROR_CODE_CE 0x1 /* Correctable ECC error */ #define PLAT_ERROR_CODE_UE 0x2 /* Uncorrectable ECC error */ #define PLAT_ERROR_CODE_EDC 0x3 /* Correctable ECC error from E$ */ #define PLAT_ERROR_CODE_EDU 0x4 /* Uncorrectable ECC error from E$ */ #define PLAT_ERROR_CODE_WDC 0x5 /* Correctable E$ write-back ECC */ #define PLAT_ERROR_CODE_WDU 0x6 /* Uncorrectable E$ write-back ECC */ #define PLAT_ERROR_CODE_CPC 0x7 /* Copy-out correctable ECC error */ #define PLAT_ERROR_CODE_CPU 0x8 /* Copy-out uncorrectable ECC error */ #define PLAT_ERROR_CODE_UCC 0x9 /* SW handled correctable ECC */ #define PLAT_ERROR_CODE_UCU 0xa /* SW handled uncorrectable ECC */ #define PLAT_ERROR_CODE_EMC 0xb /* Correctable MTAG ECC error */ #define PLAT_ERROR_CODE_EMU 0xc /* Uncorrectable MTAG ECC error */ #define PLAT_ERROR_TYPE_UNK 0x0 /* Unknown */ #define PLAT_ERROR_TYPE_SINGLE 0x1 /* Single bit error */ #define PLAT_ERROR_TYPE_M2 0x2 /* Double bit error */ #define PLAT_ERROR_TYPE_M3 0x3 /* Triple bit error */ #define PLAT_ERROR_TYPE_M4 0x4 /* Quad bit error */ #define PLAT_ERROR_TYPE_M 0x5 /* Multiple bit error */ #define PLAT_BIT_TYPE_MULTI 0x0 /* Error is 2 or more bits */ #define PLAT_BIT_TYPE_MTAG_D 0x1 /* MTAG data error */ #define PLAT_BIT_TYPE_MTAG_E 0x2 /* MTAG ECC error */ #define PLAT_BIT_TYPE_ECC 0x3 /* ECC error */ #define PLAT_BIT_TYPE_DATA 0x4 /* Data error */ /* * Based on "UltraSPARC-III Programmer's Reference Manual", these values are * obtained when you use the syndrom bits from the AFSR to index into the * ECC syndroms table. See cheetah.c for more details on the definitions * of C0, C1, C2, ... C8, MT0, MT1, ... M3, M4 ... etc. */ #define ECC_SYND_DATA_BEGIN 0 #define ECC_SYND_DATA_LENGTH 127 /* data bits 0-127 */ #define ECC_SYND_ECC_BEGIN (ECC_SYND_DATA_BEGIN + ECC_SYND_DATA_LENGTH) #define ECC_SYND_ECC_LENGTH 9 /* ECC bits C0 - C* */ #define ECC_SYND_MTAG_BEGIN (ECC_SYND_ECC_BEGIN + ECC_SYND_ECC_LENGTH) #define ECC_SYND_MTAG_LENGTH 3 /* MTAG DATA bits MT0, MT1, MT3 */ #define ECC_SYND_MECC_BEGIN (ECC_SYND_MTAG_BEGIN + ECC_SYND_MTAG_LENGTH) #define ECC_SYND_MECC_LENGTH 4 /* MTAG ECC bits MTC0 - MTC3 */ #define ECC_SYND_M2 144 #define ECC_SYND_M3 145 #define ECC_SYND_M4 146 #define ECC_SYND_M 147 enum plat_ecc_type {PLAT_ECC_UNKNOWN, PLAT_ECC_MEMORY, PLAT_ECC_ECACHE }; typedef struct plat_ecc_msg_hdr { uint8_t emh_major_ver; uint8_t emh_minor_ver; uint16_t emh_msg_type; uint16_t emh_msg_length; uint16_t emh_future0; /* pad */ } plat_ecc_msg_hdr_t; extern uint16_t ecc_error2_mailbox_flags; #define PLAT_ECC_ERROR2_SEND_L2_XXC 0x0001 #define PLAT_ECC_ERROR2_SEND_L2_XXU 0x0002 #define PLAT_ECC_ERROR2_SEND_L3_XXC 0x0004 #define PLAT_ECC_ERROR2_SEND_L3_XXU 0x0008 #define PLAT_ECC_ERROR2_SEND_MEM_ERRS 0x0010 #define PLAT_ECC_ERROR2_SEND_BUS_ERRS 0x0020 #define PLAT_ECC_ERROR2_SEND_L2_TAG_ERRS 0x0040 #define PLAT_ECC_ERROR2_SEND_L3_TAG_ERRS 0x0080 #define PLAT_ECC_ERROR2_SEND_L1_PARITY 0x0100 #define PLAT_ECC_ERROR2_SEND_TLB_PARITY 0x0200 #define PLAT_ECC_ERROR2_SEND_IV_ERRS 0x0400 #define PLAT_ECC_ERROR2_SEND_MTAG_XXC 0x0800 #define PLAT_ECC_ERROR2_SEND_IV_MTAG_XXC 0x1000 #define PLAT_ECC_ERROR2_SEND_PCACHE 0x2000 /* default value for ecc_error2_mailbox_flags */ #define PLAT_ECC_ERROR2_SEND_DEFAULT 0x3fff typedef struct plat_ecc_error2_data { plat_ecc_msg_hdr_t ee2d_header; /* Header info */ uint8_t ee2d_type; /* PLAT_ECC_ERROR2_* */ uint8_t ee2d_afar_status; /* AFLT_STAT_* (see async.h) */ uint8_t ee2d_synd_status; /* AFLT_STAT_* (see async.h) */ uint8_t ee2d_bank_number; /* 0 or 1 */ uint16_t ee2d_detecting_proc; /* Proc that detected error */ uint16_t ee2d_jnumber; /* J# of the part in error */ uint16_t ee2d_owning_proc; /* Proc that controls memory */ uint16_t ee2d_future1; /* pad */ uint32_t ee2d_cpu_impl; /* Proc type */ uint64_t ee2d_afsr; /* AFSR */ uint64_t ee2d_sdw_afsr; /* Shadow AFSR */ uint64_t ee2d_afsr_ext; /* Extended AFSR */ uint64_t ee2d_sdw_afsr_ext; /* Shadow extended AFSR */ uint64_t ee2d_afar; /* AFAR */ uint64_t ee2d_sdw_afar; /* Shadow AFAR */ uint64_t ee2d_timestamp; /* Time stamp */ } plat_ecc_error2_data_t; #define ee2d_major_version ee2d_header.emh_major_ver #define ee2d_minor_version ee2d_header.emh_minor_ver #define ee2d_msg_type ee2d_header.emh_msg_type #define ee2d_msg_length ee2d_header.emh_msg_length #define PLAT_ECC_ERROR2_VERSION_MAJOR 1 #define PLAT_ECC_ERROR2_VERSION_MINOR 1 /* Values for ee2d_type */ #define PLAT_ECC_ERROR2_NONE 0x00 #define PLAT_ECC_ERROR2_L2_CE 0x01 #define PLAT_ECC_ERROR2_L2_UE 0x02 #define PLAT_ECC_ERROR2_L3_CE 0x03 #define PLAT_ECC_ERROR2_L3_UE 0x04 #define PLAT_ECC_ERROR2_CE 0x05 #define PLAT_ECC_ERROR2_UE 0x06 #define PLAT_ECC_ERROR2_DUE 0x07 #define PLAT_ECC_ERROR2_TO 0x08 #define PLAT_ECC_ERROR2_BERR 0x09 #define PLAT_ECC_ERROR2_DTO 0x0a #define PLAT_ECC_ERROR2_DBERR 0x0b #define PLAT_ECC_ERROR2_L2_TSCE 0x0c #define PLAT_ECC_ERROR2_L2_THCE 0x0d #define PLAT_ECC_ERROR2_L3_TSCE 0x0e /* Unused */ #define PLAT_ECC_ERROR2_L3_THCE 0x0f #define PLAT_ECC_ERROR2_DPE 0x10 #define PLAT_ECC_ERROR2_IPE 0x11 #define PLAT_ECC_ERROR2_ITLB 0x12 #define PLAT_ECC_ERROR2_DTLB 0x13 #define PLAT_ECC_ERROR2_IVU 0x14 #define PLAT_ECC_ERROR2_IVC 0x15 #define PLAT_ECC_ERROR2_EMC 0x16 #define PLAT_ECC_ERROR2_IMC 0x17 #define PLAT_ECC_ERROR2_L3_MECC 0x18 #define PLAT_ECC_ERROR2_PCACHE 0x19 #define PLAT_ECC_ERROR2_NUMVALS 0x1a typedef struct plat_ecc_ch_async_flt { int ecaf_synd_status; /* AFLT_STAT_* (see async.h) */ int ecaf_afar_status; /* AFLT_STAT_* (see async.h) */ uint64_t ecaf_sdw_afar; uint64_t ecaf_sdw_afsr; uint64_t ecaf_afsr_ext; uint64_t ecaf_sdw_afsr_ext; } plat_ecc_ch_async_flt_t; /* * The following structures/#defines are used to notify the SC * of DIMMs that fail the leaky bucket algorithm, E$ that experience * multiple correctable errors and fail the serd algorithm, and * E$ that experience any non-fatal uncorrectable error. */ extern uint8_t ecc_indictment_mailbox_disable; /* The message is OK */ #define PLAT_ECC_INDICTMENT_OK 0x00 /* Send the message, but don't trust it */ #define PLAT_ECC_INDICTMENT_SUSPECT 0x01 /* Don't send message */ #define PLAT_ECC_INDICTMENT_NO_SEND 0x02 extern uint8_t ecc_indictment_mailbox_flags; /* DIMM indictments for CEs */ #define PLAT_ECC_SEND_DIMM_INDICT 0x01 /* E$ indictments for UCC, WDC, CPC, EDC */ #define PLAT_ECC_SEND_ECACHE_XXC_INDICT 0x02 /* E$ indictments for UCU, WDU, CPU, EDU */ #define PLAT_ECC_SEND_ECACHE_XXU_INDICT 0x04 /* Default value for ecc_indictment_mailbox_flags */ #define PLAT_ECC_SEND_DEFAULT_INDICT (PLAT_ECC_SEND_ECACHE_XXC_INDICT |\ PLAT_ECC_SEND_ECACHE_XXU_INDICT) /* * WARNING: The plat_ecc_indictment_data_t struct size can be no bigger than * 128 bytes. The union will fill out the structure to the correct size - * the string space used in solaris_version will fill out the rest of the * structure. * * Any changes made to this structure in the future should ensure that the * structure does not go over 128 bytes. */ #define PLAT_ECC_INDICT_SIZE 128 typedef struct { uint8_t version; /* Starting with 1 */ uint8_t indictment_type; /* see below for values */ uint8_t indictment_uncertain; /* Value of ecc_indictment_mailbox_disable */ uint8_t board_num; /* board number of dimm/E$ */ uint16_t detecting_proc; /* Processor Number of CPU */ /* reporting error */ uint16_t syndrome; /* syndrome of last error */ uint16_t jnumber; /* Jnumber of dimm/E$ */ uint16_t future[7]; /* For future use */ uint64_t afsr; /* AFSR of last error */ uint64_t afar; /* AFAR of last error */ char solaris_version[1]; /* Solaris version string */ } plat_ecc_indict_msg_contents_t; typedef union { plat_ecc_indict_msg_contents_t msg_contents; uint8_t filler[PLAT_ECC_INDICT_SIZE]; } plat_ecc_indictment_data_t; #define PLAT_ECC_VERSION_LENGTH (PLAT_ECC_INDICT_SIZE - \ offsetof(plat_ecc_indict_msg_contents_t, solaris_version)) #define PLAT_ECC_INDICTMENT_VERSION 1 /* * Values for indictment_type. For Panther, E$ refers to * the L3$. For previous procs, E$ refers to the L2$. */ #define PLAT_ECC_INDICT_NONE 0x00 #define PLAT_ECC_INDICT_DIMM 0x01 #define PLAT_ECC_INDICT_ECACHE_CORRECTABLES 0x02 #define PLAT_ECC_INDICT_ECACHE_UNCORRECTABLE 0x03 /* * These values are used to set the state of msg_status * * 0 - No message in transit * 1 - taskq thread dispatched, dispatching thread waiting for signal * 2 - dispatched thread completed sending message * 3 - dispatching thread received interrupt, not waiting for signal */ #define PLAT_ECC_NO_MSG_ACTIVE 0 #define PLAT_ECC_TASK_DISPATCHED 1 #define PLAT_ECC_MSG_SENT 2 #define PLAT_ECC_INTERRUPT_RECEIVED 3 /* * Min and max sizes of plat_ecc_taskq */ #define PLAT_ECC_TASKQ_MIN 2 #define PLAT_ECC_TASKQ_MAX 8 extern uint16_t ecc_indictment2_mailbox_flags; #define PLAT_ECC_SEND_INDICT2_L2_XXU 0x0001 #define PLAT_ECC_SEND_INDICT2_L2_XXC_SERD 0x0002 #define PLAT_ECC_SEND_INDICT2_L2_TAG_SERD 0x0004 #define PLAT_ECC_SEND_INDICT2_L3_XXU 0x0008 #define PLAT_ECC_SEND_INDICT2_L3_XXC_SERD 0x0010 #define PLAT_ECC_SEND_INDICT2_L3_TAG_SERD 0x0020 #define PLAT_ECC_SEND_INDICT2_L1_SERD 0x0040 #define PLAT_ECC_SEND_INDICT2_TLB_SERD 0x0080 #define PLAT_ECC_SEND_INDICT2_FPU 0x0100 #define PLAT_ECC_SEND_INDICT2_PCACHE_SERD 0x0200 #define PLAT_ECC_SEND_INDICT2_DEFAULT 0x03ff typedef struct plat_ecc_indictment2_data { plat_ecc_msg_hdr_t ei2d_header; /* Header info */ uint8_t ei2d_type; /* PLAT_ECC_INDICT2_* */ uint8_t ei2d_uncertain; /* See indictment_uncertain */ uint8_t ei2d_board_num; /* Board number of dimm */ uint8_t ei2d_future1; /* pad */ uint16_t ei2d_arraigned_proc; /* Proc number */ uint16_t ei2d_jnumber; /* Jnumber */ uint32_t ei2d_cpu_impl; /* Proc type */ uint32_t ei2d_future2; /* pad */ uint64_t ei2d_timestamp; /* Time stamp */ } plat_ecc_indictment2_data_t; #define ei2d_major_version ei2d_header.emh_major_ver #define ei2d_minor_version ei2d_header.emh_minor_ver #define ei2d_msg_type ei2d_header.emh_msg_type #define ei2d_msg_length ei2d_header.emh_msg_length #define PLAT_ECC_INDICT2_MAJOR_VERSION 1 #define PLAT_ECC_INDICT2_MINOR_VERSION 1 /* * Values for ei2d_type */ #define PLAT_ECC_INDICT2_NONE 0x00 #define PLAT_ECC_INDICT2_L2_UE 0x01 #define PLAT_ECC_INDICT2_L2_SERD 0x02 #define PLAT_ECC_INDICT2_L2_TAG_SERD 0x03 #define PLAT_ECC_INDICT2_L3_UE 0x04 #define PLAT_ECC_INDICT2_L3_SERD 0x05 #define PLAT_ECC_INDICT2_L3_TAG_SERD 0x06 #define PLAT_ECC_INDICT2_DCACHE_SERD 0x07 #define PLAT_ECC_INDICT2_ICACHE_SERD 0x08 #define PLAT_ECC_INDICT2_ITLB_SERD 0x09 #define PLAT_ECC_INDICT2_DTLB_SERD 0x0a #define PLAT_ECC_INDICT2_FPU 0x0b #define PLAT_ECC_INDICT2_PCACHE_SERD 0x0c #define PLAT_ECC_INDICT2_NUMVALS 0x0d /* * The following structure maps the indictment reason to its * corresponding type. */ typedef struct plat_ecc_bl_map { char *ebm_reason; /* Indictment reason */ int ebm_type; /* Indictment type */ } plat_ecc_bl_map_t; /* * This message is used to exchange the capability of the SC and Domain * so that both entities can adjust their behavior as appropriate. * Also the Solaris version is sent from the Domain along with the * capability bitmap. */ typedef struct plat_capability_data { plat_ecc_msg_hdr_t capd_header; /* Header info */ uint32_t capd_capability; /* Capability bitmap */ uint32_t capd_future1; /* pad */ uint64_t capd_future2; /* pad */ char capd_solaris_version[1]; /* Solaris version string ptr */ } plat_capability_data_t; #define capd_major_version capd_header.emh_major_ver #define capd_minor_version capd_header.emh_minor_ver #define capd_msg_type capd_header.emh_msg_type #define capd_msg_length capd_header.emh_msg_length #define PLAT_ECC_CAP_VERSION_MAJOR 1 #define PLAT_ECC_CAP_VERSION_MINOR 1 #define PLAT_ECC_CAPABILITY_ERROR 0x01 #define PLAT_ECC_CAPABILITY_INDICT 0x02 #define PLAT_ECC_CAPABILITY_ERROR2 0x04 #define PLAT_ECC_CAPABILITY_INDICT2 0x08 #define PLAT_ECC_CAPABILITY_FMA 0x10 #define PLAT_ECC_CAPABILITY_EREPORTS 0x20 #define PLAT_ECC_CAPABILITY_DOMAIN_DEFAULT 0x1f #define PLAT_ECC_CAPABILITY_SC_DEFAULT 0x03 extern uint32_t plat_ecc_capability_map_domain; extern uint32_t plat_ecc_capability_map_sc; /* * The following structure is a wrapper around the all messages. The * extra members are used for communicating between two threads. */ typedef struct plat_ecc_message { plat_ecc_message_type_t ecc_msg_type; uint32_t ecc_msg_status; uint32_t ecc_msg_ret; uint32_t ecc_msg_len; void * ecc_msg_data; } plat_ecc_message_t; #ifdef __cplusplus } #endif #endif /* _SYS_PLAT_ECC_NUM_H */