/* * 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_CHEETAHREGS_H #define _SYS_CHEETAHREGS_H #pragma ident "%Z%%M% %I% %E% SMI" #include #ifdef _KERNEL #include #endif /* _KERNEL */ /* * This file is cpu dependent. */ #ifdef __cplusplus extern "C" { #endif /* * Definitions of UltraSparc III cpu implementations as specified * in version register */ #define CHEETAH_IMPL 0x14 #define IS_CHEETAH(impl) ((impl) == CHEETAH_IMPL) #define CHEETAH_MAJOR_VERSION(rev) (((rev) >> 4) & 0xf) #define CHEETAH_MINOR_VERSION(rev) ((rev) & 0xf) /* * Definitions of UltraSPARC III+ cpu implementation as specified * in version register */ #define CHEETAH_PLUS_IMPL 0x15 #define IS_CHEETAH_PLUS(impl) ((impl) == CHEETAH_PLUS_IMPL) #define CHEETAH_PLUS_MAJOR_VERSION(rev) CHEETAH_MAJOR_VERSION(rev) #define CHEETAH_PLUS_MINOR_VERSION(rev) CHEETAH_MINOR_VERSION(rev) /* * Definitions of UltraSPARC IIIi cpu implementation as specified * in version register. Jalapeno major and minor rev's are in * the same location and are the same size as Cheetah/Cheetah+. */ #define JALAPENO_IMPL 0x16 #define IS_JALAPENO(impl) ((impl) == JALAPENO_IMPL) #define JALAPENO_MAJOR_VERSION(rev) CHEETAH_MAJOR_VERSION(rev) #define JALAPENO_MINOR_VERSION(rev) CHEETAH_MINOR_VERSION(rev) /* * Definitions of UltraSPARC IV cpu implementation as specified * in version register. Jaguar major and minor rev's are in * the same location and are the same size as Cheetah/Cheetah+. */ #define JAGUAR_IMPL 0x18 #define IS_JAGUAR(impl) ((impl) == JAGUAR_IMPL) #define JAGUAR_MAJOR_VERSION(rev) CHEETAH_MAJOR_VERSION(rev) #define JAGUAR_MINOR_VERSION(rev) CHEETAH_MINOR_VERSION(rev) /* * Definitions of UltraSPARC IIIi+ cpu implementation as specified * in version register. Serrano major and minor rev's are in * the same location and are the same size as Cheetah/Cheetah+. */ #define SERRANO_IMPL 0x22 #define IS_SERRANO(impl) ((impl) == SERRANO_IMPL) #define SERRANO_MAJOR_VERSION(rev) CHEETAH_MAJOR_VERSION(rev) #define SERRANO_MINOR_VERSION(rev) CHEETAH_MINOR_VERSION(rev) /* * Definitions of UltraSPARC IV+ cpu implementation as specified * in version register. Panther major and minor rev's are in * the same location and are the same size as Cheetah/Cheetah+. */ #define PANTHER_IMPL 0x19 #define IS_PANTHER(impl) ((impl) == PANTHER_IMPL) #define PANTHER_MAJOR_VERSION(rev) CHEETAH_MAJOR_VERSION(rev) #define PANTHER_MINOR_VERSION(rev) CHEETAH_MINOR_VERSION(rev) #define CPU_IMPL_IS_CMP(impl) (IS_JAGUAR(impl) || IS_PANTHER(impl)) /* * Cheetah includes the process info in its mask to make things * more difficult. The process is the low bit of the major mask, * so to convert to the netlist major: * netlist_major = ((mask_major >> 1) + 1) */ #define REMAP_CHEETAH_MASK(x) (((((x) >> 1) + 0x10) & 0xf0) | ((x) & 0xf)) #ifdef _ASM /* * assembler doesn't understand the 'ull' suffix for C constants so * use the inttypes.h macros and undefine them here for assembly code */ #undef INT64_C #undef UINT64_C #define INT64_C(x) (x) #define UINT64_C(x) (x) #endif /* _ASM */ /* * DCU Control Register * * +------+----+----+----+----+----+-----+-----+----+----+----+ * | Resv | CP | CV | ME | RE | PE | HPE | SPE | SL | WE | PM | * +------+----+----+----+----+----+-----+-----+----+----+----+ * 63:50 49 48 47 46 45 44 43 42 41 40:33 * * +----+----+----+----+----+----------+-----+----+----+----+---+ * | VM | PR | PW | VR | VW | Reserved | WIH | DM | IM | DC | IC| * +----+----+----+----+----+----------+-----+----+----+----+---+ * 32:25 24 23 22 21 20:5 4 3 2 1 0 */ #define ASI_DCU ASI_LSU /* same as spitfire ASI_LSU 0x45 */ #define DCU_IC INT64_C(0x0000000000000001) /* icache enable */ #define DCU_DC INT64_C(0x0000000000000002) /* dcache enable */ #define DCU_IM INT64_C(0x0000000000000004) /* immu enable */ #define DCU_DM INT64_C(0x0000000000000008) /* dmmu enable */ #define DCU_WIH INT64_C(0x0000000000000010) /* Jaguar only - W$ hash index */ #define DCU_VW INT64_C(0x0000000000200000) /* virt watchpoint write enable */ #define DCU_VR INT64_C(0x0000000000400000) /* virt watchpoint read enable */ #define DCU_PW INT64_C(0x0000000000800000) /* phys watchpoint write enable */ #define DCU_PR INT64_C(0x0000000001000000) /* phys watchpoint read enable */ #define DCU_VM INT64_C(0x00000001FE000000) /* virtual watchpoint write mask */ #define DCU_PM INT64_C(0x000001FE00000000) /* phys watchpoint write mask */ #define DCU_WE INT64_C(0x0000020000000000) /* write cache enable */ #define DCU_SL INT64_C(0x0000040000000000) /* second load control */ #define DCU_SPE INT64_C(0x0000080000000000) /* software prefetch enable */ #define DCU_HPE INT64_C(0x0000100000000000) /* hardware prefetch enable */ #define DCU_PE INT64_C(0x0000200000000000) /* prefetch enable */ #define DCU_RE INT64_C(0x0000400000000000) /* RAW bypass enable */ #define DCU_ME INT64_C(0x0000800000000000) /* noncache store merging enable */ #define DCU_CV INT64_C(0x0001000000000000) /* virt cacheability when DM=0 */ #define DCU_CP INT64_C(0x0002000000000000) /* phys cacheable when DM,IM=0 */ #define DCU_CACHE (DCU_IC|DCU_DC|DCU_WE|DCU_SPE|DCU_HPE|DCU_PE) /* * bit shifts for the prefetch enable bit */ #define DCU_PE_SHIFT 45 /* * Safari Configuration Register */ #define ASI_SAFARI_CONFIG ASI_UPA_CONFIG /* Safari Config Reg, 0x4A */ #define SAFARI_CONFIG_ECLK_1 INT64_C(0x0000000000000000) /* 1/1 clock */ #define SAFARI_CONFIG_ECLK_1_DIV 1 /* clock divisor: 1 */ #define SAFARI_CONFIG_ECLK_2 INT64_C(0x0000000040000000) /* 1/2 clock */ #define SAFARI_CONFIG_ECLK_2_DIV 2 /* clock divisor: 2 */ #define SAFARI_CONFIG_ECLK_32 INT64_C(0x0000000080000000) /* 1/32 clock */ #define SAFARI_CONFIG_ECLK_32_DIV 32 /* clock divisor: 32 */ #define SAFARI_CONFIG_ECLK_MASK (SAFARI_CONFIG_ECLK_32 | SAFARI_CONFIG_ECLK_2) #if defined(JALAPENO) || defined(SERRANO) /* * JBUS Configuration Register */ #define ASI_JBUS_CONFIG ASI_UPA_CONFIG /* JBUS Config Reg, 0x4A */ #define JBUS_CONFIG_ECLK_1 INT64_C(0x0000000000000000) /* 1/1 clock */ #define JBUS_CONFIG_ECLK_1_DIV 1 /* clock divisor: 1 */ #define JBUS_CONFIG_ECLK_2 INT64_C(0x0000000000002000) /* 1/2 clock */ #define JBUS_CONFIG_ECLK_2_DIV 2 /* clock divisor: 2 */ #define JBUS_CONFIG_ECLK_32 INT64_C(0x0000000000004000) /* 1/32 clock */ #define JBUS_CONFIG_ECLK_32_DIV 32 /* clock divisor: 32 */ #define JBUS_CONFIG_ECLK_MASK (JBUS_CONFIG_ECLK_32 | JBUS_CONFIG_ECLK_2) #define JBUS_CONFIG_ECLK_SHIFT 13 /* * Jalapeno/Serrano MCU control registers and ASI */ #define ASI_MCU_CTRL 0x72 /* MCU Control Reg ASI */ #define JP_MCU_FSM_MASK INT64_C(0x0000000006000000) /* 26..25 */ #define JP_MCU_FSM_SHIFT 25 #endif /* JALAPENO || SERRANO */ #if defined(SERRANO) #define ASI_MCU_AFAR2_VA 0x18 /* captures FRC/FRU addr */ #endif /* SERRANO */ #if defined(JALAPENO) && defined(JALAPENO_ERRATA_85) /* * Tomatillo Estar control registers (for JP Errataum 85) */ #define JBUS_SLAVE_T_PORT_BIT 48 #define TOM_HIGH_PA 0x400 /* Hi 32 bit of Tom reg PA */ #define M_T_ESTAR_CTRL_PA 0x0f410050 /* M T estar PA */ #define S_T_ESTAR_CTRL_PA 0x0e410050 /* S T estar PA */ #define M_T_J_CHNG_INIT_PA 0x0f410058 /* Master T estar PA */ #define TOM_ESTAR_ELCK_MASK 0x23 /* bit 5,1,0 */ #define TOM_FULL_SPEED 0x1 #define TOM_HALF_SPEED 0x2 #define TOM_SLOW_SPEED 0x20 #define TOM_TRIGGER_MASK 0x18 #define TOM_TRIGGER 0x10 #endif /* JALAPENO && JALAPENO_ERRATA_85 */ /* * Miscellaneous ASI definitions not in machasi.h */ #define ASI_DC_UTAG 0x43 /* Dcache Microtag Fields */ #define ASI_DC_SNP_TAG 0x44 /* Dcache Snoop Tag Fields */ #define ASI_IC_SNP_TAG 0x68 /* Icache Snoop Tag Fields */ #define ASI_IPB_DATA 0x69 /* Instruction Prefetch Buffer Data */ #define ASI_IPB_TAG 0x6A /* Instruction Prefetch Buffer Tag */ #define ASI_MC_DECODE 0x72 /* Memory Address Decoding Registers */ #define ASI_EC_CFG_TIMING 0x73 /* Jaguar shared Ecache Control Reg */ #define ASI_EC_DATA 0x74 /* Ecache Data Staging Registers */ #define ASI_EC_CTRL 0x75 /* Ecache Control Register */ #define ASI_PC_STATUS_DATA 0x30 /* Pcache Status Data Access */ #define ASI_PC_DATA 0x31 /* Pcache Diagnostic Data Register */ #define ASI_PC_TAG 0x32 /* Pcache Virtual Tag/Valid Field */ #define ASI_PC_SNP_TAG 0x33 /* Pcache Snoop Tag Register */ #define ASI_L2_DATA 0x6B /* L2 cache Data Diagnostic Access */ #define ASI_L2_TAG 0x6C /* L2 cache Tag Diagnostic Access */ /* * Bits of Cheetah Asynchronous Fault Status Register * * +---+--+----+----+----+----+---+---+---+---+--+---- * |rsv|ME|PRIV|PERR|IERR|ISAP|EMC|EMU|IVC|IVU|TO|BERR * +---+--+----+----+----+----+---+---+---+---+--+---- * 63:54 53 52 51 50 49 48 47 46 45 44 43 * +---+---+---+---+---+---+---+---+--+--+---+------+---+-------+ * |UCC|UCU|CPC|CPU|WDC|WDU|EDC|EDU|UE|CE|rsv|M_SYND|rsv||E_SYND| * +---+---+---+---+---+---+---+---+--+--+---+------+---+-------+ * 42 41 40 39 38 37 36 35 34 33 32:20 19:16 15:9 8:0 * */ #if defined(CHEETAH_PLUS) /* * Bits of Cheetah+ Asynchronous Fault Status Register * * +------------------+---------------------------- * |rsv|TUE_SH|IMC|IMU|DTO|DBERR|THCE|TSCE|TUE|DUE| * +------------------+---------------------------- . . . * 63 62 61 60 59 58 57 56 55 54 * * Note that bits 60-62 are only implemented in Panther (reserved * in Cheetah+ and Jaguar. Also, bit 56 is reserved in Panther instead * of TSCE since those errors are HW corrected in Panther. */ #define C_AFSR_TUE_SH INT64_C(0x4000000000000000) /* uncorrectable tag UE */ #define C_AFSR_IMC INT64_C(0x2000000000000000) /* intr vector MTAG ECC */ #define C_AFSR_IMU INT64_C(0x1000000000000000) /* intr vector MTAG ECC */ #define C_AFSR_DTO INT64_C(0x0800000000000000) /* disrupting TO error */ #define C_AFSR_DBERR INT64_C(0x0400000000000000) /* disrupting BERR error */ #define C_AFSR_THCE INT64_C(0x0200000000000000) /* h/w correctable E$ tag err */ #define C_AFSR_TSCE INT64_C(0x0100000000000000) /* s/w correctable E$ tag err */ #define C_AFSR_TUE INT64_C(0x0080000000000000) /* uncorrectable E$ tag error */ #define C_AFSR_DUE INT64_C(0x0040000000000000) /* disrupting UE error */ #endif /* CHEETAH_PLUS */ #define C_AFSR_ME INT64_C(0x0020000000000000) /* errors > 1, same type!=CE */ #define C_AFSR_PRIV INT64_C(0x0010000000000000) /* priv code access error */ #define C_AFSR_PERR INT64_C(0x0008000000000000) /* system interface protocol */ #define C_AFSR_IERR INT64_C(0x0004000000000000) /* internal system interface */ #define C_AFSR_ISAP INT64_C(0x0002000000000000) /* system request parity err */ #define C_AFSR_EMC INT64_C(0x0001000000000000) /* mtag with CE error */ #define C_AFSR_EMU INT64_C(0x0000800000000000) /* mtag with UE error */ #define C_AFSR_IVC INT64_C(0x0000400000000000) /* intr vector with CE error */ #define C_AFSR_IVU INT64_C(0x0000200000000000) /* intr vector with UE error */ #define C_AFSR_TO INT64_C(0x0000100000000000) /* bus timeout from sys bus */ #define C_AFSR_BERR INT64_C(0x0000080000000000) /* bus error from system bus */ #define C_AFSR_UCC INT64_C(0x0000040000000000) /* E$ with software CE error */ #define C_AFSR_UCU INT64_C(0x0000020000000000) /* E$ with software UE error */ #define C_AFSR_CPC INT64_C(0x0000010000000000) /* copyout with CE error */ #define C_AFSR_CPU INT64_C(0x0000008000000000) /* copyout with UE error */ #define C_AFSR_WDC INT64_C(0x0000004000000000) /* writeback ecache CE error */ #define C_AFSR_WDU INT64_C(0x0000002000000000) /* writeback ecache UE error */ #define C_AFSR_EDC INT64_C(0x0000001000000000) /* ecache CE ECC error */ #define C_AFSR_EDU INT64_C(0x0000000800000000) /* ecache UE ECC error */ #define C_AFSR_UE INT64_C(0x0000000400000000) /* uncorrectable ECC error */ #define C_AFSR_CE INT64_C(0x0000000200000000) /* correctable ECC error */ #define C_AFSR_M_SYND INT64_C(0x00000000000f0000) /* mtag ECC syndrome */ #define C_AFSR_E_SYND INT64_C(0x00000000000001ff) /* data ECC syndrome */ /* AFSR bits that could result in CPU removal due to E$ error */ #define C_AFSR_L2_SERD_FAIL_UE (C_AFSR_UCU | C_AFSR_CPU | C_AFSR_WDU | \ C_AFSR_EDU) #define C_AFSR_L2_SERD_FAIL_CE (C_AFSR_UCC | C_AFSR_CPC | C_AFSR_WDC | \ C_AFSR_EDC) /* * Bits of the Panther Extended Asynchronous Fault Status Register (AFSR_EXT) * * +-----+-------+-----------+-------+-------+---------+------+------+------+ * | rsv |RED_ERR|EFA_PAR_ERR|L3_MECC|L3_THCE|L3_TUE_SH|L3_TUE|L3_EDC|L3_EDU| * +-----+-------+-----------+-------+-------+---------+------+------+------+ * 63:14 13 12 11 10 9 8 7 6 * * +------+------+------+------+------+------+ * |L3_UCC|L3_UCU|L3_CPC|L3_CPU|L3_WDC|L3_WDU| * +------+------+------+------+------+------+ * 5 4 3 2 1 0 * * If the L3_MECC bit is set along with any of the L3 cache errors (bits 0-7) * above, it indicates that an address parity error has occured. */ #define C_AFSR_RED_ERR INT64_C(0x0000000000002000) /* redunancy Efuse error */ #define C_AFSR_EFA_PAR_ERR INT64_C(0x0000000000001000) /* Efuse parity error */ #define C_AFSR_L3_MECC INT64_C(0x0000000000000800) /* L3 address parity */ #define C_AFSR_L3_THCE INT64_C(0x0000000000000400) /* tag CE */ #define C_AFSR_L3_TUE_SH INT64_C(0x0000000000000200) /* tag UE from snp/cpy */ #define C_AFSR_L3_TUE INT64_C(0x0000000000000100) /* tag UE */ #define C_AFSR_L3_EDC INT64_C(0x0000000000000080) /* L3 cache CE */ #define C_AFSR_L3_EDU INT64_C(0x0000000000000040) /* L3 cache UE */ #define C_AFSR_L3_UCC INT64_C(0x0000000000000020) /* software recover CE */ #define C_AFSR_L3_UCU INT64_C(0x0000000000000010) /* software recover UE */ #define C_AFSR_L3_CPC INT64_C(0x0000000000000008) /* copyout with CE */ #define C_AFSR_L3_CPU INT64_C(0x0000000000000004) /* copyout with UE */ #define C_AFSR_L3_WDC INT64_C(0x0000000000000002) /* writeback CE */ #define C_AFSR_L3_WDU INT64_C(0x0000000000000001) /* writeback UE */ #if defined(JALAPENO) || defined(SERRANO) /* * Bits of Jalapeno Asynchronous Fault Status Register * * +-----+------------------------------------------------------------------ * | rsv |JETO|SCE|JEIC|JEIT|ME|PRIV|JEIS|IERR|ISAP|ETP|OM|UMS|IVPE|TO|BERR| * +-----+------------------------------------------------------------------ * 63:58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 * * +---+---+---+---+---+---+---+---+--+--+---+---+--+---+-------+ * |UCC|UCU|CPC|CPU|WDC|WDU|EDC|EDU|UE|CE|RUE|RCE|BP|WBP|FRC|FRU| * +---+---+---+---+---+---+---+---+--+--+---+---+--+---+-------+ * 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 * * +-----+-----+-----+------+-----------+-------+ * | JREQ| ETW | rsv |B_SYND| rsv | AID | E_SYND| * +-----+-----+-----+------+-----+-----+-------+ * 26:24 23:22 21:20 19:16 15:14 13:9 8:0 * */ /* * Bits of Serrano Asynchronous Fault Status Register * * +-----+------------------------------------------------------------------ * | rsv |JETO|SCE|JEIC|JEIT|ME|PRIV|JEIS|IERR|ISAP|ETU|OM|UMS|IVPE|TO|BERR| * +-----+------------------------------------------------------------------ * 63:58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 * * +---+---+---+---+---+---+---+---+--+--+---+---+--+---+-------+ * |UCC|UCU|CPC|CPU|WDC|WDU|EDC|EDU|UE|CE|RUE|RCE|BP|WBP|FRC|FRU| * +---+---+---+---+---+---+---+---+--+--+---+---+--+---+-------+ * 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 * * +-----+-----+------+---+------+---+---+-----+-------+ * | JREQ| ETW | EFES |ETS|B_SYND|ETI|ETC| AID | E_SYND| * +-----+-----+------+---+------+---+---+-----+-------+ * 26:24 23:22 21 20 19:16 15 14 13:9 8:0 * */ #define C_AFSR_JETO INT64_C(0x0200000000000000) /* JBus Timeout */ #define C_AFSR_SCE INT64_C(0x0100000000000000) /* Snoop parity error */ #define C_AFSR_JEIC INT64_C(0x0080000000000000) /* JBus Illegal Cmd */ #define C_AFSR_JEIT INT64_C(0x0040000000000000) /* Illegal ADTYPE */ #define C_AFSR_JEIS INT64_C(0x0008000000000000) /* Illegal Install State */ #if defined(SERRANO) #define C_AFSR_ETU INT64_C(0x0001000000000000) /* L2$ tag CE error */ #elif defined(JALAPENO) #define C_AFSR_ETP INT64_C(0x0001000000000000) /* L2$ tag parity error */ #endif /* JALAPENO */ #define C_AFSR_OM INT64_C(0x0000800000000000) /* out of range mem error */ #define C_AFSR_UMS INT64_C(0x0000400000000000) /* Unsupported store */ #define C_AFSR_IVPE INT64_C(0x0000200000000000) /* intr vector parity err */ #define C_AFSR_RUE INT64_C(0x0000000100000000) /* remote mem UE error */ #define C_AFSR_RCE INT64_C(0x0000000080000000) /* remote mem CE error */ #define C_AFSR_BP INT64_C(0x0000000040000000) /* read data parity err */ #define C_AFSR_WBP INT64_C(0x0000000020000000) /* wb/bs data parity err */ #define C_AFSR_FRC INT64_C(0x0000000010000000) /* foregin mem CE error */ #define C_AFSR_FRU INT64_C(0x0000000008000000) /* foregin mem UE error */ #define C_AFSR_JREQ INT64_C(0x0000000007000000) /* Active JBus req at err */ #define C_AFSR_ETW INT64_C(0x0000000000c00000) /* AID causing UE/CE */ #if defined(SERRANO) #define C_AFSR_EFES INT64_C(0x0000000000200000) /* E-fuse error summary */ #define C_AFSR_ETS INT64_C(0x0000000000100000) /* L2$ tag SRAM stuck-at */ #endif /* SERRANO */ #define C_AFSR_B_SYND INT64_C(0x00000000000f0000) /* jbus parity syndrome */ #if defined(SERRANO) #define C_AFSR_ETI INT64_C(0x0000000000008000) /* L2$ tag intermittent */ #define C_AFSR_ETC INT64_C(0x0000000000004000) /* L2$ tag CE */ #endif /* SERRANO */ #define C_AFSR_AID INT64_C(0x0000000000003e00) /* AID causing UE/CE */ /* bit shifts for selected errors */ #define C_AFSR_WDU_SHIFT 37 #define C_AFSR_UCU_SHIFT 41 #define C_AFSR_UCC_SHIFT 42 #define C_AFSR_JREQ_SHIFT 24 #define C_AFSR_AID_SHIFT 9 /* * Overloaded AFSR fields. During error processing, some of the reserved * fields within the saved AFSR are overwritten with extra information. */ #define C_AFSR_PANIC_SHIFT 62 #define C_AFSR_IPE_SHIFT 59 #define C_AFSR_DPE_SHIFT 58 #else /* JALAPENO || SERRANO */ /* bit shifts for selected errors */ #define C_AFSR_WDU_SHIFT 37 #define C_AFSR_UCU_SHIFT 41 #define C_AFSR_UCC_SHIFT 42 #define C_AFSR_L3_UCU_SHIFT 4 /* * Overloaded AFSR fields. During error processing, some of the reserved fields * within the saved AFSR are overwritten with extra information. */ #define C_AFSR_FIRSTFLT_SHIFT 63 #define C_AFSR_PANIC_SHIFT 30 #define C_AFSR_DPE_SHIFT 20 #define C_AFSR_IPE_SHIFT 21 #endif /* JALAPENO || SERRANO */ #if defined(JALAPENO) || defined(SERRANO) /* * Jalapeno L2 Cache Control Register Bits. * * Bit# Name Description * 63-24 - reserved * 23:20 EC_ACT_WAY (read only) indicates which sets are present * 19:16 EC_BLK_WAY Bit mask indicating which sets are blocked * from replacement * 15:14 EC_SIZE L2 cache size * 13:12 - reserved * 11 EC_PAR_EN Enables parity checking on L2 cache tags * 10 EC_ECC_EN Enables ECC checking on L2 cache data * 9 EC_ECC_FORCE Enables EC_CHECK[8:0] onto L2 cache ECC bits * 8:0 EC_CHECK ECC check vector to force onto ECC bits */ #define JP_ECCTRL_ECSIZE_MASK 0xc000 #define JP_ECCTRL_ECSIZE_SHIFT 14 #define JP_ECCTRL_ECSIZE_MIN 0x80000 /* * Jalapeno L2 Cache Error Enable Register Bits * * Bit# Name Description * 63-33 - reserved * 32 SCDE Enable detection of JBUS control parity error * 31:24 - reserved * 23 IAEN Enable trap on illegal physical address * 22 IERREN Enable FERR system reset on CPU internal errors * 21 PERREN Enable FERR system reset on JBUS protocol errors * 20 SCEN Enable FERR system reset on JBUS control parity error * 19:11 FMED Forced error on the memory ECC * 10 FME Force error on memory ECC * 9:6 FPD Bits to use when FSP forces JBUS addr/data parity error * 5 FSP Force error on outgoing JBUS addr/data parity * 4 ETPEN Enable FERR system reset on L2 tags parity error * 3 UCEEN Enable trap on SW handled external cache error * 2 ISAPEN Enable FERR system reset on request parity error * 1 NCEEN Enable trap on uncorrectable ECC error and system err * 0 CEEN Enable trap on correctable ECC errors */ #define EN_REG_UCEEN INT64_C(0x0000000000000008) /* enable UCC,UCU */ #define EN_REG_ISAPEN INT64_C(0x0000000000000004) /* enable ISAP */ #define EN_REG_NCEEN INT64_C(0x0000000000000002) /* UE,EDU,WDU,BERR,IVU,EMU */ #define EN_REG_CEEN INT64_C(0x0000000000000001) /* enable CE,EDC,WDC,IVC,EMC */ #define EN_REG_DISABLE INT64_C(0x0000000000000000) /* no errors enabled */ #define EN_REG_ECC_DISABLE (EN_REG_UCEEN | EN_REG_ISAPEN) #define EN_REG_CE_DISABLE (EN_REG_UCEEN | EN_REG_ISAPEN | EN_REG_NCEEN) #define EN_REG_ENABLE \ (EN_REG_UCEEN | EN_REG_ISAPEN | EN_REG_NCEEN | EN_REG_CEEN) #else /* JALAPENO || SERRANO */ #if defined(CHEETAH_PLUS) /* * Cheetah+ External Cache Control Register Bits. */ #define ECCR_ASSOC INT64_C(0x0000000001000000) /* Ecache Assoc. */ #define ECCR_ASSOC_SHIFT 24 #endif /* CHEETAH_PLUS */ /* * Bits of Cheetah External Cache Error Enable Register * * +-----+-----+-------+-----+-------+-------+--------+-------+------+ * | rsv | FMT | FMECC | FMD | FDECC | UCEEN | ISAPEN | NCEEN | CEEN | * +-----+-----+-------+-----+-------+-------+--------+-------+------+ * 63:19 18 17 14 13 12:4 3 2 1 0 * */ #define EN_REG_FMT INT64_C(0x0000000000040000) /* force system mtag ECC */ #define EN_REG_FMECC INT64_C(0x000000000003C000) /* forced mtag ECC vector */ #define EN_REG_FMD INT64_C(0x0000000000002000) /* force system data ECC */ #define EN_REG_FDECC INT64_C(0x0000000000001ff0) /* forced data ECC vector */ #define EN_REG_UCEEN INT64_C(0x0000000000000008) /* enable UCC,UCU */ #define EN_REG_ISAPEN INT64_C(0x0000000000000004) /* enable ISAP */ #define EN_REG_NCEEN INT64_C(0x0000000000000002) /* UE,EDU,WDU,BERR,IVU,EMU */ #define EN_REG_CEEN INT64_C(0x0000000000000001) /* enable CE,EDC,WDC,IVC,EMC */ #define EN_REG_DISABLE INT64_C(0x0000000000000000) /* no errors enabled */ #define EN_REG_ECC_DISABLE (EN_REG_UCEEN | EN_REG_ISAPEN) #define EN_REG_CE_DISABLE (EN_REG_UCEEN | EN_REG_ISAPEN | EN_REG_NCEEN) #define EN_REG_ENABLE \ (EN_REG_UCEEN | EN_REG_ISAPEN | EN_REG_NCEEN | EN_REG_CEEN) #endif /* JALAPENO || SERRANO */ /* * bit shifts for selected bits */ #define EN_REG_CEEN_SHIFT 0 /* Cheetah/Cheetah+ Dcache size */ #define CH_DCACHE_SIZE 0x10000 /* Cheetah/Cheetah+ Dcache linesize */ #define CH_DCACHE_LSIZE 0x20 /* Cheetah/Cheetah+/Jaguar Icache size */ #define CH_ICACHE_SIZE 0x8000 /* Cheetah/Cheetah+/Jaguar Icache linesize */ #define CH_ICACHE_LSIZE 0x20 /* Panther Icache size */ #define PN_ICACHE_SIZE 0x10000 /* Panther Icache linesize */ #define PN_ICACHE_LSIZE 0x40 /* Pcache size for the cheetah family of CPUs */ #define CH_PCACHE_SIZE 0x800 /* Pcache linesize for the cheetah family of CPUs */ #define CH_PCACHE_LSIZE 0x40 /* * The cheetah+ CPU module handles Cheetah+, Jaguar, and Panther so * we have to pick max size and min linesize values for the Icache * accordingly. */ #define CHP_ICACHE_MAX_SIZE PN_ICACHE_SIZE #define CHP_ICACHE_MIN_LSIZE CH_ICACHE_LSIZE /* * The minimum size needed to ensure consistency on a virtually address * cache. Computed by taking the largest virtually indexed cache and dividing * by its associativity. */ #define CH_VAC_SIZE 0x4000 /* * The following definitions give the syndromes that will be seen when attempts * are made to read data that has been intentionally poisoned. Intentional * poisoning is performed when an error has been detected, and is designed to * allow software to effectively distinguish between root problems and secondary * effects. The following syndromes and their descriptions are taken from the * UltraSPARC-III Cu Error Manual, Section 5.4.3.1. */ /* * For a DSTAT = 2 or 3 event (see Sec 5.3.4.4) from the system bus for a * cacheable load, data bits [1:0] are inverted in the data stored in the * L2-cache. The syndrome seen when one of these signalling words is read will * be 0x11c. */ #define CH_POISON_SYND_FROM_DSTAT23 0x11c /* * For an uncorrectable data ECC error from the L2-cache, data bits [127:126] * are inverted in data sent to the system bus as part of a writeback or * copyout. The syndrome seen when one of these signalling words is read will * be 0x071. */ #define CH_POISON_SYND_FROM_XXU_WRITE 0x71 /* * For uncorrectable data ECC error on the L2-cache read done to complete a * store merge event, where bytes written by the processor are merged with * bytes from an L2-cache line, ECC check bits [1:0] are inverted in the data * scrubbed back to the L2-cache. The syndrome seen when one of these * signalling words is read will be 0x003. */ #define CH_POISON_SYND_FROM_XXU_WRMERGE 0x3 /* * To help understand the following definitions, this block of comments * provides information on Cheetah's E$. * * Cheetah supports three different E$ sizes (1MB, 4MB, and 8MB). The * number of E$ lines remains constant regardless of the size of the E$ * as does the subblock size, however the number of 64-byte subblocks per * line varies depending on the E$ size. * * An E$ tag (for an E$ line) contains an EC_tag field, corresponding to the * high order physical address bits of that E$ line's contents, and 1 to 8 * EC_state fields, indicating the state of each subblock. Due to the E$ line * size variance depending on the total size of the E$, the number of bits in * the EC_tag field varies as does the number of subblocks (and EC_state * fields) per E$ line. * * A 1MB E$ has a line size of 64 bytes, containing 1 subblock per line. * A 4MB E$ has a line size of 256 bytes, containing 4 subblocks per line. * An 8MB E$ has a line size of 512 bytes, containing 8 subblocks per line. * * An E$ tag for a particular E$ line can be read via a diagnostic ASI * as a 64-bit value. * Within the E$ tag 64-bit value, the EC_tag field is interpreted as follows: * - for a 1MB E$, the EC_tag is in bits <43:21> and corresponds * to physical address bits <42:20> (bits <41:19> for Cheetah+) * - for a 4MB E$, the EC_tag is in bits <43:23> and corresponds * to physical address bits <42:22> (bits <41:21> for Cheetah+) * - for an 8MB E$, the EC_tag is in bits <43:24> and corresponds * to physical address bits <42:23> (bits <41:22> for Cheetah+) * Within the E$ tag 64-bit value, the EC_state field(s) is(are) interpreted * as follows: * - for a 1MB E$, EC_state0 is in bits <2:0> * - for a 4MB E$, EC_state0 is in bits <2:0>, EC_state1 is in * bits <5:3>, EC_state2 is in bits <8:6>, EC_state3 is * in bits <11:9> * - for an 8MB E$, EC_state0 is in bits <2:0>, EC_state1 is in * bits <5:3>, EC_state2 is in bits <8:6>, EC_state3 is * in bits <11:9>, EC_state4 is in bits <14:12>, EC_state5 * is in bits <17:15>, EC_state6 is in bits <20:18>, * EC_state7 is in bits <23:21> * Note that each EC_state field contains a value representing the state * of its corresponding subblock. * */ /* * Jaguar changes from Cheetah/Cheetah+ Ecache: * * The Jaguar Ecache is similiar to that used for Cheetah/Cheetah+ with a * couple of differences : * - Jaguar Ecache only comes in 4MB and 8MB versions. * - 8MB E$ has 2 64 byte subblocks per line. * - 4MB E$ has 1 64 byte subblock per line. * * An E$ tag for a particular E$ line can be read via a diagnostic ASI * as a 64-bit value. * Within the E$ tag 64-bit value, the EC_tag field is interpreted as follows: * - for a 4MB E$, the EC_tag is in bits <41:21> and corresponds * to physical address bits <41:21> * - for a 8MB E$, the EC_tag is in bits <41:22> and corresponds * to physical address bits <41:22> * * The Jaguar E$ tag also contains LRU field in bit <42> which must be * masked off when the tag value is being compared to a PA. * * Within the E$ tag 64-bit value, the EC_state field(s) is(are) interpreted * as follows: * - for 4MB E$, EC_state0 is in bits <2:0> * - for 8MB E$, EC_state0 is in bits <2:0>, EC_state1 is in bits <5:3>. * Each EC_state field contains a value representing the state of its * corresponding subblock. * * Note that the subblock size and state values are the same for both * Cheetah/Cheetah+ and Jaguar. */ /* Ecache sizes */ #define CH_ECACHE_8M_SIZE 0x800000 #define CH_ECACHE_4M_SIZE 0x400000 #define CH_ECACHE_1M_SIZE 0x100000 #define PN_L2_SIZE 0x200000 #define PN_L2_LINESIZE 64 #define PN_L2_ECC_WORDS 2 #define PN_L2_NWAYS 4 #define PN_L2_SET_SIZE (PN_L2_SIZE / PN_L2_NWAYS) #define PN_L2_MAX_SET (PN_L2_SIZE - PN_L2_SET_SIZE) #define PN_L2_DATA_ECC_SEL 0x200000 /* bit 21 selects ECC */ #define PN_L2_ECC_LO_REG 0x20 /* bit 5 set for L2 tag access */ #define PN_L2_INDEX_MASK 0x7ffc0 /* bits 18:6 */ #define PN_L2_WAY_INCR 0x80000 /* l2-ec-way = <20:19> */ #define PN_L2_WAY_LIM INT64_C(0x200000) #define PN_L2_WAY_SHIFT 19 #define PN_L3_SIZE 0x2000000 #define PN_L3_LINESIZE 64 #define PN_L3_NWAYS 4 #define PN_L3_SET_SIZE (PN_L3_SIZE / PN_L3_NWAYS) #define PN_L3_MAX_SET (PN_L3_SIZE - PN_L3_SET_SIZE) #define PN_L3_WAY_SHIFT 23 #define PN_L3_TAG_RD_MASK 0x7fffc0 /* ec_tag = PA<22:6> */ #define PN_L3_WAY_INCR 0x800000 /* ec_way = <24:23> */ #define PN_L3_WAY_LIM INT64_C(0x2000000) /* Pcache Defines */ #define PN_PCACHE_ADDR_MASK 0x1c0 /* PC_addr = <8:6> */ #define PN_PCACHE_WAY_INCR 0x200 /* PC_way = <10:9> */ #define PN_PCACHE_WORD_SHIFT 3 /* PC_dbl_word = <5:3> */ #define PN_PCACHE_NWAYS 4 /* Cheetah Ecache is direct-mapped, Cheetah+ can be 2-way or direct-mapped */ #define CH_ECACHE_NWAY 1 #if defined(CHEETAH_PLUS) #define CHP_ECACHE_NWAY 2 #define PN_ECACHE_NWAY 4 #endif /* CHEETAH_PLUS */ #if defined(JALAPENO) || defined(SERRANO) #define JP_ECACHE_NWAY 4 #define JP_ECACHE_NWAY_SHIFT 2 #endif /* JALAPENO || SERRANO */ /* Maximum Ecache size */ #define CH_ECACHE_MAX_SIZE CH_ECACHE_8M_SIZE /* Minimum Ecache line size */ #define CH_ECACHE_MIN_LSIZE 64 /* Maximum Ecache line size - 8Mb Ecache has 512 byte linesize */ #define CH_ECACHE_MAX_LSIZE 512 /* Size of Ecache data staging register size (see Cheetah PRM 10.7.2) */ #define CH_ECACHE_STGREG_SIZE 32 #define CH_ECACHE_STGREG_TOTALSIZE 40 /* data regs + ecc */ /* The number of staging registers containing data, for ASI_EC_DATA */ #define CH_ECACHE_STGREG_NUM (CH_ECACHE_STGREG_SIZE / sizeof (uint64_t)) /* Size of Ecache data subblock which has state field in Ecache tag */ #define CH_ECACHE_SUBBLK_SIZE 64 #define CH_ECACHE_SUBBLK_SHIFT 6 #if defined(JALAPENO) || defined(SERRANO) #define JP_ECACHE_MAX_LSIZE CH_ECACHE_SUBBLK_SIZE #define JP_ECACHE_MAX_SIZE 0x400000 #endif /* JALAPENO || SERRANO */ /* * Maximum ecache setsize to support page coloring of heterogenous * cheetah+ cpus. Max ecache setsize is calculated to be the max ecache size * divided by the minimum associativity of the max ecache. * * NOTE: CHP_ECACHE_MAX_SIZE and CHP_ECACHE_MIN_NWAY need to be updated with * new cheetah+ cpus. The maximum setsize may not necessarily be associated with * the max ecache size if the cache associativity is large. If so, MAX_SETSIZE * needs to be updated accordingly. */ #if defined(CHEETAH_PLUS) #define CHP_ECACHE_MIN_NWAY 1 /* direct-mapped */ #define CHP_ECACHE_MAX_SIZE CH_ECACHE_MAX_SIZE #define CHP_ECACHE_MAX_SETSIZE (CHP_ECACHE_MAX_SIZE / CHP_ECACHE_MIN_NWAY) #endif /* CHEETAH_PLUS */ /* * Bits to shift EC_tag field of E$ tag to form PA * (See Cheetah PRM 10.7.4, Cheetah+ Delta PRM 10.7) */ #if defined(JALAPENO) || defined(SERRANO) #define CH_ECTAG_PA_SHIFT 18 #elif defined(CHEETAH_PLUS) #define CH_ECTAG_PA_SHIFT 2 #else /* CHEETAH_PLUS */ #define CH_ECTAG_PA_SHIFT 1 #endif /* CHEETAH_PLUS */ #define PN_L3TAG_PA_SHIFT 1 #define PN_L3TAG_PA_MASK 0xfffff000000 /* tag bits[43:24] */ #define PN_L2TAG_PA_MASK 0x7fffff80000 /* tag bits[42:19] */ #if defined(JALAPENO) || defined(SERRANO) /* * Macros for Jalapeno L2 Cache Tag/State/Parity * * +-----------+--------+--------+----------------------+ * | - | EC_par |EC_state| EC_tag = PA[42:18] | * +-----------+--------+--------+----------------------+ * 63:29 28 27:25 24:0 */ /* * Constants representing the complete Jalapeno Ecache tag state: */ #define JP_ECSTATE_SIZE 3 /* three bits */ #define JP_ECSTATE_MASK 0x7 /* three bit field */ #define JP_ECSTATE_INV 0x0 /* invalid */ #define JP_ECSTATE_SHR 0x1 /* shared */ #define JP_ECSTATE_RES1 0x2 /* reserved */ #define JP_ECSTATE_EXL 0x3 /* exclusive */ #define JP_ECSTATE_RES2 0x4 /* reserved */ #define JP_ECSTATE_OWN 0x5 /* owner */ #define JP_ECSTATE_MOD 0x7 /* modified */ #define JP_ECSTATE_RES3 0x6 /* reserved */ #define JP_ECTAG_STATE_SHIFT 25 #define CH_ECSTATE_SIZE JP_ECSTATE_SIZE #define CH_ECSTATE_MASK JP_ECSTATE_MASK #define CH_ECSTATE_INV JP_ECSTATE_INV #define CH_ECSTATE_SHR JP_ECSTATE_SHR #define CH_ECSTATE_EXL JP_ECSTATE_EXL #define CH_ECSTATE_OWN JP_ECSTATE_OWN #define CH_ECSTATE_MOD JP_ECSTATE_MOD #define CH_ECSTATE_RES1 JP_ECSTATE_RES1 #define CH_ECSTATE_OWS JP_ECSTATE_RES3 #define CH_ECSTATE_RES2 JP_ECSTATE_RES2 /* Number of subblock states per Ecache line. */ #define CH_ECTAG_NSUBBLKS(totalsize) 1 /* Mask for Tag state(s) field, 3 bits per subblock state. */ #define CH_ECTAG_STATE_SHIFT(subblk) JP_ECTAG_STATE_SHIFT #define CH_ECTAG_STATE_MASK(totalsize) \ ((uint64_t)(JP_ECSTATE_MASK<> JP_ECTAG_STATE_SHIFT) & JP_ECSTATE_MASK) #else /* JALAPENO || SERRANO */ /* * Constants representing the complete Cheetah Ecache tag state: */ #define CH_ECSTATE_SIZE 3 /* three bits per subblock */ #define CH_ECSTATE_MASK 0x7 /* three bit field */ #define CH_ECSTATE_INV 0x0 /* invalid */ #define CH_ECSTATE_SHR 0x1 /* shared */ #define CH_ECSTATE_EXL 0x2 /* exclusive */ #define CH_ECSTATE_OWN 0x3 /* owner */ #define CH_ECSTATE_MOD 0x4 /* modified */ #define CH_ECSTATE_RES1 0x5 /* reserved */ #define CH_ECSTATE_OWS 0x6 /* owner/shared */ #define CH_ECSTATE_RES2 0x7 /* reserved */ /* * Macros for Cheetah Ecache tags */ /* Number of subblock states per Ecache line. */ #define CH_ECTAG_NSUBBLKS(totalsize) ((totalsize) / CH_ECACHE_1M_SIZE) /* Mask for Tag state(s) field, 3 bits per subblock state. */ #define CH_ECTAG_STATE_SHIFT(subblk) (subblk * CH_ECSTATE_SIZE) #define CH_ECTAG_STATE_MASK(totalsize) \ ((uint64_t) \ ((1 << (CH_ECTAG_NSUBBLKS(totalsize) * CH_ECSTATE_SIZE)) - 1)) /* For a line to be invalid, all of its subblock states must be invalid. */ #define CH_ECTAG_LINE_INVALID(totalsize, tag) \ (((tag) & CH_ECTAG_STATE_MASK(totalsize)) == 0) /* Build address mask for tag physical address bits. */ #define CH_ECTAG_PA_MASK(setsize) P2ALIGN(C_AFAR_PA, (int)(setsize)) /* Get physical address bits from the EC_tag field of an E$ tag */ #define CH_ECTAG_TO_PA(setsize, tag) (((tag) >> CH_ECTAG_PA_SHIFT) & \ CH_ECTAG_PA_MASK(setsize)) /* Given a physical address, compute index for subblock tag state. */ #define CH_ECTAG_PA_TO_SUBBLK(totalsize, pa) \ (((pa) >> CH_ECACHE_SUBBLK_SHIFT) & (CH_ECTAG_NSUBBLKS(totalsize) - 1)) /* Given a physical address and assoc. tag, get the subblock state. */ #define CH_ECTAG_PA_TO_SUBBLK_STATE(totalsize, pa, tag) \ (((tag) >> \ (CH_ECTAG_PA_TO_SUBBLK(totalsize, pa) * CH_ECSTATE_SIZE)) & \ CH_ECSTATE_MASK) #endif /* JALAPENO || SERRANO */ /* Panther only has one EC_State field in the L3 tag */ #define PN_L3_LINE_INVALID(tag) (((tag) & CH_ECSTATE_MASK) == 0) /* Panther only has one State field in the L2 tag */ #define PN_L2_LINE_INVALID(tag) (((tag) & CH_ECSTATE_MASK) == 0) /* Get physical address bits from the EC_tag field of an L3$ tag */ #define PN_L3TAG_TO_PA(tag) (((tag) & PN_L3TAG_PA_MASK) >> \ PN_L3TAG_PA_SHIFT) /* Get physical address bits from the tag field of an L2$ tag */ #define PN_L2TAG_TO_PA(tag) ((tag) & PN_L2TAG_PA_MASK) #if defined(JALAPENO) || defined(SERRANO) /* * Jalapeno L2 Cache ASI_ECACHE_FLUSH: * +-------+-----------------+--------+---+-----+-------------+------+ * | - | Port_ID | - | EC_Way | 1 | - | EC_Tag_Addr | - | * +-------+-----------------+--------+---+-----+-------------+------+ * 63:41 40:36 35:34 33:32 31 30:18 17:6 5:0 */ #define JP_EC_TO_SET_SIZE_SHIFT 2 #define JP_ECACHE_IDX_DISP_FLUSH INT64_C(0x0000000080000000) #define JP_ECFLUSH_PORTID_SHIFT 36 #define JP_ECFLUSH_EC_WAY_SHIFT 32 #define JP_EC_TAG_DATA_WAY_SHIFT JP_ECFLUSH_EC_WAY_SHIFT #endif /* JALAPENO || SERRANO */ /* * Macros for Jaguar Ecache tags */ /* Ecache sizes */ #define JG_ECACHE_8M_SIZE 0x800000 #define JG_ECACHE_4M_SIZE 0x400000 /* Jaguar E$ tag LRU mask */ #define JG_LRU_MASK UINT64_C(0x0000040000000000) /* PA<42> LRU bit */ /* * Note that Jaguar and Cheetah/Cheetah+ have the same subblock state size * so rather than duplicating existing defn's we can use the Cheetah+ versions * in the Jaguar defn's below. */ /* Number of subblock states per Ecache line. */ #define JG_ECTAG_NSUBBLKS(cachesize) ((cachesize) / JG_ECACHE_4M_SIZE) /* Mask for Tag state(s) field, 3 bits per subblock state. */ #define JG_ECTAG_STATE_MASK(totalsize) \ ((uint64_t) \ ((1 << (JG_ECTAG_NSUBBLKS(totalsize) * CH_ECSTATE_SIZE)) - 1)) /* For a line to be invalid, all of its subblock states must be invalid. */ #define JG_ECTAG_LINE_INVALID(totalsize, tag) \ (((tag) & JG_ECTAG_STATE_MASK(totalsize)) == 0) /* Build address mask for tag physical address bits. */ #define JG_ECTAG_PA_MASK(setsize) P2ALIGN(((~JG_LRU_MASK) & C_AFAR_PA), \ (int)(setsize)) /* Get physical address bits from the EC_tag field of an E$ tag */ #define JG_ECTAG_TO_PA(setsize, tag) ((tag & JG_ECTAG_PA_MASK(setsize))) /* Given a physical address, compute index for subblock tag state. */ #define JG_ECTAG_PA_TO_SUBBLK(totalsize, pa) \ (((pa) >> CH_ECACHE_SUBBLK_SHIFT) & (JG_ECTAG_NSUBBLKS(totalsize) - 1)) /* Given a physical address and assoc. tag, get the subblock state. */ #define JG_ECTAG_PA_TO_SUBBLK_STATE(totalsize, pa, tag) \ (((tag) >> \ (JG_ECTAG_PA_TO_SUBBLK(totalsize, pa) * CH_ECSTATE_SIZE)) & \ CH_ECSTATE_MASK) #if defined(CHEETAH_PLUS) /* * Cheetah+ Tag ECC Bit and Displacement Flush Bit in Ecache Tag Access. * See Cheetah+ Delta PRM 10.7 */ #define CHP_ECACHE_IDX_TAG_ECC INT64_C(0x0000000000800000) #define CHP_ECACHE_IDX_DISP_FLUSH INT64_C(0x0000000001000000) #define PN_L2_IDX_DISP_FLUSH INT64_C(0x0000000000800000) #define PN_L3_IDX_DISP_FLUSH INT64_C(0x0000000004000000) #endif /* CHEETAH_PLUS */ /* * Macros for Cheetah Dcache diagnostic accesses. */ /* * Dcache Index Mask for bits from *AFAR*. Note that Dcache is virtually * indexed, so only bits [12:5] are valid from the AFAR. This * means we have to search through the 4 ways + bit 13 (i.e. we have * to try 8 indexes). */ #define CH_DCACHE_IDX_MASK 0x01fe0 #define CH_DCACHE_IDX_INCR 0x02000 #define CH_DCACHE_IDX_LIMIT 0x10000 #define CH_DCACHE_NWAY 4 #define CH_DCACHE_WAY_MASK 0x0c000 #define CH_DCACHE_WAY_SHIFT 14 #define CH_DCIDX_TO_WAY(idx) (((idx) & CH_DCACHE_WAY_MASK) >> \ CH_DCACHE_WAY_SHIFT) #define CH_DCTAG_PA_MASK INT64_C(0x000007ffffffe000) #define CH_DCTAG_PA_SHIFT 12 #define CH_DCTAG_VALID_BIT INT64_C(0x0000000000000001) #define CH_DCTAG_LINE_INVALID(tag) (((tag) & CH_DCTAG_VALID_BIT) == 0) #define CH_DCIDX_TO_ADDR(idx) ((idx) & CH_DCACHE_IDX_MASK) #define CH_DCTAG_TO_PA(tag) (((tag) << CH_DCTAG_PA_SHIFT) & \ CH_DCTAG_PA_MASK) #define CH_DCTAG_MATCH(tag, pa) (!CH_DCTAG_LINE_INVALID(tag) && \ ((pa) & CH_DCTAG_PA_MASK) == CH_DCTAG_TO_PA(tag)) #define CH_DCSNTAG_MASK INT64_C(0x000007ffffffe000) #define CH_DCSNTAG_TO_PA(tag) ((tag << CH_DCTAG_PA_SHIFT) \ & CH_DCSNTAG_MASK) #define CH_DCUTAG_TO_UTAG(tag) ((tag) & 0xff) #define CH_DCUTAG_TO_VA(tag) ((tag & 0xff) << 14) #define CH_DCUTAG_IDX_MASK 0x03fe0 #define CH_DC_DATA_REG_SIZE 32 #define CH_DC_UTAG_MASK 0xff #if defined(CHEETAH_PLUS) || defined(JALAPENO) || defined(SERRANO) #define CHP_DCTAG_PARMASK INT64_C(0x000000007ffffffe) #define CHP_DCSNTAG_PARMASK INT64_C(0x000000007ffffffe) #define CHP_DCTAG_MASK INT64_C(0x000003ffffffe000) #define CHP_DCSNTAG_MASK INT64_C(0x000003ffffffe000) #define CHP_DCWAY_MASK INT64_C(0x0000000000003fe0) #define CHP_DCUTAG_TO_UTAG(tag) ((tag) & 0xffff) #define CHP_DCPATAG_TO_PA(tag) ((tag << CH_DCTAG_PA_SHIFT) \ & CHP_DCTAG_MASK) #define CHP_DCSNTAG_TO_PA(tag) ((tag << CH_DCTAG_PA_SHIFT) \ & CHP_DCSNTAG_MASK) #define CHP_DC_IDX(dcp) ((dcp->dc_idx & 0x1fc0) >> 5) #define CHP_DCTAG_PARITY(tag) (tag & CHP_DC_TAG) #define CHP_DCSNTAG_PARITY(tag) (tag & CHP_DC_SNTAG) #define CHP_DC_TAG 0x1 #define CHP_DC_SNTAG 0x2 #define PN_DC_DATA_PARITY_SHIFT 8 #define PN_DC_DATA_PARITY_MASK 0xff #define PN_DC_DATA_ALL_PARITY_MASK 0xffffffff #endif /* CHEETAH_PLUS || JALAPENO || SERRANO */ #define PN_DC_DATA_PARITY_BIT_SHIFT 16 /* * Macros for Cheetah Icache diagnostic accesses. */ /* * Icache Index Mask for bits from *AFAR*. Note that the Icache is virtually * indexed for Panther and physically indexed for other CPUs. For Panther, * we obtain an index by looking at bits[12:6] of the AFAR PA and we check * both lines associated with bit 13 = 0 or 1 (total of 8 entries to check). * For non-Panther CPUs we get our index by just looking at bits[12:5] of * the AFAR PA (total of 4 entries to check). The Icache index is also * confusing because we need to shift the virtual address bits left by one * for the index. */ #define CH_ICACHE_IDX_MASK 0x01fe0 #define PN_ICACHE_IDX_MASK 0x03fc0 #define PN_ICACHE_VA_IDX_MASK 0x01fc0 #define CH_ICACHE_IDX_SHIFT 1 #define CH_ICACHE_IDX_INCR 0x04000 #define PN_ICACHE_IDX_INCR 0x08000 #define CH_ICACHE_IDX_LIMIT 0x10000 #define PN_ICACHE_IDX_LIMIT 0x20000 #define CH_ICACHE_NWAY 4 #define CH_ICACHE_WAY_MASK 0x0c000 #define CH_ICACHE_WAY_SHIFT 14 #define PN_ICACHE_WAY_MASK 0x18000 #define PN_ICACHE_WAY_SHIFT 15 #define CH_ICTAG_PA 0x00 #define CH_ICTAG_UTAG 0x08 #define CH_ICTAG_UPPER 0x10 #define CH_ICTAG_LOWER 0x30 #define CH_ICTAG_TMASK 0x3f #define CH_ICPATAG_MASK INT64_C(0x000007ffffffe000) #define CH_ICPATAG_LBITS 0xff /* lower 8 bits undefined */ #define CH_ICPATAG_SHIFT 5 #define CH_ICIDX_TO_WAY(idx) (((idx) & CH_ICACHE_WAY_MASK) >> \ CH_ICACHE_WAY_SHIFT) #define PN_ICIDX_TO_WAY(idx) (((idx) & PN_ICACHE_WAY_MASK) >> \ PN_ICACHE_WAY_SHIFT) #define CH_ICIDX_TO_ADDR(idx) (((idx) >> CH_ICACHE_IDX_SHIFT) & \ CH_ICACHE_IDX_MASK) #define PN_ICIDX_TO_ADDR(idx) (((idx) >> CH_ICACHE_IDX_SHIFT) & \ PN_ICACHE_IDX_MASK) #define CH_ICPATAG_TO_PA(tag) (((tag) << CH_ICPATAG_SHIFT) & \ CH_ICPATAG_MASK) #define CH_ICPATAG_MATCH(tag, pa) (CH_ICPATAG_TO_PA(tag) == \ ((pa) & CH_ICPATAG_MASK)) #define CH_ICUTAG_MASK INT64_C(0x00000000001fe000) #define CH_ICUTAG_TO_UTAG(tag) (((tag) >> 38) & 0xff) #define CH_ICUTAG_TO_VA(tag) (((tag) >> 25) & CH_ICUTAG_MASK) #define CH_ICSNTAG_MASK INT64_C(0x000007ffffffe000) #define CH_ICSNTAG_TO_PA(tag) (((tag) << 5) & CH_ICSNTAG_MASK) #define CH_ICLOWER_VALID INT64_C(0x0004000000000000) #define CH_ICUPPER_VALID INT64_C(0x0004000000000000) #define CH_ICLOWER_TO_VPRED(lower) (((lower) >> 46) & 0xf) #define CH_ICUPPER_TO_VPRED(upper) (((upper) >> 46) & 0xf) #if defined(CHEETAH_PLUS) #define CH_ICTAG_MATCH(icp, pa) (((icp->ic_lower | icp->ic_upper) & \ CH_ICLOWER_VALID) && \ CH_ICPATAG_MATCH(icp->ic_patag, pa)) #define PN_ICUTAG_TO_VA(tag) ((tag >> 24) & PN_ICUTAG_MASK) #else /* CHEETAH_PLUS */ #define CH_ICTAG_MATCH(icp, pa) ((icp->ic_lower & CH_ICLOWER_VALID) &&\ CH_ICPATAG_MATCH(icp->ic_patag, pa)) #define PN_ICUTAG_TO_VA(tag) 0 #endif /* CHEETAH_PLUS */ #define CH_IC_DATA_REG_SIZE 64 #define PN_IC_DATA_REG_SIZE 128 #if defined(CHEETAH_PLUS) || defined(JALAPENO) || defined(SERRANO) #define CHP_IC_IDX(icp) ((icp->ic_idx & 0x3fc0) >> 6) #define PN_IC_IDX(icp) ((icp->ic_idx & 0x7f80) >> 7) #define CHP_ICPATAG_MASK INT64_C(0x000003ffffffe000) #define CHP_ICSNTAG_MASK INT64_C(0x000003ffffffe000) #define CHP_ICUTAG_MASK INT64_C(0x00000000001fe000) #define PN_ICUTAG_MASK INT64_C(0x00000000003fc000) #define CHP_ICWAY_MASK INT64_C(0x0000000000003fe0) #define CHP_ICPATAG_TO_PA(tag) ((tag << 5) & CHP_ICPATAG_MASK) #define CHP_ICSNTAG_TO_PA(tag) ((tag << 5) & CHP_ICSNTAG_MASK) #define CHP_ICUTAG_TO_VA(tag) ((tag >> 25) & CHP_ICUTAG_MASK) #define CHP_ICPATAG_PARMASK INT64_C(0x0000003fffffff00) #define CHP_ICSNTAG_PARMASK INT64_C(0x0000003fffffff00) /* * Cheetah+ Icache data parity masks, see Cheetah+ Delta PRM 7.3 * PC-relative instructions have different bits protected by parity. * Predecode bit 7 is not parity protected and indicates if the instruction * is PC-relative or not. */ #define CH_ICDATA_PRED_ISPCREL INT64_C(0x0000008000000000) #define CHP_ICDATA_PCREL_PARMASK INT64_C(0x0000039ffffff800) #define CHP_ICDATA_NPCREL_PARMASK INT64_C(0x000003bfffffffff) #define PN_ICDATA_PARITY_BIT_MASK INT64_C(0x40000000000) #define CHP_ICTAG_PARITY(tag) (tag & CHP_IC_TAG) #define CHP_ICSNTAG_PARITY(tag) (tag & CHP_IC_SNTAG) #define CHP_IC_TAG 0x1 #define CHP_IC_SNTAG 0x2 #endif /* CHEETAH_PLUS || JALAPENO || SERRANO */ #if defined(CHEETAH_PLUS) #define PN_IPB_TAG_ADDR_LINESIZE 0x40 #define PN_IPB_TAG_ADDR_MAX 0x3c0 #endif /* CHEETAH_PLUS */ /* * Macros for Pcache diagnostic accesses. */ #define CH_PC_WAY_MASK 0x600 #define CH_PC_WAY_SHIFT 9 #define CH_PCIDX_TO_WAY(idx) (((idx) & CH_PC_WAY_MASK) >> \ CH_PC_WAY_SHIFT) #define CH_PC_DATA_REG_SIZE 64 #define CH_PCACHE_NWAY 4 #define PN_PC_PARITY_SHIFT 50 #define PN_PC_PARITY_MASK 0xff #define PN_PC_PARITY_BITS(status) \ (((status) >> PN_PC_PARITY_SHIFT) & PN_PC_PARITY_MASK) #define CH_PC_IDX_ADR(pcp) ((pcp->pc_idx & 0x1c0) >> 6) #define CH_PCTAG_ADDR_SHIFT 6 #define CH_PC_PA_MASK 0x7ffffffffc0 #define CH_PCTAG_TO_VA(tag) ((tag) << CH_PCTAG_ADDR_SHIFT) #define CH_PCSTAG_TO_PA(tag) (((tag) << CH_PCTAG_ADDR_SHIFT) & \ CH_PC_PA_MASK) #define CH_PCTAG_BNK0_VALID_MASK 0x2000000000000000 #define CH_PCTAG_BNK1_VALID_MASK 0x1000000000000000 #define CH_PCTAG_BNK0_INVALID(tag) (((tag) & CH_PCTAG_BNK0_VALID_MASK) == \ 0) #define CH_PCTAG_BNK1_INVALID(tag) (((tag) & CH_PCTAG_BNK1_VALID_MASK) == \ 0) /* * CPU Log Out Structure parameters. * This structure is filled in by the Error Trap handlers and captures the * Ecache/Dcache/Icache line(s) associated with the AFAR. * For Cheetah Phase II, this structure is filled in at the TL=0 code. For * Cheetah Phase III, this will be filled in at the trap handlers. */ /* * We use this to mark the LOGOUT structure as invalid. Note that * this cannot be a valid AFAR, as AFAR bits outside of [41:5] should always * be zero. */ #define LOGOUT_INVALID_U32 0xecc1ecc1 #define LOGOUT_INVALID_L32 0xecc1ecc1 #define LOGOUT_INVALID UINT64_C(0xecc1ecc1ecc1ecc1) /* * Max number of TLs to support for Fast ECC or Cache Parity Errors * at TL>0. Traps are OK from TL=1-2, at TL>=3, we will Red Mode. */ #define CH_ERR_TL1_TLMAX 2 /* * Software traps used by TL>0 handlers. */ #define SWTRAP_0 0 /* Used by Fast ECC */ #define SWTRAP_1 1 /* Used by Dcache Parity */ #define SWTRAP_2 2 /* Used by Icache Parity */ /* * Bit mask defines for various Cheetah Error conditions. */ #define CH_ERR_FECC 0x01 /* Data/Event is Fast ECC */ #define CH_ERR_IPE 0x02 /* Data/Event is Icache Parity Error */ #define CH_ERR_DPE 0x04 /* Data/Event is Dcache Parity Error */ #define CH_ERR_PANIC 0x08 /* Fatal error in TL>0 handler */ #define CH_ERR_TL 0x10 /* Error occured at TL>0 */ #define CH_ERR_ME_SHIFT 8 /* If multiple errors, shift left newest */ #define CH_ERR_ME_FLAGS(x) ((x) >> CH_ERR_ME_SHIFT) /* * Defines for Bit8 (CH_ERR_TSTATE_IC_ON) and Bit9 (CH_ERR_TSTATE_DC_ON) * in %tstate, which is used to remember D$/I$ state on Fast ECC handler * at TL>0. Note that DCU_IC=0x1, DCU_DC=0x2. */ #define CH_ERR_G2_TO_TSTATE_SHFT 10 #define CH_ERR_DCU_TO_TSTATE_SHFT 8 #define CH_ERR_TSTATE_IC_ON (DCU_IC << CH_ERR_DCU_TO_TSTATE_SHFT) #define CH_ERR_TSTATE_DC_ON (DCU_DC << CH_ERR_DCU_TO_TSTATE_SHFT) /* * Multiple offset TL>0 handler structure elements */ #define CH_ERR_TL1_DATA (CH_ERR_TL1_LOGOUT + CH_CLO_DATA) #define CH_ERR_TL1_SDW_DATA (CH_ERR_TL1_LOGOUT + CH_CLO_SDW_DATA) #define CH_ERR_TL1_NEST_CNT (CH_ERR_TL1_LOGOUT + CH_CLO_NEST_CNT) #define CH_ERR_TL1_AFSR (CH_ERR_TL1_DATA + CH_CHD_AFSR) #define CH_ERR_TL1_SDW_AFSR (CH_ERR_TL1_SDW_DATA + CH_CHD_AFSR) #define CH_ERR_TL1_SDW_AFSR_EXT (CH_ERR_TL1_SDW_DATA + CH_CHD_AFSR_EXT) /* * Interval for deferred CEEN reenable */ #define CPU_CEEN_DELAY_SECS 6 /* * flags for flt_trapped_ce variable */ #define CE_CEEN_DEFER 0x1 /* no CEEN reenable in trap handler */ #define CE_CEEN_NODEFER 0x2 /* reenable CEEN in handler */ #define CE_CEEN_TIMEOUT 0x4 /* CE caught by timeout */ #define CE_CEEN_TRAPPED 0x8 /* CE caught by trap */ /* * default value for cpu_ce_not_deferred */ #if defined(JALAPENO) || defined(SERRANO) #define CPU_CE_NOT_DEFERRED (C_AFSR_CECC_ERRS & \ ~(C_AFSR_CE | C_AFSR_FRC | C_AFSR_RCE | C_AFSR_EMC)) #else /* JALAPENO || SERRANO */ #define CPU_CE_NOT_DEFERRED C_AFSR_CECC_ERRS & \ ~(C_AFSR_CE | C_AFSR_EMC) #endif /* JALAPENO || SERRANO */ #define CPU_CE_NOT_DEFERRED_EXT C_AFSR_EXT_CECC_ERRS #if defined(CHEETAH_PLUS) /* * VA for primary and shadow AFSR/AFAR/AFSR_EXT registers */ #define ASI_SHADOW_REG_VA 0x8 #define ASI_AFSR_EXT_VA 0x10 #define ASI_SHADOW_AFSR_EXT_VA 0x18 /* * Bitmask for keeping track of core parking in ECC error handlers. * We share a register that also saves the DCUCR value so we use * one of the reserved bit positions of the DCUCR register to keep * track of whether or not we have parked our sibling core. */ #define PN_PARKED_OTHER_CORE 0x20 #define PN_BOTH_CORES_RUNNING 0x3 /* * Panther EMU Activity Status Register Bits. */ #define ASI_EMU_ACT_STATUS_VA 0x18 #define MCU_ACT_STATUS INT64_C(0x0000000000000001) #define SIU_ACT_STATUS INT64_C(0x0000000000000002) #endif /* CHEETAH_PLUS */ #define ASI_CESR_ID_VA 0x40 /* ASI_CESRD_ID per-core registers */ #define ASR_DISPATCH_CONTROL %asr18 #define ASR_DISPATCH_CONTROL_BPE 0x20 /* * Max number of E$ sets logged in ch_diag_data structure */ #define CHD_EC_DATA_SETS 4 /* max 4 sets of E$ data */ /* * Definitions for Panther TLB parity handling. */ #define PN_ITLB_NWAYS 2 #define PN_NUM_512_ITLBS 1 #define PN_DTLB_NWAYS 2 #define PN_NUM_512_DTLBS 2 #define PN_SFSR_PARITY_SHIFT 12 #define PN_ITLB_PGSZ_SHIFT 22 #define PN_ITLB_PGSZ_MASK (7 << PN_ITLB_PGSZ_SHIFT) #define PN_DTLB_PGSZ0_SHIFT 16 #define PN_DTLB_PGSZ0_MASK (7 << PN_DTLB_PGSZ0_SHIFT) #define PN_DTLB_PGSZ1_SHIFT 19 #define PN_DTLB_PGSZ1_MASK (7 << PN_DTLB_PGSZ1_SHIFT) #define PN_DTLB_PGSZ_MASK (PN_DTLB_PGSZ1_MASK | PN_DTLB_PGSZ0_MASK) #define PN_DTLB_T512_0 (2 << 16) #define PN_DTLB_T512_1 (3 << 16) #define PN_TLO_INFO_IMMU_SHIFT 14 #define PN_TLO_INFO_IMMU (1 << PN_TLO_INFO_IMMU_SHIFT) #define PN_TLO_INFO_TL1_SHIFT 13 #define PN_TLO_INFO_TL1 (1 << PN_TLO_INFO_TL1_SHIFT) #define PN_ITLB_T512 (2 << 16) #define PN_TLB_ACC_IDX_SHIFT 3 #define PN_TLB_ACC_WAY_BIT (1 << 11) #define PN_TLB_DIAGACC_OFFSET 0x40000 /* Diag Acc ASI VA offset */ /* * tag parity = XOR(Size[2:0],Global,VA[63:21],Context[12:0]) * which requires looking at both the tag and the data. */ #define PN_TLB_TAG_PARITY_TAG_MASK 0xffffffffffe01fff #define PN_TLB_TAG_PARITY_DATA_MASK 0x6001400000000001 /* data parity = XOR(NFO,IE,PA[42:13],CP,CV,E,P,W) */ #define PN_TLB_DATA_PARITY_DATA_MASK 0x180087ffffffe03e #ifdef _KERNEL #ifndef _ASM #include /* * One Ecache data element, 32 bytes of data, 8 bytes of ECC. * See Cheetah PRM 10.7.2. */ typedef struct ec_data_elm { uint64_t ec_d8[CH_ECACHE_STGREG_NUM]; uint64_t ec_eccd; /* EC_data_ECC field */ } ec_data_elm_t; /* * L2 and L3 cache data captured by cpu log out code. * See Cheetah PRM 10.7.4. */ typedef struct ch_ec_data { uint64_t ec_logflag; /* Flag indicates if data was logged */ uint64_t ec_idx; /* Ecache index */ uint64_t ec_way; /* Ecache way */ uint64_t ec_tag; /* Ecache Tag */ uint64_t ec_tag_ecc; /* Ecache Tag ECC (Cheetah+ only) */ ec_data_elm_t ec_data[CH_ECACHE_SUBBLK_SIZE/CH_ECACHE_STGREG_SIZE]; } ch_ec_data_t; /* * Dcache data captured by cpu log out code and get_dcache_dtag. * See Cheetah PRM 10.6.[1-4]. */ typedef struct ch_dc_data { uint64_t dc_logflag; /* Flag indicates if data was logged */ uint64_t dc_idx; /* Dcache index */ uint64_t dc_way; /* Dcache way */ uint64_t dc_tag; /* Tag/Valid Fields */ uint64_t dc_utag; /* Microtag */ uint64_t dc_sntag; /* Snoop Tag */ uint64_t dc_data[CH_DC_DATA_REG_SIZE/sizeof (uint64_t)]; /* Data */ uint64_t dc_pn_data_parity; /* Data parity bits for Panther */ } ch_dc_data_t; /* * Icache data captured by cpu log out code and get_icache_dtag. * See Cheetah PRM 10.4.[1-3]. */ typedef struct ch_ic_data { uint64_t ic_logflag; /* Flag indicates if data was logged */ uint64_t ic_idx; /* Icache index */ uint64_t ic_way; /* Icache way */ uint64_t ic_patag; /* Physical address tag */ uint64_t ic_utag; /* Microtag */ uint64_t ic_upper; /* Upper valid/predict tag */ uint64_t ic_lower; /* Lower valid/predict tag */ uint64_t ic_sntag; /* Snoop Tag */ uint64_t ic_data[PN_IC_DATA_REG_SIZE/sizeof (uint64_t)]; /* Data */ } ch_ic_data_t; /* * Pcache data captured by get_pcache_dtag */ typedef struct ch_pc_data { uint64_t pc_logflag; /* Flag indicates if data was logged */ uint64_t pc_idx; /* Pcache index */ uint64_t pc_way; /* Pcache way */ uint64_t pc_status; /* Pcache status data */ uint64_t pc_tag; /* Tag/Valid Fields */ uint64_t pc_sntag; /* Snoop Tag */ uint64_t pc_data[CH_PC_DATA_REG_SIZE/sizeof (uint64_t)]; /* Data */ } ch_pc_data_t; /* * CPU Error State */ typedef struct ch_cpu_errors { uint64_t afsr; /* AFSR */ uint64_t afar; /* AFAR */ /* * The following registers don't exist on cheetah */ uint64_t shadow_afsr; /* Shadow AFSR */ uint64_t shadow_afar; /* Shadow AFAR */ uint64_t afsr_ext; /* AFSR1_EXT */ uint64_t shadow_afsr_ext; /* AFSR2_EXT */ uint64_t afar2; /* AFAR2 - Serrano only */ } ch_cpu_errors_t; /* * CPU logout structures. * NOTE: These structures should be the same for Cheetah, Cheetah+, * Jaguar, Panther, and Jalapeno since the assembler code relies * on one set of offsets. Panther is the only processor that * uses the chd_l2_data field since it has both L3 and L2 caches. */ typedef struct ch_diag_data { uint64_t chd_afar; /* AFAR */ uint64_t chd_afsr; /* AFSR */ uint64_t chd_afsr_ext; /* AFSR_EXT */ uint64_t chd_afar2; /* AFAR2 - Serrano only */ ch_ec_data_t chd_ec_data[CHD_EC_DATA_SETS]; /* Ecache data */ ch_ec_data_t chd_l2_data[PN_L2_NWAYS]; /* L2 cache data */ ch_dc_data_t chd_dc_data; /* Dcache data */ ch_ic_data_t chd_ic_data; /* Icache data */ } ch_diag_data_t; /* * Top level CPU logout structure. * clo_flags is used to hold information such as trap type, trap level, * CEEN value, etc that is needed by the individual trap handlers. Not * all fields in this flag are used by all trap handlers but when they * are used, here's how they are laid out: * * |-------------------------------------------------------| * | | trap type | trap level | |UCEEN| |NCEEN|CEEN| * |-------------------------------------------------------| * 63 19 12 11 8 3 2 1 0 * * Note that the *CEEN bits correspond exactly to the same bit positions * that are used in the error enable register. */ typedef struct ch_cpu_logout { uint64_t clo_flags; /* Information about this trap */ uint64_t clo_nest_cnt; /* To force an upper bound */ ch_diag_data_t clo_data; /* Diag data for primary AFAR */ ch_diag_data_t clo_sdw_data; /* Diag data for shadow AFAR */ } ch_cpu_logout_t; typedef struct ch_tte_entry { uint64_t ch_tte_tag; uint64_t ch_tte_data; } ch_tte_entry_t; /* * Top level CPU logout structure for TLB parity errors. * * tlo_logflag - Flag indicates if data was logged * tlo_info - Used to keep track of a number of values: * itlb pgsz - Page size of the VA whose lookup in the ITLB caused * the exception (from ASI_IMMU_TAG_ACCESS_EXT.) * dtlb pgsz1 - Page size of the VA whose lookup in the DTLB T512_1 * caused the exception (from ASI_DMMU_TAG_ACCESS_EXT.). * dtlb pgsz0 - Page size of the VA whose lookup in the DTLB T512_0 * caused the exception (from ASI_DMMU_TAG_ACCESS_EXT.). * immu - Trap is the result of an ITLB exception if immu == 1. * Otherwise, for DTLB exceptions immu == 0. * tl1 - Set to 1 if the exception occured at TL>0. * context - Context of the VA whose lookup in the TLB caused the * exception (from ASI_[I|D]MMU_TAG_ACCESS.) * |---------------------------------------------------------------------| * |...| itlb pgsz | dtlb pgsz1 | dtlb pgsz0 |...| immu | tl1 | context | * |---------------------------------------------------------------------| * 24 22 21 19 18 16 14 13 12 0 * * tlo_addr - VA that cause the MMU exception trap. * tlo_pc - PC where the exception occured. * tlo_itlb_tte - TTEs that were in the ITLB after the trap at the index * specific to the VA and page size in question. * tlo_dtlb_tte - TTEs that were in the DTLB after the trap at the index * specific to the VA and page size in question. */ typedef struct pn_tlb_logout { uint64_t tlo_logflag; uint64_t tlo_info; uint64_t tlo_addr; uint64_t tlo_pc; ch_tte_entry_t tlo_itlb_tte[PN_ITLB_NWAYS * PN_NUM_512_ITLBS]; ch_tte_entry_t tlo_dtlb_tte[PN_DTLB_NWAYS * PN_NUM_512_DTLBS]; } pn_tlb_logout_t; #if defined(CPU_IMP_L1_CACHE_PARITY) /* * Parity error logging structure. */ typedef union ch_l1_parity_log { struct { int cpl_way; /* Faulty line way */ int cpl_off; /* Faulty line offset */ int cpl_tag; /* Faulty tags list */ int cpl_lcnt; /* Faulty cache lines */ ch_dc_data_t cpl_dc[CH_DCACHE_NWAY]; /* D$ data nWays */ ch_pc_data_t cpl_pc[CH_PCACHE_NWAY]; /* P$ data nWays */ int cpl_cache; /* error in D$ or P$? */ } dpe; /* D$ parity error */ struct { int cpl_way; /* Faulty line way */ int cpl_off; /* Faulty line offset */ int cpl_tag; /* Faulty tags list */ int cpl_lcnt; /* Faulty cache lines */ ch_ic_data_t cpl_ic[CH_ICACHE_NWAY]; /* I$ data nWays */ } ipe; /* I$ parity error */ } ch_l1_parity_log_t; #endif /* CPU_IMP_L1_CACHE_PARITY */ /* * Error at TL>0 CPU logout data. * Needs some extra space to save %g registers and miscellaneous info. */ typedef struct ch_err_tl1_data { uint64_t ch_err_tl1_g1; /* Saved %g1 */ uint64_t ch_err_tl1_g2; /* Saved %g2 */ uint64_t ch_err_tl1_g3; /* Saved %g3 */ uint64_t ch_err_tl1_g4; /* Saved %g4 */ uint64_t ch_err_tl1_g5; /* Saved %g5 */ uint64_t ch_err_tl1_g6; /* Saved %g6 */ uint64_t ch_err_tl1_g7; /* Saved %g7 */ uint64_t ch_err_tl1_tpc; /* Trap PC */ uint64_t ch_err_tl1_flags; /* miscellaneous flags */ uint64_t ch_err_tl1_tmp; /* some handlers may use as tmp */ ch_cpu_logout_t ch_err_tl1_logout; /* logout */ } ch_err_tl1_data_t; /* Indices into chsm_outstanding and friends */ #define CACHE_SCRUBBER_INFO_E 0 #define CACHE_SCRUBBER_INFO_D 1 #define CACHE_SCRUBBER_INFO_I 2 /* We define 3 scrubbers: E$, D$, and I$ */ #define CACHE_SCRUBBER_COUNT 3 /* * The ch_scrub_misc structure contains miscellaneous bookkeeping * items for scrubbing the I$, D$, and E$. * * For a description of the use of chsm_core_state and why it's not needed * on Jaguar, see the comment above cpu_scrub_cpu_setup() in us3_cheetahplus.c. */ typedef struct ch_scrub_misc { uint32_t chsm_outstanding[CACHE_SCRUBBER_COUNT]; /* outstanding requests */ int chsm_flush_index[CACHE_SCRUBBER_COUNT]; /* next line to flush */ int chsm_enable[CACHE_SCRUBBER_COUNT]; /* is this scrubber enabled on this core? */ int chsm_ecache_nlines; /* no. of E$ lines */ int chsm_ecache_busy; /* keeps track if cpu busy */ int chsm_icache_nlines; /* no. of I$ lines */ int chsm_core_state; /* which core the scrubber is */ /* running on (Panther only) */ } ch_scrub_misc_t; /* * Cheetah module private data structure. One of these is allocated for * each valid cpu at setup time and is pointed to by the machcpu * "cpu_private" pointer. For Cheetah, we have the miscellaneous scrubber * variables and cpu log out structures for Fast ECC traps at TL=0, * Disrupting (correctable) traps and Deferred (asynchronous) traps. For * Disrupting traps only one log out structure is needed because we cannot * get a TL>0 disrupting trap since it obeys IE. For Deferred traps we * cannot get a TL>0 because we turn off NCEEN during log out capture. E$ * set size (E$ size / nways) is saved here to avoid repeated calculations. * NB: The ch_err_tl1_data_t structures cannot cross a page boundary * because we use physical addresses to access them. We ensure this * by allocating them near the front of cheetah_private_t, which is * aligned on PAGESIZE (8192) via kmem_cache_create, and by ASSERTing * sizeof (chpr_tl1_err_data) <= CH_ECACHE_MAX_LSIZE in the * cpu_init_private routines. * NB: chpr_icache_size and chpr_icache_linesize need to be at the front * of cheetah_private_t because putting them after chpr_tl1_err_data * would make their offsets > 4195. */ typedef struct cheetah_private { int chpr_icache_size; int chpr_icache_linesize; ch_err_tl1_data_t chpr_tl1_err_data[CH_ERR_TL1_TLMAX]; ch_scrub_misc_t chpr_scrub_misc; int chpr_ec_set_size; ch_cpu_logout_t chpr_fecctl0_logout; ch_cpu_logout_t chpr_cecc_logout; ch_cpu_logout_t chpr_async_logout; pn_tlb_logout_t chpr_tlb_logout; uint64_t chpr_fpras_timestamp[FPRAS_NCOPYOPS]; hrtime_t chpr_ceptnr_seltime; int chpr_ceptnr_id; } cheetah_private_t; #endif /* _ASM */ #endif /* _KERNEL */ #ifdef __cplusplus } #endif #endif /* _SYS_CHEETAHREGS_H */