1 /* SPDX-License-Identifier: GPL-2.0 */ 2 /* 3 * Arm Statistical Profiling Extensions (SPE) support 4 * Copyright (c) 2017-2018, Arm Ltd. 5 */ 6 7 #ifndef INCLUDE__ARM_SPE_PKT_DECODER_H__ 8 #define INCLUDE__ARM_SPE_PKT_DECODER_H__ 9 10 #include <stddef.h> 11 #include <stdint.h> 12 13 #define ARM_SPE_PKT_DESC_MAX 256 14 15 #define ARM_SPE_NEED_MORE_BYTES -1 16 #define ARM_SPE_BAD_PACKET -2 17 18 #define ARM_SPE_PKT_MAX_SZ 16 19 20 enum arm_spe_pkt_type { 21 ARM_SPE_BAD, 22 ARM_SPE_PAD, 23 ARM_SPE_END, 24 ARM_SPE_TIMESTAMP, 25 ARM_SPE_ADDRESS, 26 ARM_SPE_COUNTER, 27 ARM_SPE_CONTEXT, 28 ARM_SPE_OP_TYPE, 29 ARM_SPE_EVENTS, 30 ARM_SPE_DATA_SOURCE, 31 }; 32 33 struct arm_spe_pkt { 34 enum arm_spe_pkt_type type; 35 unsigned char index; 36 uint64_t payload; 37 }; 38 39 /* Short header (HEADER0) and extended header (HEADER1) */ 40 #define SPE_HEADER0_PAD 0x0 41 #define SPE_HEADER0_END 0x1 42 #define SPE_HEADER0_TIMESTAMP 0x71 43 /* Mask for event & data source */ 44 #define SPE_HEADER0_MASK1 (GENMASK_ULL(7, 6) | GENMASK_ULL(3, 0)) 45 #define SPE_HEADER0_EVENTS 0x42 46 #define SPE_HEADER0_SOURCE 0x43 47 /* Mask for context & operation */ 48 #define SPE_HEADER0_MASK2 GENMASK_ULL(7, 2) 49 #define SPE_HEADER0_CONTEXT 0x64 50 #define SPE_HEADER0_OP_TYPE 0x48 51 /* Mask for extended format */ 52 #define SPE_HEADER0_EXTENDED 0x20 53 /* Mask for address & counter */ 54 #define SPE_HEADER0_MASK3 GENMASK_ULL(7, 3) 55 #define SPE_HEADER0_ADDRESS 0xb0 56 #define SPE_HEADER0_COUNTER 0x98 57 #define SPE_HEADER1_ALIGNMENT 0x0 58 59 #define SPE_HDR_SHORT_INDEX(h) ((h) & GENMASK_ULL(2, 0)) 60 #define SPE_HDR_EXTENDED_INDEX(h0, h1) (((h0) & GENMASK_ULL(1, 0)) << 3 | \ 61 SPE_HDR_SHORT_INDEX(h1)) 62 63 /* Address packet header */ 64 #define SPE_ADDR_PKT_HDR_INDEX_INS 0x0 65 #define SPE_ADDR_PKT_HDR_INDEX_BRANCH 0x1 66 #define SPE_ADDR_PKT_HDR_INDEX_DATA_VIRT 0x2 67 #define SPE_ADDR_PKT_HDR_INDEX_DATA_PHYS 0x3 68 #define SPE_ADDR_PKT_HDR_INDEX_PREV_BRANCH 0x4 69 70 /* Address packet payload */ 71 #define SPE_ADDR_PKT_ADDR_BYTE7_SHIFT 56 72 #define SPE_ADDR_PKT_ADDR_GET_BYTES_0_6(v) ((v) & GENMASK_ULL(55, 0)) 73 #define SPE_ADDR_PKT_ADDR_GET_BYTE_6(v) (((v) & GENMASK_ULL(55, 48)) >> 48) 74 75 #define SPE_ADDR_PKT_GET_NS(v) (((v) & BIT_ULL(63)) >> 63) 76 #define SPE_ADDR_PKT_GET_EL(v) (((v) & GENMASK_ULL(62, 61)) >> 61) 77 #define SPE_ADDR_PKT_GET_CH(v) (((v) & BIT_ULL(62)) >> 62) 78 #define SPE_ADDR_PKT_GET_PAT(v) (((v) & GENMASK_ULL(59, 56)) >> 56) 79 80 #define SPE_ADDR_PKT_EL0 0 81 #define SPE_ADDR_PKT_EL1 1 82 #define SPE_ADDR_PKT_EL2 2 83 #define SPE_ADDR_PKT_EL3 3 84 85 /* Context packet header */ 86 #define SPE_CTX_PKT_HDR_INDEX(h) ((h) & GENMASK_ULL(1, 0)) 87 88 /* Counter packet header */ 89 #define SPE_CNT_PKT_HDR_INDEX_TOTAL_LAT 0x0 90 #define SPE_CNT_PKT_HDR_INDEX_ISSUE_LAT 0x1 91 #define SPE_CNT_PKT_HDR_INDEX_TRANS_LAT 0x2 92 93 /* Event packet payload */ 94 enum arm_spe_events { 95 EV_EXCEPTION_GEN = 0, 96 EV_RETIRED = 1, 97 EV_L1D_ACCESS = 2, 98 EV_L1D_REFILL = 3, 99 EV_TLB_ACCESS = 4, 100 EV_TLB_WALK = 5, 101 EV_NOT_TAKEN = 6, 102 EV_MISPRED = 7, 103 EV_LLC_ACCESS = 8, 104 EV_LLC_MISS = 9, 105 EV_REMOTE_ACCESS = 10, 106 EV_ALIGNMENT = 11, 107 EV_PARTIAL_PREDICATE = 17, 108 EV_EMPTY_PREDICATE = 18, 109 }; 110 111 /* Operation packet header */ 112 #define SPE_OP_PKT_HDR_CLASS(h) ((h) & GENMASK_ULL(1, 0)) 113 #define SPE_OP_PKT_HDR_CLASS_OTHER 0x0 114 #define SPE_OP_PKT_HDR_CLASS_LD_ST_ATOMIC 0x1 115 #define SPE_OP_PKT_HDR_CLASS_BR_ERET 0x2 116 117 #define SPE_OP_PKT_IS_OTHER_SVE_OP(v) (((v) & (BIT(7) | BIT(3) | BIT(0))) == 0x8) 118 119 #define SPE_OP_PKT_COND BIT(0) 120 121 #define SPE_OP_PKT_LDST_SUBCLASS_GET(v) ((v) & GENMASK_ULL(7, 1)) 122 #define SPE_OP_PKT_LDST_SUBCLASS_GP_REG 0x0 123 #define SPE_OP_PKT_LDST_SUBCLASS_SIMD_FP 0x4 124 #define SPE_OP_PKT_LDST_SUBCLASS_UNSPEC_REG 0x10 125 #define SPE_OP_PKT_LDST_SUBCLASS_NV_SYSREG 0x30 126 127 #define SPE_OP_PKT_IS_LDST_ATOMIC(v) (((v) & (GENMASK_ULL(7, 5) | BIT(1))) == 0x2) 128 129 #define SPE_OP_PKT_AR BIT(4) 130 #define SPE_OP_PKT_EXCL BIT(3) 131 #define SPE_OP_PKT_AT BIT(2) 132 #define SPE_OP_PKT_ST BIT(0) 133 134 #define SPE_OP_PKT_IS_LDST_SVE(v) (((v) & (BIT(3) | BIT(1))) == 0x8) 135 136 #define SPE_OP_PKT_SVE_SG BIT(7) 137 /* 138 * SVE effective vector length (EVL) is stored in byte 0 bits [6:4]; 139 * the length is rounded up to a power of two and use 32 as one step, 140 * so EVL calculation is: 141 * 142 * 32 * (2 ^ bits [6:4]) = 32 << (bits [6:4]) 143 */ 144 #define SPE_OP_PKG_SVE_EVL(v) (32 << (((v) & GENMASK_ULL(6, 4)) >> 4)) 145 #define SPE_OP_PKT_SVE_PRED BIT(2) 146 #define SPE_OP_PKT_SVE_FP BIT(1) 147 148 #define SPE_OP_PKT_IS_INDIRECT_BRANCH(v) (((v) & GENMASK_ULL(7, 1)) == 0x2) 149 150 const char *arm_spe_pkt_name(enum arm_spe_pkt_type); 151 152 int arm_spe_get_packet(const unsigned char *buf, size_t len, 153 struct arm_spe_pkt *packet); 154 155 int arm_spe_pkt_desc(const struct arm_spe_pkt *packet, char *buf, size_t len); 156 #endif 157