1 /* 2 * Copyright (c) 2016-2021, ARM Limited and Contributors. All rights reserved. 3 * 4 * SPDX-License-Identifier: BSD-3-Clause 5 */ 6 7 #ifndef SMCCC_H 8 #define SMCCC_H 9 10 #include <lib/utils_def.h> 11 12 #define SMCCC_VERSION_MAJOR_SHIFT U(16) 13 #define SMCCC_VERSION_MAJOR_MASK U(0x7FFF) 14 #define SMCCC_VERSION_MINOR_SHIFT U(0) 15 #define SMCCC_VERSION_MINOR_MASK U(0xFFFF) 16 #define MAKE_SMCCC_VERSION(_major, _minor) \ 17 ((((uint32_t)(_major) & SMCCC_VERSION_MAJOR_MASK) << \ 18 SMCCC_VERSION_MAJOR_SHIFT) \ 19 | (((uint32_t)(_minor) & SMCCC_VERSION_MINOR_MASK) << \ 20 SMCCC_VERSION_MINOR_SHIFT)) 21 22 #define SMCCC_MAJOR_VERSION U(1) 23 #define SMCCC_MINOR_VERSION U(2) 24 25 /******************************************************************************* 26 * Bit definitions inside the function id as per the SMC calling convention 27 ******************************************************************************/ 28 #define FUNCID_TYPE_SHIFT U(31) 29 #define FUNCID_TYPE_MASK U(0x1) 30 #define FUNCID_TYPE_WIDTH U(1) 31 32 #define FUNCID_CC_SHIFT U(30) 33 #define FUNCID_CC_MASK U(0x1) 34 #define FUNCID_CC_WIDTH U(1) 35 36 #define FUNCID_OEN_SHIFT U(24) 37 #define FUNCID_OEN_MASK U(0x3f) 38 #define FUNCID_OEN_WIDTH U(6) 39 40 #define FUNCID_NUM_SHIFT U(0) 41 #define FUNCID_NUM_MASK U(0xffff) 42 #define FUNCID_NUM_WIDTH U(16) 43 44 #define GET_SMC_NUM(id) (((id) >> FUNCID_NUM_SHIFT) & \ 45 FUNCID_NUM_MASK) 46 #define GET_SMC_TYPE(id) (((id) >> FUNCID_TYPE_SHIFT) & \ 47 FUNCID_TYPE_MASK) 48 #define GET_SMC_CC(id) (((id) >> FUNCID_CC_SHIFT) & \ 49 FUNCID_CC_MASK) 50 #define GET_SMC_OEN(id) (((id) >> FUNCID_OEN_SHIFT) & \ 51 FUNCID_OEN_MASK) 52 53 /******************************************************************************* 54 * SMCCC_ARCH_SOC_ID SoC version & revision bit definition 55 ******************************************************************************/ 56 #define SOC_ID_JEP_106_BANK_IDX_MASK GENMASK_32(30, 24) 57 #define SOC_ID_JEP_106_BANK_IDX_SHIFT U(24) 58 #define SOC_ID_JEP_106_ID_CODE_MASK GENMASK_32(23, 16) 59 #define SOC_ID_JEP_106_ID_CODE_SHIFT U(16) 60 #define SOC_ID_IMPL_DEF_MASK GENMASK_32(15, 0) 61 #define SOC_ID_IMPL_DEF_SHIFT U(0) 62 #define SOC_ID_SET_JEP_106(bkid, mfid) ((((bkid) << SOC_ID_JEP_106_BANK_IDX_SHIFT) & \ 63 SOC_ID_JEP_106_BANK_IDX_MASK) | \ 64 (((mfid) << SOC_ID_JEP_106_ID_CODE_SHIFT) & \ 65 SOC_ID_JEP_106_ID_CODE_MASK)) 66 67 #define SOC_ID_REV_MASK GENMASK_32(30, 0) 68 #define SOC_ID_REV_SHIFT U(0) 69 70 /******************************************************************************* 71 * Owning entity number definitions inside the function id as per the SMC 72 * calling convention 73 ******************************************************************************/ 74 #define OEN_ARM_START U(0) 75 #define OEN_ARM_END U(0) 76 #define OEN_CPU_START U(1) 77 #define OEN_CPU_END U(1) 78 #define OEN_SIP_START U(2) 79 #define OEN_SIP_END U(2) 80 #define OEN_OEM_START U(3) 81 #define OEN_OEM_END U(3) 82 #define OEN_STD_START U(4) /* Standard Service Calls */ 83 #define OEN_STD_END U(4) 84 #define OEN_STD_HYP_START U(5) /* Standard Hypervisor Service calls */ 85 #define OEN_STD_HYP_END U(5) 86 #define OEN_VEN_HYP_START U(6) /* Vendor Hypervisor Service calls */ 87 #define OEN_VEN_HYP_END U(6) 88 #define OEN_TAP_START U(48) /* Trusted Applications */ 89 #define OEN_TAP_END U(49) 90 #define OEN_TOS_START U(50) /* Trusted OS */ 91 #define OEN_TOS_END U(63) 92 #define OEN_LIMIT U(64) 93 94 /* Flags and error codes */ 95 #define SMC_64 U(1) 96 #define SMC_32 U(0) 97 98 #define SMC_TYPE_FAST UL(1) 99 #define SMC_TYPE_YIELD UL(0) 100 101 #define SMC_OK ULL(0) 102 #define SMC_UNK -1 103 #define SMC_PREEMPTED -2 /* Not defined by the SMCCC */ 104 105 /* Return codes for Arm Architecture Service SMC calls */ 106 #define SMC_ARCH_CALL_SUCCESS 0 107 #define SMC_ARCH_CALL_NOT_SUPPORTED -1 108 #define SMC_ARCH_CALL_NOT_REQUIRED -2 109 #define SMC_ARCH_CALL_INVAL_PARAM -3 110 111 /* 112 * Various flags passed to SMC handlers 113 * 114 * Bit 5 and bit 0 of the flag are used to 115 * determine the source security state as 116 * follows: 117 * --------------------------------- 118 * Bit 5 | Bit 0 | Security state 119 * --------------------------------- 120 * 0 0 SMC_FROM_SECURE 121 * 0 1 SMC_FROM_NON_SECURE 122 * 1 1 SMC_FROM_REALM 123 */ 124 125 #define SMC_FROM_SECURE (U(0) << 0) 126 #define SMC_FROM_NON_SECURE (U(1) << 0) 127 #define SMC_FROM_REALM U(0x21) 128 #define SMC_FROM_MASK U(0x21) 129 130 #ifndef __ASSEMBLER__ 131 132 #include <stdint.h> 133 134 #include <lib/cassert.h> 135 136 #if ENABLE_RME 137 #define is_caller_non_secure(_f) (((_f) & SMC_FROM_MASK) \ 138 == SMC_FROM_NON_SECURE) 139 #define is_caller_secure(_f) (((_f) & SMC_FROM_MASK) \ 140 == SMC_FROM_SECURE) 141 #define is_caller_realm(_f) (((_f) & SMC_FROM_MASK) \ 142 == SMC_FROM_REALM) 143 #define caller_sec_state(_f) ((_f) & SMC_FROM_MASK) 144 #else /* ENABLE_RME */ 145 #define is_caller_non_secure(_f) (((_f) & SMC_FROM_NON_SECURE) != U(0)) 146 #define is_caller_secure(_f) (!is_caller_non_secure(_f)) 147 #endif /* ENABLE_RME */ 148 149 /* The macro below is used to identify a Standard Service SMC call */ 150 #define is_std_svc_call(_fid) (GET_SMC_OEN(_fid) == OEN_STD_START) 151 152 /* The macro below is used to identify a Arm Architectural Service SMC call */ 153 #define is_arm_arch_svc_call(_fid) (GET_SMC_OEN(_fid) == OEN_ARM_START) 154 155 /* The macro below is used to identify a valid Fast SMC call */ 156 #define is_valid_fast_smc(_fid) ((!(((_fid) >> 16) & U(0xff))) && \ 157 (GET_SMC_TYPE(_fid) \ 158 == (uint32_t)SMC_TYPE_FAST)) 159 160 /* 161 * Macro to define UUID for services. Apart from defining and initializing a 162 * uuid_t structure, this macro verifies that the first word of the defined UUID 163 * does not equal SMC_UNK. This is to ensure that the caller won't mistake the 164 * returned UUID in x0 for an invalid SMC error return 165 */ 166 #define DEFINE_SVC_UUID2(_name, _tl, _tm, _th, _cl, _ch, \ 167 _n0, _n1, _n2, _n3, _n4, _n5) \ 168 CASSERT((uint32_t)(_tl) != (uint32_t)SMC_UNK, \ 169 invalid_svc_uuid_##_name); \ 170 static const uuid_t _name = { \ 171 {((_tl) >> 24) & 0xFF, \ 172 ((_tl) >> 16) & 0xFF, \ 173 ((_tl) >> 8) & 0xFF, \ 174 ((_tl) & 0xFF)}, \ 175 {((_tm) >> 8) & 0xFF, \ 176 ((_tm) & 0xFF)}, \ 177 {((_th) >> 8) & 0xFF, \ 178 ((_th) & 0xFF)}, \ 179 (_cl), (_ch), \ 180 { (_n0), (_n1), (_n2), (_n3), (_n4), (_n5) } \ 181 } 182 183 /* 184 * Return a UUID in the SMC return registers. 185 * 186 * Acccording to section 5.3 of the SMCCC, UUIDs are returned as a single 187 * 128-bit value using the SMC32 calling convention. This value is mapped to 188 * argument registers x0-x3 on AArch64 (resp. r0-r3 on AArch32). x0 for example 189 * shall hold bytes 0 to 3, with byte 0 in the low-order bits. 190 */ 191 static inline uint32_t smc_uuid_word(uint8_t b0, uint8_t b1, uint8_t b2, uint8_t b3) 192 { 193 return ((uint32_t) b0) | (((uint32_t) b1) << 8) | 194 (((uint32_t) b2) << 16) | (((uint32_t) b3) << 24); 195 } 196 197 #define SMC_UUID_RET(_h, _uuid) \ 198 SMC_RET4(handle, \ 199 smc_uuid_word((_uuid).time_low[0], (_uuid).time_low[1], \ 200 (_uuid).time_low[2], (_uuid).time_low[3]), \ 201 smc_uuid_word((_uuid).time_mid[0], (_uuid).time_mid[1], \ 202 (_uuid).time_hi_and_version[0], \ 203 (_uuid).time_hi_and_version[1]), \ 204 smc_uuid_word((_uuid).clock_seq_hi_and_reserved, \ 205 (_uuid).clock_seq_low, (_uuid).node[0], \ 206 (_uuid).node[1]), \ 207 smc_uuid_word((_uuid).node[2], (_uuid).node[3], \ 208 (_uuid).node[4], (_uuid).node[5])) 209 210 #endif /*__ASSEMBLER__*/ 211 #endif /* SMCCC_H */ 212