1 /* 2 * Copyright (c) 2022-2023, ARM Limited and Contributors. All rights reserved. 3 * 4 * SPDX-License-Identifier: BSD-3-Clause 5 */ 6 7 #ifndef EL3_SPMC_FFA_MEM_H 8 #define EL3_SPMC_FFA_MEM_H 9 10 #include <assert.h> 11 12 /* 13 * Subset of Arm Firmware Framework for Armv8-A 14 * (https://developer.arm.com/docs/den0077/a) needed for shared memory. 15 */ 16 17 /** 18 * typedef ffa_endpoint_id16_t - Endpoint ID 19 * 20 * Current implementation only supports VM IDs. FF-A spec also support stream 21 * endpoint ids. 22 */ 23 typedef uint16_t ffa_endpoint_id16_t; 24 25 /** 26 * struct ffa_cons_mrd - Constituent memory region descriptor 27 * @address: 28 * Start address of contiguous memory region. Must be 4K page aligned. 29 * @page_count: 30 * Number of 4K pages in region. 31 * @reserved_12_15: 32 * Reserve bytes 12-15 to pad struct size to 16 bytes. 33 */ 34 struct ffa_cons_mrd { 35 uint64_t address; 36 uint32_t page_count; 37 uint32_t reserved_12_15; 38 }; 39 CASSERT(sizeof(struct ffa_cons_mrd) == 16, assert_ffa_cons_mrd_size_mismatch); 40 41 /** 42 * struct ffa_comp_mrd - Composite memory region descriptor 43 * @total_page_count: 44 * Number of 4k pages in memory region. Must match sum of 45 * @address_range_array[].page_count. 46 * @address_range_count: 47 * Number of entries in @address_range_array. 48 * @reserved_8_15: 49 * Reserve bytes 8-15 to pad struct size to 16 byte alignment and 50 * make @address_range_array 16 byte aligned. 51 * @address_range_array: 52 * Array of &struct ffa_cons_mrd entries. 53 */ 54 struct ffa_comp_mrd { 55 uint32_t total_page_count; 56 uint32_t address_range_count; 57 uint64_t reserved_8_15; 58 struct ffa_cons_mrd address_range_array[]; 59 }; 60 CASSERT(sizeof(struct ffa_comp_mrd) == 16, assert_ffa_comp_mrd_size_mismatch); 61 62 /** 63 * typedef ffa_mem_attr8_t - Memory region attributes v1.0. 64 * typedef ffa_mem_attr16_t - Memory region attributes v1.1. 65 * 66 * * @FFA_MEM_ATTR_NS_BIT: 67 * Memory security state. 68 * * @FFA_MEM_ATTR_DEVICE_NGNRNE: 69 * Device-nGnRnE. 70 * * @FFA_MEM_ATTR_DEVICE_NGNRE: 71 * Device-nGnRE. 72 * * @FFA_MEM_ATTR_DEVICE_NGRE: 73 * Device-nGRE. 74 * * @FFA_MEM_ATTR_DEVICE_GRE: 75 * Device-GRE. 76 * * @FFA_MEM_ATTR_NORMAL_MEMORY_UNCACHED 77 * Normal memory. Non-cacheable. 78 * * @FFA_MEM_ATTR_NORMAL_MEMORY_CACHED_WB 79 * Normal memory. Write-back cached. 80 * * @FFA_MEM_ATTR_NON_SHAREABLE 81 * Non-shareable. Combine with FFA_MEM_ATTR_NORMAL_MEMORY_*. 82 * * @FFA_MEM_ATTR_OUTER_SHAREABLE 83 * Outer Shareable. Combine with FFA_MEM_ATTR_NORMAL_MEMORY_*. 84 * * @FFA_MEM_ATTR_INNER_SHAREABLE 85 * Inner Shareable. Combine with FFA_MEM_ATTR_NORMAL_MEMORY_*. 86 */ 87 typedef uint8_t ffa_mem_attr8_t; 88 typedef uint16_t ffa_mem_attr16_t; 89 #define FFA_MEM_ATTR_NS_BIT (0x1U << 6) 90 #define FFA_MEM_ATTR_DEVICE_NGNRNE ((1U << 4) | (0x0U << 2)) 91 #define FFA_MEM_ATTR_DEVICE_NGNRE ((1U << 4) | (0x1U << 2)) 92 #define FFA_MEM_ATTR_DEVICE_NGRE ((1U << 4) | (0x2U << 2)) 93 #define FFA_MEM_ATTR_DEVICE_GRE ((1U << 4) | (0x3U << 2)) 94 #define FFA_MEM_ATTR_NORMAL_MEMORY_UNCACHED ((2U << 4) | (0x1U << 2)) 95 #define FFA_MEM_ATTR_NORMAL_MEMORY_CACHED_WB ((2U << 4) | (0x3U << 2)) 96 #define FFA_MEM_ATTR_NON_SHAREABLE (0x0U << 0) 97 #define FFA_MEM_ATTR_OUTER_SHAREABLE (0x2U << 0) 98 #define FFA_MEM_ATTR_INNER_SHAREABLE (0x3U << 0) 99 100 /** 101 * typedef ffa_mem_perm8_t - Memory access permissions 102 * 103 * * @FFA_MEM_ATTR_RO 104 * Request or specify read-only mapping. 105 * * @FFA_MEM_ATTR_RW 106 * Request or allow read-write mapping. 107 * * @FFA_MEM_PERM_NX 108 * Deny executable mapping. 109 * * @FFA_MEM_PERM_X 110 * Request executable mapping. 111 */ 112 typedef uint8_t ffa_mem_perm8_t; 113 #define FFA_MEM_PERM_RO (1U << 0) 114 #define FFA_MEM_PERM_RW (1U << 1) 115 #define FFA_MEM_PERM_NX (1U << 2) 116 #define FFA_MEM_PERM_X (1U << 3) 117 118 /** 119 * typedef ffa_mem_flag8_t - Endpoint memory flags 120 * 121 * * @FFA_MEM_FLAG_NON_RETRIEVAL_BORROWER 122 * Non-retrieval Borrower. Memory region must not be or was not retrieved on 123 * behalf of this endpoint. 124 */ 125 typedef uint8_t ffa_mem_flag8_t; 126 #define FFA_MEM_FLAG_NON_RETRIEVAL_BORROWER (1U << 0) 127 128 /** 129 * typedef ffa_mtd_flag32_t - Memory transaction descriptor flags 130 * 131 * * @FFA_MTD_FLAG_ZERO_MEMORY 132 * Zero memory after unmapping from sender (must be 0 for share). 133 * * @FFA_MTD_FLAG_TIME_SLICING 134 * Not supported by this implementation. 135 * * @FFA_MTD_FLAG_ZERO_MEMORY_AFTER_RELINQUISH 136 * Zero memory after unmapping from borrowers (must be 0 for share). 137 * * @FFA_MTD_FLAG_TYPE_MASK 138 * Bit-mask to extract memory management transaction type from flags. 139 * * @FFA_MTD_FLAG_TYPE_SHARE_MEMORY 140 * Share memory transaction flag. 141 * Used by @SMC_FC_FFA_MEM_RETRIEVE_RESP to indicate that memory came from 142 * @SMC_FC_FFA_MEM_SHARE and by @SMC_FC_FFA_MEM_RETRIEVE_REQ to specify that 143 * it must have. 144 * * @FFA_MTD_FLAG_ADDRESS_RANGE_ALIGNMENT_HINT_MASK 145 * Not supported by this implementation. 146 */ 147 typedef uint32_t ffa_mtd_flag32_t; 148 #define FFA_MTD_FLAG_ZERO_MEMORY (1U << 0) 149 #define FFA_MTD_FLAG_TIME_SLICING (1U << 1) 150 #define FFA_MTD_FLAG_ZERO_MEMORY_AFTER_RELINQUISH (1U << 2) 151 #define FFA_MTD_FLAG_TYPE_MASK (3U << 3) 152 #define FFA_MTD_FLAG_TYPE_SHARE_MEMORY (1U << 3) 153 #define FFA_MTD_FLAG_TYPE_LEND_MEMORY (1U << 4) 154 #define FFA_MTD_FLAG_ADDRESS_RANGE_ALIGNMENT_HINT_MASK (0x1FU << 5) 155 156 /** 157 * struct ffa_mapd - Memory access permissions descriptor 158 * @endpoint_id: 159 * Endpoint id that @memory_access_permissions and @flags apply to. 160 * (&typedef ffa_endpoint_id16_t). 161 * @memory_access_permissions: 162 * FFA_MEM_PERM_* values or'ed together (&typedef ffa_mem_perm8_t). 163 * @flags: 164 * FFA_MEM_FLAG_* values or'ed together (&typedef ffa_mem_flag8_t). 165 */ 166 struct ffa_mapd { 167 ffa_endpoint_id16_t endpoint_id; 168 ffa_mem_perm8_t memory_access_permissions; 169 ffa_mem_flag8_t flags; 170 }; 171 CASSERT(sizeof(struct ffa_mapd) == 4, assert_ffa_mapd_size_mismatch); 172 173 /** 174 * struct ffa_emad_v1_0 - Endpoint memory access descriptor. 175 * @mapd: &struct ffa_mapd. 176 * @comp_mrd_offset: 177 * Offset of &struct ffa_comp_mrd from start of &struct ffa_mtd_v1_0. 178 * @reserved_8_15: 179 * Reserved bytes 8-15. Must be 0. 180 */ 181 struct ffa_emad_v1_0 { 182 struct ffa_mapd mapd; 183 uint32_t comp_mrd_offset; 184 uint64_t reserved_8_15; 185 }; 186 CASSERT(sizeof(struct ffa_emad_v1_0) == 16, assert_ffa_emad_v1_0_size_mismatch); 187 188 /** 189 * struct ffa_mtd_v1_0 - Memory transaction descriptor. 190 * @sender_id: 191 * Sender endpoint id. 192 * @memory_region_attributes: 193 * FFA_MEM_ATTR_* values or'ed together (&typedef ffa_mem_attr8_t). 194 * @reserved_3: 195 * Reserved bytes 3. Must be 0. 196 * @flags: 197 * FFA_MTD_FLAG_* values or'ed together (&typedef ffa_mtd_flag32_t). 198 * @handle: 199 * Id of shared memory object. Must be 0 for MEM_SHARE or MEM_LEND. 200 * @tag: Client allocated tag. Must match original value. 201 * @reserved_24_27: 202 * Reserved bytes 24-27. Must be 0. 203 * @emad_count: 204 * Number of entries in @emad. 205 * @emad: 206 * Endpoint memory access descriptor array (see @struct ffa_emad_v1_0). 207 */ 208 struct ffa_mtd_v1_0 { 209 ffa_endpoint_id16_t sender_id; 210 ffa_mem_attr8_t memory_region_attributes; 211 uint8_t reserved_3; 212 ffa_mtd_flag32_t flags; 213 uint64_t handle; 214 uint64_t tag; 215 uint32_t reserved_24_27; 216 uint32_t emad_count; 217 struct ffa_emad_v1_0 emad[]; 218 }; 219 CASSERT(sizeof(struct ffa_mtd_v1_0) == 32, assert_ffa_mtd_size_v1_0_mismatch); 220 CASSERT(offsetof(struct ffa_mtd_v1_0, emad) == 32, 221 assert_ffa_mtd_size_v1_0_mismatch_2); 222 223 /** 224 * struct ffa_mtd - Memory transaction descriptor for FF-A v1.1. 225 * @sender_id: 226 * Sender endpoint id. 227 * @memory_region_attributes: 228 * FFA_MEM_ATTR_* values or'ed together (&typedef ffa_mem_attr16_t). 229 * @flags: 230 * FFA_MTD_FLAG_* values or'ed together (&typedef ffa_mtd_flag32_t). 231 * @handle: 232 * Id of shared memory object. Must be 0 for MEM_SHARE or MEM_LEND. 233 * @tag: Client allocated tag. Must match original value. 234 * @emad_size: 235 * Size of the emad descriptor. 236 * @emad_count: 237 * Number of entries in the emad array. 238 * @emad_offset: 239 * Offset from the beginning of the descriptor to the location of the 240 * memory access descriptor array (see @struct ffa_emad_v1_0). 241 * @reserved_36_39: 242 * Reserved bytes 36-39. Must be 0. 243 * @reserved_40_47: 244 * Reserved bytes 44-47. Must be 0. 245 */ 246 struct ffa_mtd { 247 ffa_endpoint_id16_t sender_id; 248 ffa_mem_attr16_t memory_region_attributes; 249 ffa_mtd_flag32_t flags; 250 uint64_t handle; 251 uint64_t tag; 252 uint32_t emad_size; 253 uint32_t emad_count; 254 uint32_t emad_offset; 255 uint32_t reserved_36_39; 256 uint64_t reserved_40_47; 257 }; 258 CASSERT(sizeof(struct ffa_mtd) == 48, assert_ffa_mtd_size_mismatch); 259 CASSERT(offsetof(struct ffa_mtd, emad_count) == 260 offsetof(struct ffa_mtd_v1_0, emad_count), 261 assert_ffa_mtd_emad_count_offset_mismatch); 262 263 #endif /* EL3_SPMC_FFA_MEM_H */ 264