1f19dc624Sjohpow01 /* 2*b0f1c840SAlexeiFedorov * Copyright (c) 2022-2025, Arm Limited. All rights reserved. 3f19dc624Sjohpow01 * 4f19dc624Sjohpow01 * SPDX-License-Identifier: BSD-3-Clause 5f19dc624Sjohpow01 */ 6f19dc624Sjohpow01 7f19dc624Sjohpow01 #ifndef GPT_RME_PRIVATE_H 8f19dc624Sjohpow01 #define GPT_RME_PRIVATE_H 9f19dc624Sjohpow01 10f19dc624Sjohpow01 #include <lib/gpt_rme/gpt_rme.h> 11f19dc624Sjohpow01 #include <lib/utils_def.h> 12f19dc624Sjohpow01 13f19dc624Sjohpow01 /******************************************************************************/ 14f19dc624Sjohpow01 /* GPT descriptor definitions */ 15f19dc624Sjohpow01 /******************************************************************************/ 16f19dc624Sjohpow01 17b99926efSAlexeiFedorov /* GPT level 0 descriptor bit definitions */ 18f19dc624Sjohpow01 #define GPT_L0_TYPE_MASK UL(0xF) 19f19dc624Sjohpow01 #define GPT_L0_TYPE_SHIFT U(0) 20f19dc624Sjohpow01 21ec0088bbSAlexeiFedorov /* GPT level 0 table and block descriptors */ 22b99926efSAlexeiFedorov #define GPT_L0_TYPE_TBL_DESC UL(3) 23b99926efSAlexeiFedorov #define GPT_L0_TYPE_BLK_DESC UL(1) 24f19dc624Sjohpow01 25f19dc624Sjohpow01 #define GPT_L0_TBL_DESC_L1ADDR_MASK UL(0xFFFFFFFFFF) 26f19dc624Sjohpow01 #define GPT_L0_TBL_DESC_L1ADDR_SHIFT U(12) 27f19dc624Sjohpow01 28f19dc624Sjohpow01 #define GPT_L0_BLK_DESC_GPI_MASK UL(0xF) 29f19dc624Sjohpow01 #define GPT_L0_BLK_DESC_GPI_SHIFT U(4) 30f19dc624Sjohpow01 31ec0088bbSAlexeiFedorov /* GPT level 1 Contiguous descriptor */ 32ec0088bbSAlexeiFedorov #define GPT_L1_TYPE_CONT_DESC_MASK UL(0xF) 33ec0088bbSAlexeiFedorov #define GPT_L1_TYPE_CONT_DESC UL(1) 34ec0088bbSAlexeiFedorov 35ec0088bbSAlexeiFedorov /* GPT level 1 Contiguous descriptor definitions */ 36ec0088bbSAlexeiFedorov #define GPT_L1_CONTIG_2MB UL(1) 37ec0088bbSAlexeiFedorov #define GPT_L1_CONTIG_32MB UL(2) 38ec0088bbSAlexeiFedorov #define GPT_L1_CONTIG_512MB UL(3) 39ec0088bbSAlexeiFedorov 40ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_GPI_SHIFT U(4) 41ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_GPI_MASK UL(0xF) 42ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_CONTIG_SHIFT U(8) 43ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_CONTIG_MASK UL(3) 44ec0088bbSAlexeiFedorov 45ec0088bbSAlexeiFedorov /* GPT level 1 Granules descriptor bit definitions */ 46f19dc624Sjohpow01 #define GPT_L1_GRAN_DESC_GPI_MASK UL(0xF) 47f19dc624Sjohpow01 48ec0088bbSAlexeiFedorov /* L1 Contiguous descriptors templates */ 49ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_2MB \ 50ec0088bbSAlexeiFedorov (GPT_L1_TYPE_CONT_DESC | \ 51ec0088bbSAlexeiFedorov (GPT_L1_CONTIG_2MB << GPT_L1_CONT_DESC_CONTIG_SHIFT)) 52ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_32MB \ 53ec0088bbSAlexeiFedorov (GPT_L1_TYPE_CONT_DESC | \ 54ec0088bbSAlexeiFedorov (GPT_L1_CONTIG_32MB << GPT_L1_CONT_DESC_CONTIG_SHIFT)) 55ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_512MB \ 56ec0088bbSAlexeiFedorov (GPT_L1_TYPE_CONT_DESC | \ 57ec0088bbSAlexeiFedorov (GPT_L1_CONTIG_512MB << GPT_L1_CONT_DESC_CONTIG_SHIFT)) 58ec0088bbSAlexeiFedorov 59ec0088bbSAlexeiFedorov /* Create L1 Contiguous descriptor from GPI and template */ 60ec0088bbSAlexeiFedorov #define GPT_L1_GPI_CONT_DESC(_gpi, _desc) \ 61ec0088bbSAlexeiFedorov ((_desc) | ((uint64_t)(_gpi) << GPT_L1_CONT_DESC_GPI_SHIFT)) 62ec0088bbSAlexeiFedorov 63ec0088bbSAlexeiFedorov /* Create L1 Contiguous descriptor from Granules descriptor and size */ 64ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC(_desc, _size) \ 65ec0088bbSAlexeiFedorov (GPT_L1_CONT_DESC_##_size | \ 66ec0088bbSAlexeiFedorov (((_desc) & GPT_L1_GRAN_DESC_GPI_MASK) << \ 67ec0088bbSAlexeiFedorov GPT_L1_CONT_DESC_GPI_SHIFT)) 68ec0088bbSAlexeiFedorov 69ec0088bbSAlexeiFedorov /* Create L1 Contiguous descriptor from GPI and size */ 70ec0088bbSAlexeiFedorov #define GPT_L1_CONT_DESC_SIZE(_gpi, _size) \ 71ec0088bbSAlexeiFedorov (GPT_L1_CONT_DESC_##_size | \ 72ec0088bbSAlexeiFedorov (((uint64_t)(_gpi) << GPT_L1_CONT_DESC_GPI_SHIFT)) 73ec0088bbSAlexeiFedorov 74ec0088bbSAlexeiFedorov #define GPT_L1_GPI_BYTE(_gpi) (uint64_t)((_gpi) | ((_gpi) << 4)) 75ec0088bbSAlexeiFedorov #define GPT_L1_GPI_HALF(_gpi) (GPT_L1_GPI_BYTE(_gpi) | (GPT_L1_GPI_BYTE(_gpi) << 8)) 76ec0088bbSAlexeiFedorov #define GPT_L1_GPI_WORD(_gpi) (GPT_L1_GPI_HALF(_gpi) | (GPT_L1_GPI_HALF(_gpi) << 16)) 77ec0088bbSAlexeiFedorov 78f19dc624Sjohpow01 /* 79ec0088bbSAlexeiFedorov * This macro generates a Granules descriptor 80ec0088bbSAlexeiFedorov * with the same value for every GPI entry. 81f19dc624Sjohpow01 */ 82ec0088bbSAlexeiFedorov #define GPT_BUILD_L1_DESC(_gpi) (GPT_L1_GPI_WORD(_gpi) | (GPT_L1_GPI_WORD(_gpi) << 32)) 83ec0088bbSAlexeiFedorov 84ec0088bbSAlexeiFedorov #define GPT_L1_SECURE_DESC GPT_BUILD_L1_DESC(GPT_GPI_SECURE) 85ec0088bbSAlexeiFedorov #define GPT_L1_NS_DESC GPT_BUILD_L1_DESC(GPT_GPI_NS) 86ec0088bbSAlexeiFedorov #define GPT_L1_REALM_DESC GPT_BUILD_L1_DESC(GPT_GPI_REALM) 87ec0088bbSAlexeiFedorov #define GPT_L1_ANY_DESC GPT_BUILD_L1_DESC(GPT_GPI_ANY) 88f19dc624Sjohpow01 89f19dc624Sjohpow01 /******************************************************************************/ 90f19dc624Sjohpow01 /* GPT platform configuration */ 91f19dc624Sjohpow01 /******************************************************************************/ 92f19dc624Sjohpow01 93b99926efSAlexeiFedorov /* This value comes from GPCCR_EL3 so no externally supplied definition */ 94f19dc624Sjohpow01 #define GPT_L0GPTSZ ((unsigned int)((read_gpccr_el3() >> \ 95f19dc624Sjohpow01 GPCCR_L0GPTSZ_SHIFT) & GPCCR_L0GPTSZ_MASK)) 96f19dc624Sjohpow01 97f19dc624Sjohpow01 /* The "S" value is directly related to L0GPTSZ */ 98f19dc624Sjohpow01 #define GPT_S_VAL (GPT_L0GPTSZ + 30U) 99f19dc624Sjohpow01 100f19dc624Sjohpow01 /* 101f19dc624Sjohpow01 * Map PPS values to T values. 102f19dc624Sjohpow01 * 103f19dc624Sjohpow01 * PPS Size T 104f19dc624Sjohpow01 * 0b000 4GB 32 105f19dc624Sjohpow01 * 0b001 64GB 36 106f19dc624Sjohpow01 * 0b010 1TB 40 107f19dc624Sjohpow01 * 0b011 4TB 42 108f19dc624Sjohpow01 * 0b100 16TB 44 109f19dc624Sjohpow01 * 0b101 256TB 48 110f19dc624Sjohpow01 * 0b110 4PB 52 111f19dc624Sjohpow01 * 112f19dc624Sjohpow01 * See section 15.1.27 of the RME specification. 113f19dc624Sjohpow01 */ 114f19dc624Sjohpow01 typedef enum { 115f19dc624Sjohpow01 PPS_4GB_T = 32U, 116f19dc624Sjohpow01 PPS_64GB_T = 36U, 117f19dc624Sjohpow01 PPS_1TB_T = 40U, 118f19dc624Sjohpow01 PPS_4TB_T = 42U, 119f19dc624Sjohpow01 PPS_16TB_T = 44U, 120f19dc624Sjohpow01 PPS_256TB_T = 48U, 121f19dc624Sjohpow01 PPS_4PB_T = 52U 122f19dc624Sjohpow01 } gpt_t_val_e; 123f19dc624Sjohpow01 124f19dc624Sjohpow01 /* 125f19dc624Sjohpow01 * Map PGS values to P values. 126f19dc624Sjohpow01 * 127f19dc624Sjohpow01 * PGS Size P 128f19dc624Sjohpow01 * 0b00 4KB 12 129f19dc624Sjohpow01 * 0b10 16KB 14 130f19dc624Sjohpow01 * 0b01 64KB 16 131f19dc624Sjohpow01 * 132f19dc624Sjohpow01 * Note that pgs=0b10 is 16KB and pgs=0b01 is 64KB, this is not a typo. 133f19dc624Sjohpow01 * 134f19dc624Sjohpow01 * See section 15.1.27 of the RME specification. 135f19dc624Sjohpow01 */ 136f19dc624Sjohpow01 typedef enum { 137f19dc624Sjohpow01 PGS_4KB_P = 12U, 138f19dc624Sjohpow01 PGS_16KB_P = 14U, 139f19dc624Sjohpow01 PGS_64KB_P = 16U 140f19dc624Sjohpow01 } gpt_p_val_e; 141f19dc624Sjohpow01 1426a00e9b0SRobert Wakim /* 143ec0088bbSAlexeiFedorov * Internal structure to retrieve the values from get_gpi_params(); 1446a00e9b0SRobert Wakim */ 145ec0088bbSAlexeiFedorov typedef struct { 1466a00e9b0SRobert Wakim uint64_t gpt_l1_desc; 1476a00e9b0SRobert Wakim uint64_t *gpt_l1_addr; 1486a00e9b0SRobert Wakim unsigned int idx; 1496a00e9b0SRobert Wakim unsigned int gpi_shift; 1506a00e9b0SRobert Wakim unsigned int gpi; 151d766084fSAlexeiFedorov #if (RME_GPT_BITLOCK_BLOCK != 0) 152ec0088bbSAlexeiFedorov bitlock_t *lock; 153ec0088bbSAlexeiFedorov LOCK_TYPE mask; 154d766084fSAlexeiFedorov #endif 1556a00e9b0SRobert Wakim } gpi_info_t; 1566a00e9b0SRobert Wakim 157ec0088bbSAlexeiFedorov /* 158ec0088bbSAlexeiFedorov * Look up structure for contiguous blocks and descriptors 159ec0088bbSAlexeiFedorov */ 160ec0088bbSAlexeiFedorov typedef struct { 161ec0088bbSAlexeiFedorov size_t size; 162ec0088bbSAlexeiFedorov unsigned int desc; 163ec0088bbSAlexeiFedorov } gpt_fill_lookup_t; 164ec0088bbSAlexeiFedorov 165ec0088bbSAlexeiFedorov typedef void (*gpt_shatter_func)(uintptr_t base, const gpi_info_t *gpi_info, 166ec0088bbSAlexeiFedorov uint64_t l1_desc); 167ec0088bbSAlexeiFedorov typedef void (*gpt_tlbi_func)(uintptr_t base); 168ec0088bbSAlexeiFedorov 169ec0088bbSAlexeiFedorov /* 170ec0088bbSAlexeiFedorov * Look-up structure for 171ec0088bbSAlexeiFedorov * invalidating TLBs of GPT entries by Physical address, last level. 172ec0088bbSAlexeiFedorov */ 173ec0088bbSAlexeiFedorov typedef struct { 174ec0088bbSAlexeiFedorov gpt_tlbi_func function; 175ec0088bbSAlexeiFedorov size_t mask; 176ec0088bbSAlexeiFedorov } gpt_tlbi_lookup_t; 177ec0088bbSAlexeiFedorov 178b99926efSAlexeiFedorov /* Max valid value for PGS */ 179f19dc624Sjohpow01 #define GPT_PGS_MAX (2U) 180f19dc624Sjohpow01 181b99926efSAlexeiFedorov /* Max valid value for PPS */ 182f19dc624Sjohpow01 #define GPT_PPS_MAX (6U) 183f19dc624Sjohpow01 184f19dc624Sjohpow01 /******************************************************************************/ 185f19dc624Sjohpow01 /* L0 address attribute macros */ 186f19dc624Sjohpow01 /******************************************************************************/ 187f19dc624Sjohpow01 188f19dc624Sjohpow01 /* 189322b344eSjohpow01 * Width of the L0 index field. 190322b344eSjohpow01 * 191f19dc624Sjohpow01 * If S is greater than or equal to T then there is a single L0 region covering 192f19dc624Sjohpow01 * the entire protected space so there is no L0 index, so the width (and the 193f19dc624Sjohpow01 * derivative mask value) are both zero. If we don't specifically handle this 194f19dc624Sjohpow01 * special case we'll get a negative width value which does not make sense and 195322b344eSjohpow01 * would cause problems. 196f19dc624Sjohpow01 */ 197ec0088bbSAlexeiFedorov #define GPT_L0_IDX_WIDTH(_t) (((unsigned int)(_t) > GPT_S_VAL) ? \ 198ec0088bbSAlexeiFedorov ((unsigned int)(_t) - GPT_S_VAL) : (0U)) 199f19dc624Sjohpow01 200b99926efSAlexeiFedorov /* Bit shift for the L0 index field in a PA */ 201f19dc624Sjohpow01 #define GPT_L0_IDX_SHIFT (GPT_S_VAL) 202f19dc624Sjohpow01 203322b344eSjohpow01 /* 204322b344eSjohpow01 * Mask for the L0 index field, must be shifted. 205322b344eSjohpow01 * 206322b344eSjohpow01 * The value 0x3FFFFF is 22 bits wide which is the maximum possible width of the 207322b344eSjohpow01 * L0 index within a physical address. This is calculated by 208322b344eSjohpow01 * ((t_max - 1) - s_min + 1) where t_max is 52 for 4PB, the largest PPS, and 209322b344eSjohpow01 * s_min is 30 for 1GB, the smallest L0GPTSZ. 210322b344eSjohpow01 */ 211322b344eSjohpow01 #define GPT_L0_IDX_MASK(_t) (0x3FFFFFUL >> (22U - \ 212322b344eSjohpow01 (GPT_L0_IDX_WIDTH(_t)))) 213f19dc624Sjohpow01 214b99926efSAlexeiFedorov /* Total number of L0 regions */ 215f19dc624Sjohpow01 #define GPT_L0_REGION_COUNT(_t) ((GPT_L0_IDX_MASK(_t)) + 1U) 216f19dc624Sjohpow01 217b99926efSAlexeiFedorov /* Total size of each GPT L0 region in bytes */ 218f19dc624Sjohpow01 #define GPT_L0_REGION_SIZE (1UL << (GPT_L0_IDX_SHIFT)) 219f19dc624Sjohpow01 220b99926efSAlexeiFedorov /* Total size in bytes of the whole L0 table */ 221f19dc624Sjohpow01 #define GPT_L0_TABLE_SIZE(_t) ((GPT_L0_REGION_COUNT(_t)) << 3U) 222f19dc624Sjohpow01 223f19dc624Sjohpow01 /******************************************************************************/ 224f19dc624Sjohpow01 /* L1 address attribute macros */ 225f19dc624Sjohpow01 /******************************************************************************/ 226f19dc624Sjohpow01 227322b344eSjohpow01 /* 228322b344eSjohpow01 * Width of the L1 index field. 229322b344eSjohpow01 * 230322b344eSjohpow01 * This field does not have a special case to handle widths less than zero like 231322b344eSjohpow01 * the L0 index field above since all valid combinations of PGS (p) and L0GPTSZ 232322b344eSjohpow01 * (s) will result in a positive width value. 233322b344eSjohpow01 */ 234ec0088bbSAlexeiFedorov #define GPT_L1_IDX_WIDTH(_p) ((GPT_S_VAL - 1U) - \ 235ec0088bbSAlexeiFedorov ((unsigned int)(_p) + 3U)) 236f19dc624Sjohpow01 237b99926efSAlexeiFedorov /* Bit shift for the L1 index field */ 238ec0088bbSAlexeiFedorov #define GPT_L1_IDX_SHIFT(_p) ((unsigned int)(_p) + 4U) 239f19dc624Sjohpow01 240322b344eSjohpow01 /* 241322b344eSjohpow01 * Mask for the L1 index field, must be shifted. 242322b344eSjohpow01 * 243322b344eSjohpow01 * The value 0x7FFFFF is 23 bits wide and is the maximum possible width of the 244322b344eSjohpow01 * L1 index within a physical address. It is calculated by 245b99926efSAlexeiFedorov * ((s_max - 1) - (p_min + 4) + 1) where s_max is 39 for 512GB, the largest 246322b344eSjohpow01 * L0GPTSZ, and p_min is 12 for 4KB granules, the smallest PGS. 247322b344eSjohpow01 */ 248322b344eSjohpow01 #define GPT_L1_IDX_MASK(_p) (0x7FFFFFUL >> (23U - \ 249322b344eSjohpow01 (GPT_L1_IDX_WIDTH(_p)))) 250f19dc624Sjohpow01 251b99926efSAlexeiFedorov /* Bit shift for the index of the L1 GPI in a PA */ 252f19dc624Sjohpow01 #define GPT_L1_GPI_IDX_SHIFT(_p) (_p) 253f19dc624Sjohpow01 254b99926efSAlexeiFedorov /* Mask for the index of the L1 GPI in a PA */ 255f19dc624Sjohpow01 #define GPT_L1_GPI_IDX_MASK (0xF) 256f19dc624Sjohpow01 257b99926efSAlexeiFedorov /* Total number of entries in each L1 table */ 258ec0088bbSAlexeiFedorov #define GPT_L1_ENTRY_COUNT(_p) ((GPT_L1_IDX_MASK(_p)) + 1UL) 259ec0088bbSAlexeiFedorov 260ec0088bbSAlexeiFedorov /* Number of L1 entries in 2MB block */ 261ec0088bbSAlexeiFedorov #define GPT_L1_ENTRY_COUNT_2MB(_p) (SZ_2M >> GPT_L1_IDX_SHIFT(_p)) 262f19dc624Sjohpow01 263b99926efSAlexeiFedorov /* Total size in bytes of each L1 table */ 264f19dc624Sjohpow01 #define GPT_L1_TABLE_SIZE(_p) ((GPT_L1_ENTRY_COUNT(_p)) << 3U) 265f19dc624Sjohpow01 266f19dc624Sjohpow01 /******************************************************************************/ 267f19dc624Sjohpow01 /* General helper macros */ 268f19dc624Sjohpow01 /******************************************************************************/ 269f19dc624Sjohpow01 270b99926efSAlexeiFedorov /* Protected space actual size in bytes */ 271ec0088bbSAlexeiFedorov #define GPT_PPS_ACTUAL_SIZE(_t) (1UL << (unsigned int)(_t)) 272f19dc624Sjohpow01 273b99926efSAlexeiFedorov /* Granule actual size in bytes */ 274ec0088bbSAlexeiFedorov #define GPT_PGS_ACTUAL_SIZE(_p) (1UL << (unsigned int)(_p)) 275ec0088bbSAlexeiFedorov 276ec0088bbSAlexeiFedorov /* Number of granules in 2MB block */ 277ec0088bbSAlexeiFedorov #define GPT_PGS_COUNT_2MB(_p) (1UL << (21U - (unsigned int)(_p))) 278f19dc624Sjohpow01 279b99926efSAlexeiFedorov /* L0 GPT region size in bytes */ 280f19dc624Sjohpow01 #define GPT_L0GPTSZ_ACTUAL_SIZE (1UL << GPT_S_VAL) 281f19dc624Sjohpow01 282b99926efSAlexeiFedorov /* Get the index of the L0 entry from a physical address */ 283f19dc624Sjohpow01 #define GPT_L0_IDX(_pa) ((_pa) >> GPT_L0_IDX_SHIFT) 284f19dc624Sjohpow01 285f19dc624Sjohpow01 /* 286f19dc624Sjohpow01 * This definition is used to determine if a physical address lies on an L0 287f19dc624Sjohpow01 * region boundary. 288f19dc624Sjohpow01 */ 289ec0088bbSAlexeiFedorov #define GPT_IS_L0_ALIGNED(_pa) \ 290ec0088bbSAlexeiFedorov (((_pa) & (GPT_L0_REGION_SIZE - UL(1))) == UL(0)) 291f19dc624Sjohpow01 292b99926efSAlexeiFedorov /* Get the type field from an L0 descriptor */ 293f19dc624Sjohpow01 #define GPT_L0_TYPE(_desc) (((_desc) >> GPT_L0_TYPE_SHIFT) & \ 294f19dc624Sjohpow01 GPT_L0_TYPE_MASK) 295f19dc624Sjohpow01 296b99926efSAlexeiFedorov /* Create an L0 block descriptor */ 297f19dc624Sjohpow01 #define GPT_L0_BLK_DESC(_gpi) (GPT_L0_TYPE_BLK_DESC | \ 298f19dc624Sjohpow01 (((_gpi) & GPT_L0_BLK_DESC_GPI_MASK) << \ 299f19dc624Sjohpow01 GPT_L0_BLK_DESC_GPI_SHIFT)) 300f19dc624Sjohpow01 301b99926efSAlexeiFedorov /* Create an L0 table descriptor with an L1 table address */ 302f19dc624Sjohpow01 #define GPT_L0_TBL_DESC(_pa) (GPT_L0_TYPE_TBL_DESC | ((uint64_t)(_pa) & \ 303f19dc624Sjohpow01 (GPT_L0_TBL_DESC_L1ADDR_MASK << \ 304f19dc624Sjohpow01 GPT_L0_TBL_DESC_L1ADDR_SHIFT))) 305f19dc624Sjohpow01 306b99926efSAlexeiFedorov /* Get the GPI from an L0 block descriptor */ 307f19dc624Sjohpow01 #define GPT_L0_BLKD_GPI(_desc) (((_desc) >> GPT_L0_BLK_DESC_GPI_SHIFT) & \ 308f19dc624Sjohpow01 GPT_L0_BLK_DESC_GPI_MASK) 309f19dc624Sjohpow01 310b99926efSAlexeiFedorov /* Get the L1 address from an L0 table descriptor */ 311f19dc624Sjohpow01 #define GPT_L0_TBLD_ADDR(_desc) ((uint64_t *)(((_desc) & \ 312f19dc624Sjohpow01 (GPT_L0_TBL_DESC_L1ADDR_MASK << \ 313f19dc624Sjohpow01 GPT_L0_TBL_DESC_L1ADDR_SHIFT)))) 314f19dc624Sjohpow01 315ec0088bbSAlexeiFedorov /* Get the GPI from L1 Contiguous descriptor */ 316ec0088bbSAlexeiFedorov #define GPT_L1_CONT_GPI(_desc) \ 317ec0088bbSAlexeiFedorov (((_desc) >> GPT_L1_CONT_DESC_GPI_SHIFT) & GPT_L1_CONT_DESC_GPI_MASK) 318ec0088bbSAlexeiFedorov 319ec0088bbSAlexeiFedorov /* Get the GPI from L1 Granules descriptor */ 320ec0088bbSAlexeiFedorov #define GPT_L1_GRAN_GPI(_desc) ((_desc) & GPT_L1_GRAN_DESC_GPI_MASK) 321ec0088bbSAlexeiFedorov 322ec0088bbSAlexeiFedorov /* Get the Contig from L1 Contiguous descriptor */ 323ec0088bbSAlexeiFedorov #define GPT_L1_CONT_CONTIG(_desc) \ 324ec0088bbSAlexeiFedorov (((_desc) >> GPT_L1_CONT_DESC_CONTIG_SHIFT) & \ 325ec0088bbSAlexeiFedorov GPT_L1_CONT_DESC_CONTIG_MASK) 326ec0088bbSAlexeiFedorov 327b99926efSAlexeiFedorov /* Get the index into the L1 table from a physical address */ 328ec0088bbSAlexeiFedorov #define GPT_L1_IDX(_p, _pa) \ 329ec0088bbSAlexeiFedorov (((_pa) >> GPT_L1_IDX_SHIFT(_p)) & GPT_L1_IDX_MASK(_p)) 330f19dc624Sjohpow01 331b99926efSAlexeiFedorov /* Get the index of the GPI within an L1 table entry from a physical address */ 332ec0088bbSAlexeiFedorov #define GPT_L1_GPI_IDX(_p, _pa) \ 333ec0088bbSAlexeiFedorov (((_pa) >> GPT_L1_GPI_IDX_SHIFT(_p)) & GPT_L1_GPI_IDX_MASK) 334f19dc624Sjohpow01 335b99926efSAlexeiFedorov /* Determine if an address is granule-aligned */ 336ec0088bbSAlexeiFedorov #define GPT_IS_L1_ALIGNED(_p, _pa) \ 337ec0088bbSAlexeiFedorov (((_pa) & (GPT_PGS_ACTUAL_SIZE(_p) - UL(1))) == UL(0)) 338ec0088bbSAlexeiFedorov 339ec0088bbSAlexeiFedorov /* Get aligned addresses */ 340ec0088bbSAlexeiFedorov #define ALIGN_2MB(_addr) ((_addr) & ~(SZ_2M - 1UL)) 341ec0088bbSAlexeiFedorov #define ALIGN_32MB(_addr) ((_addr) & ~(SZ_32M - 1UL)) 342ec0088bbSAlexeiFedorov #define ALIGN_512MB(_addr) ((_addr) & ~(SZ_512M - 1UL)) 343ec0088bbSAlexeiFedorov 344ec0088bbSAlexeiFedorov /* Determine if region is contiguous */ 345ec0088bbSAlexeiFedorov #define GPT_REGION_IS_CONT(_len, _addr, _size) \ 346ec0088bbSAlexeiFedorov (((_len) >= (_size)) && (((_addr) & ((_size) - UL(1))) == UL(0))) 347ec0088bbSAlexeiFedorov 348ec0088bbSAlexeiFedorov /* Get 32MB block number in 512MB block: 0-15 */ 349ec0088bbSAlexeiFedorov #define GET_32MB_NUM(_addr) ((_addr >> 25) & 0xF) 350ec0088bbSAlexeiFedorov 351ec0088bbSAlexeiFedorov /* Get 2MB block number in 32MB block: 0-15 */ 352ec0088bbSAlexeiFedorov #define GET_2MB_NUM(_addr) ((_addr >> 21) & 0xF) 353f19dc624Sjohpow01 354f19dc624Sjohpow01 #endif /* GPT_RME_PRIVATE_H */ 355