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arm-trusted-firmware/include/lib/xlat_tables/xlat_tables_v2_helpers.h
Antonio Nino Diaz 6563c0beb8 xlat v2: Turn MMU parameters into 64-bit values 
Most registers are 64-bit wide, even in AArch32 mode:

- MAIR_ELx is equivalent to MAIR0 and MAIR1.
- TTBR is 64 bit in both AArch64 and AArch32.

The only difference is the TCR register, which is 32 bit in AArch32 and
in EL3 in AArch64. For consistency with the rest of ELs in AArch64, it
makes sense to also have it as a 64-bit value.

Change-Id: I2274d66a28876702e7085df5f8aad0e7ec139da9
Signed-off-by: Antonio Nino Diaz <antonio.ninodiaz@arm.com>
2018-07-13 14:02:43 +01:00

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5.3 KiB
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/*
* Copyright (c) 2017-2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
/*
* This header file contains internal definitions that are not supposed to be
* used outside of this library code.
*/
#ifndef __XLAT_TABLES_V2_HELPERS_H__
#define __XLAT_TABLES_V2_HELPERS_H__
#ifndef __XLAT_TABLES_V2_H__
#error "Do not include this header file directly. Include xlat_tables_v2.h instead."
#endif
/* Offsets into mmu_cfg_params array. All parameters are 64 bits wide. */
#define MMU_CFG_MAIR 0
#define MMU_CFG_TCR 1
#define MMU_CFG_TTBR0 2
#define MMU_CFG_PARAM_MAX 3
#ifndef __ASSEMBLY__
#include <cassert.h>
#include <platform_def.h>
#include <stddef.h>
#include <xlat_tables_arch.h>
#include <xlat_tables_defs.h>
/* Parameters of register values required when enabling MMU */
extern uint64_t mmu_cfg_params[MMU_CFG_PARAM_MAX];
/* Forward declaration */
struct mmap_region;
/*
* Helper macro to define an mmap_region_t. This macro allows to specify all
* the fields of the structure but its parameter list is not guaranteed to
* remain stable as we add members to mmap_region_t.
*/
#define _MAP_REGION_FULL_SPEC(_pa, _va, _sz, _attr, _gr) \
{ \
.base_pa = (_pa), \
.base_va = (_va), \
.size = (_sz), \
.attr = (_attr), \
.granularity = (_gr), \
}
/* Struct that holds all information about the translation tables. */
struct xlat_ctx {
/*
* Max allowed Virtual and Physical Addresses.
*/
unsigned long long pa_max_address;
uintptr_t va_max_address;
/*
* Array of all memory regions stored in order of ascending end address
* and ascending size to simplify the code that allows overlapping
* regions. The list is terminated by the first entry with size == 0.
* The max size of the list is stored in `mmap_num`. `mmap` points to an
* array of mmap_num + 1 elements, so that there is space for the final
* null entry.
*/
struct mmap_region *mmap;
unsigned int mmap_num;
/*
* Array of finer-grain translation tables.
* For example, if the initial lookup level is 1 then this array would
* contain both level-2 and level-3 entries.
*/
uint64_t (*tables)[XLAT_TABLE_ENTRIES];
unsigned int tables_num;
/*
* Keep track of how many regions are mapped in each table. The base
* table can't be unmapped so it isn't needed to keep track of it.
*/
#if PLAT_XLAT_TABLES_DYNAMIC
int *tables_mapped_regions;
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
unsigned int next_table;
/*
* Base translation table. It doesn't need to have the same amount of
* entries as the ones used for other levels.
*/
uint64_t *base_table;
unsigned int base_table_entries;
/*
* Max Physical and Virtual addresses currently in use by the
* translation tables. These might get updated as we map/unmap memory
* regions but they will never go beyond pa/va_max_address.
*/
unsigned long long max_pa;
uintptr_t max_va;
/* Level of the base translation table. */
unsigned int base_level;
/* Set to 1 when the translation tables are initialized. */
unsigned int initialized;
/*
* Translation regime managed by this xlat_ctx_t. It should be one of
* the EL*_REGIME defines.
*/
int xlat_regime;
};
#if PLAT_XLAT_TABLES_DYNAMIC
#define _ALLOC_DYNMAP_STRUCT(_ctx_name, _xlat_tables_count) \
static int _ctx_name##_mapped_regions[_xlat_tables_count];
#define _REGISTER_DYNMAP_STRUCT(_ctx_name) \
.tables_mapped_regions = _ctx_name##_mapped_regions,
#else
#define _ALLOC_DYNMAP_STRUCT(_ctx_name, _xlat_tables_count) \
/* do nothing */
#define _REGISTER_DYNMAP_STRUCT(_ctx_name) \
/* do nothing */
#endif /* PLAT_XLAT_TABLES_DYNAMIC */
#define _REGISTER_XLAT_CONTEXT_FULL_SPEC(_ctx_name, _mmap_count, _xlat_tables_count, \
_virt_addr_space_size, _phy_addr_space_size, \
_xlat_regime, _section_name) \
CASSERT(CHECK_VIRT_ADDR_SPACE_SIZE(_virt_addr_space_size), \
assert_invalid_virtual_addr_space_size_for_##_ctx_name); \
\
CASSERT(CHECK_PHY_ADDR_SPACE_SIZE(_phy_addr_space_size), \
assert_invalid_physical_addr_space_sizefor_##_ctx_name); \
\
static mmap_region_t _ctx_name##_mmap[_mmap_count + 1]; \
\
static uint64_t _ctx_name##_xlat_tables[_xlat_tables_count] \
[XLAT_TABLE_ENTRIES] \
__aligned(XLAT_TABLE_SIZE) __section(_section_name); \
\
static uint64_t _ctx_name##_base_xlat_table \
[GET_NUM_BASE_LEVEL_ENTRIES(_virt_addr_space_size)] \
__aligned(GET_NUM_BASE_LEVEL_ENTRIES(_virt_addr_space_size) \
* sizeof(uint64_t)); \
\
_ALLOC_DYNMAP_STRUCT(_ctx_name, _xlat_tables_count) \
\
static xlat_ctx_t _ctx_name##_xlat_ctx = { \
.va_max_address = (_virt_addr_space_size) - 1, \
.pa_max_address = (_phy_addr_space_size) - 1, \
.mmap = _ctx_name##_mmap, \
.mmap_num = (_mmap_count), \
.base_level = GET_XLAT_TABLE_LEVEL_BASE(_virt_addr_space_size), \
.base_table = _ctx_name##_base_xlat_table, \
.base_table_entries = \
GET_NUM_BASE_LEVEL_ENTRIES(_virt_addr_space_size), \
.tables = _ctx_name##_xlat_tables, \
.tables_num = _xlat_tables_count, \
_REGISTER_DYNMAP_STRUCT(_ctx_name) \
.xlat_regime = (_xlat_regime), \
.max_pa = 0, \
.max_va = 0, \
.next_table = 0, \
.initialized = 0, \
}
#endif /*__ASSEMBLY__*/
#endif /* __XLAT_TABLES_V2_HELPERS_H__ */
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