lib/xlat/include/xlat_defs.h - TF-RMM/tf-rmm - TrustedFirmware Git Browser

 /*
  * SPDX-License-Identifier: BSD-3-Clause
  * SPDX-FileCopyrightText: Copyright TF-RMM Contributors.
  * SPDX-FileCopyrightText: Copyright Arm Limited and Contributors.
  */

 /* This file is derived from xlat_table_v2 library in TF-A project */

 #ifndef XLAT_DEFS_H
 #define XLAT_DEFS_H

 #include <arch.h>
 #include <utils_def.h>

 #define PAGE_SIZE_4KB		(1UL << 12)
 #define PAGE_SIZE_16KB		(1UL << 14)
 #define PAGE_SIZE_64KB		(1UL << 16)

 /*
  * The ARMv8-A architecture allows translation granule sizes of 4KB, 16KB or 64KB.
  *
  * Only 4K granularities are allowed on this library.
  */
 #define PAGE_SIZE		(UL(1) << XLAT_GRANULARITY_SIZE_SHIFT)
 #define PAGE_SIZE_MASK		(PAGE_SIZE - UL(1))
 #define IS_PAGE_ALIGNED(addr)	(((addr) & PAGE_SIZE_MASK) == U(0))

 #define XLAT_ENTRY_SIZE_SHIFT	UL(3)	/* Each MMU table entry is 8 bytes */
 #define XLAT_ENTRY_SIZE		(UL(1) << XLAT_ENTRY_SIZE_SHIFT)

 /* Size of one complete table */
 #define XLAT_TABLE_SIZE_SHIFT	XLAT_GRANULARITY_SIZE_SHIFT
 #define XLAT_TABLE_SIZE		(UL(1) << XLAT_TABLE_SIZE_SHIFT)

 #define XLAT_TABLE_LEVEL_MAX	UL(3)

 /* Values for number of entries in each MMU translation table */
 #define XLAT_TABLE_ENTRIES_SHIFT (XLAT_TABLE_SIZE_SHIFT - XLAT_ENTRY_SIZE_SHIFT)
 #define XLAT_TABLE_ENTRIES	(UL(1) << XLAT_TABLE_ENTRIES_SHIFT)
 #define XLAT_TABLE_ENTRIES_MASK	(XLAT_TABLE_ENTRIES - UL(1))

 /* Values to convert a memory address to an index into a translation table */
 #define L3_XLAT_ADDRESS_SHIFT	XLAT_GRANULARITY_SIZE_SHIFT
 #define L2_XLAT_ADDRESS_SHIFT	(L3_XLAT_ADDRESS_SHIFT + XLAT_TABLE_ENTRIES_SHIFT)
 #define L1_XLAT_ADDRESS_SHIFT	(L2_XLAT_ADDRESS_SHIFT + XLAT_TABLE_ENTRIES_SHIFT)
 #define L0_XLAT_ADDRESS_SHIFT	(L1_XLAT_ADDRESS_SHIFT + XLAT_TABLE_ENTRIES_SHIFT)
 #define XLAT_ADDR_SHIFT(level)	(XLAT_GRANULARITY_SIZE_SHIFT + \
 		  ((XLAT_TABLE_LEVEL_MAX - (level)) * XLAT_TABLE_ENTRIES_SHIFT))

 #define XLAT_BLOCK_SIZE(level)	(UL(1) << XLAT_ADDR_SHIFT(level))
 /* Mask to get the bits used to index inside a block of a certain level */
 #define XLAT_BLOCK_MASK(level)	(XLAT_BLOCK_SIZE(level) - UL(1))
 /* Mask to get the address bits common to a block of a certain table level*/
 #define XLAT_ADDR_MASK(level)	(~XLAT_BLOCK_MASK(level))
 /*
  * Extract from the given virtual address the index into the given lookup level.
  * This macro assumes the system is using the 4KB translation granule.
  */
 #define XLAT_TABLE_IDX(virtual_addr, level)	\
 	(((virtual_addr) >> XLAT_ADDR_SHIFT(level)) & ULL(0x1FF))

 /* Mask to get the PA given a L3 descriptor entry (4KB granularity) */
 #define XLAT_TTE_L3_PA_MASK	ULL(0x0000FFFFFFFFF000)

 /*
  * In AArch64 state, the MMU may support 4KB, 16KB and 64KB page
  * granularity. For 4KB granularity, a level 0 table descriptor doesn't support
  * block translation. For 16KB, the same thing happens to levels 0 and 1. For
  * 64KB, same for level 1. See section D4.3.1 of the ARMv8-A Architecture
  * Reference Manual (DDI 0487A.k) for more information.
  *
  * The define below specifies the first table level that allows block
  * descriptors.
  */
 #if PAGE_SIZE == PAGE_SIZE_4KB
 # define MIN_LVL_BLOCK_DESC	U(1)
 #elif (PAGE_SIZE == PAGE_SIZE_16KB) || (PAGE_SIZE == PAGE_SIZE_64KB)
 # define MIN_LVL_BLOCK_DESC	U(2)
 #endif

 #define XLAT_TABLE_LEVEL_MIN	U(0)

 /* Mask used to know if an address belongs to a high va region. */
 #define HIGH_REGION_MASK	(ULL(0xFFF) << 52)

 /*
  * Define the architectural limits of the virtual address space in AArch64
  * state.
  *
  * TCR.TxSZ is calculated as 64 minus the width of said address space.
  * The value of TCR.TxSZ must be in the range 16 to 39 [1] or 48 [2],
  * depending on Small Translation Table Support which means that
  * the virtual address space width must be in the range 48 to 25 or 16 bits.
  *
  * [1] See the ARMv8-A Architecture Reference Manual (DDI 0487A.j) for more
  * information:
  * Page 1730: 'Input address size', 'For all translation stages'.
  * [2] See section 12.2.55 in the ARMv8-A Architecture Reference Manual
  * (DDI 0487D.a)
  */
 /* Maximum value of TCR_ELx.T(0,1)SZ is 39 */
 #define MIN_VIRT_ADDR_SPACE_SIZE	(UL(1) << (UL(64) - TCR_TxSZ_MAX))

 /* Maximum value of TCR_ELx.T(0,1)SZ is 48 */
 #define MIN_VIRT_ADDR_SPACE_SIZE_TTST	\
 				(UL(1) << (UL(64) - TCR_TxSZ_MAX_TTST))
 #define MAX_VIRT_ADDR_SPACE_SIZE	(UL(1) << (UL(64) - TCR_TxSZ_MIN))

 /*
  * Here we calculate the initial lookup level from the value of the given
  * virtual address space size. For a 4 KB page size,
  * - level 0 supports virtual address spaces of widths 48 to 40 bits;
  * - level 1 from 39 to 31;
  * - level 2 from 30 to 22.
  * - level 3 from 21 to 16.
  *
  * Small Translation Table (Armv8.4-TTST) support allows the starting level
  * of the translation table from 3 for 4KB granularity. See section 12.2.55 in
  * the ARMv8-A Architecture Reference Manual (DDI 0487D.a). In Armv8.3 and below
  * wider or narrower address spaces are not supported. As a result, level 3
  * cannot be used as initial lookup level with 4 KB granularity. See section
  * D4.2.5 in the ARMv8-A Architecture Reference Manual (DDI 0487A.j) for more
  * information.
  *
  * For example, for a 35-bit address space (i.e. virt_addr_space_size ==
  * 1 << 35), TCR.TxSZ will be programmed to (64 - 35) = 29. According to Table
  * D4-11 in the ARM ARM, the initial lookup level for an address space like that
  * is 1.
  *
  * Note that this macro assumes that the given virtual address space size is
  * valid.
  */
 #define GET_XLAT_TABLE_LEVEL_BASE(_virt_addr_space_sz)			\
 	(((_virt_addr_space_sz) > (ULL(1) << L0_XLAT_ADDRESS_SHIFT))	\
 	? 0U								\
 	: (((_virt_addr_space_sz) > (ULL(1) << L1_XLAT_ADDRESS_SHIFT))	\
 	? 1U								\
 	: (((_virt_addr_space_sz) > (ULL(1) << L2_XLAT_ADDRESS_SHIFT))	\
 	? 2U : 3U)))

 #endif /* XLAT_DEFS_H */
	/*
	* SPDX-License-Identifier: BSD-3-Clause
	* SPDX-FileCopyrightText: Copyright TF-RMM Contributors.
	* SPDX-FileCopyrightText: Copyright Arm Limited and Contributors.
	*/

	/* This file is derived from xlat_table_v2 library in TF-A project */

	#ifndef XLAT_DEFS_H
	#define XLAT_DEFS_H

	#include <arch.h>
	#include <utils_def.h>

	#define PAGE_SIZE_4KB (1UL << 12)
	#define PAGE_SIZE_16KB (1UL << 14)
	#define PAGE_SIZE_64KB (1UL << 16)

	/*
	* The ARMv8-A architecture allows translation granule sizes of 4KB, 16KB or 64KB.
	*
	* Only 4K granularities are allowed on this library.
	*/
	#define PAGE_SIZE (UL(1) << XLAT_GRANULARITY_SIZE_SHIFT)
	#define PAGE_SIZE_MASK (PAGE_SIZE - UL(1))
	#define IS_PAGE_ALIGNED(addr) (((addr) & PAGE_SIZE_MASK) == U(0))

	#define XLAT_ENTRY_SIZE_SHIFT UL(3) /* Each MMU table entry is 8 bytes */
	#define XLAT_ENTRY_SIZE (UL(1) << XLAT_ENTRY_SIZE_SHIFT)

	/* Size of one complete table */
	#define XLAT_TABLE_SIZE_SHIFT XLAT_GRANULARITY_SIZE_SHIFT
	#define XLAT_TABLE_SIZE (UL(1) << XLAT_TABLE_SIZE_SHIFT)

	#define XLAT_TABLE_LEVEL_MAX UL(3)

	/* Values for number of entries in each MMU translation table */
	#define XLAT_TABLE_ENTRIES_SHIFT (XLAT_TABLE_SIZE_SHIFT - XLAT_ENTRY_SIZE_SHIFT)
	#define XLAT_TABLE_ENTRIES (UL(1) << XLAT_TABLE_ENTRIES_SHIFT)
	#define XLAT_TABLE_ENTRIES_MASK (XLAT_TABLE_ENTRIES - UL(1))

	/* Values to convert a memory address to an index into a translation table */
	#define L3_XLAT_ADDRESS_SHIFT XLAT_GRANULARITY_SIZE_SHIFT
	#define L2_XLAT_ADDRESS_SHIFT (L3_XLAT_ADDRESS_SHIFT + XLAT_TABLE_ENTRIES_SHIFT)
	#define L1_XLAT_ADDRESS_SHIFT (L2_XLAT_ADDRESS_SHIFT + XLAT_TABLE_ENTRIES_SHIFT)
	#define L0_XLAT_ADDRESS_SHIFT (L1_XLAT_ADDRESS_SHIFT + XLAT_TABLE_ENTRIES_SHIFT)
	#define XLAT_ADDR_SHIFT(level) (XLAT_GRANULARITY_SIZE_SHIFT + \
	((XLAT_TABLE_LEVEL_MAX - (level)) * XLAT_TABLE_ENTRIES_SHIFT))

	#define XLAT_BLOCK_SIZE(level) (UL(1) << XLAT_ADDR_SHIFT(level))
	/* Mask to get the bits used to index inside a block of a certain level */
	#define XLAT_BLOCK_MASK(level) (XLAT_BLOCK_SIZE(level) - UL(1))
	/* Mask to get the address bits common to a block of a certain table level*/
	#define XLAT_ADDR_MASK(level) (~XLAT_BLOCK_MASK(level))
	/*
	* Extract from the given virtual address the index into the given lookup level.
	* This macro assumes the system is using the 4KB translation granule.
	*/
	#define XLAT_TABLE_IDX(virtual_addr, level) \
	(((virtual_addr) >> XLAT_ADDR_SHIFT(level)) & ULL(0x1FF))

	/* Mask to get the PA given a L3 descriptor entry (4KB granularity) */
	#define XLAT_TTE_L3_PA_MASK ULL(0x0000FFFFFFFFF000)

	/*
	* In AArch64 state, the MMU may support 4KB, 16KB and 64KB page
	* granularity. For 4KB granularity, a level 0 table descriptor doesn't support
	* block translation. For 16KB, the same thing happens to levels 0 and 1. For
	* 64KB, same for level 1. See section D4.3.1 of the ARMv8-A Architecture
	* Reference Manual (DDI 0487A.k) for more information.
	*
	* The define below specifies the first table level that allows block
	* descriptors.
	*/
	#if PAGE_SIZE == PAGE_SIZE_4KB
	# define MIN_LVL_BLOCK_DESC U(1)
	#elif (PAGE_SIZE == PAGE_SIZE_16KB) \|\| (PAGE_SIZE == PAGE_SIZE_64KB)
	# define MIN_LVL_BLOCK_DESC U(2)
	#endif

	#define XLAT_TABLE_LEVEL_MIN U(0)

	/* Mask used to know if an address belongs to a high va region. */
	#define HIGH_REGION_MASK (ULL(0xFFF) << 52)

	/*
	* Define the architectural limits of the virtual address space in AArch64
	* state.
	*
	* TCR.TxSZ is calculated as 64 minus the width of said address space.
	* The value of TCR.TxSZ must be in the range 16 to 39 [1] or 48 [2],
	* depending on Small Translation Table Support which means that
	* the virtual address space width must be in the range 48 to 25 or 16 bits.
	*
	* [1] See the ARMv8-A Architecture Reference Manual (DDI 0487A.j) for more
	* information:
	* Page 1730: 'Input address size', 'For all translation stages'.
	* [2] See section 12.2.55 in the ARMv8-A Architecture Reference Manual
	* (DDI 0487D.a)
	*/
	/* Maximum value of TCR_ELx.T(0,1)SZ is 39 */
	#define MIN_VIRT_ADDR_SPACE_SIZE (UL(1) << (UL(64) - TCR_TxSZ_MAX))

	/* Maximum value of TCR_ELx.T(0,1)SZ is 48 */
	#define MIN_VIRT_ADDR_SPACE_SIZE_TTST \
	(UL(1) << (UL(64) - TCR_TxSZ_MAX_TTST))
	#define MAX_VIRT_ADDR_SPACE_SIZE (UL(1) << (UL(64) - TCR_TxSZ_MIN))

	/*
	* Here we calculate the initial lookup level from the value of the given
	* virtual address space size. For a 4 KB page size,
	* - level 0 supports virtual address spaces of widths 48 to 40 bits;
	* - level 1 from 39 to 31;
	* - level 2 from 30 to 22.
	* - level 3 from 21 to 16.
	*
	* Small Translation Table (Armv8.4-TTST) support allows the starting level
	* of the translation table from 3 for 4KB granularity. See section 12.2.55 in
	* the ARMv8-A Architecture Reference Manual (DDI 0487D.a). In Armv8.3 and below
	* wider or narrower address spaces are not supported. As a result, level 3
	* cannot be used as initial lookup level with 4 KB granularity. See section
	* D4.2.5 in the ARMv8-A Architecture Reference Manual (DDI 0487A.j) for more
	* information.
	*
	* For example, for a 35-bit address space (i.e. virt_addr_space_size ==
	* 1 << 35), TCR.TxSZ will be programmed to (64 - 35) = 29. According to Table
	* D4-11 in the ARM ARM, the initial lookup level for an address space like that
	* is 1.
	*
	* Note that this macro assumes that the given virtual address space size is
	* valid.
	*/
	#define GET_XLAT_TABLE_LEVEL_BASE(_virt_addr_space_sz) \
	(((_virt_addr_space_sz) > (ULL(1) << L0_XLAT_ADDRESS_SHIFT)) \
	? 0U \
	: (((_virt_addr_space_sz) > (ULL(1) << L1_XLAT_ADDRESS_SHIFT)) \
	? 1U \
	: (((_virt_addr_space_sz) > (ULL(1) << L2_XLAT_ADDRESS_SHIFT)) \
	? 2U : 3U)))

	#endif /* XLAT_DEFS_H */