include/lib/gpt_rme/gpt_rme.h - chromiumos/third_party/arm-trusted-firmware - Git at Google

 /*
  * Copyright (c) 2021, Arm Limited. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #ifndef GPT_RME_H
 #define GPT_RME_H

 #include <stdint.h>

 #include <arch.h>

 /******************************************************************************/
 /* GPT helper macros and definitions                                          */
 /******************************************************************************/

 /*
  * Structure for specifying a mapping range and it's properties. This should not
  * be manually initialized, using the MAP_GPT_REGION_x macros is recommended as
  * to avoid potential incompatibilities in the future.
  */
 typedef struct pas_region {
 	uintptr_t	base_pa;	/* Base address for PAS. */
 	size_t		size;		/* Size of the PAS. */
 	unsigned int	attrs;		/* PAS GPI and entry type. */
 } pas_region_t;

 /* GPT GPI definitions */
 #define GPT_GPI_NO_ACCESS		U(0x0)
 #define GPT_GPI_SECURE			U(0x8)
 #define GPT_GPI_NS			U(0x9)
 #define GPT_GPI_ROOT			U(0xA)
 #define GPT_GPI_REALM			U(0xB)
 #define GPT_GPI_ANY			U(0xF)
 #define GPT_GPI_VAL_MASK		UL(0xF)

 /* PAS attribute GPI definitions. */
 #define GPT_PAS_ATTR_GPI_SHIFT		U(0)
 #define GPT_PAS_ATTR_GPI_MASK		U(0xF)
 #define GPT_PAS_ATTR_GPI(_attrs)	(((_attrs)			\
 					>> GPT_PAS_ATTR_GPI_SHIFT)	\
 					& GPT_PAS_ATTR_GPI_MASK)

 /* PAS attribute mapping type definitions */
 #define GPT_PAS_ATTR_MAP_TYPE_BLOCK	U(0x0)
 #define GPT_PAS_ATTR_MAP_TYPE_GRANULE	U(0x1)
 #define GPT_PAS_ATTR_MAP_TYPE_SHIFT	U(4)
 #define GPT_PAS_ATTR_MAP_TYPE_MASK	U(0x1)
 #define GPT_PAS_ATTR_MAP_TYPE(_attrs)	(((_attrs)			\
 					>> GPT_PAS_ATTR_MAP_TYPE_SHIFT)	\
 					& GPT_PAS_ATTR_MAP_TYPE_MASK)

 /*
  * Macro to initialize the attributes field in the pas_region_t structure.
  * [31:5] Reserved
  * [4]    Mapping type (GPT_PAS_ATTR_MAP_TYPE_x definitions)
  * [3:0]  PAS GPI type (GPT_GPI_x definitions)
  */
 #define GPT_PAS_ATTR(_type, _gpi)					\
 	((((_type) & GPT_PAS_ATTR_MAP_TYPE_MASK)			\
 	  << GPT_PAS_ATTR_MAP_TYPE_SHIFT) |				\
 	(((_gpi) & GPT_PAS_ATTR_GPI_MASK)				\
 	 << GPT_PAS_ATTR_GPI_SHIFT))

 /*
  * Macro to create a GPT entry for this PAS range as a block descriptor. If this
  * region does not fit the requirements for a block descriptor then GPT
  * initialization will fail.
  */
 #define GPT_MAP_REGION_BLOCK(_pa, _sz, _gpi)				\
 	{								\
 		.base_pa = (_pa),					\
 		.size = (_sz),						\
 		.attrs = GPT_PAS_ATTR(GPT_PAS_ATTR_MAP_TYPE_BLOCK, (_gpi)), \
 	}

 /*
  * Macro to create a GPT entry for this PAS range as a table descriptor. If this
  * region does not fit the requirements for a table descriptor then GPT
  * initialization will fail.
  */
 #define GPT_MAP_REGION_GRANULE(_pa, _sz, _gpi)				\
 	{								\
 		.base_pa = (_pa),					\
 		.size = (_sz),						\
 		.attrs = GPT_PAS_ATTR(GPT_PAS_ATTR_MAP_TYPE_GRANULE, (_gpi)), \
 	}

 /******************************************************************************/
 /* GPT register field definitions                                             */
 /******************************************************************************/

 /*
  * Least significant address bits protected by each entry in level 0 GPT. This
  * field is read-only.
  */
 #define GPCCR_L0GPTSZ_SHIFT	U(20)
 #define GPCCR_L0GPTSZ_MASK	U(0xF)

 typedef enum {
 	GPCCR_L0GPTSZ_30BITS	= U(0x0),
 	GPCCR_L0GPTSZ_34BITS	= U(0x4),
 	GPCCR_L0GPTSZ_36BITS	= U(0x6),
 	GPCCR_L0GPTSZ_39BITS	= U(0x9)
 } gpccr_l0gptsz_e;

 /* Granule protection check priority bit definitions */
 #define GPCCR_GPCP_SHIFT	U(17)
 #define GPCCR_GPCP_BIT		(ULL(1) << GPCCR_EL3_GPCP_SHIFT)

 /* Granule protection check bit definitions */
 #define GPCCR_GPC_SHIFT		U(16)
 #define GPCCR_GPC_BIT		(ULL(1) << GPCCR_GPC_SHIFT)

 /* Physical granule size bit definitions */
 #define GPCCR_PGS_SHIFT		U(14)
 #define GPCCR_PGS_MASK		U(0x3)
 #define SET_GPCCR_PGS(x)	(((x) & GPCCR_PGS_MASK) << GPCCR_PGS_SHIFT)

 typedef enum {
 	GPCCR_PGS_4K		= U(0x0),
 	GPCCR_PGS_64K		= U(0x1),
 	GPCCR_PGS_16K		= U(0x2)
 } gpccr_pgs_e;

 /* GPT fetch shareability attribute bit definitions */
 #define GPCCR_SH_SHIFT		U(12)
 #define GPCCR_SH_MASK		U(0x3)
 #define SET_GPCCR_SH(x)		(((x) & GPCCR_SH_MASK) << GPCCR_SH_SHIFT)

 typedef enum {
 	GPCCR_SH_NS		= U(0x0),
 	GPCCR_SH_OS		= U(0x2),
 	GPCCR_SH_IS		= U(0x3)
 } gpccr_sh_e;

 /* GPT fetch outer cacheability attribute bit definitions */
 #define GPCCR_ORGN_SHIFT	U(10)
 #define GPCCR_ORGN_MASK		U(0x3)
 #define SET_GPCCR_ORGN(x)	(((x) & GPCCR_ORGN_MASK) << GPCCR_ORGN_SHIFT)

 typedef enum {
 	GPCCR_ORGN_NC		= U(0x0),
 	GPCCR_ORGN_WB_RA_WA	= U(0x1),
 	GPCCR_ORGN_WT_RA_NWA	= U(0x2),
 	GPCCR_ORGN_WB_RA_NWA	= U(0x3)
 } gpccr_orgn_e;

 /* GPT fetch inner cacheability attribute bit definitions */
 #define GPCCR_IRGN_SHIFT	U(8)
 #define GPCCR_IRGN_MASK		U(0x3)
 #define SET_GPCCR_IRGN(x)	(((x) & GPCCR_IRGN_MASK) << GPCCR_IRGN_SHIFT)

 typedef enum {
 	GPCCR_IRGN_NC		= U(0x0),
 	GPCCR_IRGN_WB_RA_WA	= U(0x1),
 	GPCCR_IRGN_WT_RA_NWA	= U(0x2),
 	GPCCR_IRGN_WB_RA_NWA	= U(0x3)
 } gpccr_irgn_e;

 /* Protected physical address size bit definitions */
 #define GPCCR_PPS_SHIFT		U(0)
 #define GPCCR_PPS_MASK		U(0x7)
 #define SET_GPCCR_PPS(x)	(((x) & GPCCR_PPS_MASK) << GPCCR_PPS_SHIFT)

 typedef enum {
 	GPCCR_PPS_4GB		= U(0x0),
 	GPCCR_PPS_64GB		= U(0x1),
 	GPCCR_PPS_1TB		= U(0x2),
 	GPCCR_PPS_4TB		= U(0x3),
 	GPCCR_PPS_16TB		= U(0x4),
 	GPCCR_PPS_256TB		= U(0x5),
 	GPCCR_PPS_4PB		= U(0x6)
 } gpccr_pps_e;

 /* Base Address for the GPT bit definitions */
 #define GPTBR_BADDR_SHIFT	U(0)
 #define GPTBR_BADDR_VAL_SHIFT	U(12)
 #define GPTBR_BADDR_MASK	ULL(0xffffffffff)

 /******************************************************************************/
 /* GPT public APIs                                                            */
 /******************************************************************************/

 /*
  * Public API that initializes the entire protected space to GPT_GPI_ANY using
  * the L0 tables (block descriptors).  Ideally, this function is invoked prior
  * to DDR discovery and initialization.  The MMU must be initialized before
  * calling this function.
  *
  * Parameters
  *   pps		PPS value to use for table generation
  *   l0_mem_base	Base address of L0 tables in memory.
  *   l0_mem_size	Total size of memory available for L0 tables.
  *
  * Return
  *   Negative Linux error code in the event of a failure, 0 for success.
  */
 int gpt_init_l0_tables(gpccr_pps_e pps,
 		       uintptr_t l0_mem_base,
 		       size_t l0_mem_size);

 /*
  * Public API that carves out PAS regions from the L0 tables and builds any L1
  * tables that are needed.  This function ideally is run after DDR discovery and
  * initialization.  The L0 tables must have already been initialized to GPI_ANY
  * when this function is called.
  *
  * Parameters
  *   pgs		PGS value to use for table generation.
  *   l1_mem_base	Base address of memory used for L1 tables.
  *   l1_mem_size	Total size of memory available for L1 tables.
  *   *pas_regions	Pointer to PAS regions structure array.
  *   pas_count		Total number of PAS regions.
  *
  * Return
  *   Negative Linux error code in the event of a failure, 0 for success.
  */
 int gpt_init_pas_l1_tables(gpccr_pgs_e pgs,
 			   uintptr_t l1_mem_base,
 			   size_t l1_mem_size,
 			   pas_region_t *pas_regions,
 			   unsigned int pas_count);

 /*
  * Public API to initialize the runtime gpt_config structure based on the values
  * present in the GPTBR_EL3 and GPCCR_EL3 registers. GPT initialization
  * typically happens in a bootloader stage prior to setting up the EL3 runtime
  * environment for the granule transition service so this function detects the
  * initialization from a previous stage. Granule protection checks must be
  * enabled already or this function will return an error.
  *
  * Return
  *   Negative Linux error code in the event of a failure, 0 for success.
  */
 int gpt_runtime_init(void);

 /*
  * Public API to enable granule protection checks once the tables have all been
  * initialized.  This function is called at first initialization and then again
  * later during warm boots of CPU cores.
  *
  * Return
  *   Negative Linux error code in the event of a failure, 0 for success.
  */
 int gpt_enable(void);

 /*
  * Public API to disable granule protection checks.
  */
 void gpt_disable(void);

 /*
  * This function is the core of the granule transition service. When a granule
  * transition request occurs it is routed to this function where the request is
  * validated then fulfilled if possible.
  *
  * TODO: implement support for transitioning multiple granules at once.
  *
  * Parameters
  *   base: Base address of the region to transition, must be aligned to granule
  *         size.
  *   size: Size of region to transition, must be aligned to granule size.
  *   src_sec_state: Security state of the caller.
  *   target_pas: Target PAS of the specified memory region.
  *
  * Return
  *    Negative Linux error code in the event of a failure, 0 for success.
  */
 int gpt_transition_pas(uint64_t base,
 		       size_t size,
 		       unsigned int src_sec_state,
 		       unsigned int target_pas);

 #endif /* GPT_RME_H */
	/*
	* Copyright (c) 2021, Arm Limited. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#ifndef GPT_RME_H
	#define GPT_RME_H

	#include <stdint.h>

	#include <arch.h>

	/******************************************************************************/
	/* GPT helper macros and definitions */
	/******************************************************************************/

	/*
	* Structure for specifying a mapping range and it's properties. This should not
	* be manually initialized, using the MAP_GPT_REGION_x macros is recommended as
	* to avoid potential incompatibilities in the future.
	*/
	typedef struct pas_region {
	uintptr_t base_pa; /* Base address for PAS. */
	size_t size; /* Size of the PAS. */
	unsigned int attrs; /* PAS GPI and entry type. */
	} pas_region_t;

	/* GPT GPI definitions */
	#define GPT_GPI_NO_ACCESS U(0x0)
	#define GPT_GPI_SECURE U(0x8)
	#define GPT_GPI_NS U(0x9)
	#define GPT_GPI_ROOT U(0xA)
	#define GPT_GPI_REALM U(0xB)
	#define GPT_GPI_ANY U(0xF)
	#define GPT_GPI_VAL_MASK UL(0xF)

	/* PAS attribute GPI definitions. */
	#define GPT_PAS_ATTR_GPI_SHIFT U(0)
	#define GPT_PAS_ATTR_GPI_MASK U(0xF)
	#define GPT_PAS_ATTR_GPI(_attrs) (((_attrs) \
	>> GPT_PAS_ATTR_GPI_SHIFT) \
	& GPT_PAS_ATTR_GPI_MASK)

	/* PAS attribute mapping type definitions */
	#define GPT_PAS_ATTR_MAP_TYPE_BLOCK U(0x0)
	#define GPT_PAS_ATTR_MAP_TYPE_GRANULE U(0x1)
	#define GPT_PAS_ATTR_MAP_TYPE_SHIFT U(4)
	#define GPT_PAS_ATTR_MAP_TYPE_MASK U(0x1)
	#define GPT_PAS_ATTR_MAP_TYPE(_attrs) (((_attrs) \
	>> GPT_PAS_ATTR_MAP_TYPE_SHIFT) \
	& GPT_PAS_ATTR_MAP_TYPE_MASK)

	/*
	* Macro to initialize the attributes field in the pas_region_t structure.
	* [31:5] Reserved
	* [4] Mapping type (GPT_PAS_ATTR_MAP_TYPE_x definitions)
	* [3:0] PAS GPI type (GPT_GPI_x definitions)
	*/
	#define GPT_PAS_ATTR(_type, _gpi) \
	((((_type) & GPT_PAS_ATTR_MAP_TYPE_MASK) \
	<< GPT_PAS_ATTR_MAP_TYPE_SHIFT) \| \
	(((_gpi) & GPT_PAS_ATTR_GPI_MASK) \
	<< GPT_PAS_ATTR_GPI_SHIFT))

	/*
	* Macro to create a GPT entry for this PAS range as a block descriptor. If this
	* region does not fit the requirements for a block descriptor then GPT
	* initialization will fail.
	*/
	#define GPT_MAP_REGION_BLOCK(_pa, _sz, _gpi) \
	{ \
	.base_pa = (_pa), \
	.size = (_sz), \
	.attrs = GPT_PAS_ATTR(GPT_PAS_ATTR_MAP_TYPE_BLOCK, (_gpi)), \
	}

	/*
	* Macro to create a GPT entry for this PAS range as a table descriptor. If this
	* region does not fit the requirements for a table descriptor then GPT
	* initialization will fail.
	*/
	#define GPT_MAP_REGION_GRANULE(_pa, _sz, _gpi) \
	{ \
	.base_pa = (_pa), \
	.size = (_sz), \
	.attrs = GPT_PAS_ATTR(GPT_PAS_ATTR_MAP_TYPE_GRANULE, (_gpi)), \
	}

	/******************************************************************************/
	/* GPT register field definitions */
	/******************************************************************************/

	/*
	* Least significant address bits protected by each entry in level 0 GPT. This
	* field is read-only.
	*/
	#define GPCCR_L0GPTSZ_SHIFT U(20)
	#define GPCCR_L0GPTSZ_MASK U(0xF)

	typedef enum {
	GPCCR_L0GPTSZ_30BITS = U(0x0),
	GPCCR_L0GPTSZ_34BITS = U(0x4),
	GPCCR_L0GPTSZ_36BITS = U(0x6),
	GPCCR_L0GPTSZ_39BITS = U(0x9)
	} gpccr_l0gptsz_e;

	/* Granule protection check priority bit definitions */
	#define GPCCR_GPCP_SHIFT U(17)
	#define GPCCR_GPCP_BIT (ULL(1) << GPCCR_EL3_GPCP_SHIFT)

	/* Granule protection check bit definitions */
	#define GPCCR_GPC_SHIFT U(16)
	#define GPCCR_GPC_BIT (ULL(1) << GPCCR_GPC_SHIFT)

	/* Physical granule size bit definitions */
	#define GPCCR_PGS_SHIFT U(14)
	#define GPCCR_PGS_MASK U(0x3)
	#define SET_GPCCR_PGS(x) (((x) & GPCCR_PGS_MASK) << GPCCR_PGS_SHIFT)

	typedef enum {
	GPCCR_PGS_4K = U(0x0),
	GPCCR_PGS_64K = U(0x1),
	GPCCR_PGS_16K = U(0x2)
	} gpccr_pgs_e;

	/* GPT fetch shareability attribute bit definitions */
	#define GPCCR_SH_SHIFT U(12)
	#define GPCCR_SH_MASK U(0x3)
	#define SET_GPCCR_SH(x) (((x) & GPCCR_SH_MASK) << GPCCR_SH_SHIFT)

	typedef enum {
	GPCCR_SH_NS = U(0x0),
	GPCCR_SH_OS = U(0x2),
	GPCCR_SH_IS = U(0x3)
	} gpccr_sh_e;

	/* GPT fetch outer cacheability attribute bit definitions */
	#define GPCCR_ORGN_SHIFT U(10)
	#define GPCCR_ORGN_MASK U(0x3)
	#define SET_GPCCR_ORGN(x) (((x) & GPCCR_ORGN_MASK) << GPCCR_ORGN_SHIFT)

	typedef enum {
	GPCCR_ORGN_NC = U(0x0),
	GPCCR_ORGN_WB_RA_WA = U(0x1),
	GPCCR_ORGN_WT_RA_NWA = U(0x2),
	GPCCR_ORGN_WB_RA_NWA = U(0x3)
	} gpccr_orgn_e;

	/* GPT fetch inner cacheability attribute bit definitions */
	#define GPCCR_IRGN_SHIFT U(8)
	#define GPCCR_IRGN_MASK U(0x3)
	#define SET_GPCCR_IRGN(x) (((x) & GPCCR_IRGN_MASK) << GPCCR_IRGN_SHIFT)

	typedef enum {
	GPCCR_IRGN_NC = U(0x0),
	GPCCR_IRGN_WB_RA_WA = U(0x1),
	GPCCR_IRGN_WT_RA_NWA = U(0x2),
	GPCCR_IRGN_WB_RA_NWA = U(0x3)
	} gpccr_irgn_e;

	/* Protected physical address size bit definitions */
	#define GPCCR_PPS_SHIFT U(0)
	#define GPCCR_PPS_MASK U(0x7)
	#define SET_GPCCR_PPS(x) (((x) & GPCCR_PPS_MASK) << GPCCR_PPS_SHIFT)

	typedef enum {
	GPCCR_PPS_4GB = U(0x0),
	GPCCR_PPS_64GB = U(0x1),
	GPCCR_PPS_1TB = U(0x2),
	GPCCR_PPS_4TB = U(0x3),
	GPCCR_PPS_16TB = U(0x4),
	GPCCR_PPS_256TB = U(0x5),
	GPCCR_PPS_4PB = U(0x6)
	} gpccr_pps_e;

	/* Base Address for the GPT bit definitions */
	#define GPTBR_BADDR_SHIFT U(0)
	#define GPTBR_BADDR_VAL_SHIFT U(12)
	#define GPTBR_BADDR_MASK ULL(0xffffffffff)

	/******************************************************************************/
	/* GPT public APIs */
	/******************************************************************************/

	/*
	* Public API that initializes the entire protected space to GPT_GPI_ANY using
	* the L0 tables (block descriptors). Ideally, this function is invoked prior
	* to DDR discovery and initialization. The MMU must be initialized before
	* calling this function.
	*
	* Parameters
	* pps PPS value to use for table generation
	* l0_mem_base Base address of L0 tables in memory.
	* l0_mem_size Total size of memory available for L0 tables.
	*
	* Return
	* Negative Linux error code in the event of a failure, 0 for success.
	*/
	int gpt_init_l0_tables(gpccr_pps_e pps,
	uintptr_t l0_mem_base,
	size_t l0_mem_size);

	/*
	* Public API that carves out PAS regions from the L0 tables and builds any L1
	* tables that are needed. This function ideally is run after DDR discovery and
	* initialization. The L0 tables must have already been initialized to GPI_ANY
	* when this function is called.
	*
	* Parameters
	* pgs PGS value to use for table generation.
	* l1_mem_base Base address of memory used for L1 tables.
	* l1_mem_size Total size of memory available for L1 tables.
	* *pas_regions Pointer to PAS regions structure array.
	* pas_count Total number of PAS regions.
	*
	* Return
	* Negative Linux error code in the event of a failure, 0 for success.
	*/
	int gpt_init_pas_l1_tables(gpccr_pgs_e pgs,
	uintptr_t l1_mem_base,
	size_t l1_mem_size,
	pas_region_t *pas_regions,
	unsigned int pas_count);

	/*
	* Public API to initialize the runtime gpt_config structure based on the values
	* present in the GPTBR_EL3 and GPCCR_EL3 registers. GPT initialization
	* typically happens in a bootloader stage prior to setting up the EL3 runtime
	* environment for the granule transition service so this function detects the
	* initialization from a previous stage. Granule protection checks must be
	* enabled already or this function will return an error.
	*
	* Return
	* Negative Linux error code in the event of a failure, 0 for success.
	*/
	int gpt_runtime_init(void);

	/*
	* Public API to enable granule protection checks once the tables have all been
	* initialized. This function is called at first initialization and then again
	* later during warm boots of CPU cores.
	*
	* Return
	* Negative Linux error code in the event of a failure, 0 for success.
	*/
	int gpt_enable(void);

	/*
	* Public API to disable granule protection checks.
	*/
	void gpt_disable(void);

	/*
	* This function is the core of the granule transition service. When a granule
	* transition request occurs it is routed to this function where the request is
	* validated then fulfilled if possible.
	*
	* TODO: implement support for transitioning multiple granules at once.
	*
	* Parameters
	* base: Base address of the region to transition, must be aligned to granule
	* size.
	* size: Size of region to transition, must be aligned to granule size.
	* src_sec_state: Security state of the caller.
	* target_pas: Target PAS of the specified memory region.
	*
	* Return
	* Negative Linux error code in the event of a failure, 0 for success.
	*/
	int gpt_transition_pas(uint64_t base,
	size_t size,
	unsigned int src_sec_state,
	unsigned int target_pas);

	#endif /* GPT_RME_H */