include/lib/el3_runtime/context_el1.h - filogic/atf - Gitiles

 /*
  * Copyright (c) 2024, Arm Limited and Contributors. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #ifndef CONTEXT_EL1_H
 #define CONTEXT_EL1_H

 #include <lib/extensions/sysreg128.h>

 #ifndef __ASSEMBLER__

 /*******************************************************************************
  * EL1 Registers:
  * AArch64 EL1 system register context structure for preserving the
  * architectural state during world switches.
  ******************************************************************************/

 typedef struct el1_common_regs {
 	uint64_t spsr_el1;
 	uint64_t elr_el1;

 #if (!ERRATA_SPECULATIVE_AT)
 	uint64_t sctlr_el1;
 	uint64_t tcr_el1;
 #endif /* ERRATA_SPECULATIVE_AT=0 */

 	uint64_t cpacr_el1;
 	uint64_t csselr_el1;
 	uint64_t sp_el1;
 	uint64_t esr_el1;
 	uint64_t mair_el1;
 	uint64_t amair_el1;
 	uint64_t actlr_el1;
 	uint64_t tpidr_el1;
 	uint64_t tpidr_el0;
 	uint64_t tpidrro_el0;
 	uint64_t far_el1;
 	uint64_t afsr0_el1;
 	uint64_t afsr1_el1;
 	uint64_t contextidr_el1;
 	uint64_t vbar_el1;
 	uint64_t mdccint_el1;
 	uint64_t mdscr_el1;
 	sysreg_t par_el1;
 	sysreg_t ttbr0_el1;
 	sysreg_t ttbr1_el1;
 } el1_common_regs_t;

 typedef struct el1_aarch32_regs {
 	uint64_t spsr_abt;
 	uint64_t spsr_und;
 	uint64_t spsr_irq;
 	uint64_t spsr_fiq;
 	uint64_t dacr32_el2;
 	uint64_t ifsr32_el2;
 } el1_aarch32_regs_t;

 typedef struct el1_arch_timer_regs {
 	uint64_t cntp_ctl_el0;
 	uint64_t cntp_cval_el0;
 	uint64_t cntv_ctl_el0;
 	uint64_t cntv_cval_el0;
 	uint64_t cntkctl_el1;
 } el1_arch_timer_regs_t;

 typedef struct el1_mte2_regs {
 	uint64_t tfsre0_el1;
 	uint64_t tfsr_el1;
 	uint64_t rgsr_el1;
 	uint64_t gcr_el1;
 } el1_mte2_regs_t;

 typedef struct el1_ras_regs {
 	uint64_t disr_el1;
 } el1_ras_regs_t;

 typedef struct el1_s1pie_regs {
 	uint64_t pire0_el1;
 	uint64_t pir_el1;
 } el1_s1pie_regs_t;

 typedef struct el1_s1poe_regs {
 	uint64_t por_el1;
 } el1_s1poe_regs_t;

 typedef struct el1_s2poe_regs {
 	uint64_t s2por_el1;
 } el1_s2poe_regs_t;

 typedef struct el1_tcr2_regs {
 	uint64_t tcr2_el1;
 } el1_tcr2_regs_t;

 typedef struct el1_trf_regs {
 	uint64_t trfcr_el1;
 } el1_trf_regs_t;

 typedef struct el1_csv2_2_regs {
 	uint64_t scxtnum_el0;
 	uint64_t scxtnum_el1;
 } el1_csv2_2_regs_t;

 typedef struct el1_gcs_regs {
 	uint64_t gcscr_el1;
 	uint64_t gcscre0_el1;
 	uint64_t gcspr_el1;
 	uint64_t gcspr_el0;
 } el1_gcs_regs_t;

 typedef struct el1_the_regs {
 	sysreg_t rcwmask_el1;
 	sysreg_t rcwsmask_el1;
 } el1_the_regs_t;

 typedef struct el1_sctlr2_regs {
 	uint64_t sctlr2_el1;
 } el1_sctlr2_regs_t;

 typedef struct el1_sysregs {

 	el1_common_regs_t common;

 #if CTX_INCLUDE_AARCH32_REGS
 	el1_aarch32_regs_t el1_aarch32;
 #endif

 #if NS_TIMER_SWITCH
 	el1_arch_timer_regs_t arch_timer;
 #endif

 #if ENABLE_FEAT_MTE2
 	el1_mte2_regs_t mte2;
 #endif

 #if ENABLE_FEAT_RAS
 	el1_ras_regs_t ras;
 #endif

 #if ENABLE_FEAT_S1PIE
 	el1_s1pie_regs_t s1pie;
 #endif

 #if ENABLE_FEAT_S1POE
 	el1_s1poe_regs_t s1poe;
 #endif

 #if ENABLE_FEAT_S2POE
 	el1_s2poe_regs_t s2poe;
 #endif

 #if ENABLE_FEAT_TCR2
 	el1_tcr2_regs_t tcr2;
 #endif

 #if ENABLE_TRF_FOR_NS
 	el1_trf_regs_t trf;
 #endif

 #if ENABLE_FEAT_CSV2_2
 	el1_csv2_2_regs_t csv2_2;
 #endif

 #if ENABLE_FEAT_GCS
 	el1_gcs_regs_t gcs;
 #endif

 #if ENABLE_FEAT_THE
 	el1_the_regs_t the;
 #endif

 #if ENABLE_FEAT_SCTLR2
 	el1_sctlr2_regs_t sctlr2;
 #endif

 } el1_sysregs_t;


 /*
  * Macros to access members related to individual features of the el1_sysregs_t
  * structures.
  */

 #define read_el1_ctx_common(ctx, reg)		(((ctx)->common).reg)

 #define write_el1_ctx_common(ctx, reg, val)	((((ctx)->common).reg)	\
 							= (uint64_t) (val))

 #if NS_TIMER_SWITCH
 #define read_el1_ctx_arch_timer(ctx, reg)		(((ctx)->arch_timer).reg)
 #define write_el1_ctx_arch_timer(ctx, reg, val)	((((ctx)->arch_timer).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_arch_timer(ctx, reg)		ULL(0)
 #define write_el1_ctx_arch_timer(ctx, reg, val)
 #endif /* NS_TIMER_SWITCH */

 #if CTX_INCLUDE_AARCH32_REGS
 #define read_el1_ctx_aarch32(ctx, reg)		(((ctx)->el1_aarch32).reg)
 #define write_el1_ctx_aarch32(ctx, reg, val)	((((ctx)->el1_aarch32).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_aarch32(ctx, reg)		ULL(0)
 #define write_el1_ctx_aarch32(ctx, reg, val)
 #endif /* CTX_INCLUDE_AARCH32_REGS */

 #if ENABLE_FEAT_MTE2
 #define read_el1_ctx_mte2(ctx, reg)		(((ctx)->mte2).reg)
 #define write_el1_ctx_mte2(ctx, reg, val)	((((ctx)->mte2).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_mte2(ctx, reg)		ULL(0)
 #define write_el1_ctx_mte2(ctx, reg, val)
 #endif /* ENABLE_FEAT_MTE2 */

 #if ENABLE_FEAT_RAS
 #define read_el1_ctx_ras(ctx, reg)		(((ctx)->ras).reg)
 #define write_el1_ctx_ras(ctx, reg, val)	((((ctx)->ras).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_ras(ctx, reg)		ULL(0)
 #define write_el1_ctx_ras(ctx, reg, val)
 #endif /* ENABLE_FEAT_RAS */

 #if ENABLE_FEAT_S1PIE
 #define read_el1_ctx_s1pie(ctx, reg)		(((ctx)->s1pie).reg)
 #define write_el1_ctx_s1pie(ctx, reg, val)	((((ctx)->s1pie).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_s1pie(ctx, reg)		ULL(0)
 #define write_el1_ctx_s1pie(ctx, reg, val)
 #endif /* ENABLE_FEAT_S1PIE */

 #if ENABLE_FEAT_S1POE
 #define read_el1_ctx_s1poe(ctx, reg)		(((ctx)->s1poe).reg)
 #define write_el1_ctx_s1poe(ctx, reg, val)	((((ctx)->s1poe).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_s1poe(ctx, reg)		ULL(0)
 #define write_el1_ctx_s1poe(ctx, reg, val)
 #endif /* ENABLE_FEAT_S1POE */

 #if ENABLE_FEAT_S2POE
 #define read_el1_ctx_s2poe(ctx, reg)		(((ctx)->s2poe).reg)
 #define write_el1_ctx_s2poe(ctx, reg, val)	((((ctx)->s2poe).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_s2poe(ctx, reg)		ULL(0)
 #define write_el1_ctx_s2poe(ctx, reg, val)
 #endif /* ENABLE_FEAT_S2POE */

 #if ENABLE_FEAT_TCR2
 #define read_el1_ctx_tcr2(ctx, reg)		(((ctx)->tcr2).reg)
 #define write_el1_ctx_tcr2(ctx, reg, val)	((((ctx)->tcr2).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_tcr2(ctx, reg)		ULL(0)
 #define write_el1_ctx_tcr2(ctx, reg, val)
 #endif /* ENABLE_FEAT_TCR2 */

 #if ENABLE_TRF_FOR_NS
 #define read_el1_ctx_trf(ctx, reg)		(((ctx)->trf).reg)
 #define write_el1_ctx_trf(ctx, reg, val)	((((ctx)->trf).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_trf(ctx, reg)		ULL(0)
 #define write_el1_ctx_trf(ctx, reg, val)
 #endif /* ENABLE_TRF_FOR_NS */

 #if ENABLE_FEAT_CSV2_2
 #define read_el1_ctx_csv2_2(ctx, reg)		(((ctx)->csv2_2).reg)
 #define write_el1_ctx_csv2_2(ctx, reg, val)	((((ctx)->csv2_2).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_csv2_2(ctx, reg)		ULL(0)
 #define write_el1_ctx_csv2_2(ctx, reg, val)
 #endif /* ENABLE_FEAT_CSV2_2 */

 #if ENABLE_FEAT_GCS
 #define read_el1_ctx_gcs(ctx, reg)		(((ctx)->gcs).reg)
 #define write_el1_ctx_gcs(ctx, reg, val)	((((ctx)->gcs).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_gcs(ctx, reg)		ULL(0)
 #define write_el1_ctx_gcs(ctx, reg, val)
 #endif /* ENABLE_FEAT_GCS */

 #if ENABLE_FEAT_THE
 #define read_el1_ctx_the(ctx, reg)		(((ctx)->the).reg)
 #define write_el1_ctx_the(ctx, reg, val)	((((ctx)->the).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_the(ctx, reg)		ULL(0)
 #define write_el1_ctx_the(ctx, reg, val)
 #endif /* ENABLE_FEAT_THE */

 #if ENABLE_FEAT_SCTLR2
 #define read_el1_ctx_sctlr2(ctx, reg)		(((ctx)->sctlr2).reg)
 #define write_el1_ctx_sctlr2(ctx, reg, val)	((((ctx)->sctlr2).reg)	\
 							= (uint64_t) (val))
 #else
 #define read_el1_ctx_sctlr2(ctx, reg)		ULL(0)
 #define write_el1_ctx_sctlr2(ctx, reg, val)
 #endif /* ENABLE_FEAT_SCTLR2 */

 /******************************************************************************/
 #endif /* __ASSEMBLER__ */

 #endif /* CONTEXT_EL1_H */
	/*
	* Copyright (c) 2024, Arm Limited and Contributors. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#ifndef CONTEXT_EL1_H
	#define CONTEXT_EL1_H

	#include <lib/extensions/sysreg128.h>

	#ifndef __ASSEMBLER__

	/*******************************************************************************
	* EL1 Registers:
	* AArch64 EL1 system register context structure for preserving the
	* architectural state during world switches.
	******************************************************************************/

	typedef struct el1_common_regs {
	uint64_t spsr_el1;
	uint64_t elr_el1;

	#if (!ERRATA_SPECULATIVE_AT)
	uint64_t sctlr_el1;
	uint64_t tcr_el1;
	#endif /* ERRATA_SPECULATIVE_AT=0 */

	uint64_t cpacr_el1;
	uint64_t csselr_el1;
	uint64_t sp_el1;
	uint64_t esr_el1;
	uint64_t mair_el1;
	uint64_t amair_el1;
	uint64_t actlr_el1;
	uint64_t tpidr_el1;
	uint64_t tpidr_el0;
	uint64_t tpidrro_el0;
	uint64_t far_el1;
	uint64_t afsr0_el1;
	uint64_t afsr1_el1;
	uint64_t contextidr_el1;
	uint64_t vbar_el1;
	uint64_t mdccint_el1;
	uint64_t mdscr_el1;
	sysreg_t par_el1;
	sysreg_t ttbr0_el1;
	sysreg_t ttbr1_el1;
	} el1_common_regs_t;

	typedef struct el1_aarch32_regs {
	uint64_t spsr_abt;
	uint64_t spsr_und;
	uint64_t spsr_irq;
	uint64_t spsr_fiq;
	uint64_t dacr32_el2;
	uint64_t ifsr32_el2;
	} el1_aarch32_regs_t;

	typedef struct el1_arch_timer_regs {
	uint64_t cntp_ctl_el0;
	uint64_t cntp_cval_el0;
	uint64_t cntv_ctl_el0;
	uint64_t cntv_cval_el0;
	uint64_t cntkctl_el1;
	} el1_arch_timer_regs_t;

	typedef struct el1_mte2_regs {
	uint64_t tfsre0_el1;
	uint64_t tfsr_el1;
	uint64_t rgsr_el1;
	uint64_t gcr_el1;
	} el1_mte2_regs_t;

	typedef struct el1_ras_regs {
	uint64_t disr_el1;
	} el1_ras_regs_t;

	typedef struct el1_s1pie_regs {
	uint64_t pire0_el1;
	uint64_t pir_el1;
	} el1_s1pie_regs_t;

	typedef struct el1_s1poe_regs {
	uint64_t por_el1;
	} el1_s1poe_regs_t;

	typedef struct el1_s2poe_regs {
	uint64_t s2por_el1;
	} el1_s2poe_regs_t;

	typedef struct el1_tcr2_regs {
	uint64_t tcr2_el1;
	} el1_tcr2_regs_t;

	typedef struct el1_trf_regs {
	uint64_t trfcr_el1;
	} el1_trf_regs_t;

	typedef struct el1_csv2_2_regs {
	uint64_t scxtnum_el0;
	uint64_t scxtnum_el1;
	} el1_csv2_2_regs_t;

	typedef struct el1_gcs_regs {
	uint64_t gcscr_el1;
	uint64_t gcscre0_el1;
	uint64_t gcspr_el1;
	uint64_t gcspr_el0;
	} el1_gcs_regs_t;

	typedef struct el1_the_regs {
	sysreg_t rcwmask_el1;
	sysreg_t rcwsmask_el1;
	} el1_the_regs_t;

	typedef struct el1_sctlr2_regs {
	uint64_t sctlr2_el1;
	} el1_sctlr2_regs_t;

	typedef struct el1_sysregs {

	el1_common_regs_t common;

	#if CTX_INCLUDE_AARCH32_REGS
	el1_aarch32_regs_t el1_aarch32;
	#endif

	#if NS_TIMER_SWITCH
	el1_arch_timer_regs_t arch_timer;
	#endif

	#if ENABLE_FEAT_MTE2
	el1_mte2_regs_t mte2;
	#endif

	#if ENABLE_FEAT_RAS
	el1_ras_regs_t ras;
	#endif

	#if ENABLE_FEAT_S1PIE
	el1_s1pie_regs_t s1pie;
	#endif

	#if ENABLE_FEAT_S1POE
	el1_s1poe_regs_t s1poe;
	#endif

	#if ENABLE_FEAT_S2POE
	el1_s2poe_regs_t s2poe;
	#endif

	#if ENABLE_FEAT_TCR2
	el1_tcr2_regs_t tcr2;
	#endif

	#if ENABLE_TRF_FOR_NS
	el1_trf_regs_t trf;
	#endif

	#if ENABLE_FEAT_CSV2_2
	el1_csv2_2_regs_t csv2_2;
	#endif

	#if ENABLE_FEAT_GCS
	el1_gcs_regs_t gcs;
	#endif

	#if ENABLE_FEAT_THE
	el1_the_regs_t the;
	#endif

	#if ENABLE_FEAT_SCTLR2
	el1_sctlr2_regs_t sctlr2;
	#endif

	} el1_sysregs_t;


	/*
	* Macros to access members related to individual features of the el1_sysregs_t
	* structures.
	*/

	#define read_el1_ctx_common(ctx, reg) (((ctx)->common).reg)

	#define write_el1_ctx_common(ctx, reg, val) ((((ctx)->common).reg) \
	= (uint64_t) (val))

	#if NS_TIMER_SWITCH
	#define read_el1_ctx_arch_timer(ctx, reg) (((ctx)->arch_timer).reg)
	#define write_el1_ctx_arch_timer(ctx, reg, val) ((((ctx)->arch_timer).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_arch_timer(ctx, reg) ULL(0)
	#define write_el1_ctx_arch_timer(ctx, reg, val)
	#endif /* NS_TIMER_SWITCH */

	#if CTX_INCLUDE_AARCH32_REGS
	#define read_el1_ctx_aarch32(ctx, reg) (((ctx)->el1_aarch32).reg)
	#define write_el1_ctx_aarch32(ctx, reg, val) ((((ctx)->el1_aarch32).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_aarch32(ctx, reg) ULL(0)
	#define write_el1_ctx_aarch32(ctx, reg, val)
	#endif /* CTX_INCLUDE_AARCH32_REGS */

	#if ENABLE_FEAT_MTE2
	#define read_el1_ctx_mte2(ctx, reg) (((ctx)->mte2).reg)
	#define write_el1_ctx_mte2(ctx, reg, val) ((((ctx)->mte2).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_mte2(ctx, reg) ULL(0)
	#define write_el1_ctx_mte2(ctx, reg, val)
	#endif /* ENABLE_FEAT_MTE2 */

	#if ENABLE_FEAT_RAS
	#define read_el1_ctx_ras(ctx, reg) (((ctx)->ras).reg)
	#define write_el1_ctx_ras(ctx, reg, val) ((((ctx)->ras).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_ras(ctx, reg) ULL(0)
	#define write_el1_ctx_ras(ctx, reg, val)
	#endif /* ENABLE_FEAT_RAS */

	#if ENABLE_FEAT_S1PIE
	#define read_el1_ctx_s1pie(ctx, reg) (((ctx)->s1pie).reg)
	#define write_el1_ctx_s1pie(ctx, reg, val) ((((ctx)->s1pie).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_s1pie(ctx, reg) ULL(0)
	#define write_el1_ctx_s1pie(ctx, reg, val)
	#endif /* ENABLE_FEAT_S1PIE */

	#if ENABLE_FEAT_S1POE
	#define read_el1_ctx_s1poe(ctx, reg) (((ctx)->s1poe).reg)
	#define write_el1_ctx_s1poe(ctx, reg, val) ((((ctx)->s1poe).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_s1poe(ctx, reg) ULL(0)
	#define write_el1_ctx_s1poe(ctx, reg, val)
	#endif /* ENABLE_FEAT_S1POE */

	#if ENABLE_FEAT_S2POE
	#define read_el1_ctx_s2poe(ctx, reg) (((ctx)->s2poe).reg)
	#define write_el1_ctx_s2poe(ctx, reg, val) ((((ctx)->s2poe).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_s2poe(ctx, reg) ULL(0)
	#define write_el1_ctx_s2poe(ctx, reg, val)
	#endif /* ENABLE_FEAT_S2POE */

	#if ENABLE_FEAT_TCR2
	#define read_el1_ctx_tcr2(ctx, reg) (((ctx)->tcr2).reg)
	#define write_el1_ctx_tcr2(ctx, reg, val) ((((ctx)->tcr2).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_tcr2(ctx, reg) ULL(0)
	#define write_el1_ctx_tcr2(ctx, reg, val)
	#endif /* ENABLE_FEAT_TCR2 */

	#if ENABLE_TRF_FOR_NS
	#define read_el1_ctx_trf(ctx, reg) (((ctx)->trf).reg)
	#define write_el1_ctx_trf(ctx, reg, val) ((((ctx)->trf).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_trf(ctx, reg) ULL(0)
	#define write_el1_ctx_trf(ctx, reg, val)
	#endif /* ENABLE_TRF_FOR_NS */

	#if ENABLE_FEAT_CSV2_2
	#define read_el1_ctx_csv2_2(ctx, reg) (((ctx)->csv2_2).reg)
	#define write_el1_ctx_csv2_2(ctx, reg, val) ((((ctx)->csv2_2).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_csv2_2(ctx, reg) ULL(0)
	#define write_el1_ctx_csv2_2(ctx, reg, val)
	#endif /* ENABLE_FEAT_CSV2_2 */

	#if ENABLE_FEAT_GCS
	#define read_el1_ctx_gcs(ctx, reg) (((ctx)->gcs).reg)
	#define write_el1_ctx_gcs(ctx, reg, val) ((((ctx)->gcs).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_gcs(ctx, reg) ULL(0)
	#define write_el1_ctx_gcs(ctx, reg, val)
	#endif /* ENABLE_FEAT_GCS */

	#if ENABLE_FEAT_THE
	#define read_el1_ctx_the(ctx, reg) (((ctx)->the).reg)
	#define write_el1_ctx_the(ctx, reg, val) ((((ctx)->the).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_the(ctx, reg) ULL(0)
	#define write_el1_ctx_the(ctx, reg, val)
	#endif /* ENABLE_FEAT_THE */

	#if ENABLE_FEAT_SCTLR2
	#define read_el1_ctx_sctlr2(ctx, reg) (((ctx)->sctlr2).reg)
	#define write_el1_ctx_sctlr2(ctx, reg, val) ((((ctx)->sctlr2).reg) \
	= (uint64_t) (val))
	#else
	#define read_el1_ctx_sctlr2(ctx, reg) ULL(0)
	#define write_el1_ctx_sctlr2(ctx, reg, val)
	#endif /* ENABLE_FEAT_SCTLR2 */

	/******************************************************************************/
	#endif /* __ASSEMBLER__ */

	#endif /* CONTEXT_EL1_H */