services/spd/tspd/tspd_private.h - chromiumos/third_party/arm-trusted-firmware - Git at Google

 /*
  * Copyright (c) 2013-2021, ARM Limited and Contributors. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #ifndef TSPD_PRIVATE_H
 #define TSPD_PRIVATE_H

 #include <platform_def.h>

 #include <arch.h>
 #include <bl31/interrupt_mgmt.h>
 #include <context.h>
 #include <lib/psci/psci.h>

 /*******************************************************************************
  * Secure Payload PM state information e.g. SP is suspended, uninitialised etc
  * and macros to access the state information in the per-cpu 'state' flags
  ******************************************************************************/
 #define TSP_PSTATE_OFF		0
 #define TSP_PSTATE_ON		1
 #define TSP_PSTATE_SUSPEND	2
 #define TSP_PSTATE_SHIFT	0
 #define TSP_PSTATE_MASK	0x3
 #define get_tsp_pstate(state)	((state >> TSP_PSTATE_SHIFT) & TSP_PSTATE_MASK)
 #define clr_tsp_pstate(state)	(state &= ~(TSP_PSTATE_MASK \
 					    << TSP_PSTATE_SHIFT))
 #define set_tsp_pstate(st, pst)	do {					       \
 					clr_tsp_pstate(st);		       \
 					st |= (pst & TSP_PSTATE_MASK) <<       \
 						TSP_PSTATE_SHIFT;	       \
 				} while (0);


 /*
  * This flag is used by the TSPD to determine if the TSP is servicing a yielding
  * SMC request prior to programming the next entry into the TSP e.g. if TSP
  * execution is preempted by a non-secure interrupt and handed control to the
  * normal world. If another request which is distinct from what the TSP was
  * previously doing arrives, then this flag will be help the TSPD to either
  * reject the new request or service it while ensuring that the previous context
  * is not corrupted.
  */
 #define YIELD_SMC_ACTIVE_FLAG_SHIFT	2
 #define YIELD_SMC_ACTIVE_FLAG_MASK	1
 #define get_yield_smc_active_flag(state)				\
 				((state >> YIELD_SMC_ACTIVE_FLAG_SHIFT) \
 				& YIELD_SMC_ACTIVE_FLAG_MASK)
 #define set_yield_smc_active_flag(state)	(state |=		\
 					1 << YIELD_SMC_ACTIVE_FLAG_SHIFT)
 #define clr_yield_smc_active_flag(state)	(state &=		\
 					~(YIELD_SMC_ACTIVE_FLAG_MASK	\
 					<< YIELD_SMC_ACTIVE_FLAG_SHIFT))

 /*******************************************************************************
  * Secure Payload execution state information i.e. aarch32 or aarch64
  ******************************************************************************/
 #define TSP_AARCH32		MODE_RW_32
 #define TSP_AARCH64		MODE_RW_64

 /*******************************************************************************
  * The SPD should know the type of Secure Payload.
  ******************************************************************************/
 #define TSP_TYPE_UP		PSCI_TOS_NOT_UP_MIG_CAP
 #define TSP_TYPE_UPM		PSCI_TOS_UP_MIG_CAP
 #define TSP_TYPE_MP		PSCI_TOS_NOT_PRESENT_MP

 /*******************************************************************************
  * Secure Payload migrate type information as known to the SPD. We assume that
  * the SPD is dealing with an MP Secure Payload.
  ******************************************************************************/
 #define TSP_MIGRATE_INFO		TSP_TYPE_MP

 /*******************************************************************************
  * Number of cpus that the present on this platform. TODO: Rely on a topology
  * tree to determine this in the future to avoid assumptions about mpidr
  * allocation
  ******************************************************************************/
 #define TSPD_CORE_COUNT		PLATFORM_CORE_COUNT

 /*******************************************************************************
  * Constants that allow assembler code to preserve callee-saved registers of the
  * C runtime context while performing a security state switch.
  ******************************************************************************/
 #define TSPD_C_RT_CTX_X19		0x0
 #define TSPD_C_RT_CTX_X20		0x8
 #define TSPD_C_RT_CTX_X21		0x10
 #define TSPD_C_RT_CTX_X22		0x18
 #define TSPD_C_RT_CTX_X23		0x20
 #define TSPD_C_RT_CTX_X24		0x28
 #define TSPD_C_RT_CTX_X25		0x30
 #define TSPD_C_RT_CTX_X26		0x38
 #define TSPD_C_RT_CTX_X27		0x40
 #define TSPD_C_RT_CTX_X28		0x48
 #define TSPD_C_RT_CTX_X29		0x50
 #define TSPD_C_RT_CTX_X30		0x58
 #define TSPD_C_RT_CTX_SIZE		0x60
 #define TSPD_C_RT_CTX_ENTRIES		(TSPD_C_RT_CTX_SIZE >> DWORD_SHIFT)

 /*******************************************************************************
  * Constants that allow assembler code to preserve caller-saved registers of the
  * SP context while performing a TSP preemption.
  * Note: These offsets have to match with the offsets for the corresponding
  * registers in cpu_context as we are using memcpy to copy the values from
  * cpu_context to sp_ctx.
  ******************************************************************************/
 #define TSPD_SP_CTX_X0		0x0
 #define TSPD_SP_CTX_X1		0x8
 #define TSPD_SP_CTX_X2		0x10
 #define TSPD_SP_CTX_X3		0x18
 #define TSPD_SP_CTX_X4		0x20
 #define TSPD_SP_CTX_X5		0x28
 #define TSPD_SP_CTX_X6		0x30
 #define TSPD_SP_CTX_X7		0x38
 #define TSPD_SP_CTX_X8		0x40
 #define TSPD_SP_CTX_X9		0x48
 #define TSPD_SP_CTX_X10		0x50
 #define TSPD_SP_CTX_X11		0x58
 #define TSPD_SP_CTX_X12		0x60
 #define TSPD_SP_CTX_X13		0x68
 #define TSPD_SP_CTX_X14		0x70
 #define TSPD_SP_CTX_X15		0x78
 #define TSPD_SP_CTX_X16		0x80
 #define TSPD_SP_CTX_X17		0x88
 #define TSPD_SP_CTX_SIZE	0x90
 #define TSPD_SP_CTX_ENTRIES		(TSPD_SP_CTX_SIZE >> DWORD_SHIFT)

 #ifndef __ASSEMBLER__

 #include <stdint.h>

 #include <lib/cassert.h>

 /*
  * The number of arguments to save during a SMC call for TSP.
  * Currently only x1 and x2 are used by TSP.
  */
 #define TSP_NUM_ARGS	0x2

 /* AArch64 callee saved general purpose register context structure. */
 DEFINE_REG_STRUCT(c_rt_regs, TSPD_C_RT_CTX_ENTRIES);

 /*
  * Compile time assertion to ensure that both the compiler and linker
  * have the same double word aligned view of the size of the C runtime
  * register context.
  */
 CASSERT(TSPD_C_RT_CTX_SIZE == sizeof(c_rt_regs_t),	\
 	assert_spd_c_rt_regs_size_mismatch);

 /* SEL1 Secure payload (SP) caller saved register context structure. */
 DEFINE_REG_STRUCT(sp_ctx_regs, TSPD_SP_CTX_ENTRIES);

 /*
  * Compile time assertion to ensure that both the compiler and linker
  * have the same double word aligned view of the size of the C runtime
  * register context.
  */
 CASSERT(TSPD_SP_CTX_SIZE == sizeof(sp_ctx_regs_t),	\
 	assert_spd_sp_regs_size_mismatch);

 /*******************************************************************************
  * Structure which helps the SPD to maintain the per-cpu state of the SP.
  * 'saved_spsr_el3' - temporary copy to allow S-EL1 interrupt handling when
  *                    the TSP has been preempted.
  * 'saved_elr_el3'  - temporary copy to allow S-EL1 interrupt handling when
  *                    the TSP has been preempted.
  * 'state'          - collection of flags to track SP state e.g. on/off
  * 'mpidr'          - mpidr to associate a context with a cpu
  * 'c_rt_ctx'       - stack address to restore C runtime context from after
  *                    returning from a synchronous entry into the SP.
  * 'cpu_ctx'        - space to maintain SP architectural state
  * 'saved_tsp_args' - space to store arguments for TSP arithmetic operations
  *                    which will queried using the TSP_GET_ARGS SMC by TSP.
  * 'sp_ctx'         - space to save the SEL1 Secure Payload(SP) caller saved
  *                    register context after it has been preempted by an EL3
  *                    routed NS interrupt and when a Secure Interrupt is taken
  *                    to SP.
  ******************************************************************************/
 typedef struct tsp_context {
 	uint64_t saved_elr_el3;
 	uint32_t saved_spsr_el3;
 	uint32_t state;
 	uint64_t mpidr;
 	uint64_t c_rt_ctx;
 	cpu_context_t cpu_ctx;
 	uint64_t saved_tsp_args[TSP_NUM_ARGS];
 #if TSP_NS_INTR_ASYNC_PREEMPT
 	sp_ctx_regs_t sp_ctx;
 	bool preempted_by_sel1_intr;
 #endif
 } tsp_context_t;

 /* Helper macros to store and retrieve tsp args from tsp_context */
 #define store_tsp_args(_tsp_ctx, _x1, _x2)		do {\
 				_tsp_ctx->saved_tsp_args[0] = _x1;\
 				_tsp_ctx->saved_tsp_args[1] = _x2;\
 			} while (0)

 #define get_tsp_args(_tsp_ctx, _x1, _x2)	do {\
 				_x1 = _tsp_ctx->saved_tsp_args[0];\
 				_x2 = _tsp_ctx->saved_tsp_args[1];\
 			} while (0)

 /* TSPD power management handlers */
 extern const spd_pm_ops_t tspd_pm;

 /*******************************************************************************
  * Forward declarations
  ******************************************************************************/
 typedef struct tsp_vectors tsp_vectors_t;

 /*******************************************************************************
  * Function & Data prototypes
  ******************************************************************************/
 uint64_t tspd_enter_sp(uint64_t *c_rt_ctx);
 void __dead2 tspd_exit_sp(uint64_t c_rt_ctx, uint64_t ret);
 uint64_t tspd_synchronous_sp_entry(tsp_context_t *tsp_ctx);
 void __dead2 tspd_synchronous_sp_exit(tsp_context_t *tsp_ctx, uint64_t ret);
 void tspd_init_tsp_ep_state(struct entry_point_info *tsp_entry_point,
 				uint32_t rw,
 				uint64_t pc,
 				tsp_context_t *tsp_ctx);
 int tspd_abort_preempted_smc(tsp_context_t *tsp_ctx);

 uint64_t tspd_handle_sp_preemption(void *handle);

 extern tsp_context_t tspd_sp_context[TSPD_CORE_COUNT];
 extern tsp_vectors_t *tsp_vectors;
 #endif /*__ASSEMBLER__*/

 #endif /* TSPD_PRIVATE_H */
	/*
	* Copyright (c) 2013-2021, ARM Limited and Contributors. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#ifndef TSPD_PRIVATE_H
	#define TSPD_PRIVATE_H

	#include <platform_def.h>

	#include <arch.h>
	#include <bl31/interrupt_mgmt.h>
	#include <context.h>
	#include <lib/psci/psci.h>

	/*******************************************************************************
	* Secure Payload PM state information e.g. SP is suspended, uninitialised etc
	* and macros to access the state information in the per-cpu 'state' flags
	******************************************************************************/
	#define TSP_PSTATE_OFF 0
	#define TSP_PSTATE_ON 1
	#define TSP_PSTATE_SUSPEND 2
	#define TSP_PSTATE_SHIFT 0
	#define TSP_PSTATE_MASK 0x3
	#define get_tsp_pstate(state) ((state >> TSP_PSTATE_SHIFT) & TSP_PSTATE_MASK)
	#define clr_tsp_pstate(state) (state &= ~(TSP_PSTATE_MASK \
	<< TSP_PSTATE_SHIFT))
	#define set_tsp_pstate(st, pst) do { \
	clr_tsp_pstate(st); \
	st \|= (pst & TSP_PSTATE_MASK) << \
	TSP_PSTATE_SHIFT; \
	} while (0);


	/*
	* This flag is used by the TSPD to determine if the TSP is servicing a yielding
	* SMC request prior to programming the next entry into the TSP e.g. if TSP
	* execution is preempted by a non-secure interrupt and handed control to the
	* normal world. If another request which is distinct from what the TSP was
	* previously doing arrives, then this flag will be help the TSPD to either
	* reject the new request or service it while ensuring that the previous context
	* is not corrupted.
	*/
	#define YIELD_SMC_ACTIVE_FLAG_SHIFT 2
	#define YIELD_SMC_ACTIVE_FLAG_MASK 1
	#define get_yield_smc_active_flag(state) \
	((state >> YIELD_SMC_ACTIVE_FLAG_SHIFT) \
	& YIELD_SMC_ACTIVE_FLAG_MASK)
	#define set_yield_smc_active_flag(state) (state \|= \
	1 << YIELD_SMC_ACTIVE_FLAG_SHIFT)
	#define clr_yield_smc_active_flag(state) (state &= \
	~(YIELD_SMC_ACTIVE_FLAG_MASK \
	<< YIELD_SMC_ACTIVE_FLAG_SHIFT))

	/*******************************************************************************
	* Secure Payload execution state information i.e. aarch32 or aarch64
	******************************************************************************/
	#define TSP_AARCH32 MODE_RW_32
	#define TSP_AARCH64 MODE_RW_64

	/*******************************************************************************
	* The SPD should know the type of Secure Payload.
	******************************************************************************/
	#define TSP_TYPE_UP PSCI_TOS_NOT_UP_MIG_CAP
	#define TSP_TYPE_UPM PSCI_TOS_UP_MIG_CAP
	#define TSP_TYPE_MP PSCI_TOS_NOT_PRESENT_MP

	/*******************************************************************************
	* Secure Payload migrate type information as known to the SPD. We assume that
	* the SPD is dealing with an MP Secure Payload.
	******************************************************************************/
	#define TSP_MIGRATE_INFO TSP_TYPE_MP

	/*******************************************************************************
	* Number of cpus that the present on this platform. TODO: Rely on a topology
	* tree to determine this in the future to avoid assumptions about mpidr
	* allocation
	******************************************************************************/
	#define TSPD_CORE_COUNT PLATFORM_CORE_COUNT

	/*******************************************************************************
	* Constants that allow assembler code to preserve callee-saved registers of the
	* C runtime context while performing a security state switch.
	******************************************************************************/
	#define TSPD_C_RT_CTX_X19 0x0
	#define TSPD_C_RT_CTX_X20 0x8
	#define TSPD_C_RT_CTX_X21 0x10
	#define TSPD_C_RT_CTX_X22 0x18
	#define TSPD_C_RT_CTX_X23 0x20
	#define TSPD_C_RT_CTX_X24 0x28
	#define TSPD_C_RT_CTX_X25 0x30
	#define TSPD_C_RT_CTX_X26 0x38
	#define TSPD_C_RT_CTX_X27 0x40
	#define TSPD_C_RT_CTX_X28 0x48
	#define TSPD_C_RT_CTX_X29 0x50
	#define TSPD_C_RT_CTX_X30 0x58
	#define TSPD_C_RT_CTX_SIZE 0x60
	#define TSPD_C_RT_CTX_ENTRIES (TSPD_C_RT_CTX_SIZE >> DWORD_SHIFT)

	/*******************************************************************************
	* Constants that allow assembler code to preserve caller-saved registers of the
	* SP context while performing a TSP preemption.
	* Note: These offsets have to match with the offsets for the corresponding
	* registers in cpu_context as we are using memcpy to copy the values from
	* cpu_context to sp_ctx.
	******************************************************************************/
	#define TSPD_SP_CTX_X0 0x0
	#define TSPD_SP_CTX_X1 0x8
	#define TSPD_SP_CTX_X2 0x10
	#define TSPD_SP_CTX_X3 0x18
	#define TSPD_SP_CTX_X4 0x20
	#define TSPD_SP_CTX_X5 0x28
	#define TSPD_SP_CTX_X6 0x30
	#define TSPD_SP_CTX_X7 0x38
	#define TSPD_SP_CTX_X8 0x40
	#define TSPD_SP_CTX_X9 0x48
	#define TSPD_SP_CTX_X10 0x50
	#define TSPD_SP_CTX_X11 0x58
	#define TSPD_SP_CTX_X12 0x60
	#define TSPD_SP_CTX_X13 0x68
	#define TSPD_SP_CTX_X14 0x70
	#define TSPD_SP_CTX_X15 0x78
	#define TSPD_SP_CTX_X16 0x80
	#define TSPD_SP_CTX_X17 0x88
	#define TSPD_SP_CTX_SIZE 0x90
	#define TSPD_SP_CTX_ENTRIES (TSPD_SP_CTX_SIZE >> DWORD_SHIFT)

	#ifndef __ASSEMBLER__

	#include <stdint.h>

	#include <lib/cassert.h>

	/*
	* The number of arguments to save during a SMC call for TSP.
	* Currently only x1 and x2 are used by TSP.
	*/
	#define TSP_NUM_ARGS 0x2

	/* AArch64 callee saved general purpose register context structure. */
	DEFINE_REG_STRUCT(c_rt_regs, TSPD_C_RT_CTX_ENTRIES);

	/*
	* Compile time assertion to ensure that both the compiler and linker
	* have the same double word aligned view of the size of the C runtime
	* register context.
	*/
	CASSERT(TSPD_C_RT_CTX_SIZE == sizeof(c_rt_regs_t), \
	assert_spd_c_rt_regs_size_mismatch);

	/* SEL1 Secure payload (SP) caller saved register context structure. */
	DEFINE_REG_STRUCT(sp_ctx_regs, TSPD_SP_CTX_ENTRIES);

	/*
	* Compile time assertion to ensure that both the compiler and linker
	* have the same double word aligned view of the size of the C runtime
	* register context.
	*/
	CASSERT(TSPD_SP_CTX_SIZE == sizeof(sp_ctx_regs_t), \
	assert_spd_sp_regs_size_mismatch);

	/*******************************************************************************
	* Structure which helps the SPD to maintain the per-cpu state of the SP.
	* 'saved_spsr_el3' - temporary copy to allow S-EL1 interrupt handling when
	* the TSP has been preempted.
	* 'saved_elr_el3' - temporary copy to allow S-EL1 interrupt handling when
	* the TSP has been preempted.
	* 'state' - collection of flags to track SP state e.g. on/off
	* 'mpidr' - mpidr to associate a context with a cpu
	* 'c_rt_ctx' - stack address to restore C runtime context from after
	* returning from a synchronous entry into the SP.
	* 'cpu_ctx' - space to maintain SP architectural state
	* 'saved_tsp_args' - space to store arguments for TSP arithmetic operations
	* which will queried using the TSP_GET_ARGS SMC by TSP.
	* 'sp_ctx' - space to save the SEL1 Secure Payload(SP) caller saved
	* register context after it has been preempted by an EL3
	* routed NS interrupt and when a Secure Interrupt is taken
	* to SP.
	******************************************************************************/
	typedef struct tsp_context {
	uint64_t saved_elr_el3;
	uint32_t saved_spsr_el3;
	uint32_t state;
	uint64_t mpidr;
	uint64_t c_rt_ctx;
	cpu_context_t cpu_ctx;
	uint64_t saved_tsp_args[TSP_NUM_ARGS];
	#if TSP_NS_INTR_ASYNC_PREEMPT
	sp_ctx_regs_t sp_ctx;
	bool preempted_by_sel1_intr;
	#endif
	} tsp_context_t;

	/* Helper macros to store and retrieve tsp args from tsp_context */
	#define store_tsp_args(_tsp_ctx, _x1, _x2) do {\
	_tsp_ctx->saved_tsp_args[0] = _x1;\
	_tsp_ctx->saved_tsp_args[1] = _x2;\
	} while (0)

	#define get_tsp_args(_tsp_ctx, _x1, _x2) do {\
	_x1 = _tsp_ctx->saved_tsp_args[0];\
	_x2 = _tsp_ctx->saved_tsp_args[1];\
	} while (0)

	/* TSPD power management handlers */
	extern const spd_pm_ops_t tspd_pm;

	/*******************************************************************************
	* Forward declarations
	******************************************************************************/
	typedef struct tsp_vectors tsp_vectors_t;

	/*******************************************************************************
	* Function & Data prototypes
	******************************************************************************/
	uint64_t tspd_enter_sp(uint64_t *c_rt_ctx);
	void __dead2 tspd_exit_sp(uint64_t c_rt_ctx, uint64_t ret);
	uint64_t tspd_synchronous_sp_entry(tsp_context_t *tsp_ctx);
	void __dead2 tspd_synchronous_sp_exit(tsp_context_t *tsp_ctx, uint64_t ret);
	void tspd_init_tsp_ep_state(struct entry_point_info *tsp_entry_point,
	uint32_t rw,
	uint64_t pc,
	tsp_context_t *tsp_ctx);
	int tspd_abort_preempted_smc(tsp_context_t *tsp_ctx);

	uint64_t tspd_handle_sp_preemption(void *handle);

	extern tsp_context_t tspd_sp_context[TSPD_CORE_COUNT];
	extern tsp_vectors_t *tsp_vectors;
	#endif /__ASSEMBLER__/

	#endif /* TSPD_PRIVATE_H */