plat/nxp/common/setup/include/plat_common.h - platform/external/arm-trusted-firmware - Gitiles

 /*
  * Copyright 2018-2021 NXP
  *
  * SPDX-License-Identifier: BSD-3-Clause
  *
  */

 #ifndef PLAT_COMMON_H
 #define PLAT_COMMON_H

 #include <stdbool.h>

 #include <dcfg.h>
 #include <lib/el3_runtime/cpu_data.h>

 #include <platform_def.h>

 #ifdef IMAGE_BL31

 #define BL31_END (uintptr_t)(&__BL31_END__)

 /*******************************************************************************
  * This structure represents the superset of information that can be passed to
  * BL31 e.g. while passing control to it from BL2. The BL32 parameters will be
  * populated only if BL2 detects its presence. A pointer to a structure of this
  * type should be passed in X0 to BL31's cold boot entrypoint.
  *
  * Use of this structure and the X0 parameter is not mandatory: the BL31
  * platform code can use other mechanisms to provide the necessary information
  * about BL32 and BL33 to the common and SPD code.
  *
  * BL31 image information is mandatory if this structure is used. If either of
  * the optional BL32 and BL33 image information is not provided, this is
  * indicated by the respective image_info pointers being zero.
  ******************************************************************************/
 typedef struct bl31_params {
 	param_header_t h;
 	image_info_t *bl31_image_info;
 	entry_point_info_t *bl32_ep_info;
 	image_info_t *bl32_image_info;
 	entry_point_info_t *bl33_ep_info;
 	image_info_t *bl33_image_info;
 } bl31_params_t;

 /* BL3 utility functions */
 void ls_bl31_early_platform_setup(void *from_bl2,
 				void *plat_params_from_bl2);
 /* LS Helper functions	*/
 unsigned int plat_my_core_mask(void);
 unsigned int plat_core_mask(u_register_t mpidr);
 unsigned int plat_core_pos(u_register_t mpidr);
 //unsigned int plat_my_core_pos(void);

 /* BL31 Data API(s) */
 void _init_global_data(void);
 void _initialize_psci(void);
 uint32_t _getCoreState(u_register_t core_mask);
 void _setCoreState(u_register_t core_mask, u_register_t core_state);

 /* SoC defined structure and API(s) */
 void soc_runtime_setup(void);
 void soc_init(void);
 void soc_platform_setup(void);
 void soc_early_platform_setup2(void);
 #endif /* IMAGE_BL31 */

 #ifdef IMAGE_BL2
 void soc_early_init(void);
 void soc_mem_access(void);
 void soc_preload_setup(void);
 void soc_bl2_prepare_exit(void);

 /* IO storage utility functions */
 int plat_io_setup(void);
 int open_backend(const uintptr_t spec);

 void ls_bl2_plat_arch_setup(void);
 void ls_bl2_el3_plat_arch_setup(void);

 enum boot_device {
 	BOOT_DEVICE_IFC_NOR,
 	BOOT_DEVICE_IFC_NAND,
 	BOOT_DEVICE_QSPI,
 	BOOT_DEVICE_EMMC,
 	BOOT_DEVICE_SDHC2_EMMC,
 	BOOT_DEVICE_FLEXSPI_NOR,
 	BOOT_DEVICE_FLEXSPI_NAND,
 	BOOT_DEVICE_NONE
 };

 enum boot_device get_boot_dev(void);

 /* DDR Related functions */
 #if DDR_INIT
 #ifdef NXP_WARM_BOOT
 long long init_ddr(uint32_t wrm_bt_flg);
 #else
 long long init_ddr(void);
 #endif
 #endif

 /* Board specific weak functions */
 bool board_enable_povdd(void);
 bool board_disable_povdd(void);

 void mmap_add_ddr_region_dynamically(void);
 #endif /* IMAGE_BL2 */

 typedef struct {
 	uint64_t addr;
 	uint64_t size;
 } region_info_t;

 typedef struct {
 	uint64_t num_dram_regions;
 	uint64_t total_dram_size;
 	region_info_t region[NUM_DRAM_REGIONS];
 } dram_regions_info_t;

 dram_regions_info_t *get_dram_regions_info(void);

 void ls_setup_page_tables(uintptr_t total_base,
 			size_t total_size,
 			uintptr_t code_start,
 			uintptr_t code_limit,
 			uintptr_t rodata_start,
 			uintptr_t rodata_limit
 #if USE_COHERENT_MEM
 			, uintptr_t coh_start,
 			uintptr_t coh_limit
 #endif
 );

 /* Structure to define SoC personality */
 struct soc_type {
 	char name[10];
 	uint32_t version;
 	uint8_t num_clusters;
 	uint8_t cores_per_cluster;
 };
 void get_cluster_info(const struct soc_type *soc_list, uint8_t ps_count,
 		uint8_t *num_clusters, uint8_t *cores_per_cluster);

 #define SOC_ENTRY(n, v, ncl, nc) {	\
 		.name = #n,		\
 		.version = SVR_##v,	\
 		.num_clusters = (ncl),	\
 		.cores_per_cluster = (nc)}

 #endif /* PLAT_COMMON_H */
	/*
	* Copyright 2018-2021 NXP
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*
	*/

	#ifndef PLAT_COMMON_H
	#define PLAT_COMMON_H

	#include <stdbool.h>

	#include <dcfg.h>
	#include <lib/el3_runtime/cpu_data.h>

	#include <platform_def.h>

	#ifdef IMAGE_BL31

	#define BL31_END (uintptr_t)(&__BL31_END__)

	/*******************************************************************************
	* This structure represents the superset of information that can be passed to
	* BL31 e.g. while passing control to it from BL2. The BL32 parameters will be
	* populated only if BL2 detects its presence. A pointer to a structure of this
	* type should be passed in X0 to BL31's cold boot entrypoint.
	*
	* Use of this structure and the X0 parameter is not mandatory: the BL31
	* platform code can use other mechanisms to provide the necessary information
	* about BL32 and BL33 to the common and SPD code.
	*
	* BL31 image information is mandatory if this structure is used. If either of
	* the optional BL32 and BL33 image information is not provided, this is
	* indicated by the respective image_info pointers being zero.
	******************************************************************************/
	typedef struct bl31_params {
	param_header_t h;
	image_info_t *bl31_image_info;
	entry_point_info_t *bl32_ep_info;
	image_info_t *bl32_image_info;
	entry_point_info_t *bl33_ep_info;
	image_info_t *bl33_image_info;
	} bl31_params_t;

	/* BL3 utility functions */
	void ls_bl31_early_platform_setup(void *from_bl2,
	void *plat_params_from_bl2);
	/* LS Helper functions */
	unsigned int plat_my_core_mask(void);
	unsigned int plat_core_mask(u_register_t mpidr);
	unsigned int plat_core_pos(u_register_t mpidr);
	//unsigned int plat_my_core_pos(void);

	/* BL31 Data API(s) */
	void _init_global_data(void);
	void _initialize_psci(void);
	uint32_t _getCoreState(u_register_t core_mask);
	void _setCoreState(u_register_t core_mask, u_register_t core_state);

	/* SoC defined structure and API(s) */
	void soc_runtime_setup(void);
	void soc_init(void);
	void soc_platform_setup(void);
	void soc_early_platform_setup2(void);
	#endif /* IMAGE_BL31 */

	#ifdef IMAGE_BL2
	void soc_early_init(void);
	void soc_mem_access(void);
	void soc_preload_setup(void);
	void soc_bl2_prepare_exit(void);

	/* IO storage utility functions */
	int plat_io_setup(void);
	int open_backend(const uintptr_t spec);

	void ls_bl2_plat_arch_setup(void);
	void ls_bl2_el3_plat_arch_setup(void);

	enum boot_device {
	BOOT_DEVICE_IFC_NOR,
	BOOT_DEVICE_IFC_NAND,
	BOOT_DEVICE_QSPI,
	BOOT_DEVICE_EMMC,
	BOOT_DEVICE_SDHC2_EMMC,
	BOOT_DEVICE_FLEXSPI_NOR,
	BOOT_DEVICE_FLEXSPI_NAND,
	BOOT_DEVICE_NONE
	};

	enum boot_device get_boot_dev(void);

	/* DDR Related functions */
	#if DDR_INIT
	#ifdef NXP_WARM_BOOT
	long long init_ddr(uint32_t wrm_bt_flg);
	#else
	long long init_ddr(void);
	#endif
	#endif

	/* Board specific weak functions */
	bool board_enable_povdd(void);
	bool board_disable_povdd(void);

	void mmap_add_ddr_region_dynamically(void);
	#endif /* IMAGE_BL2 */

	typedef struct {
	uint64_t addr;
	uint64_t size;
	} region_info_t;

	typedef struct {
	uint64_t num_dram_regions;
	uint64_t total_dram_size;
	region_info_t region[NUM_DRAM_REGIONS];
	} dram_regions_info_t;

	dram_regions_info_t *get_dram_regions_info(void);

	void ls_setup_page_tables(uintptr_t total_base,
	size_t total_size,
	uintptr_t code_start,
	uintptr_t code_limit,
	uintptr_t rodata_start,
	uintptr_t rodata_limit
	#if USE_COHERENT_MEM
	, uintptr_t coh_start,
	uintptr_t coh_limit
	#endif
	);

	/* Structure to define SoC personality */
	struct soc_type {
	char name[10];
	uint32_t version;
	uint8_t num_clusters;
	uint8_t cores_per_cluster;
	};
	void get_cluster_info(const struct soc_type *soc_list, uint8_t ps_count,
	uint8_t num_clusters, uint8_t cores_per_cluster);

	#define SOC_ENTRY(n, v, ncl, nc) { \
	.name = #n, \
	.version = SVR_##v, \
	.num_clusters = (ncl), \
	.cores_per_cluster = (nc)}

	#endif /* PLAT_COMMON_H */