tools/mtk_nand_headers.h - platform/external/u-boot - Gitiles

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * MediaTek BootROM NAND header definitions
  *
  * Copyright (C) 2022 MediaTek Inc.
  * Author: Weijie Gao <weijie.gao@mediatek.com>
  */

 #ifndef _MTK_NAND_HEADERS_H
 #define _MTK_NAND_HEADERS_H

 #include <stdint.h>
 #include <stdbool.h>

 struct nand_header_info {
 	uint32_t page_size;
 	uint32_t spare_size;
 	uint32_t gfh_offset;
 	bool snfi;
 };

 /* AP BROM Header for NAND */
 union nand_boot_header {
 	struct {
 		char name[12];
 		char version[4];
 		char id[8];
 		uint16_t ioif;			/* I/O interface */
 		uint16_t pagesize;		/* NAND page size */
 		uint16_t addrcycles;		/* Address cycles */
 		uint16_t oobsize;		/* NAND page spare size */
 		uint16_t pages_of_block;	/* Pages of one block */
 		uint16_t numblocks;		/* Total blocks of NAND chip */
 		uint16_t writesize_shift;
 		uint16_t erasesize_shift;
 		uint8_t dummy[60];
 		uint8_t ecc_parity[28];		/* ECC parity of this header */
 	};

 	uint8_t data[0x80];
 };

 /* HSM BROM Header for NAND */
 union hsm_nand_boot_header {
 	struct {
 		char id[8];
 		uint32_t version;		/* Header version */
 		uint32_t config;		/* Header config */
 		uint32_t sector_size;		/* ECC step size */
 		uint32_t fdm_size;		/* User OOB size of a step */
 		uint32_t fdm_ecc_size;		/* ECC parity size of a step */
 		uint32_t lbs;
 		uint32_t page_size;		/* NAND page size */
 		uint32_t spare_size;		/* NAND page spare size */
 		uint32_t page_per_block;	/* Pages of one block */
 		uint32_t blocks;		/* Total blocks of NAND chip */
 		uint32_t plane_sel_position;	/* Plane bit position */
 		uint32_t pll;			/* Value of pll reg */
 		uint32_t acccon;		/* Value of access timing reg */
 		uint32_t strobe_sel;		/* Value of DQS selection reg*/
 		uint32_t acccon1;		/* Value of access timing reg */
 		uint32_t dqs_mux;		/* Value of DQS mux reg */
 		uint32_t dqs_ctrl;		/* Value of DQS control reg */
 		uint32_t delay_ctrl;		/* Value of delay ctrl reg */
 		uint32_t latch_lat;		/* Value of latch latency reg */
 		uint32_t sample_delay;		/* Value of sample delay reg */
 		uint32_t driving;		/* Value of driving reg */
 		uint32_t bl_start;		/* Bootloader start addr */
 		uint32_t bl_end;		/* Bootloader end addr */
 		uint8_t ecc_parity[42];		/* ECC parity of this header */
 	};

 	uint8_t data[0x8E];
 };

 /* HSM2.0 BROM Header for NAND */
 union hsm20_nand_boot_header {
 	struct {
 		char id[8];
 		uint32_t version;		/* Header version */
 		uint32_t config;		/* Header config */
 		uint32_t sector_size;		/* ECC step size */
 		uint32_t fdm_size;		/* User OOB size of a step */
 		uint32_t fdm_ecc_size;		/* ECC parity size of a step */
 		uint32_t lbs;
 		uint32_t page_size;		/* NAND page size */
 		uint32_t spare_size;		/* NAND page spare size */
 		uint32_t page_per_block;	/* Pages of one block */
 		uint32_t blocks;		/* Total blocks of NAND chip */
 		uint32_t plane_sel_position;	/* Plane bit position */
 		uint32_t pll;			/* Value of pll reg */
 		uint32_t acccon;		/* Value of access timing reg */
 		uint32_t strobe_sel;		/* Value of DQS selection reg*/
 		uint32_t acccon1;		/* Value of access timing reg */
 		uint32_t dqs_mux;		/* Value of DQS mux reg */
 		uint32_t dqs_ctrl;		/* Value of DQS control reg */
 		uint32_t delay_ctrl;		/* Value of delay ctrl reg */
 		uint32_t latch_lat;		/* Value of latch latency reg */
 		uint32_t sample_delay;		/* Value of sample delay reg */
 		uint32_t driving;		/* Value of driving reg */
 		uint32_t reserved;
 		uint32_t bl0_start;		/* Bootloader start addr */
 		uint32_t bl0_end;		/* Bootloader end addr */
 		uint32_t bl0_type;		/* Bootloader type */
 		uint8_t bl_reserve[84];
 		uint8_t ecc_parity[42];		/* ECC parity of this header */
 	};

 	uint8_t data[0xEA];
 };

 /* SPIM BROM Header for SPI-NAND */
 union spim_nand_boot_header {
 	struct {
 		char id[8];
 		uint32_t version;		/* Header version */
 		uint32_t config;		/* Header config */
 		uint32_t page_size;		/* NAND page size */
 		uint32_t spare_size;		/* NAND page spare size */
 		uint16_t page_per_block;	/* Pages of one block */
 		uint16_t plane_sel_position;	/* Plane bit position */
 		uint16_t reserve_reg;
 		uint16_t reserve_val;
 		uint16_t ecc_error;		/* ECC error reg addr */
 		uint16_t ecc_mask;		/* ECC error bit mask */
 		uint32_t bl_start;		/* Bootloader start addr */
 		uint32_t bl_end;		/* Bootloader end addr */
 		uint8_t ecc_parity[32];		/* ECC parity of this header */
 		uint32_t integrity_crc;		/* CRC of this header */
 	};

 	uint8_t data[0x50];
 };

 enum nand_boot_header_type {
 	NAND_BOOT_AP_HEADER,
 	NAND_BOOT_HSM_HEADER,
 	NAND_BOOT_HSM20_HEADER,
 	NAND_BOOT_SPIM_HEADER
 };

 #define NAND_BOOT_NAME		"BOOTLOADER!"
 #define NAND_BOOT_VERSION	"V006"
 #define NAND_BOOT_ID		"NFIINFO"

 #define HSM_NAND_BOOT_NAME	"NANDCFG!"
 #define SPIM_NAND_BOOT_NAME	"SPINAND!"

 /* Find nand header data by name */
 const struct nand_header_type *mtk_nand_header_find(const char *name);

 /* Device header size using this nand header */
 uint32_t mtk_nand_header_size(const struct nand_header_type *hdr_nand);

 /* Get nand info from nand header (page size, spare size, ...) */
 int mtk_nand_header_info(const void *ptr, struct nand_header_info *info);

 /* Whether given header data is valid */
 bool is_mtk_nand_header(const void *ptr);

 /* Generate Device header using give nand header */
 uint32_t mtk_nand_header_put(const struct nand_header_type *hdr_nand,
 			     void *ptr);

 #endif /* _MTK_NAND_HEADERS_H */
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* MediaTek BootROM NAND header definitions
	*
	* Copyright (C) 2022 MediaTek Inc.
	* Author: Weijie Gao <weijie.gao@mediatek.com>
	*/

	#ifndef _MTK_NAND_HEADERS_H
	#define _MTK_NAND_HEADERS_H

	#include <stdint.h>
	#include <stdbool.h>

	struct nand_header_info {
	uint32_t page_size;
	uint32_t spare_size;
	uint32_t gfh_offset;
	bool snfi;
	};

	/* AP BROM Header for NAND */
	union nand_boot_header {
	struct {
	char name[12];
	char version[4];
	char id[8];
	uint16_t ioif; /* I/O interface */
	uint16_t pagesize; /* NAND page size */
	uint16_t addrcycles; /* Address cycles */
	uint16_t oobsize; /* NAND page spare size */
	uint16_t pages_of_block; /* Pages of one block */
	uint16_t numblocks; /* Total blocks of NAND chip */
	uint16_t writesize_shift;
	uint16_t erasesize_shift;
	uint8_t dummy[60];
	uint8_t ecc_parity[28]; /* ECC parity of this header */
	};

	uint8_t data[0x80];
	};

	/* HSM BROM Header for NAND */
	union hsm_nand_boot_header {
	struct {
	char id[8];
	uint32_t version; /* Header version */
	uint32_t config; /* Header config */
	uint32_t sector_size; /* ECC step size */
	uint32_t fdm_size; /* User OOB size of a step */
	uint32_t fdm_ecc_size; /* ECC parity size of a step */
	uint32_t lbs;
	uint32_t page_size; /* NAND page size */
	uint32_t spare_size; /* NAND page spare size */
	uint32_t page_per_block; /* Pages of one block */
	uint32_t blocks; /* Total blocks of NAND chip */
	uint32_t plane_sel_position; /* Plane bit position */
	uint32_t pll; /* Value of pll reg */
	uint32_t acccon; /* Value of access timing reg */
	uint32_t strobe_sel; /* Value of DQS selection reg*/
	uint32_t acccon1; /* Value of access timing reg */
	uint32_t dqs_mux; /* Value of DQS mux reg */
	uint32_t dqs_ctrl; /* Value of DQS control reg */
	uint32_t delay_ctrl; /* Value of delay ctrl reg */
	uint32_t latch_lat; /* Value of latch latency reg */
	uint32_t sample_delay; /* Value of sample delay reg */
	uint32_t driving; /* Value of driving reg */
	uint32_t bl_start; /* Bootloader start addr */
	uint32_t bl_end; /* Bootloader end addr */
	uint8_t ecc_parity[42]; /* ECC parity of this header */
	};

	uint8_t data[0x8E];
	};

	/* HSM2.0 BROM Header for NAND */
	union hsm20_nand_boot_header {
	struct {
	char id[8];
	uint32_t version; /* Header version */
	uint32_t config; /* Header config */
	uint32_t sector_size; /* ECC step size */
	uint32_t fdm_size; /* User OOB size of a step */
	uint32_t fdm_ecc_size; /* ECC parity size of a step */
	uint32_t lbs;
	uint32_t page_size; /* NAND page size */
	uint32_t spare_size; /* NAND page spare size */
	uint32_t page_per_block; /* Pages of one block */
	uint32_t blocks; /* Total blocks of NAND chip */
	uint32_t plane_sel_position; /* Plane bit position */
	uint32_t pll; /* Value of pll reg */
	uint32_t acccon; /* Value of access timing reg */
	uint32_t strobe_sel; /* Value of DQS selection reg*/
	uint32_t acccon1; /* Value of access timing reg */
	uint32_t dqs_mux; /* Value of DQS mux reg */
	uint32_t dqs_ctrl; /* Value of DQS control reg */
	uint32_t delay_ctrl; /* Value of delay ctrl reg */
	uint32_t latch_lat; /* Value of latch latency reg */
	uint32_t sample_delay; /* Value of sample delay reg */
	uint32_t driving; /* Value of driving reg */
	uint32_t reserved;
	uint32_t bl0_start; /* Bootloader start addr */
	uint32_t bl0_end; /* Bootloader end addr */
	uint32_t bl0_type; /* Bootloader type */
	uint8_t bl_reserve[84];
	uint8_t ecc_parity[42]; /* ECC parity of this header */
	};

	uint8_t data[0xEA];
	};

	/* SPIM BROM Header for SPI-NAND */
	union spim_nand_boot_header {
	struct {
	char id[8];
	uint32_t version; /* Header version */
	uint32_t config; /* Header config */
	uint32_t page_size; /* NAND page size */
	uint32_t spare_size; /* NAND page spare size */
	uint16_t page_per_block; /* Pages of one block */
	uint16_t plane_sel_position; /* Plane bit position */
	uint16_t reserve_reg;
	uint16_t reserve_val;
	uint16_t ecc_error; /* ECC error reg addr */
	uint16_t ecc_mask; /* ECC error bit mask */
	uint32_t bl_start; /* Bootloader start addr */
	uint32_t bl_end; /* Bootloader end addr */
	uint8_t ecc_parity[32]; /* ECC parity of this header */
	uint32_t integrity_crc; /* CRC of this header */
	};

	uint8_t data[0x50];
	};

	enum nand_boot_header_type {
	NAND_BOOT_AP_HEADER,
	NAND_BOOT_HSM_HEADER,
	NAND_BOOT_HSM20_HEADER,
	NAND_BOOT_SPIM_HEADER
	};

	#define NAND_BOOT_NAME "BOOTLOADER!"
	#define NAND_BOOT_VERSION "V006"
	#define NAND_BOOT_ID "NFIINFO"

	#define HSM_NAND_BOOT_NAME "NANDCFG!"
	#define SPIM_NAND_BOOT_NAME "SPINAND!"

	/* Find nand header data by name */
	const struct nand_header_type mtk_nand_header_find(const char name);

	/* Device header size using this nand header */
	uint32_t mtk_nand_header_size(const struct nand_header_type *hdr_nand);

	/* Get nand info from nand header (page size, spare size, ...) */
	int mtk_nand_header_info(const void ptr, struct nand_header_info info);

	/* Whether given header data is valid */
	bool is_mtk_nand_header(const void *ptr);

	/* Generate Device header using give nand header */
	uint32_t mtk_nand_header_put(const struct nand_header_type *hdr_nand,
	void *ptr);

	#endif /* _MTK_NAND_HEADERS_H */