/* * Copyright (c) 2018 Fuzhou Rockchip Electronics Co., Ltd * * SPDX-License-Identifier: GPL-2.0 */ #ifndef __SFC_NAND_H #define __SFC_NAND_H #include "flash_com.h" #define SFC_NAND_WAIT_TIME_OUT 3 #define SFC_NAND_PROG_ERASE_ERROR 2 #define SFC_NAND_HW_ERROR 1 #define SFC_NAND_ECC_ERROR NAND_ERROR #define SFC_NAND_ECC_REFRESH NAND_STS_REFRESH #define SFC_NAND_ECC_OK NAND_STS_OK #define SFC_NAND_PAGE_MAX_SIZE 4224 #define SFC_NAND_SECTOR_FULL_SIZE 528 #define SFC_NAND_SECTOR_SIZE 512 #define FEA_READ_STATUE_MASK (0x3 << 0) #define FEA_STATUE_MODE1 0 #define FEA_STATUE_MODE2 1 #define FEA_4BIT_READ BIT(2) #define FEA_4BIT_PROG BIT(3) #define FEA_4BYTE_ADDR BIT(4) #define FEA_4BYTE_ADDR_MODE BIT(5) #define FEA_SOFT_QOP_BIT BIT(6) /* Command Set */ #define CMD_READ_JEDECID (0x9F) #define CMD_READ_DATA (0x03) #define CMD_READ_STATUS (0x05) #define CMD_WRITE_STATUS (0x01) #define CMD_PAGE_PROG (0x02) #define CMD_SECTOR_ERASE (0x20) #define CMD_BLK64K_ERASE (0xD8) #define CMD_BLK32K_ERASE (0x52) #define CMD_CHIP_ERASE (0xC7) #define CMD_WRITE_EN (0x06) #define CMD_WRITE_DIS (0x04) #define CMD_PAGE_READ (0x13) #define CMD_GET_FEATURE (0x0F) #define CMD_SET_FEATURE (0x1F) #define CMD_PROG_LOAD (0x02) #define CMD_PROG_EXEC (0x10) #define CMD_BLOCK_ERASE (0xD8) #define CMD_READ_DATA_X2 (0x3B) #define CMD_READ_DATA_X4 (0x6B) #define CMD_PROG_LOAD_X4 (0x32) #define CMD_READ_STATUS2 (0x35) #define CMD_READ_STATUS3 (0x15) #define CMD_WRITE_STATUS2 (0x31) #define CMD_WRITE_STATUS3 (0x11) #define CMD_FAST_READ_X1 (0x0B) /* X1 cmd, X1 addr, X1 data */ #define CMD_FAST_READ_X2 (0x3B) /* X1 cmd, X1 addr, X2 data */ /* X1 cmd, X1 addr, X4 data SUPPORT GD MARCONIX WINBOND */ #define CMD_FAST_READ_X4 (0x6B) /* X1 cmd, X1 addr, X4 data SUPPORT GD MARCONIX WINBOND */ #define CMD_FAST_4READ_X4 (0x6C) /* X1 cmd, X4 addr, X4 data SUPPORT EON GD MARCONIX WINBOND */ #define CMD_FAST_READ_A4 (0xEB) /* X1 cmd, X1 addr, X4 data, SUPPORT GD WINBOND */ #define CMD_PAGE_PROG_X4 (0x32) /* X1 cmd, X4 addr, X4 data, SUPPORT MARCONIX */ #define CMD_PAGE_PROG_A4 (0x38) #define CMD_RESET_NAND (0xFF) #define CMD_ENTER_4BYTE_MODE (0xB7) #define CMD_EXIT_4BYTE_MODE (0xE9) #define CMD_ENABLE_RESER (0x66) #define CMD_RESET_DEVICE (0x99) struct SFNAND_DEV { u32 capacity; u32 block_size; u16 page_size; u8 manufacturer; u8 mem_type; u8 read_lines; u8 prog_lines; u8 page_read_cmd; u8 page_prog_cmd; u8 *recheck_buffer; }; struct nand_mega_area { u8 off0; u8 off1; u8 off2; u8 off3; }; struct nand_info { u8 id0; u8 id1; u8 id2; u16 sec_per_page; u16 page_per_blk; u16 plane_per_die; u16 blk_per_plane; u8 feature; u8 density; /* (1 << density) sectors*/ u8 max_ecc_bits; u8 has_qe_bits; struct nand_mega_area meta; u32 (*ecc_status)(void); }; extern struct nand_phy_info g_nand_phy_info; extern struct nand_ops g_nand_ops; u32 sfc_nand_init(void); void sfc_nand_deinit(void); int sfc_nand_read_id(u8 *buf); u32 sfc_nand_erase_block(u8 cs, u32 addr); u32 sfc_nand_prog_page(u8 cs, u32 addr, u32 *p_data, u32 *p_spare); u32 sfc_nand_read_page(u8 cs, u32 addr, u32 *p_data, u32 *p_spare); u32 sfc_nand_prog_page_raw(u8 cs, u32 addr, u32 *p_page_buf); u32 sfc_nand_read_page_raw(u8 cs, u32 addr, u32 *p_page_buf); u32 sfc_nand_check_bad_block(u8 cs, u32 addr); u32 sfc_nand_mark_bad_block(u8 cs, u32 addr); void sfc_nand_ftl_ops_init(void); struct SFNAND_DEV *sfc_nand_get_private_dev(void); #endif