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|
/*
* This file is part of the flashrom project.
*
* Copyright (C) 2000 Silicon Integrated System Corporation
* Copyright (C) 2000 Ronald G. Minnich <rminnich@gmail.com>
* Copyright (C) 2005-2007 coresystems GmbH <stepan@coresystems.de>
* Copyright (C) 2006-2009 Carl-Daniel Hailfinger
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#ifndef __FLASHCHIPS_H__
#define __FLASHCHIPS_H__ 1
/*
* Please keep this list sorted alphabetically by manufacturer. The first
* entry of each section should be the manufacturer ID, followed by the
* list of devices from that manufacturer (sorted by device ID).
*
* Most LPC/FWH parts (parallel flash) have 8-bit device IDs if there is no
* continuation code.
* SPI parts have at least 16-bit device IDs if they support RDID.
*/
#define GENERIC_MANUF_ID 0xFFFF /* Check if there is a vendor ID */
#define GENERIC_DEVICE_ID 0xFFFF /* Only match the vendor ID */
#define SFDP_DEVICE_ID 0xFFFE
#define PROGMANUF_ID 0xFFFE /* dummy ID for opaque chips behind a programmer */
#define PROGDEV_ID 0x01 /* dummy ID for opaque chips behind a programmer */
#define ALLIANCE_ID 0x52 /* Alliance Semiconductor */
#define ALLIANCE_AS29F002B 0x34
#define ALLIANCE_AS29F002T 0xB0
#define ALLIANCE_AS29F010 0x04
#define ALLIANCE_AS29F040 0xA4
#define ALLIANCE_AS29F200B 0x57
#define ALLIANCE_AS29F200T 0x51
#define ALLIANCE_AS29LV160B 0x49
#define ALLIANCE_AS29LV160T 0xCA
#define ALLIANCE_AS29LV400B 0xBA
#define ALLIANCE_AS29LV400T 0xB9
#define ALLIANCE_AS29LV800B 0x5B
#define ALLIANCE_AS29LV800T 0xDA
#define AMD_ID 0x01 /* AMD */
#define AMD_AM29DL400BT 0x0C
#define AMD_AM29DL400BB 0x0F
#define AMD_AM29DL800BT 0x4A
#define AMD_AM29DL800BB 0xCB
#define AMD_AM29F002BB 0x34 /* Same as Am29F002NBB */
#define AMD_AM29F002BT 0xB0 /* Same as Am29F002NBT */
#define AMD_AM29F004BB 0x7B
#define AMD_AM29F004BT 0x77
#define AMD_AM29F016D 0xAD
#define AMD_AM29F010 0x20 /* Same as Am29F010A and Am29F010B */
#define AMD_AM29F040 0xA4 /* Same as AM29F040B */
#define AMD_AM29F080 0xD5 /* Same as Am29F080B */
#define AMD_AM29F200BB 0x57
#define AMD_AM29F200BT 0x51
#define AMD_AM29F400BB 0xAB
#define AMD_AM29F400BT 0x23
#define AMD_AM29F800BB 0x58
#define AMD_AM29F800BT 0xD6
#define AMD_AM29LV001BB 0x6D
#define AMD_AM29LV001BT 0xED
#define AMD_AM29LV010B 0x6E /* 1Mb, uniform */
#define AMD_AM29LV002BB 0xC2
#define AMD_AM29LV002BT 0x40
#define AMD_AM29LV004BB 0xB6
#define AMD_AM29LV004BT 0xB5
#define AMD_AM29LV008BB 0x37
#define AMD_AM29LV008BT 0x3E
#define AMD_AM29LV040B 0x4F
#define AMD_AM29LV080B 0x38 /* Same as Am29LV081B */
#define AMD_AM29LV200BB 0xBF
#define AMD_AM29LV200BT 0x3B
#define AMD_AM29LV800BB 0x5B /* Same as Am29LV800DB */
#define AMD_AM29LV400BT 0xB9
#define AMD_AM29LV400BB 0xBA
#define AMD_AM29LV800BT 0xDA /* Same as Am29LV800DT */
#define AMIC_ID 0x7F37 /* AMIC */
#define AMIC_ID_NOPREFIX 0x37 /* AMIC */
#define AMIC_A25L05PT 0x2020
#define AMIC_A25L05PU 0x2010
#define AMIC_A25L10PT 0x2021
#define AMIC_A25L10PU 0x2011
#define AMIC_A25L20PT 0x2022
#define AMIC_A25L20PU 0x2012
#define AMIC_A25L40PT 0x2013 /* Datasheet says T and U have
same device ID. Confirmed by
hardware testing. */
#define AMIC_A25L40PU 0x2013
#define AMIC_A25L80P 0x2014 /* Seems that no A25L80PT exists */
#define AMIC_A25L16PT 0x2025
#define AMIC_A25L16PU 0x2015
#define AMIC_A25L512 0x3010
#define AMIC_A25L010 0x3011
#define AMIC_A25L020 0x3012
#define AMIC_A25L040 0x3013
#define AMIC_A25L080 0x3014
#define AMIC_A25L016 0x3015
#define AMIC_A25L032 0x3016
#define AMIC_A25LQ16 0x4015
#define AMIC_A25LQ032 0x4016 /* Same as A25LQ32A, but the latter supports SFDP */
#define AMIC_A25LQ64 0x4017
#define AMIC_A29002B 0x0d
#define AMIC_A29002T 0x8C /* Same as A290021T */
#define AMIC_A29040B 0x86
#define AMIC_A29400T 0xB0 /* Same as 294001T */
#define AMIC_A29400U 0x31 /* Same as A294001U */
#define AMIC_A29800T 0x0E
#define AMIC_A29800U 0x8F
#define AMIC_A29L004T 0x34 /* Same as A29L400T */
#define AMIC_A29L004U 0xB5 /* Same as A29L400U */
#define AMIC_A29L008T 0x1A /* Same as A29L800T */
#define AMIC_A29L008U 0x9B /* Same as A29L800U */
#define AMIC_A29L040 0x92
#define AMIC_A49LF040A 0x9d
#define ATMEL_ID 0x1F /* Atmel (now used by Adesto) */
#define ATMEL_AT25DF021 0x4300
#define ATMEL_AT25DF021A 0x4301
#define ATMEL_AT25DF041A 0x4401
#define ATMEL_AT25DF081 0x4502 /* EDI 0x00. AT25DL081 has same ID + EDI 0x0100 */
#define ATMEL_AT25DF081A 0x4501 /* Yes, 81A has a lower number than 81 */
#define ATMEL_AT25DF161 0x4602
#define ATMEL_AT25DF321 0x4700 /* Same as 26DF321 */
#define ATMEL_AT25DF321A 0x4701
#define ATMEL_AT25DF641 0x4800
#define ATMEL_AT25DL161 0x4603 /* EDI 0x0100 */
#define ATMEL_AT25DQ161 0x8600 /* EDI 0x0100 */
#define ATMEL_AT25DQ321 0x8700 /* EDI 0x0100 */
#define ATMEL_AT25F512 0x60 /* Needs AT25F_RDID. ID from PCN and actual HW. Seems to be a relabeled AT25F1024. */
#define ATMEL_AT25F512A 0x65 /* Needs AT25F_RDID */
#define ATMEL_AT25F512B 0x6500
#define ATMEL_AT25F1024 0x60 /* Needs AT25F_RDID */
#define ATMEL_AT25F2048 0x63 /* Needs AT25F_RDID */
#define ATMEL_AT25F4096 0x64 /* Needs AT25F_RDID */
#define ATMEL_AT25FS010 0x6601
#define ATMEL_AT25FS040 0x6604
#define ATMEL_AT25SF041 0x8401
#define ATMEL_AT25SF081 0x8501
#define ATMEL_AT25SF161 0x8601
#define ATMEL_AT25SF321 0x8701
#define ATMEL_AT25SL128A 0x4218
#define ATMEL_AT25SF128A 0x8901 /* Adesto AT25SF128A */
#define ATMEL_AT26DF041 0x4400
#define ATMEL_AT26DF081 0x4500 /* guessed, no datasheet available */
#define ATMEL_AT26DF081A 0x4501
#define ATMEL_AT26DF161 0x4600
#define ATMEL_AT26DF161A 0x4601
#define ATMEL_AT26F004 0x0400
#define ATMEL_AT29LV512 0x3D
#define ATMEL_AT29LV010A 0x35 /* Same as AT29BV010A, the latter works down to 2.7V */
#define ATMEL_AT29LV020 0xBA
#define ATMEL_AT29BV040A 0xC4
#define ATMEL_AT29C040A 0xA4
#define ATMEL_AT29C010A 0xD5
#define ATMEL_AT29C020 0xDA
#define ATMEL_AT29C512 0x5D
#define ATMEL_AT45BR3214B /* No ID available */
#define ATMEL_AT45CS1282 0x2920
#define ATMEL_AT45D011 /* No ID available */
#define ATMEL_AT45D021A /* No ID available */
#define ATMEL_AT45D041A /* No ID available */
#define ATMEL_AT45D081A /* No ID available */
#define ATMEL_AT45D161 /* No ID available */
#define ATMEL_AT45DB011 /* No ID (opcode) available for AT45DB011, AT45DB011B */
#define ATMEL_AT45DB011D 0x2200
#define ATMEL_AT45DB021 /* No ID (opcode) available for AT45DB021, AT45DB021A, AT45DB021B */
#define ATMEL_AT45DB021D 0x2300
#define ATMEL_AT45DB021E /* same as above but with EDI 0x0100 */
#define ATMEL_AT45DB041 /* No ID (opcode) available for AT45DB041, AT45DB041A, AT45DB041B */
#define ATMEL_AT45DB041D 0x2400
#define ATMEL_AT45DB041E /* same as above but with EDI 0x0100 */
#define ATMEL_AT45DB081 /* No ID (opcode) available for AT45DB081, AT45DB081A, AT45DB081B */
#define ATMEL_AT45DB081D 0x2500
#define ATMEL_AT45DB081E /* same as above but with EDI 0x0100 */
#define ATMEL_AT45DB161 /* No ID (opcode) available for AT45DB161, AT45DB161B */
#define ATMEL_AT45DB161D 0x2600
#define ATMEL_AT45DB161E /* same as above but with EDI 0x0100 */
#define ATMEL_AT45DB321 /* No ID (opcode) available for AT45DB321, AT45DB321B */
#define ATMEL_AT45DB321C 0x2700
#define ATMEL_AT45DB321E /* same as above but with EDI 0x0100 */
#define ATMEL_AT45DB321D 0x2701 /* Buggy data sheet */
#define ATMEL_AT45DB642 /* No ID (opcode) available for AT45DB642 */
#define ATMEL_AT45DB642D 0x2800
#define ATMEL_AT49BV512 0x03 /* Same as AT49F512 */
#define ATMEL_AT49F001N 0x05 /* Same as AT49F001 */
#define ATMEL_AT49F001NT 0x04 /* Same as AT49F001T */
#define ATMEL_AT49F002N 0x07 /* for AT49F002(N) */
#define ATMEL_AT49LH002 0xE9
#define ATMEL_AT49LH00B4 0xED
#define ATMEL_AT49LH004 0xEE
#define ATMEL_AT49F002NT 0x08 /* for AT49F002(N)T */
#define ATMEL_AT49F010 0x17 /* Same as AT49HF010 (some erroneous datasheets say 0x87), AT49BV010, AT49HBV010, AT49HLV010 */
#define ATMEL_AT49F020 0x0B
#define ATMEL_AT49F040 0x13
#define ATMEL_AT49F080 0x23
#define ATMEL_AT49F080T 0x27
/* Boya/BoHong Microelectronics Inc. */
#define BOYA_BOHONG_ID 0x68
#define BOYA_BOHONG_B_25D16A 0x4015
#define BOYA_BOHONG_B_25Q128AS 0x4018
/* Bright Microelectronics has the same manufacturer ID as Hyundai... */
#define BRIGHT_ID 0xAD /* Bright Microelectronics */
#define BRIGHT_BM29F040 0x40
#define BRIGHT_BM29F400B 0xAB
#define BRIGHT_BM29F400T 0xAD
#define CATALYST_ID 0x31 /* Catalyst */
#define CATALYST_CAT28F512 0xB8
#define ESMT_ID 0x8C /* Elite Semiconductor Memory Technology (ESMT) / EFST Elite Flash Storage */
#define ESMT_F25L008A 0x2014
#define ESMT_F25L32PA 0x2016
#define ESMT_F25D08QA 0x2534
#define ESMT_F25L16QA2S 0x4015
#define ESMT_F25L32QA 0x4016
#define ESMT_F25L32QA2S 0x4116
#define ESMT_F25L64QA 0x4117
#define ESMT_F25L128QA 0x4118
#define ESMT_F49B002UA 0x00
/*
* EN25 chips are SPI, first byte of device ID is memory type,
* second byte of device ID is log(bitsize)-9.
* Vendor and device ID of EN29 series are both prefixed with 0x7F, which
* is the continuation code for IDs in bank 2.
* Vendor ID of EN25 series is NOT prefixed with 0x7F, this results in
* a collision with Mitsubishi. Mitsubishi once manufactured flash chips.
* Let's hope they are not manufacturing SPI flash chips as well.
*/
#define EON_ID 0x7F1C /* EON Silicon Devices */
#define EON_ID_NOPREFIX 0x1C /* EON, missing 0x7F prefix */
#define EON_EN25B05 0x2010 /* Same as EN25P05, can be distinguished by RES/REMS: */
#define EON_EN25P05 0x05
#define EON_EN25B05T 0x25
#define EON_EN25B05B 0x95
#define EON_EN25B10 0x2011 /* Same as EN25P10, can be distinguished by RES/REMS: */
#define EON_EN25P10 0x10
#define EON_EN25B10T 0x40
#define EON_EN25B10B 0x30
#define EON_EN25B20 0x2012 /* Same as EN25P20, can be distinguished by RES/REMS: */
#define EON_EN25P20 0x11
#define EON_EN25B20T 0x41
#define EON_EN25B20B 0x31
#define EON_EN25B40 0x2013 /* Same as EN25P40, can be distinguished by RES/REMS: */
#define EON_EN25P40 0x12
#define EON_EN25B40T 0x42
#define EON_EN25B40B 0x32
#define EON_EN25B80 0x2014 /* Same as EN25P80, can be distinguished by RES/REMS: */
#define EON_EN25P80 0x13
#define EON_EN25B80T 0x43
#define EON_EN25B80B 0x33
#define EON_EN25B16 0x2015 /* Same as EN25P16, can be distinguished by RES/REMS: */
#define EON_EN25P16 0x14
#define EON_EN25B16T 0x44
#define EON_EN25B16B 0x34
#define EON_EN25B32 0x2016 /* Same as EN25P32, can be distinguished by RES/REMS: */
#define EON_EN25P32 0x15
#define EON_EN25B32T 0x45
#define EON_EN25B32B 0x35
#define EON_EN25B64 0x2017 /* Same as EN25P64, can be distinguished by RES/REMS: */
#define EON_EN25P64 0x16
#define EON_EN25B64T 0x46
#define EON_EN25B64B 0x36
#define EON_EN25F05 0x3110
#define EON_EN25F10 0x3111
#define EON_EN25F20 0x3112
#define EON_EN25F40 0x3113
#define EON_EN25F80 0x3114
#define EON_EN25F16 0x3115
#define EON_EN25F32 0x3116
#define EON_EN25F64 0x3117
#define EON_EN25Q40 0x3013
#define EON_EN25Q80 0x3014
#define EON_EN25Q16 0x3015 /* Same as EN25D16 */
#define EON_EN25Q32 0x3016 /* Same as EN25Q32A and EN25Q32B */
#define EON_EN25Q64 0x3017
#define EON_EN25Q128 0x3018
#define EON_EN25QH16 0x7015
#define EON_EN25QH32 0x7016
#define EON_EN25QH64 0x7017
#define EON_EN25QH128 0x7018
#define EON_EN25QH256 0x7019
#define EON_EN25S10 0x3811
#define EON_EN25S20 0x3812
#define EON_EN25S40 0x3813
#define EON_EN25S80 0x3814
#define EON_EN25S16 0x3815
#define EON_EN25S32 0x3816
#define EON_EN25S64 0x3817
#define EON_EN25T80 0x5114
#define EON_EN25T16 0x5115
#define EON_EN29F512 0x7F21
#define EON_EN29F010 0x20
#define EON_EN29F040A 0x7F04
#define EON_EN29LV010 0x7F6E
#define EON_EN29LV040 0x4F /* Same as EN29LV040A */
#define EON_EN29LV640B 0xCB
#define EON_EN29LV640T 0xC9
#define EON_EN29LV640U 0x7E
#define EON_EN29F002T 0x7F92 /* Same as EN29F002A */
#define EON_EN29F002B 0x7F97 /* Same as EN29F002AN */
#define EON_EN29GL064HL 0x7E0C01 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define EON_EN29GL064T 0x7E1001 /* Same ID as EN29GL064AT */
#define EON_EN29GL064B 0x7E1000 /* Same ID as EN29GL064AB */
#define EON_EN29GL128HL 0x7F2101 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define EON_EN29GL256HL 0x7F2201 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define EXCEL_ID 0x7F7F7F7F4A /* Excel Semiconductor Inc. (ESI) resides in bank 5 */
#define EXCEL_ID_NOPREFIX 0x4A /* ESI, missing 0x7F prefix */
#define EXCEL_ES25P40 0x2013
#define EXCEL_ES25P80 0x2014
#define EXCEL_ES25P16 0x2015
#define FIDELIX_ID 0xF8 /* Fidelix */
#define FIDELIX_FM25M16 0x4215
#define FIDELIX_FM25M32 0x4216
#define FIDELIX_FM25M64 0x4217
#define FIDELIX_FM25Q08 0x3214
#define FIDELIX_FM25Q16 0x3215 /* Same as FM25S16 (which is apparently single I/O only) */
#define FIDELIX_FM25Q32 0x3216
#define FIDELIX_FM25Q64 0x3217
#define FUDAN_ID 0x7F7F7F7F7F7F7FA1 /* Shanghai Fudan Microelectronics resides in bank 8 */
#define FUDAN_ID_NOPREFIX 0xA1 /* Fudan, missing 0x7F prefix */
#define FUDAN_FM25F005 0x3110
#define FUDAN_FM25F01 0x3111
#define FUDAN_FM25F02 0x3112 /* Same as FM25F02A */
#define FUDAN_FM25F04 0x3113 /* Same as FM25F04A */
#define FUDAN_FM25Q08 0x4014
#define FUDAN_FM25Q16 0x4015
#define FUDAN_FM25Q32 0x4016
#define FUJITSU_ID 0x04 /* Fujitsu */
#define FUJITSU_MBM29DL400BC 0x0F
#define FUJITSU_MBM29DL400TC 0x0C
#define FUJITSU_MBM29DL800BA 0xCB
#define FUJITSU_MBM29DL800TA 0x4A
#define FUJITSU_MBM29F002BC 0x34
#define FUJITSU_MBM29F002TC 0xB0
#define FUJITSU_MBM29F004BC 0x7B
#define FUJITSU_MBM29F004TC 0x77
#define FUJITSU_MBM29F040C 0xA4
#define FUJITSU_MBM29F080A 0xD5
#define FUJITSU_MBM29F200BC 0x57
#define FUJITSU_MBM29F200TC 0x51
#define FUJITSU_MBM29F400BC 0xAB
#define FUJITSU_MBM29F400TC 0x23
#define FUJITSU_MBM29F800BA 0x58
#define FUJITSU_MBM29F800TA 0xD6
#define FUJITSU_MBM29LV002BC 0xC2
#define FUJITSU_MBM29LV002TC 0x40
#define FUJITSU_MBM29LV004BC 0xB6
#define FUJITSU_MBM29LV004TC 0xB5
#define FUJITSU_MBM29LV008BA 0x37
#define FUJITSU_MBM29LV008TA 0x3E
#define FUJITSU_MBM29LV080A 0x38
#define FUJITSU_MBM29LV200BC 0xBF
#define FUJITSU_MBM29LV200TC 0x3B
#define FUJITSU_MBM29LV400BC 0xBA
#define FUJITSU_MBM29LV400TC 0xB9
#define FUJITSU_MBM29LV800BA 0x5B /* Same as MBM29LV800BE */
#define FUJITSU_MBM29LV800TA 0xDA /* Same as MBM29LV800TE */
#define FUJITSU_MBM29LV160BE 0x49 /* 16 b mode 0x2249 */
#define FUJITSU_MBM29LV160TE 0xC4 /* 16 b mode 0x22C4 */
#define GIGADEVICE_ID 0xC8 /* GigaDevice */
#define GIGADEVICE_GD25T80 0x3114
#define GIGADEVICE_GD25Q512 0x4010
#define GIGADEVICE_GD25Q10 0x4011
#define GIGADEVICE_GD25Q20 0x4012 /* Same as GD25QB */
#define GIGADEVICE_GD25Q40 0x4013 /* Same as GD25QB */
#define GIGADEVICE_GD25Q80 0x4014 /* Same as GD25Q80B (which has OTP) */
#define GIGADEVICE_GD25Q16 0x4015 /* Same as GD25Q16B (which has OTP) */
#define GIGADEVICE_GD25Q32 0x4016 /* Same as GD25Q32B */
#define GIGADEVICE_GD25Q64 0x4017 /* Same as GD25Q64B */
#define GIGADEVICE_GD25Q128 0x4018 /* GD25Q128B and GD25Q128C only, can be distinguished by SFDP */
#define GIGADEVICE_GD25Q256D 0x4019
#define GIGADEVICE_GD25VQ21B 0x4212
#define GIGADEVICE_GD25VQ41B 0x4213 /* Same as GD25VQ40C, can be distinguished by SFDP */
#define GIGADEVICE_GD25VQ80C 0x4214
#define GIGADEVICE_GD25VQ16C 0x4215
#define GIGADEVICE_GD25LQ40 0x6013
#define GIGADEVICE_GD25LQ80 0x6014
#define GIGADEVICE_GD25LQ16 0x6015
#define GIGADEVICE_GD25LQ32 0x6016
#define GIGADEVICE_GD25LQ64 0x6017 /* Same as GD25LQ64B (which is faster) */
#define GIGADEVICE_GD25LQ128CD 0x6018
#define GIGADEVICE_GD25WQ80E 0x6514
#define GIGADEVICE_GD29GL064CAB 0x7E0601
#define HYUNDAI_ID 0xAD /* Hyundai */
#define HYUNDAI_HY29F400T 0x23 /* Same as HY29F400AT */
#define HYUNDAI_HY29F800B 0x58 /* Same as HY29F800AB */
#define HYUNDAI_HY29LV800B 0x5B
#define HYUNDAI_HY29F040A 0xA4
#define HYUNDAI_HY29F400B 0xAB /* Same as HY29F400AB */
#define HYUNDAI_HY29F002B 0x34
#define HYUNDAI_HY29F002T 0xB0
#define HYUNDAI_HY29LV400T 0xB9
#define HYUNDAI_HY29LV400B 0xBA
#define HYUNDAI_HY29F080 0xD5
#define HYUNDAI_HY29F800T 0xD6 /* Same as HY29F800AT */
#define HYUNDAI_HY29LV800T 0xDA
#define IMT_ID 0x7F1F /* Integrated Memory Technologies */
#define IMT_IM29F004B 0xAE
#define IMT_IM29F004T 0xAF
#define INTEL_ID 0x89 /* Intel */
#define INTEL_28F320J5 0x14
#define INTEL_28F640J5 0x15
#define INTEL_28F320J3 0x16
#define INTEL_28F640J3 0x17
#define INTEL_28F128J3 0x18
#define INTEL_28F256J3 0x1D
#define INTEL_28F400T 0x70 /* 28F400BV/BX/CE/CV-T */
#define INTEL_28F400B 0x71 /* 28F400BV/BX/CE/CV-B */
#define INTEL_28F200T 0x74 /* 28F200BL/BV/BX/CV-T */
#define INTEL_28F200B 0x75 /* 28F200BL/BV/BX/CV-B */
#define INTEL_28F004T 0x78 /* 28F004B5/BE/BV/BX-T */
#define INTEL_28F004B 0x79 /* 28F004B5/BE/BV/BX-B */
#define INTEL_28F002T 0x7C /* 28F002BC/BL/BV/BX-T */
#define INTEL_28F002B 0x7D /* 28F002BL/BV/BX-B */
#define INTEL_28F001T 0x94 /* 28F001BN/BX-T */
#define INTEL_28F001B 0x95 /* 28F001BN/BX-B */
#define INTEL_28F008T 0x98 /* 28F008BE/BV-T */
#define INTEL_28F008B 0x99 /* 28F008BE/BV-B */
#define INTEL_28F800T 0x9C /* 28F800B5/BV/CE/CV-T */
#define INTEL_28F800B 0x9D /* 28F800B5/BV/CE/CV-B */
#define INTEL_28F016SV 0xA0 /* 28F016SA/SV */
#define INTEL_28F008SA 0xA2
#define INTEL_28F008S3 0xA6 /* 28F008S3/S5/SC */
#define INTEL_28F004S3 0xA7 /* 28F008S3/S5/SC */
#define INTEL_28F016XS 0xA8
#define INTEL_28F016S3 0xAA /* 28F016S3/S5/SC */
#define INTEL_82802AC 0xAC
#define INTEL_82802AB 0xAD
#define INTEL_28F010 0xB4
#define INTEL_28F512 0xB8
#define INTEL_28F256A 0xB9
#define INTEL_28F020 0xBD
#define INTEL_28F016B3T 0xD0 /* 28F016B3-T */
#define INTEL_28F016B3B 0xD1 /* 28F016B3-B */
#define INTEL_28F008B3T 0xD2 /* 28F008B3-T */
#define INTEL_28F008B3B 0xD3 /* 28F008B3-B */
#define INTEL_28F004B3T 0xD4 /* 28F004B3-T */
#define INTEL_28F004B3B 0xD5 /* 28F004B3-B */
#define INTEL_25F160S33B8 0x8911 /* Same as 25F016S33B8 */
#define INTEL_25F320S33B8 0x8912
#define INTEL_25F640S33B8 0x8913
#define INTEL_25F160S33T8 0x8915 /* Same as 25F016S33T8 */
#define INTEL_25F320S33T8 0x8916
#define INTEL_25F640S33T8 0x8917
#define SHARP_LH28F008SA 0xA2 /* Sharp chip, Intel Vendor ID */
#define SHARP_LH28F008SC 0xA6 /* Sharp chip, Intel Vendor ID */
#define ISSI_ID 0xD5 /* ISSI Integrated Silicon Solutions, see also PMC. */
#define ISSI_ID_SPI 0x9D /* ISSI ID used for SPI flash, see also PMC_ID_NOPREFIX */
#define ISSI_IS25LP064 0x6017
#define ISSI_IS25LP128 0x6018
#define ISSI_IS25LP256 0x6019
#define ISSI_IS25WP032 0x7016
#define ISSI_IS25WP064 0x7017
#define ISSI_IS25WP128 0x7018
#define ISSI_IS25WP256 0x7019
#define ISSI_PMC_IS29GL032B 0xF9
#define ISSI_PMC_IS29GL032T 0xF6
#define ISSI_PMC_IS29GL064B 0x7E1000
#define ISSI_PMC_IS29GL064T 0x7E1001
#define ISSI_PMC_IS29GL064HL 0x7E0C01
#define ISSI_PMC_IS29GL128HL 0x7E2101
#define ISSI_PMC_IS29GL256HL 0x7E2201
#define MACRONIX_ID 0xC2 /* Macronix (MX) */
/* Mask ROMs */
#define MACRONIX_MX23L1654 0x0515
#define MACRONIX_MX23L3254 0x0516
#define MACRONIX_MX23L6454 0x0517
#define MACRONIX_MX23L12854 0x0518
/* MX25 chips are SPI, first byte of device ID is memory type,
* second byte of device ID is log(bitsize)-9.
* Generalplus SPI chips seem to be compatible with Macronix
* and use the same set of IDs. */
#define MACRONIX_MX25L512 0x2010 /* Same as MX25L512E, MX25V512, MX25V512C */
#define MACRONIX_MX25L5121E 0x2210
#define MACRONIX_MX25L1005 0x2011 /* Same as MX25L1005C, MX25L1006E */
#define MACRONIX_MX25L2005 0x2012 /* Same as MX25L2005C, MX25L2006E */
#define MACRONIX_MX25L4005 0x2013 /* Same as MX25L4005A, MX25L4005C, MX25L4006E */
#define MACRONIX_MX25L8005 0x2014 /* Same as MX25V8005, MX25L8006E, MX25L8008E, FIXME: MX25L8073E (4k 0x20) */
#define MACRONIX_MX25L1605 0x2015 /* MX25L1605 (64k 0x20); MX25L1605A/MX25L1606E/MX25L1608E (4k 0x20, 64k 0x52); MX25L1605D/MX25L1608D/MX25L1673E (4k 0x20) */
#define MACRONIX_MX25L3205 0x2016 /* MX25L3205, MX25L3205A (64k 0x20); MX25L3205D/MX25L3208D (4k 0x20); MX25L3206E/MX25L3208E (4k 0x20, 64k 0x52); MX25L3233F/MX25L3273E (4k 0x20, 32k 0x52) */
#define MACRONIX_MX25L6405 0x2017 /* MX25L6405, MX25L6405D (64k 0x20); MX25L6406E/MX25L6408E (4k 0x20); MX25L6436E/MX25L6445E/MX25L6465E/MX25L6473E (4k 0x20, 32k 0x52) */
#define MACRONIX_MX25L12805D 0x2018 /* MX25L12805D (no 32k); MX25L12865E, MX25L12835F, MX25L12845E, MX25L12873F, MX25L12833F (32k 0x52) */
#define MACRONIX_MX25L25635F 0x2019 /* Same as MX25L25639F, but the latter seems to not support REMS */
#define MACRONIX_MX25L1635D 0x2415
#define MACRONIX_MX25L1635E 0x2515 /* MX25L1635{E} */
#define MACRONIX_MX66L51235F 0x201a /* MX66L51235F, MX25L51245G */
#define MACRONIX_MX66L1G45G 0x201b /* MX66L1G45G */
#define MACRONIX_MX25U8032E 0x2534
#define MACRONIX_MX25U1635E 0x2535
#define MACRONIX_MX25U3235E 0x2536 /* Same as MX25U6435F */
#define MACRONIX_MX25U6435E 0x2537 /* Same as MX25U6435F */
#define MACRONIX_MX25U12835E 0x2538 /* Same as MX25U12835F */
#define MACRONIX_MX25U25635F 0x2539
#define MACRONIX_MX25U51245G 0x253a
#define MACRONIX_MX25L3235D 0x5E16 /* MX25L3225D/MX25L3235D/MX25L3237D */
#define MACRONIX_MX25L6495F 0x9517
#define MACRONIX_MX25R3235F 0x2816
#define MACRONIX_MX25R6435F 0x2817
#define MACRONIX_MX29F001B 0x19
#define MACRONIX_MX29F001T 0x18
#define MACRONIX_MX29F002B 0x34 /* Same as MX29F002NB; N has reset pin n/c. */
#define MACRONIX_MX29F002T 0xB0 /* Same as MX29F002NT; N has reset pin n/c. */
#define MACRONIX_MX29F004B 0x46
#define MACRONIX_MX29F004T 0x45
#define MACRONIX_MX29F022B 0x37 /* Same as MX29F022NB */
#define MACRONIX_MX29F022T 0x36 /* Same as MX29F022NT */
#define MACRONIX_MX29F040 0xA4 /* Same as MX29F040C */
#define MACRONIX_MX29F080 0xD5
#define MACRONIX_MX29F200B 0x57 /* Same as MX29F200CB */
#define MACRONIX_MX29F200T 0x51 /* Same as MX29F200CT */
#define MACRONIX_MX29F400B 0xAB /* Same as MX29F400CB */
#define MACRONIX_MX29F400T 0x23 /* Same as MX29F400CT */
#define MACRONIX_MX29F800B 0x58
#define MACRONIX_MX29F800T 0xD6
#define MACRONIX_MX29GL320EB 0x7E1A00
#define MACRONIX_MX29GL320ET 0x7E1A01
#define MACRONIX_MX29GL320EHL 0x7E1D00
#define MACRONIX_MX29GL640EB 0x7E1000
#define MACRONIX_MX29GL640ET 0x7E1001
#define MACRONIX_MX29GL640EHL 0x7E0C01
#define MACRONIX_MX29GL128F 0x7E2101 /* Same as MX29GL128E */
#define MACRONIX_MX29GL256F 0x7E2201 /* Same as MX29GL256E */
#define MACRONIX_MX29GL512F 0x7E2301
#define MACRONIX_MX68GL1G0F 0x7E2801
#define MACRONIX_MX29LV002CB 0x5A
#define MACRONIX_MX29LV002CT 0x59
#define MACRONIX_MX29LV004B 0xB6 /* Same as MX29LV004CB */
#define MACRONIX_MX29LV004T 0xB5 /* Same as MX29LV004CT */
#define MACRONIX_MX29LV008B 0x37 /* Same as MX29LV008CB */
#define MACRONIX_MX29LV008T 0x3E /* Same as MX29LV008CT */
#define MACRONIX_MX29LV040 0x4F /* Same as MX29LV040C */
#define MACRONIX_MX29LV081 0x38
#define MACRONIX_MX29LV128DB 0x7A
#define MACRONIX_MX29LV128DT 0x7E
#define MACRONIX_MX29LV160DB 0x49 /* Same as MX29LV161DB/MX29LV160CB */
#define MACRONIX_MX29LV160DT 0xC4 /* Same as MX29LV161DT/MX29LV160CT */
#define MACRONIX_MX29LV320DB 0xA8 /* Same as MX29LV321DB */
#define MACRONIX_MX29LV320DT 0xA7 /* Same as MX29LV321DT */
#define MACRONIX_MX29LV400B 0xBA /* Same as MX29LV400CB */
#define MACRONIX_MX29LV400T 0xB9 /* Same as MX29LV400CT */
#define MACRONIX_MX29LV640DB 0xCB /* Same as MX29LV640EB */
#define MACRONIX_MX29LV640DT 0xC9 /* Same as MX29LV640ET */
#define MACRONIX_MX29LV800B 0x5B /* Same as MX29LV800CB */
#define MACRONIX_MX29LV800T 0xDA /* Same as MX29LV800CT */
#define MACRONIX_MX29SL402CB 0xF1
#define MACRONIX_MX29SL402CT 0x70
#define MACRONIX_MX29SL800CB 0x6B /* Same as MX29SL802CB */
#define MACRONIX_MX29SL800CT 0xEA /* Same as MX29SL802CT */
/* Nantronics Semiconductors is listed in JEP106AJ in bank 7, so it should have 6 continuation codes in front
* of the manufacturer ID of 0xD5. http://www.nantronicssemi.com */
#define NANTRONICS_ID 0x7F7F7F7F7F7FD5 /* Nantronics */
#define NANTRONICS_ID_NOPREFIX 0xD5 /* Nantronics, missing prefix */
#define NANTRONICS_N25S10 0x3011
#define NANTRONICS_N25S20 0x3012
#define NANTRONICS_N25S40 0x3013
#define NANTRONICS_N25S80 0x3014
#define NANTRONICS_N25S16 0x3015
/*
* Programmable Micro Corp is listed in JEP106W in bank 2, so it should
* have a 0x7F continuation code prefix.
* Apparently PMC was renamed to "Chingis Technology Corporation" http://www.chingistek.com which is now a
* subsidiary of ISSI. They continue to use the PMC manufacturer ID (instead of ISSI's) nevertheless, even for
* new chips with IS* model numbers.
*/
#define PMC_ID 0x7F9D /* PMC */
#define PMC_ID_NOPREFIX 0x9D /* PMC, missing 0x7F prefix */
#define PMC_PM25LD256C 0x2F
#define PMC_PM25LD512 0x20 /* Same as Pm25LD512C, but the latter has more locking options. */
#define PMC_PM25LD010 0x21 /* Same as Pm25LD010C, but the latter has more locking options. */
#define PMC_PM25LD020 0x22 /* Same as Pm25LD020C, but the latter has more locking options. */
#define PMC_PM25LQ020 0x42
#define PMC_PM25LQ040 0x43
#define PMC_PM25LQ080 0x44
#define PMC_PM25LQ016 0x45
#define PMC_PM25LQ032C 0x46
#define PMC_PM25LV512 0x7B /* Same as Pm25LV512A */
#define PMC_PM25LV010 0x7C /* Same as Pm25LV010A, but the former does not support RDID but RES3 only. */
#define PMC_PM25LV020 0x7D
#define PMC_PM25LV040 0x7E /* Same as PM25LD040(C), but the latter supports more features. */
#define PMC_PM25LV080B 0x13
#define PMC_PM25LV016B 0x14
#define PMC_PM29F002T 0x1D
#define PMC_PM29F002B 0x2D
#define PMC_PM39LV512 0x1B /* Same as IS39LV512 */
#define PMC_PM39F010 0x1C /* Same as Pm39LV010, IS39LV010 */
#define PMC_PM39LV020 0x3D
#define PMC_PM39LV040 0x3E /* Same as IS39LV040 */
#define PMC_PM39F020 0x4D
#define PMC_PM39F040 0x4E
#define PMC_PM49FL002 0x6D
#define PMC_PM49FL004 0x6E
/*
* The Sanyo chip found so far uses SPI, first byte is manufacturer code,
* second byte is the device code,
* third byte is a dummy byte.
*/
#define SANYO_ID 0x62 /* Sanyo */
#define SANYO_LE25FW203A 0x1600
#define SANYO_LE25FW403A 0x1100
#define SANYO_LE25FW106 0x15
#define SANYO_LE25FW406 0x07 /* RES2 */
#define SANYO_LE25FW418A 0x10 /* RES2 and some weird 1 byte RDID variant */
#define SANYO_LE25FW406A 0x1A /* RES2, no datasheet */
#define SANYO_LE25FU106B 0x1D
#define SANYO_LE25FU206 0x44
#define SANYO_LE25FU206A 0x0612
#define SANYO_LE25FU406B 0x1E /* LE25FW418A without HD_READ mode option variant */
#define SANYO_LE25FU406C 0x0613 /* Also known as LE25U40CMC apparently */
#define SANYO_LE25FW806 0x26 /* RES2 and some weird 1 byte RDID variant */
#define SANYO_LE25FW808 0x20 /* RES2 and some weird 1 byte RDID variant */
#define SHARP_ID 0xB0 /* Sharp */
#define SHARP_LH28F008BJ__PT 0xEC
#define SHARP_LH28F008BJ__PB 0xED
#define SHARP_LH28F800BV__BTL 0x4B
#define SHARP_LH28F800BV__BV 0x4D
#define SHARP_LH28F800BV__TV 0x4C
#define SHARP_LHF00L02 0xC9 /* Same as LHF00L06/LHF00L07 */
#define SHARP_LHF00L04 0xCF /* Same as LHF00L03/LHF00L05 */
/* Spansion was previously a joint venture of AMD and Fujitsu. */
#define SPANSION_ID 0x01 /* Spansion, same ID as AMD */
/* S25 chips are SPI. The first device ID byte is memory type and
* the second device ID byte is memory capacity. */
#define SPANSION_S25FL004A 0x0212
#define SPANSION_S25FL008A 0x0213
#define SPANSION_S25FL016A 0x0214
#define SPANSION_S25FL032A 0x0215 /* Same as S25FL032P, but the latter supports EDI and CFI */
#define SPANSION_S25FL064A 0x0216 /* Same as S25FL064P, but the latter supports EDI and CFI */
#define SPANSION_S25FL128 0x2018 /* Same ID for various S25FL127S, S25FL128P, S25FL128S and S25FL129P (including dual-die S70FL256P) variants (EDI supported) */
#define SPANSION_S25FL256 0x0219
#define SPANSION_S25FL512 0x0220
#define SPANSION_S25FL204 0x4013
#define SPANSION_S25FL208 0x4014
#define SPANSION_S25FL216 0x4015 /* Same as S25FL216K, but the latter supports OTP, 3 status regs, quad I/O, SFDP etc. */
#define SPANSION_S25FL116K 0x4015
#define SPANSION_S25FL132K 0x4016
#define SPANSION_S25FL164K 0x4017
#define SPANSION_S25FS128S_L 0x20180081 /* Large sectors. */
#define SPANSION_S25FS128S_S 0x20180181 /* Small sectors. */
#define SPANSION_S25FS256S_L 0x02190081 /* Large sectors. */
#define SPANSION_S25FS256S_S 0x02190181 /* Small sectors. */
#define SPANSION_S25FL128S_UL 0x20180080 /* Uniform Large (128kB) sectors */
#define SPANSION_S25FL128S_US 0x20180180 /* Uniform Small (64kB) sectors */
#define SPANSION_S25FL256S_UL 0x02190080 /* Uniform Large (128kB) sectors */
#define SPANSION_S25FL256S_US 0x02190180 /* Uniform Small (64kB) sectors */
/* Spansion 29GL families got a suffix indicating the process technology but share the same 3-Byte IDs. They can
* however be differentiated by CFI byte 45h. Some versions exist which have special top or bottom boot sectors
* and various WP configurations (not heeded in the table below).
*
* Suf. Process Sector Sz Rd Page Wr Page Data Width OTP Sz Min Size Max Size
* A 200 nm 64 kB 8 B 32 B x8/x16 256 B 16Mb/ 2MB 64Mb/ 8MB
* M 230 nm 64 kB 8 B 32 B x8/x16 256 B 32Mb/ 4MB 256Mb/ 32MB
* N* 110 nm 64 kB 16 B 32 B x8/x16 256 B 32Mb/ 4MB 64Mb/ 8MB
* N* 110 nm 128 kB 16 B 32 B x8/x16 256 B 128Mb/16MB 256Mb/ 64MB
* P 90 nm 128 kB 16 B 64 B x8/x16 256 B 128Mb/16MB 2Gb/256MB
* S 65 nm 128 kB 32 B 512 B x8 only 512 B 128Mb/16MB 2Gb/256MB
*
* For the N series there are two subgroups: the 4 and 8MB devices (S29GL032N, S29GL064N) have 64 kB erase
* sectors while the bigger chips got 128 kB sectors.
* Each series includes multiple models varying in speedgrade, boot block configurations etc.
*/
#define SPANSION_S29GL016_1 0xC4 /* Top Boot Sector, WP protects Top 2 sectors */
#define SPANSION_S29GL016_2 0x49 /* Bottom Boot Sector, WP protects Bottom 2 sectors */
/* Same IDs for S29GL032A, S29GL032M, S29GL032N (variations) */
#define SPANSION_S29GL032_1289 0x7E1D00 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define SPANSION_S29GL032_3 0x7E1A01 /* Top Boot Sector, WP protects Top 2 sectors */
#define SPANSION_S29GL032_4 0x7E1A00 /* Bottom Boot Sector, WP protects Bottom 2 sectors */
/* Same IDs for S29GL064A, S29GL064M, S29GL064N, S29GL064S (variations) */
#define SPANSION_S29GL064_1289 0x7E0C01 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define SPANSION_S29GL064_3 0x7E1001 /* Top Boot Sector, WP protects Top 2 sectors */
#define SPANSION_S29GL064_4 0x7E1000 /* Bottom Boot Sector, WP protects Bottom 2 sectors */
#define SPANSION_S29GL064_567 0x7E1301 /* x16 only, Uniform Sectors */
#define SPANSION_S29GL128 0x7E2101 /* Same ID for S29GL128M, S29GL128N, S29GL128P, S29GL128S */
#define SPANSION_S29GL256 0x7E2201 /* Same ID for S29GL256M, S29GL256N, S29GL256P, S29GL256S */
#define SPANSION_S29GL512 0x7E2301 /* Same ID for S29GL512P, S29GL512S */
#define SPANSION_S29GL01G 0x7E2801 /* Same ID for S29GL01GP, S29GL01GS */
#define SPANSION_S70GL02G 0x7E4801 /* Same ID for S70GL02GP, S70GL02GS; based on two S29GL01G dies respectively */
/*
* SST25 chips are SPI, first byte of device ID is memory type, second
* byte of device ID is related to log(bitsize) at least for some chips.
*/
#define SST_ID 0xBF /* SST */
#define SST_SST25LF020_REMS 0x43 /* REMS or RES opcode */
#define SST_SST25WF512 0x2501
#define SST_SST25WF010 0x2502
#define SST_SST25WF020 0x2503
#define SST_SST25WF040 0x2504
#define SST_SST25WF080 0x2505
/* There exist some successors to members of the SST25WF family with alphabetic suffixes. Their datasheets show
* a 4 byte long response w/o a vendor ID. The first byte is 0x62 that is actually Sanyo's and might be due to
* a collaboration in the mid 2000ies between Sanyo and SST. */
#define SST_SST25WF020A 0x1612
#define SST_SST25WF040B 0x1613
#define SST_SST25WF080B 0x1614
#define SST_SST25VF512_REMS 0x48 /* REMS or RES opcode, same as SST25VF512A */
#define SST_SST25VF010_REMS 0x49 /* REMS or RES opcode, same as SST25VF010A */
#define SST_SST25VF020_REMS 0x43 /* REMS or RES opcode, same as SST25LF020A */
#define SST_SST25VF020B 0x258C
#define SST_SST25VF040_REMS 0x44 /* REMS or RES opcode, same as SST25LF040A */
#define SST_SST25VF040B 0x258D
#define SST_SST25VF040B_REMS 0x8D /* REMS or RES opcode */
#define SST_SST25VF080_REMS 0x80 /* REMS or RES opcode, same as SST25LF080A */
#define SST_SST25VF080B 0x258E
#define SST_SST25VF080B_REMS 0x8E /* REMS or RES opcode */
#define SST_SST25VF016B 0x2541
#define SST_SST25VF032B 0x254A
#define SST_SST25VF032B_REMS 0x4A /* REMS or RES opcode */
#define SST_SST25VF064C 0x254B
#define SST_SST26VF016 0x2601
#define SST_SST26VF032 0x2602
#define SST_SST26VF016B 0x2641
#define SST_SST26VF032B 0x2642
#define SST_SST26VF064B 0x2643
#define SST_SST27SF512 0xA4
#define SST_SST27SF010 0xA5
#define SST_SST27SF020 0xA6
#define SST_SST27VF010 0xA9
#define SST_SST27VF020 0xAA
#define SST_SST28SF040 0x04
#define SST_SST29LE512 0x3D /* Same as SST29VE512 */
#define SST_SST29EE512 0x5D
#define SST_SST29EE010 0x07
#define SST_SST29LE010 0x08 /* Same as SST29VE010 */
#define SST_SST29EE020A 0x10 /* Same as SST29EE020 */
#define SST_SST29LE020 0x12 /* Same as SST29VE020 */
#define SST_SST29SF020 0x24
#define SST_SST29VF020 0x25
#define SST_SST29SF040 0x13
#define SST_SST29VF040 0x14
#define SST_SST39SF512 0xB4
#define SST_SST39SF010 0xB5
#define SST_SST39SF020 0xB6 /* Same as 39SF020A */
#define SST_SST39SF040 0xB7
#define SST_SST39VF512 0xD4
#define SST_SST39VF010 0xD5
#define SST_SST39VF020 0xD6 /* Same as 39LF020 */
#define SST_SST39VF040 0xD7 /* Same as 39LF040 */
#define SST_SST39VF080 0xD8 /* Same as 39LF080/39VF080/39VF088 */
#define SST_SST45VF512 0x41 /* REMS, read opcode 0xFF */
#define SST_SST45LF010 0x42 /* REMS, read opcode 0xFF, 'funny' other opcodes */
#define SST_SST45VF010 0x45 /* REMS, read opcode 0xFF */
#define SST_SST45VF020 0x43 /* REMS, read opcode 0xFF */
#define SST_SST49LF040B 0x50
#define SST_SST49LF040 0x51
#define SST_SST49LF020 0x61
#define SST_SST49LF020A 0x52
#define SST_SST49LF030A 0x1C
#define SST_SST49LF080A 0x5B
#define SST_SST49LF002A 0x57
#define SST_SST49LF003A 0x1B
#define SST_SST49LF004A 0x60 /* Same as 49LF004B */
#define SST_SST49LF008A 0x5A
#define SST_SST49LF004C 0x54
#define SST_SST49LF008C 0x59
#define SST_SST49LF016C 0x5C
#define SST_SST49LF160C 0x4C
/*
* ST25P chips are SPI, first byte of device ID is memory type, second
* byte of device ID is related to log(bitsize) at least for some chips.
*/
#define ST_ID 0x20 /* ST / SGS/Thomson / Numonyx / XMC(later acquired by Micron) */
#define ST_M25P05A 0x2010
#define ST_M25P05_RES 0x05
#define ST_M25P10A 0x2011
#define ST_M25P10_RES 0x10
#define ST_M25P20 0x2012
#define ST_M25P20_RES 0x11
#define ST_M25P40 0x2013
#define ST_M25P40_RES 0x12
#define ST_M25P80 0x2014
#define ST_M25P16 0x2015
#define ST_M25P32 0x2016
#define ST_M25P64 0x2017
#define ST_M25P128 0x2018
#define ST_M45PE10 0x4011
#define ST_M45PE20 0x4012
#define ST_M45PE40 0x4013
#define ST_M45PE80 0x4014
#define ST_M45PE16 0x4015
#define XMC_XM25QH64C 0x4017
#define XMC_XM25QU64C 0x4117
#define XMC_XM25QH128C 0x4018
#define XMC_XM25QU128C 0x4118
#define XMC_XM25QH256C 0x4019
#define XMC_XM25QU256C 0x4119
#define ST_M25PX80 0x7114
#define ST_M25PX16 0x7115
#define ST_M25PX32 0x7116
#define ST_M25PX64 0x7117
#define ST_M25PE10 0x8011
#define ST_M25PE20 0x8012
#define ST_M25PE40 0x8013
#define ST_M25PE80 0x8014
#define ST_M25PE16 0x8015
#define ST_M50FLW040A 0x08
#define ST_M50FLW040B 0x28
#define ST_M50FLW080A 0x80
#define ST_M50FLW080B 0x81
#define ST_M50FW002 0x29
#define ST_M50FW040 0x2C
#define ST_M50FW080 0x2D
#define ST_M50FW016 0x2E
#define ST_M50LPW080 0x2F
#define ST_M50LPW116 0x30
#define ST_M29F002B 0x34 /* Same as M29F002BB */
#define ST_M29F002T 0xB0 /* Same as M29F002BT/M29F002NT/M29F002BNT */
#define ST_M29F040B 0xE2 /* Same as M29F040 */
#define ST_M29F080 0xF1
#define ST_M29F200BT 0xD3
#define ST_M29F200BB 0xD4
#define ST_M29F400BT 0xD5 /* Same as M29F400T */
#define ST_M29F400BB 0xD6 /* Same as M29F400B */
#define ST_M29F800DB 0x58
#define ST_M29F800DT 0xEC
#define ST_M29W010B 0x23
#define ST_M29W040B 0xE3
#define ST_M29W512B 0x27
#define ST_M28W160ECB 0x88CF
#define ST_M28W160ECT 0x88CE
#define ST_M28W320FCB 0x88BB
#define ST_M28W320FCT 0x88BA
#define ST_M28W640HCB 0x8849
#define ST_M28W640HCT 0x8848
#define ST_M29DW127G 0x7E2004
#define ST_M29W128GH 0x7E2101
#define ST_M29W128GL 0x7E2100
#define ST_M29W160EB 0x2249
#define ST_M29W160ET 0x22C4
#define ST_M29W256GH 0x7E21xx
#define ST_M29W256GL 0x7E21xx
#define ST_M29W320DB 0x88CB
#define ST_M29W320DT 0x88CA
#define ST_M29W400FB 0x00EF
#define ST_M29W400FT 0x00EE
#define ST_M29W512GH 0x7E2301
#define ST_M29W640FB 0x22FD
#define ST_M29W640FT 0x22ED
#define ST_M29W640GB 0x7E1000
#define ST_M29W640GH 0x7E0C01
#define ST_M29W640GL 0x7E0C00
#define ST_M29W640GT 0x7E1001
#define ST_M29W800FB 0x225B
#define ST_M29W800FT 0x22D7
#define ST_M58BW16FB 0x8839
#define ST_M58BW16FT 0x883A
#define ST_M58BW32FB 0x8837
#define ST_M58BW32FT 0x8838
#define ST_M58WR016KB 0x8813
#define ST_M58WR016KT 0x8812
#define ST_M58WR032KB 0x8815
#define ST_M58WR032KT 0x8814
#define ST_M58WR064KB 0x8811
#define ST_M58WR064KT 0x8810
#define ST_M95M02 0x0012 /* ST M95XXX 2Mbit (256KiB) */
#define ST_MT28GU01G___1 0x88B0
#define ST_MT28GU01G___2 0x88B1
#define ST_MT28GU256___1 0x8901
#define ST_MT28GU256___2 0x8904
#define ST_MT28GU512___1 0x887E
#define ST_MT28GU512___2 0x8881
#define ST_N25Q016__1E 0xBB15 /* N25Q016, 1.8V, (uniform sectors expected) */
#define ST_N25Q032__3E 0xBA16 /* N25Q032, 3.0V, (uniform sectors expected) */
#define ST_N25Q032__1E 0xBB16 /* N25Q032, 1.8V, (uniform sectors expected) */
#define ST_N25Q064__3E 0xBA17 /* N25Q064, 3.0V, (uniform sectors expected) */
#define ST_N25Q064__1E 0xBB17 /* N25Q064, 1.8V, (uniform sectors expected) */
#define ST_N25Q128__3E 0xBA18 /* N25Q128/MT25QL128, 3.0V, (uniform sectors expected) */
#define ST_N25Q128__1E 0xBB18 /* N25Q128/MT25QU128, 1.8V, (uniform sectors expected) */
#define ST_N25Q256__3E 0xBA19 /* N25Q256/MT25QL256, 3.0V, (uniform sectors expected) */
#define ST_N25Q256__1E 0xBB19 /* N25Q256/MT25QU256, 1.8V, (uniform sectors expected) */
#define ST_N25Q512__3G 0xBA20 /* N25Q512/MT25QL512, 3.0V, (uniform sectors expected) */
#define ST_N25Q512__1G 0xBB20 /* N25Q512/MT25QU512, 1.8V, (uniform sectors expected) */
#define ST_N25Q00A__3G 0xBA21 /* N25Q00A/MT25QL01G, 3.0V, (uniform sectors expected) */
#define ST_N25Q00A__1G 0xBB21 /* N25Q00A/MT25QU01G, 1.8V, (uniform sectors expected) */
#define ST_MT25QL02G 0xBA22 /* MT25QL02G, 3.0V, (uniform sectors expected) */
#define ST_MT25QU02G 0xBB22 /* MT25QU02G, 1.8V, (uniform sectors expected) */
#define ST_NP5Q032 0xDA16 /* Phase-change memory (PCM), 3V */
#define ST_NP5Q064 0xDA17 /* Phase-change memory (PCM), 3V */
#define ST_NP5Q128 0xDA18 /* Phase-change memory (PCM), 3V */
#define SYNCMOS_MVC_ID 0x40 /* SyncMOS (SM) and Mosel Vitelic Corporation (MVC) */
#define MVC_V29C51000T 0x00
#define MVC_V29C51400T 0x13
#define MVC_V29LC51000 0x20
#define MVC_V29LC51001 0x60
#define MVC_V29LC51002 0x82
#define MVC_V29C51000B 0xA0
#define MVC_V29C51400B 0xB3
#define SM_MVC_29C51001T 0x01 /* Identical chips: {F,S,V}29C51001T */
#define SM_MVC_29C51002T 0x02 /* Identical chips: {F,S,V}29C51002T */
#define SM_MVC_29C51004T 0x03 /* Identical chips: {F,S,V}29C51004T */
#define SM_MVC_29C31004T 0x63 /* Identical chips: {S,V}29C31004T */
#define SM_MVC_29C31004B 0x73 /* Identical chips: {S,V}29C31004B */
#define SM_MVC_29C51001B 0xA1 /* Identical chips: {F,S,V}29C51001B */
#define SM_MVC_29C51002B 0xA2 /* Identical chips: {F,S,V}29C51002B */
#define SM_MVC_29C51004B 0xA3 /* Identical chips: {F,S,V}29C51004B */
#define TENX_ID 0x7F7F5E /* Tenx Technologies */
#define TENX_ID_NOPREFIX 0x5E
#define TENX_ICE25P05 0x01 /* Maybe? */
#define TI_ID 0x97 /* Texas Instruments */
#define TI_OLD_ID 0x01 /* TI chips from last century */
#define TI_TMS29F002RT 0xB0
#define TI_TMS29F002RB 0x34
/*
* W25X chips are SPI, first byte of device ID is memory type, second
* byte of device ID is related to log(bitsize).
*/
#define WINBOND_NEX_ID 0xEF /* Winbond (ex Nexcom) serial flashes */
#define WINBOND_NEX_W25P80 0x2014
#define WINBOND_NEX_W25P16 0x2015
#define WINBOND_NEX_W25P32 0x2016
#define WINBOND_NEX_W25X05 0x3010 /* W25X05CL */
#define WINBOND_NEX_W25X10 0x3011
#define WINBOND_NEX_W25X20 0x3012
#define WINBOND_NEX_W25X40 0x3013
#define WINBOND_NEX_W25X80 0x3014
#define WINBOND_NEX_W25X16 0x3015
#define WINBOND_NEX_W25X32 0x3016
#define WINBOND_NEX_W25X64 0x3017
#define WINBOND_NEX_W25Q40_V 0x4013 /* W25Q40BV; W25Q40BL (2.3-3.6V) */
#define WINBOND_NEX_W25Q80_V 0x4014 /* W25Q80BV */
#define WINBOND_NEX_W25Q16_V 0x4015 /* W25Q16CV; W25Q16DV */
#define WINBOND_NEX_W25Q32_V 0x4016 /* W25Q32BV; W25Q32FV in SPI mode (default) */
#define WINBOND_NEX_W25Q64_V 0x4017 /* W25Q64BV, W25Q64CV; W25Q64FV in SPI mode (default) */
#define WINBOND_NEX_W25Q128_V 0x4018 /* W25Q128BV; W25Q128FV in SPI mode (default) */
#define WINBOND_NEX_W25Q256_V 0x4019 /* W25Q256FV or W25Q256JV_Q (QE=1) */
#define WINBOND_NEX_W25Q512JV 0x4020 /* W25Q512JV */
#define WINBOND_NEX_W25Q20_W 0x5012 /* W25Q20BW */
#define WINBOND_NEX_W25Q40BW 0x5013 /* W25Q40BW */
#define WINBOND_NEX_W25Q80BW 0x5014 /* W25Q80BW */
#define WINBOND_NEX_W25Q40EW 0x6013 /* W25Q40EW */
#define WINBOND_NEX_W25Q80EW 0x6014 /* W25Q80EW */
#define WINBOND_NEX_W25Q16_W 0x6015 /* W25Q16DW */
#define WINBOND_NEX_W25Q32_W 0x6016 /* W25Q32DW; W25Q32FV in QPI mode */
#define WINBOND_NEX_W25Q64_W 0x6017 /* W25Q64DW; W25Q64FV in QPI mode */
#define WINBOND_NEX_W25Q128_W 0x6018 /* W25Q128FW; W25Q128FV in QPI mode */
#define WINBOND_NEX_W25Q256_W 0x6019 /* W25Q256JW */
#define WINBOND_NEX_W25Q128_V_M 0x7018 /* W25Q128JVSM */
#define WINBOND_NEX_W25Q256JV_M 0x7019 /* W25Q256JV_M (QE=0) */
#define WINBOND_NEX_W25Q32JW_M 0x8016 /* W25Q32JW...M */
#define WINBOND_NEX_W25Q64JW_M 0x8017 /* W25Q64JW...M */
#define WINBOND_NEX_W25Q128_DTR 0x8018 /* W25Q128JW_DTR */
#define WINBOND_NEX_W25Q256_DTR 0x8019 /* W25Q256JW_DTR aka W25Q256256JW-IM */
#define WINBOND_ID 0xDA /* Winbond */
#define WINBOND_W19B160BB 0x49
#define WINBOND_W19B160BT 0xC4
#define WINBOND_W19B320SB 0x2A /* Same as W19L320SB */
#define WINBOND_W19B320ST 0xBA /* Same as W19L320ST */
#define WINBOND_W19B322MB 0x92
#define WINBOND_W19B322MT 0x10
#define WINBOND_W19B323MB 0x94
#define WINBOND_W19B323MT 0x13
#define WINBOND_W19B324MB 0x97
#define WINBOND_W19B324MT 0x16
#define WINBOND_W29C010 0xC1 /* Same as W29C010M, W29C011A, W29EE011, W29EE012, and ASD AE29F1008 */
#define WINBOND_W29C020 0x45 /* Same as W29C020C, W29C022 and ASD AE29F2008 */
#define WINBOND_W29C040 0x46 /* Same as W29C040P */
#define WINBOND_W29C512A 0xC8 /* Same as W29EE512 */
#define WINBOND_W29GL032CHL 0x7E1D01 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define WINBOND_W29GL032CB 0x7E1A00 /* Top Boot Sector, WP protects Top 2 sectors */
#define WINBOND_W29GL032CT 0x7E1A01 /* Bottom Boot Sector, WP protects Bottom 2 sectors */
#define WINBOND_W29GL064CHL 0x7E0C01 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define WINBOND_W29GL064CB 0x7E1000 /* Top Boot Sector, WP protects Top 2 sectors */
#define WINBOND_W29GL064CT 0x7E1001 /* Bottom Boot Sector, WP protects Bottom 2 sectors */
#define WINBOND_W29GL128CHL 0x7E2101 /* Uniform Sectors, WP protects Top OR Bottom sector */
#define WINBOND_W29GL256HL 0x7E2201 /* Same ID for W29GL0256P and W29GL0256S; uniform Sectors, WP protects Top OR Bottom sector */
#define WINBOND_W39F010 0xA1
#define WINBOND_W39L010 0x31
#define WINBOND_W39L020 0xB5
#define WINBOND_W39L040 0xB6
#define WINBOND_W39L040A 0xD6
#define WINBOND_W39L512 0x38
#define WINBOND_W39V040A 0x3D
#define WINBOND_W39V040FA 0x34
#define WINBOND_W39V040B 0x54 /* Same as W39V040FB */
#define WINBOND_W39V040C 0x50 /* Same as W39V040FC */
#define WINBOND_W39V080A 0xD0
#define WINBOND_W39V080FA 0xD3
#define WINBOND_W39V080FA_DM 0x93 /* W39V080FA dual mode */
#define WINBOND_W49F002 0x25 /* Same as W49F002B */
#define WINBOND_W49F002U 0x0B /* Same as W49F002N and ASD AE49F2008 */
#define WINBOND_W49F020 0x8C
#define WINBOND_W49V002A 0xB0
#define WINBOND_W49V002FA 0x32
#define ZETTADEVICE_ID 0xBA /* Zetta Device */
#define ZETTADEVICE_ZD25D20 0x2012
#define ZETTADEVICE_ZD25D40 0x2013
#endif /* !FLASHCHIPS_H */
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