From f8f0618ca4baf7bee03bebefe083c3911a77e52b Mon Sep 17 00:00:00 2001 From: Ewout van Bekkum Date: Mon, 21 Dec 2015 09:17:26 -0800 Subject: common: Adds JEDEC SFDP v1.0 & v1.5 encoding and decoding Adds a header with JEDEC SFDP v1.0 (JESD216) & v1.5 (JESD216A) encoding and decoding support to enable a part agnostic Serial NOR Flash driver. BRANCH=none BUG=none TEST=Tested through the spi_nor driver Change-Id: I00b3f0434bfb8582aebad7cd0682445980b57773 Signed-off-by: Ewout van Bekkum Reviewed-on: https://chromium-review.googlesource.com/321921 Reviewed-by: Bill Richardson --- include/sfdp.h | 807 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 807 insertions(+) create mode 100644 include/sfdp.h (limited to 'include/sfdp.h') diff --git a/include/sfdp.h b/include/sfdp.h new file mode 100644 index 0000000000..d9b3c13903 --- /dev/null +++ b/include/sfdp.h @@ -0,0 +1,807 @@ +/* Copyright 2015 The Chromium OS Authors. All rights reserved. + * Use of this source code is governed by a BSD-style license that can be + * found in the LICENSE file. + */ + +/* JEDEC Serial Flash Discoverable Parameters (SFDP) for Serial NOR Flash, + * covering v1.0 (JESD216) & v1.5 (JESD216A). */ +#ifndef __CROS_EC_SFDP_H +#define __CROS_EC_SFDP_H + +/** + * Helper macros to declare and access SFDP defined bitfields at a JEDEC SFDP + * defined double word (32b) granularity. + */ +#define SFDP_DEFINE_BITMASK_32(name, hi, lo) \ + static const uint32_t name = (((1ULL << ((hi) - (lo) + 1)) - 1UL) \ + << (lo)); +#define SFDP_DEFINE_SHIFT_32(name, hi, lo) \ + static const size_t name = (lo); +#define SFDP_DEFINE_BITFIELD(name, hi, lo) \ + SFDP_DEFINE_BITMASK_32(name ## _MASK, hi, lo) \ + SFDP_DEFINE_SHIFT_32(name ## _SHIFT, hi, lo) +#define SFDP_GET_BITFIELD(name, dw) \ + (((dw) & name ## _MASK) >> name ## _SHIFT) + +/** + * Helper macros to construct SFDP defined double words (32b). Note reserved or + * unused fields must always be set to all 1's. + */ +#define SFDP_BITFIELD(name, value) (((value) & name ## _MASK) << name ## _SHIFT) +#define SFDP_UNUSED(hi, lo) (((1ULL << ((hi) - (lo) + 1)) - 1UL) << (lo)) + +/******************************************************************************/ +/* SFDP Header, always located at SFDP offset 0x0. Note that the SFDP space is + * always read in 3 Byte addressing mode with a single dummy cycle, where the + * expected SFDP address space layout looks like the following: + * + * ------------------0x00 + * | SFDP Header | (specifying X number of Parameter Headers) + * ------------------0x08 + * | Parameter Header 1 | (specifying Y Parameter Table Pointer & Length L) + * ------------------0x10 + * - - - + * --------------X * 0x08 + * | Parameter Header X | (specifying Z Parameter Table Pointer & Length K) + * --------(X + 1) * 0x08 + * - - - + * ---------------------Y + * | Parameter Table 1 | + * -------------------Y+L + * - - - + * ---------------------Z Key: ------start_sfdp_offset + * | Parameter Table X | | Region Name | + * -------------------Z+K ------limit_sfdp_offset + */ + +/* + * SFDP Header 1st DWORD + * --------------------- + * <31:24> : Fourth signature byte == 'P' + * <23:16> : Third signature byte == 'D' + * <15:8> : Second signature byte == 'F' + * <7:0> : First signature byte == 'S' + */ +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW1_P, 31, 24); +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW1_D, 23, 16); +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW1_F, 15, 8); +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW1_S, 7, 0); +#define SFDP_HEADER_DWORD_1(s, f, d, p) \ + (SFDP_BITFIELD(SFDP_HEADER_DW1_P, p) | \ + SFDP_BITFIELD(SFDP_HEADER_DW1_D, d) | \ + SFDP_BITFIELD(SFDP_HEADER_DW1_F, f) | \ + SFDP_BITFIELD(SFDP_HEADER_DW1_S, s)) + +#define SFDP_HEADER_DW1_SFDP_SIGNATURE_VALID(x) (x == 0x50444653) + +/* + * SFDP Header 2nd DWORD + * --------------------- + * <31:24> : Unused + * <23:16> : Number of Parameter Headers (0-based, 0 indicates 1) + * <15:8> : SFDP Major Revision Number + * <7:0> : SFDP Minor Revision Number + */ +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW2_NPH, 23, 16); +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW2_SFDP_MAJOR, 15, 8); +SFDP_DEFINE_BITFIELD(SFDP_HEADER_DW2_SFDP_MINOR, 7, 0); +#define SFDP_HEADER_DWORD_2(nph, major, minor) \ + (SFDP_UNUSED(31, 24) | \ + SFDP_BITFIELD(SFDP_HEADER_DW2_NPH, nph) | \ + SFDP_BITFIELD(SFDP_HEADER_DW2_SFDP_MAJOR, major) | \ + SFDP_BITFIELD(SFDP_HEADER_DW2_SFDP_MINOR, minor)) + +/******************************************************************************/ +/* SFDP v1.0 Parameter Headers, starts at SFDP offset 0x8 and there are as many + * as specified in the v1.0 SFDP header. */ + +/* In SFDP v1.0, the only reserved ID was the Basic Flash Parameter Table ID of + * 0x00. Otherwise this field must be set to the vendor's manufacturer ID. Note, + * the spec does not call out how to report the manufacturer bank number. */ + #define BASIC_FLASH_PARAMETER_TABLE_1_0_ID 0x00 + +/* + * SFDP v1.0: Parameter Header 1st DWORD + * -------------------------- + * <31:24> : Parameter Table Length (1-based, 1 indicates 1) + * <23:16> : Parameter Table Major Revision Number + * <15:8> : Parameter Table Minor Revision Number + * <7:0> : ID number + */ +SFDP_DEFINE_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_PTL, 31, 24); +SFDP_DEFINE_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_TABLE_MAJOR, 23, 16); +SFDP_DEFINE_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_TABLE_MINOR, 15, 8); +SFDP_DEFINE_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_ID, 7, 0); +#define SFDP_1_0_PARAMETER_HEADER_DWORD_1(ptl, major, minor, id) \ + (SFDP_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_PTL, ptl) | \ + SFDP_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_TABLE_MAJOR, major) | \ + SFDP_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_TABLE_MINOR, minor) | \ + SFDP_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW1_ID, id)) + +/* + * SFDP v1.0: Parameter Header 2nd DWORD + * -------------------------- + * <31:24> : Unused (0xFF) + * <23:0> : Parameter Table Pointer (SFDP offset which must be word aligned) + */ +SFDP_DEFINE_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW2_PTP, 23, 0); +#define SFDP_1_0_PARAMETER_HEADER_DWORD_2(ptp) \ + (SFDP_UNUSED(31, 24) | \ + SFDP_BITFIELD(SFDP_1_0_PARAMETER_HEADER_DW2_PTP, ptp)) + +/******************************************************************************/ +/* SFDP v1.5 Parameter Headers, starts at SFDP offset 0x8 and there are as many + * as specified in the v1.5 SFDP header. */ + +/* Parameter ID MSB | Parameter ID LSB | Type | Owner + * ========================================================================== + * 0x00 | All | Reserved | JEDEC JC42.4 + * -------------------------------------------------------------------------- + * 0x01 - 0x7F | odd parity | JEDEC JEP106 | Vendor + * | | Manufacturer ID | + * | | (mfn=LSB, bank=MSB) | + * -------------------------------------------------------------------------- + * 0x01 - 0x7F | even parity | Function Specific | Vendor + * -------------------------------------------------------------------------- + * 0x80 - 0xFE | even parity | Function Specific | JEDEC JC42.4 + * -------------------------------------------------------------------------- + * 0xFF | 0x00 | Basic Flash Parameter | JEDEC JC42.4 + * | | Table | + * -------------------------------------------------------------------------- */ + +#define BASIC_FLASH_PARAMETER_TABLE_1_5_ID_MSB 0xFF +#define BASIC_FLASH_PARAMETER_TABLE_1_5_ID_LSB 0x00 + +/* + * SFDP v1.5: Parameter Header 1st DWORD + * -------------------------- + * <31:24> : Parameter Table Length (1-based, 1 indicates 1) + * <23:16> : Parameter Table Major Revision Number + * <15:8> : Parameter Table Minor Revision Number + * <7:0> : Parameter ID LSB + */ +SFDP_DEFINE_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_PTL, 31, 24); +SFDP_DEFINE_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_TABLE_MAJOR, 23, 16); +SFDP_DEFINE_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_TABLE_MINOR, 15, 8); +SFDP_DEFINE_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_ID_LSB, 7, 0); +#define SFDP_1_5_PARAMETER_HEADER_DWORD_1(ptl, major, minor, idlsb) \ + (SFDP_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_PTL, ptl) | \ + SFDP_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_TABLE_MAJOR, major) | \ + SFDP_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_TABLE_MINOR, minor) | \ + SFDP_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW1_ID_LSB, idlsb)) + +/* + * SFDP v1.5: Parameter Header 2nd DWORD + * -------------------------- + * <31:24> : Parameter ID MSB + * <23:0> : Parameter Table Pointer (SFDP offset which must be word aligned) + */ +SFDP_DEFINE_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW2_ID_MSB, 31, 24); +SFDP_DEFINE_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW2_PTP, 23, 0); +#define SFDP_1_5_PARAMETER_HEADER_DWORD_2(idmsb, ptp) \ + (SFDP_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW2_ID_MSB, idmsb) | \ + SFDP_BITFIELD(SFDP_1_5_PARAMETER_HEADER_DW2_PTP, ptp)) + +/******************************************************************************/ +/* JEDEC (SPI Protocol) Basic Flash Parameter Table v1.0. The reporting of at + * least one revision of this table is mandatory and must be specified by the + * first parameter header.*/ + +/* Basic Flash Parameter Table v1.0 1st DWORD + * ------------------------------------------ + * <31:23> : Unused + * <22> : Supports 1-1-4 Fast Read (1 if supported) + * <21> : Supports 1-4-4 Fast Read (1 if supported) + * <20> : Supports 1-2-2 Fast Read (1 if supported) + * <19> : Supports Double Transfer Rate (DTR) Clocking (1 if supported) + * <18:17> : Address Bytes: + * - 0x0 if 3 Byte addressing only + * - 0x1 if defaults to 3B addressing, enters 4B on command + * - 0x2 if 4 Byte addressing only + * <16> : Supports 1-1-2 Fast Read (1 if supported) + * <15:8> : 4KiB Erase Opcode (0xFF if unsupported) + * <7:5> : Unused + * <4> : Write Enable Opcode Select for Writing to Volatile Status Register: + * - 0x0 if 0x50 is the opcode to enable a status register write + * - 0x1 if 0x06 is the opcode to enable a status register write + * <3> : Write Enable Instruction Required for writing to Volatile Status + * Register: + * - 0x0 if target flash only has nonvolatile status bits and does + * not require status register to be written every power on + * - 0x1 if target flash requires 0x00 to be written to the status + * register in order to allow writes and erases + * <2> : Write granularity (0 if the buffer is less than 64B, 1 if larger) + * <1:0> : Block/Sector Erase granularity available for the entirety of flash: + * - 0x1 if 4KiB is uniformly available + * - 0x3 if 4KiB is unavailable + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_1_1_4_SUPPORTED, 22, 22); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_1_4_4_SUPPORTED, 21, 21); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_1_2_2_SUPPORTED, 20, 20); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_DTR_SUPPORTED, 19, 19); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_ADDR_BYTES, 18, 17); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_1_1_2_SUPPORTED, 16, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_4KIB_ERASE_OPCODE, 15, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_WREN_OPCODE_SELECT, 4, 4); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_WREN_REQ, 3, 3); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_WRITE_GRANULARITY, 2, 2); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW1_4KIB_AVAILABILITY, 1, 0); +#define BFPT_1_0_DWORD_1(fr114, fr144, fr122, dtr, addr, fr112, \ + rm4kb, wrenop, wrenrq, wrgr, ergr) \ + (SFDP_UNUSED(31, 23) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_1_1_4_SUPPORTED, fr114) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_1_4_4_SUPPORTED, fr144) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_1_2_2_SUPPORTED, fr122) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_DTR_SUPPORTED, dtr) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_ADDR_BYTES, addr) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_1_1_2_SUPPORTED, fr112) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_4KIB_ERASE_OPCODE, rm4kb) | \ + SFDP_UNUSED(7, 5) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_WREN_OPCODE_SELECT, wrenop) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_WREN_REQ, wrenrq) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_WRITE_GRANULARITY, wrgr) | \ + SFDP_BITFIELD(BFPT_1_0_DW1_4KIB_AVAILABILITY, ergr)) + +/* Basic Flash Parameter Table v1.0 2nd DWORD + * ------------------------------------------ + * <31> : Density greater than 2 gibibits + * <30:0> : N, where: + * - if =< 2 gibibits, flash memory density is N+1 bits + * - if > 2 gibibits, flash memory density is 2^N bits + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW2_GT_2_GIBIBITS, 31, 31); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW2_N, 30, 0); +#define BFPT_1_0_DWORD_2(gt_2_gibibits, n) \ + (SFDP_BITFIELD(BFPT_1_0_DW2_GT_2_GIBIBITS, gt_2_gibibits) | \ + SFDP_BITFIELD(BFPT_1_0_DW2_N, n)) + +/* Basic Flash Parameter Table v1.0 3rd DWORD + * ------------------------------------------ + * <31:24> : 1-1-4 Fast Read Opcode + * <23:21> : 1-1-4 Fast Read Number of Mode Bits (0 if unsupported) + * <20:16> : 1-1-4 Fast Read Number of Wait States (Dummy Clocks) + * <15:8> : 1-4-4 Fast Read Opcode + * <7:5> : 1-4-4 Fast Read Number of Mode Bits (0 if unsupported) + * <4:0> : 1-4-4 Fast Read Number of Wait States (Dummy CLocks) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW3_1_1_4_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW3_1_1_4_MODE_BITS, 23, 21); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW3_1_1_4_DUMMY_CLOCKS, 20, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW3_1_4_4_OPCODE, 15, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW3_1_4_4_MODE_BITS, 7, 5); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW3_1_4_4_DUMMY_CLOCKS, 4, 0); +#define BFPT_1_0_DWORD_3(fr114op, fr114mb, fr114dc, \ + fr144op, fr144mb, fr144dc) \ + (SFDP_BITFIELD(BFPT_1_0_DW3_1_1_4_OPCODE, fr114op) | \ + SFDP_BITFIELD(BFPT_1_0_DW3_1_1_4_MODE_BITS, fr114mb) | \ + SFDP_BITFIELD(BFPT_1_0_DW3_1_1_4_DUMMY_CLOCKS, fr114dc) | \ + SFDP_BITFIELD(BFPT_1_0_DW3_1_4_4_OPCODE, fr144op) | \ + SFDP_BITFIELD(BFPT_1_0_DW3_1_4_4_MODE_BITS, fr144mb) | \ + SFDP_BITFIELD(BFPT_1_0_DW3_1_4_4_DUMMY_CLOCKS, fr144dc)) + +/* Basic Flash Parameter Table v1.0 4th DWORD + * ------------------------------------------ + * <31:24> : 1-2-2 Fast Read Opcode + * <23:21> : 1-2-2 Fast Read Number of Mode Bits (0 if unsupported) + * <20:16> : 1-2-2 Fast Read Number of Wait States (Dummy Clocks) + * <15:8> : 1-1-2 Fast Read Opcode + * <7:5> : 1-1-2 Fast Read Number of Mode Bits (0 if unsupported) + * <4:0> : 1-1-2 Fast Read Number of Wait States (Dummy CLocks) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW4_1_2_2_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW4_1_2_2_MODE_BITS, 23, 21); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW4_1_2_2_DUMMY_CLOCKS, 20, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW4_1_1_2_OPCODE, 15, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW4_1_1_2_MODE_BITS, 7, 5); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW4_1_1_2_DUMMY_CLOCKS, 4, 0); +#define BFPT_1_0_DWORD_4(fr122op, fr122mb, fr122dc, \ + fr112op, fr112mb, fr112dc) \ + (SFDP_BITFIELD(BFPT_1_0_DW4_1_2_2_OPCODE, fr122op) | \ + SFDP_BITFIELD(BFPT_1_0_DW4_1_2_2_MODE_BITS, fr122mb) | \ + SFDP_BITFIELD(BFPT_1_0_DW4_1_2_2_DUMMY_CLOCKS, fr122dc) | \ + SFDP_BITFIELD(BFPT_1_0_DW4_1_1_2_OPCODE, fr112op) | \ + SFDP_BITFIELD(BFPT_1_0_DW4_1_1_2_MODE_BITS, fr112mb) | \ + SFDP_BITFIELD(BFPT_1_0_DW4_1_1_2_DUMMY_CLOCKS, fr112dc)) + +/* Basic Flash Parameter Table v1.0 5th DWORD + * ------------------------------------------ + * <31:5> : Reserved (0x7FFFFFF) + * <4> : Supports 4-4-4 Fast Read (1 if supported) + * <3:1> : Reserved (0x7) + * <0> : Supports 2-2-2 Fast Read (1 if supported) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW5_4_4_4_SUPPORTED, 4, 4); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW5_2_2_2_SUPPORTED, 0, 0); +#define BFPT_1_0_DWORD_5(fr444, fr222) \ + (SFDP_UNUSED(31, 5) | \ + SFDP_BITFIELD(BFPT_1_0_DW5_4_4_4_SUPPORTED, fr444) | \ + SFDP_UNUSED(3, 1) | \ + SFDP_BITFIELD(BFPT_1_0_DW5_2_2_2_SUPPORTED, fr222)) + +/* Basic Flash Parameter Table v1.0 6th DWORD + * ------------------------------------------ + * <31:24> : 2-2-2 Fast Read Opcode + * <23:21> : 2-2-2 Fast Read Number of Mode Bits (0 if unsupported) + * <20:16> : 2-2-2 Fast Read Number of Wait States (Dummy Clocks) + * <15:0> : Reserved (0xFFFF) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW6_2_2_2_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW6_2_2_2_MODE_BITS, 23, 21); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW6_2_2_2_DUMMY_CLOCKS, 20, 16); +#define BFPT_1_0_DWORD_6(fr222op, fr222mb, fr222dc) \ + (SFDP_BITFIELD(BFPT_1_0_DW6_2_2_2_OPCODE, fr222op) | \ + SFDP_BITFIELD(BFPT_1_0_DW6_2_2_2_MODE_BITS, fr222mb) | \ + SFDP_BITFIELD(BFPT_1_0_DW6_2_2_2_DUMMY_CLOCKS, fr222dc) | \ + SFDP_UNUSED(15, 0)) + +/* Basic Flash Parameter Table v1.0 7th DWORD + * ------------------------------------------ + * <31:24> : 4-4-4 Fast Read Opcode + * <23:21> : 4-4-4 Fast Read Number of Mode Bits (0 if unsupported) + * <20:16> : 4-4-4 Fast Read Number of Wait States (Dummy Clocks) + * <15:0> : Reserved (0xFFFF) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW7_4_4_4_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW7_4_4_4_MODE_BITS, 23, 21); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW7_4_4_4_DUMMY_CLOCKS, 20, 16); +#define BFPT_1_0_DWORD_7(fr444op, fr444mb, fr444dc) \ + (SFDP_BITFIELD(BFPT_1_0_DW7_4_4_4_OPCODE, fr444op) | \ + SFDP_BITFIELD(BFPT_1_0_DW7_4_4_4_MODE_BITS, fr444mb) | \ + SFDP_BITFIELD(BFPT_1_0_DW7_4_4_4_DUMMY_CLOCKS, fr444dc) | \ + SFDP_UNUSED(15, 0)) + +/* Basic Flash Parameter Table v1.0 8th DWORD + * ------------------------------------------ + * <31:24> : Sector Type 2 Erase Opcode + * <23:16> : Sector Type 2 Erase Size (2^N Bytes, 0 if unavailable) + * <15:8> : Sector Type 1 Erase Opcode + * <7:0> : Sector Type 1 Erase Size (2^N Bytes, 0 if unavailable) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_2_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_2_SIZE, 23, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_1_OPCODE, 15, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_1_SIZE, 7, 0); +#define BFPT_1_0_DWORD_8(rm2op, rm2sz, rm1op, rm1sz) \ + (SFDP_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_2_OPCODE, rm2op) | \ + SFDP_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_2_SIZE, rm2sz) | \ + SFDP_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_1_OPCODE, rm1op) | \ + SFDP_BITFIELD(BFPT_1_0_DW8_ERASE_TYPE_1_SIZE, rm1sz)) + +/* Basic Flash Parameter Table v1.0 9th DWORD + * ------------------------------------------ + * <31:24> : Sector Type 4 Erase Opcode + * <23:16> : Sector Type 4 Erase Size (2^N Bytes, 0 if unavailable) + * <15:8> : Sector Type 3 Erase Opcode + * <7:0> : Sector Type 3 Erase Size (2^N Bytes, 0 if unavailable) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_4_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_4_SIZE, 23, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_3_OPCODE, 15, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_3_SIZE, 7, 0); +#define BFPT_1_0_DWORD_9(rm4op, rm4sz, rm3op, rm3sz) \ + (SFDP_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_4_OPCODE, rm4op) | \ + SFDP_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_4_SIZE, rm4sz) | \ + SFDP_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_3_OPCODE, rm3op) | \ + SFDP_BITFIELD(BFPT_1_0_DW9_ERASE_TYPE_3_SIZE, rm3sz)) + +/******************************************************************************/ +/* JEDEC (SPI Protocol) Basic Flash Parameter Table v1.5. The reporting of at + * least one revision of this table is mandatory and must be specified by the + * first parameter header. Note that DWORDs 1-9 are identical to v1.0. */ + +/* Basic Flash Parameter Table v1.5 10th DWORD + * ------------------------------------------ + * <31:30> : Sector Type 4 Erase, Typical time units, where + * 0x0: 1ms, 0x1: 16ms, 0x2: 128ms, 0x3: 1s + * <29:25> : Sector Type 4 Erase, Typical time count, where + * time = (count + 1) * units + * <24:23> : Sector Type 3 Erase, Typical time units, where + * 0x0: 1ms, 0x1: 16ms, 0x2: 128ms, 0x3: 1s + * <22:18> : Sector Type 3 Erase, Typical time count, where + * time = (count + 1) * units + * <17:16> : Sector Type 2 Erase, Typical time units, where + * 0x0: 1ms, 0x1: 16ms, 0x2: 128ms, 0x3: 1s + * <15:11> : Sector Type 2 Erase, Typical time count, where + * time = (count + 1) * units + * <10:9> : Sector Type 1 Erase, Typical time units, where + * 0x0: 1ms, 0x1: 16ms, 0x2: 128ms, 0x3: 1s + * <8:4> : Sector Type 1 Erase, Typical time count, where + * time = (count + 1) * units + * <3:0> : Multiplier from typical to maximum erase time, where + * maximum_time = 2 * (multiplier + 1) * typical_time + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_4_TIME_UNIT, 31, 30); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_4_TIME_CNT, 29, 25); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_3_TIME_UNIT, 24, 23); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_3_TIME_CNT, 22, 18); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_2_TIME_UNIT, 17, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_2_TIME_CNT, 15, 11); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_1_TIME_UNIT, 10, 9); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_1_TIME_CNT, 8, 4); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW10_ERASE_TIME_MAX_MULT, 3, 0); +#define BFPT_1_5_DWORD_10(rm4unit, rm4count, rm3unit, \ + rm3count, rm2unit, rm2count, \ + rm1unit, rm1count, maxmult) \ + (SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_4_TIME_UNIT, rm4unit) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_4_TIME_CNT, rm4count) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_3_TIME_UNIT, rm3unit) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_3_TIME_CNT, rm3count) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_2_TIME_UNIT, rm2unit) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_2_TIME_CNT, rm2count) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_1_TIME_UNIT, rm1unit) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_1_TIME_CNT, rm1count) | \ + SFDP_BITFIELD(BFPT_1_5_DW10_ERASE_TIME_MAX_MULT, maxmult)) + +/* Basic Flash Parameter Table v1.5 11th DWORD + * ------------------------------------------ + * <31> : Reserved (0x1) + * <30:29> : Chip Erase, Typical time units, where + * 0x0: 16ms, 0x1: 256ms, 0x2: 4s, 0x3: 64s + * <28:24> : Chip Erase, Typical time count, where time = (count + 1) * units + * <23> : Additional Byte Program, Typical time units (0: 1us, 1: 8us) + * <22:19> : Additional Byte Program, Typical time count, where each byte takes + * time = (count + 1) * units * bytes. This should not be + * used if the additional bytes count exceeds 1/2 a page size. + * <18> : First Byte Program, Typical time units (0: 1us, 1: 8us) + * <17:14> : First Byte Program, Typical time count, where each byte takes + * time = (count + 1) * units * bytes + * <13> : Page Program, Typical time units (0: 8us, 1: 64us) + * <12:8> : Page Program, Typical time count, where time = (count + 1) * units + * <7:4> : Page Size (2^N Bytes) + * <3:0> : Multiplier from typical time to max time for programming, where + * maximum_time = 2 * (multiplier + 1) * typical_time + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_CHIP_ERASE_TIME_UNIT, 30, 29); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_CHIP_ERASE_TIME_CNT, 28, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_MORE_BYTE_WR_TIME_UNIT, 23, 23); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_MORE_BYTE_WR_TIME_CNT, 22, 19); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_INIT_BYTE_WR_TIME_UNIT, 18, 18); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_INIT_BYTE_WR_TIME_CNT, 17, 14); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_PAGE_WR_TIME_UNIT, 13, 13); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_PAGE_WR_TIME_CNT, 12, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_PAGE_SIZE, 7, 4); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW11_WR_TIME_MAX_MULT, 3, 0); +#define BFPT_1_5_DWORD_11(crmunit, crmcount, mrbunit, mrbcount, initunit, \ + initcount, pgwrunit, pgwrcount, pagesz, maxmult) \ + (SFDP_UNUSED(31, 31) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_CHIP_ERASE_TIME_UNIT, \ + crmunit) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_CHIP_ERASE_TIME_CNT, \ + crmcount) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_MORE_BYTE_WR_TIME_UNIT, \ + mrbunit) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_MORE_BYTE_WR_TIME_CNT, \ + mrbcount) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_INIT_BYTE_WR_TIME_UNIT, \ + initunit) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_INIT_BYTE_WR_TIME_CNT, \ + initcount) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_PAGE_WR_TIME_UNIT, pgwrunit) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_PAGE_WR_TIME_CNT, pgwrcount) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_PAGE_SIZE, pagesz) | \ + SFDP_BITFIELD(BFPT_1_5_DW11_WR_TIME_MAX_MULT, maxmult)) + +/* Basic Flash Parameter Table v1.5 12th DWORD + * ------------------------------------------ + * <31> : Suspend / Resume unsupported (1 unsupported, 0 supported) + * <30:29> : Suspend in-progress erase max latency units, where + * 0x0: 128ns, 0x1: 1us, 0x2: 8us, 0x3: 64us + * <28:24> : Suspend in-progress erase max latency count, where + * max latency = (count + 1) * units + * <23:20> : Erase resume to suspend minimum interval, (count + 1) * 64us + * <19:18> : Suspend in-progress program max latency units, where + * 0x0: 128ns, 0x1: 1us, 0x2: 8us, 0x3: 64us + * <17:13> : Suspend in-progress program max latency count, where + * max latency = (count + 1) * units + * <12:9> : Program resume to suspend minimum internal, (count + 1) * 64us + * <8> : Reserved (0x1) + * <7:4> : Prohibited Operations During Erase Suspend flags, where + * xxx0b May not initiate a new erase anywhere + * (erase nesting not permitted) + * xxx1b May not initiate a new erase in the erase suspended sector + * size + * xx0xb May not initiate a page program anywhere + * xx1xb May not initiate a page program in the erase suspended + * sector size + * x0xxb Refer to vendor datasheet for read restrictions + * x1xxb May not initiate a read in the erase suspended sector size + * 0xxxb Additional erase or program restrictions apply + * 1xxxb The erase and program restrictions in bits 5:4 are + * sufficient + * <3:0> : Prohibited Operations During Program Suspend flags, where + * xxx0b May not initiate a new erase anywhere + * (erase nesting not permitted) + * xxx1b May not initiate a new erase in the program suspended page + * size + * xx0xb May not initiate a new page program anywhere + * (program nesting not permitted) + * xx1xb May not initiate a new page program in the program suspended + * page size + * x0xxb Refer to vendor datasheet for read restrictions + * x1xxb May not initiate a read in the program suspended page size + * 0xxxb Additional erase or program restrictions apply + * 1xxxb The erase and program restrictions in bits 1:0 are + * sufficient + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_SUSPEND_UNSUPPORTED, 31, 31); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_SUSP_RM_MAX_LAT_UNIT, 30, 29); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_SUSP_RM_MAX_LAT_CNT, 28, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_RM_RES_TO_SUSP_LAT_CNT, 23, 20); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_SUSP_WR_MAX_LAT_UNIT, 19, 18) +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_SUSP_WR_MAX_LAT_CNT, 17, 13); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_WR_RES_TO_SUSP_LAT_CNT, 12, 9); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_PROHIB_OPS_DURING_RM_SUSP, 7, 4); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW12_PROHIB_OPS_DURING_WR_SUSP, 3, 0); +#define BFPT_1_5_DWORD_12(unsup, susprmlatun, susprmlatcnt, rmressusplatcnt, \ + suspwrmaxlatunit, suspwrmaxlatcnt, wrressuspcnt, \ + prohibopsrmsusp, prohibopswrsusp) \ + (SFDP_BITFIELD(BFPT_1_5_DW12_SUSPEND_UNSUPPORTED, unsup) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_SUSP_RM_MAX_LAT_UNIT, \ + susprmlatun) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_SUSP_RM_MAX_LAT_CNT, \ + susprmlatcnt) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_RM_RES_TO_SUSP_LAT_CNT, \ + rmressusplatcnt) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_SUSP_WR_MAX_LAT_UNIT, \ + suspwrmaxlatunit) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_SUSP_WR_MAX_LAT_CNT, \ + suspwrmaxlatcnt) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_WR_RES_TO_SUSP_LAT_CNT, \ + wrressuspcnt) | \ + SFDP_UNUSED(8, 8) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_PROHIB_OPS_DURING_RM_SUSP, \ + prohibopsrmsusp) | \ + SFDP_BITFIELD(BFPT_1_5_DW12_PROHIB_OPS_DURING_WR_SUSP, \ + prohibopswrsusp)) + +/* Basic Flash Parameter Table v1.5 13th DWORD + * ------------------------------------------ + * <31:24> : Suspend Instruction used to suspend a write or erase type operation + * <23:16> : Resume Instruction used to resume a write or erase type operation + * <15:8> : Program Suspend Instruction used to suspend a program operation + * <7:0> : Program Resume Instruction used to resume a program operation + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW13_SUSPEND_OPCODE, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW13_RESUME_OPCODE, 23, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW13_WR_SUSPEND_OPCODE, 15, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW13_WR_RESUME_OPCODE, 7, 0); +#define BFPT_1_5_DWORD_13(suspop, resop, wrsspop, wrresop) \ + (SFDP_BITFIELD(BFPT_1_5_DW13_SUSPEND_OPCODE, suspop) | \ + SFDP_BITFIELD(BFPT_1_5_DW13_RESUME_OPCODE, resop) | \ + SFDP_BITFIELD(BFPT_1_5_DW13_WR_SUSPEND_OPCODE, wrsspop) | \ + SFDP_BITFIELD(BFPT_1_5_DW13_WR_RESUME_OPCODE, wrresop)) + +/* Basic Flash Parameter Table v1.5 14th DWORD + * ------------------------------------------ + * <31> : Deep powerdown unsupported (1 unsupported, 0 supported) + * <30:23> : Enter deep powerdown instruction + * <22:15> : Exit deep powerdown instruction + * <14:13> : Exit deep powerdown to next operation delay units, where + * 0x0: 128ns, 0x1: 1us, 0x2: 8us, 0x3: 64us + * <12:8> : Exit deep powerdown to next operation delay count, where + * delay = = (count + 1) * units + * <7:2> : Status Register Polling Device Busy Flags, where + * xx_xx1xb Bit 7 of the Flag Status Register may be polled any time + * a Program, Erase, Suspend/Resume command is issued, or + * after a Reset command while the device is busy. The read + * instruction is 70h. Flag Status Register bit definitions: + * bit[7]: Program or erase controller status + * (0=busy; 1=ready) + * xx_xxx1b Use of legacy polling is supported by reading the Status + * Register with 05h instruction and checking WIP bit[0] + * (0=ready; 1=busy). + * <1:0> : Reserved (0x3) + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW14_POWER_DOWN_UNSUPPORTED, 31, 31); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW14_POWER_DOWN_OPCODE, 30, 23); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW14_POWER_UP_OPCODE, 22, 15); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW14_POWER_UP_TIME_UNIT, 14, 13); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW14_POWER_UP_TIME_CNT, 12, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW14_BUSY_FLAGS, 7, 2); +#define BFPT_1_5_DWORD_14(pwrdwnunsup, pwrdwnop, pwrupop, pwrupunit, pwrupcnt, \ + busypollflags) \ + (SFDP_BITFIELD(BFPT_1_5_DW14_POWER_DOWN_UNSUPPORTED, \ + pwrdwnunsup) | \ + SFDP_BITFIELD(BFPT_1_5_DW14_POWER_DOWN_OPCODE, pwrdwnop) | \ + SFDP_BITFIELD(BFPT_1_5_DW14_POWER_UP_OPCODE, pwrupop) | \ + SFDP_BITFIELD(BFPT_1_5_DW14_POWER_UP_TIME_UNIT, \ + pwrupunit) | \ + SFDP_BITFIELD(BFPT_1_5_DW14_POWER_UP_TIME_CNT, pwrupcnt) | \ + SFDP_BITFIELD(BFPT_1_5_DW14_BUSY_FLAGS, busypollflags) | \ + SFDP_UNUSED(1, 0)) + +/* Basic Flash Parameter Table v1.5 15th DWORD + * ------------------------------------------ + * <31:24> : Reserved (0xFF) + * <23> : HOLD and WIP disable supported by setting the non-volatile extended + * configuration register's bit 4 to 0. + * <22:20> : Quad Enable Requirements (1-1-4, 1-4-4, 4-4-4 Fast Reads), where + * 000b Device does not have a QE bit. Device detects 1-1-4 and 1-4-4 + * reads based on instruction. DQ3/HOLD# functions as hold during + * instruction phase. + * 001b QE is bit 1 of status register 2. It is set via Write Status + * with two data bytes where bit 1 of the second byte is one. It + * is cleared via Write Status with two data bytes where bit + * 1 of the second byte is zero. Writing only one byte to the + * status register has the side-effect of clearing status + * register 2, including the QE bit. The 100b code is used if + * writing one byte to the status register does not modify status + * register 2. + * 010b QE is bit 6 of status register 1. It is set via Write Status + * with one data byte where bit 6 is one. It is cleared via Write + * Status with one data byte where bit 6 is zero. + * 011b QE is bit 7 of status register 2. It is set via Write status + * register 2 instruction 3Eh with one data byte where bit 7 is + * one. It is cleared via Write status register 2 instruction + * 3Eh with one data byte where bit 7 is zero. The status + * register 2 is read using instruction 3Fh. + * 100b QE is bit 1 of status register 2. It is set via Write Status + * with two data bytes where bit 1 of the second byte is one. It + * is cleared via Write Status with two data bytes where bit 1 + * of the second byte is zero. In contrast to the 001b code, + * writing one byte to the status register does not modify status + * register 2. + * 101b QE is bit 1 of the status register 2. Status register 1 is + * read using Read Status instruction 05h. Status register 2 is + * read using instruction 35h. QE is set via Write Status + * instruction 01h with two data bytes where bit 1 of the second + * byte is one. It is cleared via Write Status with two data + * bytes where bit 1 of the second byte is zero. + * <19:16> : 0-4-4 Mode Entry Method, where + * xxx1b Mode Bits[7:0] = A5h Note: QE must be set prior to using this + * mode + * xx1xb Read the 8-bit volatile configuration register with + * instruction 85h, set XIP bit[3] in the data read, and write + * the modified data using the instruction 81h, then Mode Bits + * [7:0] = 01h + * <15:10> : 0-4-4 Mode Exit Method, where + * xx_xxx1b Mode Bits[7:0] = 00h will terminate this mode at the end + * of the current read operation + * xx_xx1xb If 3-Byte address active, input Fh on DQ0-DQ3 for 8 + * clocks. If 4-Byte address active, input Fh on DQ0-DQ3 for + * 10 clocks. This will terminate the mode prior to the next + * read operation. + * xx_1xxxb Input Fh (mode bit reset) on DQ0-DQ3 for 8 clocks. This + * will terminate the mode prior to the next read operation. + * <9> : 0-4-4 mode supported (1 supported, 0 unsupported) + * <8:4> : 4-4-4 mode enable sequences, where + * x_xxx1b set QE per QER description above, then issue + * instruction 38h + * x_xx1xb issue instruction 38h + * x_x1xxb issue instruction 35h + * x_1xxxb device uses a read-modify-write sequence of operations: + * read configuration using instruction 65h followed by + * address 800003h, set bit 6, + * write configuration using instruction 71h followed by + * address 800003h. This configuration is volatile. + * <3:0> : 4-4-4 mode disable sequences, where + * xxx1b issue FFh instruction + * xx1xb issue F5h instruction + * x1xxb device uses a read-modify-write sequence of operations: + * read configuration using instruction 65h followed by address + * 800003h, clear bit 6, + * write configuration using instruction 71h followed by + * address 800003h. This configuration is volatile. + * 1xxxb issue the Soft Reset 66/99 sequence + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_HOLD_WP_DISABLE, 23, 23); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_QE_REQ, 22, 20); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_0_4_4_ENTRY, 19, 16); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_0_4_4_EXIT, 15, 10); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_0_4_4_SUPPORTED, 9, 9); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_4_4_4_ENTRY, 8, 4); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW15_4_4_4_EXIT, 3, 0); +#define BFPT_1_5_DWORD_15(holdwpdis, qereq, fr044entry, fr044exit, fr044sup, \ + fr444entry, fr444exit) \ + (SFDP_UNUSED(31, 24) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_HOLD_WP_DISABLE, holdwpdis) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_QE_REQ, qereq) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_0_4_4_ENTRY, fr044entry) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_0_4_4_EXIT, fr044exit) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_0_4_4_SUPPORTED, fr044sup) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_4_4_4_ENTRY, fr444entry) | \ + SFDP_BITFIELD(BFPT_1_5_DW15_4_4_4_EXIT, fr444exit)) + + +/* Basic Flash Parameter Table v1.5 16th DWORD + * ------------------------------------------- + * <31:24> : Enter 4-Byte Addressing, where + * xxxx_xxx1b issue instruction B7h + * (preceding write enable not required) + * xxxx_xx1xb issue write enable instruction 06h, then issue + * instruction B7h + * xxxx_x1xxb 8-bit volatile extended address register used to define + * A[31:24] bits. Read with instruction C8h. Write + * instruction is C5h with 1 byte of data. Select the + * active 128 Mbit memory segment by setting the + * appropriate A[31:24] bits and use 3-Byte addressing. + * xxxx_1xxxb 8-bit volatile bank register used to define A[30:A24] + * bits. MSB (bit[7]) is used to enable/disable 4-byte + * address mode. When MSB is set to ‘1’, 4-byte address + * mode is active and A[30:24] bits are don’t care. Read + * with instruction 16h. Write instruction is 17h with 1 + * byte of data. When MSB is cleared to ‘0’, select the + * active 128 Mbit segment by setting the appropriate + * A[30:24] bits and use 3-Byte addressing. + * xxx1_xxxxb A 16-bit nonvolatile configuration register controls + * 3-Byte/4-Byte address mode. Read instruction is B5h. + * Bit[0] controls address mode [0=3-Byte; 1=4-Byte]. Write + * configuration register instruction is B1h, data length + * is 2 bytes. + * xx1x_xxxxb Supports dedicated 4-Byte address instruction set. + * Consult vendor data sheet for the instruction set + * definition. + * x1xx_xxxxb Always operates in 4-Byte address mode + * <23:14> : Exit 4-Byte Addressing, where + * xx_xxxx_xxx1b issue instruction E9h to exit 4-Byte address mode + * (write enable instruction 06h is not required) + * xx_xxxx_xx1xb issue write enable instruction 06h, then issue + * instruction E9h to exit 4-Byte address mode + * xx_xxxx_x1xxb 8-bit volatile extended address register used to + * define A[31:A24] bits. Read with instruction C8h. + * Write instruction is C5h, data length is 1 byte. + * Return to lowest memory segment by setting A[31:24] + * to 00h and use 3-Byte addressing. + * xx_xxxx_1xxxb 8-bit volatile bank register used to define A[30:A24] + * bits. MSB (bit[7]) is used to enable/disable 4-byte + * address mode. When MSB is cleared to ‘0’, 3-byte + * address mode is active and A30:A24 are used to select + * the active 128 Mbit memory segment. Read with + * instruction 16h. Write instruction is 17h, data + * length is 1 byte. + * xx_xxx1_xxxxb A 16-bit nonvolatile configuration register controls + * 3-Byte/4-Byte address mode. Read instruction is B5h. + * Bit[0] controls address mode [0=3-Byte; 1=4-Byte]. + * Write configuration register instruction is B1h, data + * length is 2 bytes. + * xx_xx1x_xxxxb Hardware reset + * xx_x1xx_xxxxb Software reset (see bits 13:8 in this DWORD) + * xx_1xxx_xxxxb Power cycle + * <13:8> : Soft Reset and Rescue Sequence Support, where + * 00_0000b no software reset instruction is supported + * xx_xxx1b drive Fh on all 4 data wires for 8 clocks + * xx_xx1xb drive Fh on all 4 data wires for 10 clocks if device is + * operating in 4-byte address mode + * xx_x1xxb drive Fh on all 4 data wires for 16 clocks + * xx_1xxxb issue instruction F0h + * x1_xxxxb issue reset enable instruction 66h, then issue reset + * instruction 99h. The reset enable, reset sequence may be + * issued on 1, 2, or 4 wires depending on the device + * operating mode. + * 1x_xxxxb exit 0-4-4 mode is required prior to other reset sequences + * above if the device may be operating in this mode. + * <7> : Reserved (0x1) + * <6:0> : Volatile or Non-Volatile Register and Write Enable Instruction for + * Status Register 1, where + * xx0_0000b status register is read only + * xxx_xxx1b Non-Volatile Status Register 1, powers-up to last written + * value, use instruction 06h to enable write + * xxx_xx1xb Volatile Status Register 1, status register powers-up + * with bits set to "1"s, use instruction 06h to enable + * write + * xxx_x1xxb Volatile Status Register 1, status register powers-up + * with bits set to "1"s, use instruction 50h to enable + * write + * xxx_1xxxb Non-Volatile/Volatile status register 1 powers-up to last + * written value in the non-volatile status register, use + * instruction 06h to enable write to non-volatile status + * register. Volatile status register may be activated after + * power-up to override the non-volatile status register, + * use instruction 50h to enable write and activate the + * volatile status register. + * xx1_xxxxb Status Register 1 contains a mix of volatile and + * non-volatile bits. The 06h instruction is used to enable + * writing of the register. + */ +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW16_4_BYTE_ENTRY, 31, 24); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW16_4_BYTE_EXIT, 23, 14); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW16_SOFT_RESET, 13, 8); +SFDP_DEFINE_BITFIELD(BFPT_1_5_DW16_STATUS_REG_1, 6, 0); +#define BFPT_1_5_DWORD_16(entry, exit, softreset, statusreg1) \ + (SFDP_BITFIELD(BFPT_1_5_DW16_4_BYTE_ENTRY, entry) | \ + SFDP_BITFIELD(BFPT_1_5_DW16_4_BYTE_EXIT, exit) | \ + SFDP_BITFIELD(BFPT_1_5_DW16_SOFT_RESET, softreset) | \ + SFDP_UNUSED(7, 7) | \ + SFDP_BITFIELD(BFPT_1_5_DW16_STATUS_REG_1, statusreg1)) + +#endif /* __CROS_EC_SFDP_H */ -- cgit v1.2.1