nuttx/drivers/mtd/Kconfig
xucheng5 cd80900646 mtd_config_fs : support algin size
Signed-off-by: xucheng5 <xucheng5@xiaomi.com>
2024-03-14 00:11:41 +08:00

1418 lines
34 KiB
Plaintext
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

#
# For a description of the syntax of this configuration file,
# see the file kconfig-language.txt in the NuttX tools repository.
#
menuconfig MTD
bool "Memory Technology Device (MTD) Support"
default n
---help---
Memory Technology Device (MTD) drivers. Some simple drivers for
memory technologies like FLASH, EEPROM, NVRAM, etc. See
include/nuttx/mtd/mtd.h
(Note: This is a simple memory interface and should not be
confused with the "real" MTD developed at infradead.org. This
logic is unrelated; I just used the name MTD because I am not
aware of any other common way to refer to this class of devices).
if MTD
config MTD_PARTITION
bool "Support MTD partitions"
default n
---help---
MTD partitions are build as MTD drivers that manage a sub-region
of the FLASH memory. The contain the original FLASH MTD driver and
simply manage all accesses to assure that (1) FLASH accesses are
always offset to the beginning of the partition, and (2) that FLASH
accesses do not extend outside of the partition.
A FLASH device may be broken up into several partitions managed,
each managed by a separate MTD driver. The MTD partition interface
is described in:
include/nuttx/mtd/mtd.h
FAR struct mtd_dev_s *mtd_partition(FAR struct mtd_dev_s *mtd,
off_t offset, off_t nblocks);
Each call to mtd_partition() will create a new MTD driver instance
managing the sub-region of flash beginning at 'offset' (in blocks)
and of size 'nblocks' on the device specified by 'mtd'.
config FTL_WRITEBUFFER
bool "Enable write buffering in the FTL layer"
default n
depends on DRVR_WRITEBUFFER
config FTL_READAHEAD
bool "Enable read-ahead buffering in the FTL layer"
default n
depends on DRVR_READAHEAD
config MTD_SECT512
bool "512B sector conversion"
default n
---help---
If enabled, a MTD driver will be created that will convert the
sector size of any other MTD driver to a 512 byte "apparent" sector
size. The managed MTD driver in this case must have an erase block
size that is greater than 512B and an even multiple of 512B.
if MTD_SECT512
config MTD_SECT512_ERASED_STATE
hex "Erased state of the FLASH"
default 0xff
config MTD_SECT512_READONLY
bool "512B read-only"
default n
endif # MTD_SECT512
config MTD_PARTITION_NAMES
bool "Support MTD partition naming"
depends on FS_PROCFS
depends on MTD_PARTITION
default n
---help---
MTD partitions can be assigned a name for reporting via the procfs
file system interface. This adds an API which must be called to
specify the partition name.
config MTD_BYTE_WRITE
bool "Byte write"
default n
---help---
Some devices (such as the EON EN25F80) support writing an arbitrary
number of bytes to FLASH. This setting enables MTD interfaces to
support such writes. The SMART file system can take advantage of
this option if it is enabled.
config MTD_WRBUFFER
bool "Enable MTD write buffering"
default n
depends on DRVR_WRITEBUFFER
select DRVR_INVALIDATE
select DRVR_READBYTES
---help---
Build the mtd_rwbuffer layer and enable support for write buffering.
if MTD_WRBUFFER
config MTD_NWRBLOCKS
int "MTD write buffer size"
default 4
---help---
The size of the MTD write buffer (in blocks)
endif # MTD_WRBUFFER
config MTD_READAHEAD
bool "Enable MTD read-ahead buffering"
default n
depends on DRVR_READAHEAD
select DRVR_INVALIDATE
select DRVR_READBYTES
---help---
Build the mtd_rwbuffer layer and enable support for read-ahead
buffering.
if MTD_READAHEAD
config MTD_NRDBLOCKS
int "MTD read-head buffer size"
default 4
---help---
The size of the MTD read-ahead buffer (in blocks)
endif # MTD_READAHEAD
config MTD_PROGMEM
bool "Enable on-chip program FLASH MTD device"
default n
depends on ARCH_HAVE_PROGMEM
---help---
Enable to support an MTD device that supports the on-chip FLASH
using the interfaces defined in include/nuttx/progmem. Those
interfaces must be exported by chip-specific logic.
if MTD_PROGMEM
endif #MTD_PROGMEM
config MTD_CONFIG
bool "Enable Dev Config (MTD based) device"
default n
---help---
Provides a /dev/config device for saving / restoring application
configuration data to a standard MTD device or partition.
if MTD_CONFIG
config MTD_CONFIG_RAM_CONSOLIDATE
bool "Always use RAM consolidation method (work in progress)"
default n
---help---
When the MTD device used for /dev/config contains more than one
erase block, the "unused entry" consolidation reserves one erase
block by default for cleanup purposes. This consumes the minimum
amount of RAM, however it "wastes" one erase block on the device.
(For configurations that have only a single erase block assigned
to the config device, RAM consolidation is the ONLY option.)
Another approach is to allow the driver to use the entire MTD
device (or partition) to save config data, and then allocate a
RAM buffer (the size of one erase block) to perform the
consolidation. Enabling this feature basically trades off RAM
usage for FLASH usage. If the MTD device used for config data
has small erase sizes (4K, etc.) and there is plenty of free RAM
available, then this is probably a good option.
Another benefit of this option is it reduces code space a bit
since the "reserved block" consolidate routine is not needed.
config MTD_CONFIG_NAMED
bool "Use item NAMES instead of ID/enumeration in Dev Config device"
default n
---help---
Changes config item identification from ID/INST to NAMED values.
config MTD_CONFIG_NAME_LEN
int "Dev Config item max name length"
default NAME_MAX
depends on MTD_CONFIG_NAMED
---help---
Sets the maximum length of config item names.
config MTD_CONFIG_FAIL_SAFE
bool "Enable Fail Safe MTD Config"
default n
depends on MTD_BYTE_WRITE
---help---
Enable the new storage layout to support the resilient to power loss.
This replaces the drivers/mtd/mtd_config, which
is resilient to power loss.
config MTD_WRITE_ALIGN_SIZE
int "align size [1,2,4,8,16] for per write operation"
default 1
depends on MTD_CONFIG_FAIL_SAFE
---help---
align size will be one of 1,2,4,8,16
endif # MTD_CONFIG
comment "MTD Device Drivers"
menuconfig MTD_NAND
bool "MTD NAND support"
depends on ALLOW_BSD_COMPONENTS
default n
---help---
Enable support for NAND FLASH devices.
if MTD_NAND
config MTD_NAND_MAXNUMBLOCKS
int "Max blocks"
default 1024
---help---
Maximum number of blocks in a device
config MTD_NAND_MAXNUMPAGESPERBLOCK
int "Max pages per block"
default 256
---help---
Maximum number of pages in one block
config MTD_NAND_MAXPAGEDATASIZE
int "Max page size"
default 4096
---help---
Maximum size of the data area of one page, in bytes.
config MTD_NAND_MAXPAGESPARESIZE
int "Max size of spare area"
default 256
---help---
Maximum size of the spare area of one page, in bytes.
config MTD_NAND_MAXSPAREECCBYTES
int "Max number of ECC bytes"
default 48
---help---
Maximum number of ECC bytes stored in the spare for one single page.
config MTD_NAND_BLOCKCHECK
bool "Block check"
default y
---help---
Enable support for ECC and bad block checking.
config MTD_NAND_SWECC
bool "Software ECC support"
default !ARCH_NAND_HWECC
---help---
Build in logic to support software calculation of ECC.
config MTD_NAND_HWECC
bool "Hardware ECC support"
default n
depends on ARCH_NAND_HWECC
---help---
Build in logic to support hardware calculation of ECC.
config MTD_NAND_MAXSPAREEXTRABYTES
int "Max extra free bytes"
default 206
---help---
Maximum number of extra free bytes inside the spare area of a page.
config MTD_NAND_EMBEDDEDECC
bool "Support devices with Embedded ECC"
default n
---help---
Some NAND devices have internal, embedded ECC function. One (the
only one supported) is Micron, 4-bit ECC, device size = 1Gb or 2Gb
or 4Gb.
config MTD_NAND_RAM
bool "Enable virtual NAND Flash"
default n
---help---
Enable a virtual NAND Flash device emulated from RAM in the simulator.
if MTD_NAND_RAM
config MTD_NAND_RAM_SIZE
int "Size of the virtual NAND Flash in MB."
default 2
---help---
Size of the virtual NAND Flash in megabytes.
config MTD_NAND_RAM_DEBUG
bool "Enable debugging of virtual NAND Flash."
default n
---help---
Enables debug info being written to syslog for virtual NAND Flash
device emulated from RAM in the simulator.
config MTD_NAND_RAM_DEBUG_LEVEL
int "Debugging level of virtual NAND Flash raw lower half operations."
depends on MTD_NAND_RAM_DEBUG
default 1
range 1 3
---help---
1 - Log every instruction.
2 - Log every 5 instructions.
3 - Log every 10 instructions.
config MTD_NAND_RAM_STATUS
int "Log status of virtual NAND Flash."
depends on MTD_NAND_RAM_DEBUG
default 3
range 1 8
---help---
1 - Log every instruction.
2 - Log every 5 instructions.
3 - Log every 10 instructions.
4 - Log every 50 instructions.
5 - Log every 100 instructions.
6 - Log every 500 instructions.
7 - Log every 1000 instructions.
8 - Log every 5000 instructions.
endif #MTD_NAND_RAM
config MTD_NAND_WRAPPER
bool "Enable logging wrapper for NAND flash upper half operations."
default n
if MTD_NAND_WRAPPER
config MTD_NAND_WRAPPER_DEBUG_LEVEL
int "Log level of upper half of virtual NAND Flash."
default 1
range 1 3
---help---
1 - Log every instruction.
2 - Log every 5 instructions.
3 - Log every 10 instructions.
endif # MTD_NAND_WRAPPER
endif # MTD_NAND
config RPMSGMTD
bool "MTD RPMSG Client Enable"
default n
depends on RPMSG
config RPMSGMTD_SERVER
bool "MTD RPMSG Server Enable"
default n
depends on RPMSG
config RAMMTD
bool "RAM-based MTD driver"
default n
---help---
Build support for a RAM-based MTD driver.
if RAMMTD
config RAMMTD_BLOCKSIZE
int "RAM MTD block size"
default 512
config RAMMTD_ERASESIZE
int "RAM MTD erase block size"
default 4096
config RAMMTD_ERASESTATE
hex "Simulated erase state"
default 0xff
config RAMMTD_FLASHSIM
bool "RAM MTD FLASH Simulation"
default n
---help---
RAMMTD_FLASHSIM will add some extra logic to improve the level of
FLASH simulation.
endif # RAMMTD
config FILEMTD
bool "File-based MTD driver"
default n
---help---
Build support for a File-based MTD driver.
if FILEMTD
config FILEMTD_BLOCKSIZE
int "File MTD default block size"
default 512
config FILEMTD_ERASESIZE
int "File MTD default erase block size"
default 4096
config FILEMTD_ERASESTATE
hex "Simulated erase state"
default 0xff
config MTD_LOOP
bool "Enable MTD loop device"
default n
endif # FILEMTD
config NULLMTD
bool "MTD null driver"
default n
---help---
Build support for a MTD null driver. It simulates an always erased
MTD device.
if NULLMTD
config NULLMTD_BLOCKSIZE
int "MTD null default block size"
default 512
config NULLMTD_ERASESIZE
int "MTD null default erase block size"
default 4096
config NULLMTD_ERASESTATE
hex "Simulated erase state"
default 0xff
endif # NULLMTD
config MTD_AT24XX
bool "I2C-based AT24xx eeprom"
default n
select I2C
---help---
Build support for I2C-based AT24CXX EEPROM(at24c32, at24c64,
at24c128, at24c256)
if MTD_AT24XX
config AT24XX_MULTI
bool "Multiple AT24XX devices"
default n
---help---
Build in additional support for multiple AT24XX devices, each with
dynamically allocated device structures with a separate I2C
addresses (but otherwise identical -- support for multiple, different
AT24xx, devices not yet supported).
config AT24XX_SIZE
int "AT24xx size (Kbit)"
default 64
---help---
This is the XX in the AT24Cxx part number. For example, if you have
an AT24C64, then the correct value is 64.
This value is also the capacity of the part in kilobits.
For example, the 64 supports 64 Kbits or 64/8 = 8 KiB.
config AT24XX_ADDR
hex "AT24XX I2C address"
default 0x50
range 0x50 0x57
depends on !AT24XX_MULTI
---help---
The I2C address of the FLASH part. This is should be 0b01010aaa
(where aaa is determined by board/pin configuration).
For accesses to "extended memory" accesses, the driver will set
bit 3 of this address using 0xb01011aaa as the I2C address.
config AT24XX_EXTENDED
bool "Extended memory"
default n
---help---
If the device supports extended memory, then this operation may be
set to enable the MTDIOC_EXTENDED ioctl() operation. When the
extended operation is selected, calls to the driver read method will
return data from the extended memory region.
config AT24XX_EXTSIZE
int "Extended memory size (bytes)"
default 0
depends on AT24XX_EXTENDED
---help---
If the device supports extended memory, then this option provides
the size of the memory in bytes.
Other, block-oriented access are not effected by this setting
config AT24XX_FREQUENCY
int "AT24xx I2C bus frequency"
default 100000
---help---
Set the I2C frequency to use when accessing the AT24CXX EEPROM.
This value must represent a valid I2C speed (normally less than
400.000) or the driver might fail.
endif # MTD_AT24XX
config MTD_AT25EE
bool "SPI-based AT25xx EEPROM"
default n
select SPI
select MTD_BYTE_WRITE
---help---
Build support for SPI-based AT25xx type EEPROMs. MTD on EEPROM can
perform poorly, so it is possible only usable if the EEPROM has a
clock speed 10MHz or higher. EEPROMs that use the same commands as
the 25AA160 should work OK.
if MTD_AT25EE
choice
prompt "Block Size"
default USE_NATIVE_AT25EE_BLOCK_SIZE
---help---
For applications where a file system is used on the AT25 EEPROM,
the tiny page sizes will result in very inefficient EEPROM usage.
In such cases, it is better if blocks are comprised of "clusters" of
pages so that the file system block size is, say, 128, 256 or
512 bytes.
In any event, the block size *must* be an even multiple of the
number of pages and, often, needs to be a factor 2.
This is up to the user to check!
config USE_NATIVE_AT25EE_BLOCK_SIZE
bool "Use EEPROM's native block size"
config MANUALLY_SET_AT25EE_BLOCK_SIZE
bool "Manually set block size"
endchoice # Block Size
if MANUALLY_SET_AT25EE_BLOCK_SIZE
config MANUAL_AT25EE_BLOCK_SIZE
int "Manually-set EEPROM block size"
default 512
endif # MANUALLY_SET_BLOCK_SIZE
config AT25EE_ENABLE_BLOCK_ERASE
bool "Enabled block erase"
default n
---help---
EEPROM does not need to be erased before write. However, in some
applications (e.g if an erase verify is wanted, or if a particular
file system requires this) block erase (i.e. writing each byte to
0xff) can be enabled here.
config AT25EE_SPIMODE
int "AT25EE SPI Mode"
default 0
config AT25EE_SPIFREQUENCY
int "AT25EE SPI Frequency"
default 10000000
config AT25EE_START_DELAY
int "AT25EE startdelay"
---help---
The delay between CS active and first CLK. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
config AT25EE_STOP_DELAY
int "AT25EE stopdelay"
---help---
The delay between last CLK and CS inactive. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
config AT25EE_CS_DELAY
int "AT25EE csdelay"
---help---
The delay between CS inactive and CS active again. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
config AT25EE_IFDELAY
int "AT25EE ifdelay"
---help---
The delay between frames. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
endif # MTD_AT25EE
config MTD_AT25
bool "SPI-based AT25 FLASH"
default n
select SPI
if MTD_AT25
config AT25_SPIMODE
int "AT25 SPI Mode"
default 0
config AT25_SPIFREQUENCY
int "AT25 SPI Frequency"
default 20000000
endif # MTD_AT25
config MTD_AT45DB
bool "SPI-based AT45DB flash"
default n
select SPI
if MTD_AT45DB
config AT45DB_FREQUENCY
int "AT45DB frequency"
default 1000000
config AT45DB_PREWAIT
bool "Enable higher performance write logic"
default y
config AT45DB_PWRSAVE
bool "Enable power save"
default n
endif # MTD_AT45DB
config MTD_IS25XP
bool "SPI-based IS25XP FLASH"
default n
select SPI
if MTD_IS25XP
config IS25XP_SPIMODE
int "IS25 SPI Mode"
default 0
config IS25XP_SPIFREQUENCY
int "IS25 SPI Frequency"
default 20000000
endif # MTD_IS25XP
config MTD_M25P
bool "SPI-based M25P/MT25Q FLASH"
default n
select SPI
if MTD_M25P
config M25P_SPIMODE
int "M25P SPI mode"
default 0
config M25P_SPIFREQUENCY
int "M25P SPI Frequency"
default 20000000
config M25P_MANUFACTURER
hex "M25P manufacturers ID"
default 0x20
---help---
Various manufacturers may have produced the parts.
0x20 is the manufacturer ID for the STMicro MP25x serial FLASH.
If, for example, you are using the a Macronix International MX25
serial FLASH, the correct manufacturer ID would be 0xc2.
config M25P_MEMORY_TYPE
hex "M25P memory type ID"
default 0x20
---help---
The memory type for M25 "P" series is 0x20, but the driver also
supports "F" series devices, such as the EON EN25F80 part which adds
a 4K sector erase capability. The memory type for "F" series parts
from EON is 0x31. The 4K sector erase size will automatically be
enabled when filesystems that can use it are enabled, such as SMART.
config MT25Q_MEMORY_TYPE
hex "MT25Q memory type ID"
default 0xBA
---help---
The memory type for MT25 "Q" series is 0xBA.
config M25P_SUBSECTOR_ERASE
bool "Sub-Sector Erase"
default n
---help---
Some devices (such as the EON EN25F80) support a smaller erase block
size (4K vs 64K). This option enables support for sub-sector erase.
The SMART file system can take advantage of this option if it is
enabled.
endif # MTD_M25P
config MTD_MX25L
bool "SPI-based MX25L3233F / MX25L6433F"
default n
select SPI
---help---
SPI-based driver for Macronix MX25L3233F or MX25L6433F.
if MTD_MX25L
config MX25L_SPIMODE
int "MX25L SPI mode"
default 0
config MX25L_SPIFREQUENCY
int "MX25L SPI Frequency"
default 20000000
config MX25L_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
config MX25L_SUBSECTOR_ERASE
bool "Sub-Sector Erase"
default n
---help---
Some devices (such as the EON EN25F80) support a smaller erase block
size (4K vs 64K). This option enables support for sub-sector erase.
The SMART file system can take advantage of this option if it is
enabled.
config MX25L_DEBUG
bool "Enable driver debug features"
default n
endif # MTD_MX25L
config MTD_MX35
bool "SPI-based MX35LF1GE4AB / MX35LF2GE4AB"
default n
select SPI
---help---
SPI-based driver for Macronix MX35LF1GE4AB or MX35LF2GE4AB.
if MTD_MX35
config MX35_SPIMODE
int "MX35 SPI mode"
default 0
config MX35_SPIFREQUENCY
int "MX35 SPI Frequency"
default 104000000
---help---
SPI frequency for MX35 is 104 MHz.
endif # MTD_MX35
config MTD_S25FL1
bool "QuadSPI-based S25FL1 FLASH"
default n
if MTD_S25FL1
config S25FL1_QSPIMODE
int "S25FL1 QuadSPI Mode"
default 0
config S25FL1_QSPI_FREQUENCY
int "S25FL1 QuadSPI Frequency"
default 108000000
---help---
Per data sheet:
Normal Read (Serial):
50 MHz clock rate (-40°C to +85°C/105°C)
45 MHz clock rate (-40°C to +125°C)
Fast Read (Serial):
108 MHz clock rate (-40°C to +85°C/105°C)
97 MHz clock rate (-40°C to +125°C)
Dual Read:
108 MHz clock rate (-40°C to +85°C/105°C)
97 MHz clock rate (-40°C to +125°C)
Quad Read:
108 MHz clock rate (-40°C to +85°C/105°C)
97 MHz clock rate for S25FL164K (-40°C to +125°C)
- Clock frequency for all SPI commands except for Read Data
command (0x03) and Fast Read command (0x0b): 108 MHz
- Clock frequency for Read Data command (0x03): 50 MHz
- Clock frequency for all Fast Read commands SIO and MIO: 108 MHz
In this implementation, only "Quad" reads are performed.
config S25FL1_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
config S25FL1_SCRAMBLE
bool "Scramble data"
default n
---help---
Requires driver support for data scrambling/descrambling.
config S25FL1_SCRAMBLE_KEY
hex "Scramble key"
default 0x0baddead
depends on S25FL1_SCRAMBLE
endif # MTD_S25FL1
config MTD_N25QXXX
bool "QuadSPI-based Micron N25QXXX family FLASH"
default n
---help---
Support the N25Q016A, N25Q032A, N25Q064A, N25Q128A, N25Q256A
if MTD_N25QXXX
config N25QXXX_QSPIMODE
int "N25QXXX QuadSPI Mode"
default 0
---help---
This device can operate in SPI mode 0 or 3.
config N25QXXX_QSPI_FREQUENCY
int "N25QXXX QuadSPI Frequency"
default 108000000
---help---
- Clock frequency for all SPI commands except for Read Data
command (0x03)
- Clock frequency for Read Data command (0x03): 54 MHz
In this implementation, only "Quad" reads are performed.
config N25QXXX_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
endif # MTD_N25QXXX
config MTD_W25QXXXJV
bool "QuadSPI-based Winbond W25QXXXJV family FLASH"
default n
---help---
Support the W25Q016JV, W25Q032JV, W25Q064JV, W25Q128JV, W25Q256JV,
W25Q512JV, W25Q01JV
if MTD_W25QXXXJV
config W25QXXXJV_QSPIMODE
int "W25QXXXJV QuadSPI Mode"
default 0
---help---
This device can operate in SPI mode 0 or 3.
config W25QXXXJV_QSPI_FREQUENCY
int "W25QXXXJV QuadSPI Frequency"
default 133000000
---help---
Per data sheet:
133MHz Single, Dual/Quad SPI clocks
266/532MHz equivalent Dual/Quad SPI
66MB/S continuous data transfer rate
config W25QXXXJV_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
endif # MTD_W25QXXXJV
config MTD_MX25RXX
bool "QuadSPI-based Macronix MX25RXX family FLASH"
default n
---help---
Support the MX25R6435F chip
if MTD_MX25RXX
config MX25RXX_QSPIMODE
int "MX25RXX QuadSPI Mode"
default 0
---help---
This device can operate in SPI mode 0 or 3.
config MX25RXX_QSPI_FREQUENCY
int "MX25RXX QuadSPI Frequency"
default 33000000
---help---
Clock frequency for all SPI commands except for Read Data
command. Dual and Quad read methods need different frequency
in low power mode (Only Quad read is supported in this driver).
config MX25RXX_QSPI_READ_FREQUENCY
int "MX25RXX QuadSPI Read command frequency"
default 8000000
---help---
Clock frequency for read data command.
Only Quad read is supported in this driver.
config MX25RXX_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
config MX25RXX_PAGE128
bool "128 byte size pages"
default n
config MX25RXX_LXX
bool "Run MX25RXX driver in MX25LXX mode"
default n
endif # MTD_MX25RXX
config MTD_SMART
bool "Sector Mapped Allocation for Really Tiny (SMART) Flash support"
default n
---help---
The MP25x series of Flash devices are typically very small and have a
very large erase block size. This causes issues with the standard
Flash Translation Layer block driver since it tries to allocate a RAM
block the size of a flash erase block, which is typically 64K.
This block driver uses a different approach to sacrifice performance
for RAM memory footprint by saving data in sectors (typically 2K - 4K
based on memory size) and relocating sectors as needed when an erase
block needs to be erased.
if MTD_SMART
config SMART_DEV_LOOP
bool "Enable SMART loop device"
select FILEMTD
default n
---help---
Supports a smart loop device that can be used to export a
file (or character device) as a SMART block device.
config MTD_SMART_SECTOR_SIZE
int "SMART Device sector size"
default 1024
---help---
Sets the size of a single allocation on the SMART device.
Larger sector sizes reduce overhead per sector, but cause more wasted
space with a lot of smaller files.
config MTD_SMART_WRITEBUFFER
bool "Enable SMART write buffering"
default n
depends on DRVR_WRITEBUFFER
config MTD_SMART_READAHEAD
bool "Enable SMART read-ahead buffering"
default n
depends on DRVR_READAHEAD
config MTD_SMART_WEAR_LEVEL
bool "Support FLASH wear leveling"
depends on MTD_SMART
default y
---help---
Adds extra logic and RAM to guarantee equal wear leveling of the
FLASH device by recording and monitoring erase block operations and
selecting sector allocations to ensure all erase blocks are worn
evenly. This will evenly wear both dynamic and static data on the
device.
if MTD_SMART_WEAR_LEVEL && !SMART_CRC_16
config MTD_SMART_CONVERT_WEAR_FORMAT
bool "Convert existing non wear leveling FLASH to wear leveling"
default n
---help---
Adds a little extra code which detects an existing SMART format on a
device that was created prior to the wear leveling implementation.
This conversion only works if either no CRC is being used or if CRC-8
is being used as other CRC versions use a different header format and
require a mksmartfs on the device even if an existing format is there
endif # MTD_SMART_WEAR_LEVEL && !SMART_CRC_16
config MTD_SMART_ENABLE_CRC
bool "Enable Sector CRC error detection"
depends on MTD_SMART
default n
---help---
Enables logic to compute and validate a CRC for logical sectors.
The CRC is calculated for all bytes in the logical sector.
The CRC size is selectable (8-bit, 16-bit, 32-bit). For added
protection, larger CRCs should be used with larger (2K - 4K) sector
sizes. Enabling CRC protection will cause increased sector
relocation and increased erase block erasures since directory and
wear-level status updates can no longer be performed in-place and
mandate re-writing the information to a new sector.
An 8-bit CRC protection scheme can be added to an existing non-CRC
formatted SMART volume without needing to reformat the drive. As
sectors are re-written or relocated, they will be converted to CRC
protected sectors.
choice
prompt "CRC level selection"
depends on MTD_SMART_ENABLE_CRC
default SMART_CRC_8
---help---
Select the level of CRC protection implemented in the SMART MTD layer.
Smaller CRC selection uses less overhead per logical sectors, but
also has a higher probability of not detecting multiple bit errors.
Devices with larger logical sector sizes should use a larger CRC.
config SMART_CRC_8
bool "CRC-8"
config SMART_CRC_16
bool "CRC-16"
endchoice # CRC level selection
config MTD_SMART_FSCK
bool "Enable SMART file system check"
default n
---help---
Enables fsck to check and repair the SMART file system.
config MTD_SMART_FSCK_ENABLE_CRC
bool "Enable SMART file system CRC check during fsck"
default n
depends on MTD_SMART_FSCK && MTD_SMART_ENABLE_CRC
---help---
Enables CRC check during fsck. It's possible to check the file
system strictly, but it takes long time to do fsck.
config MTD_SMART_MINIMIZE_RAM
bool "Minimize SMART RAM usage using logical sector cache"
depends on MTD_SMART
default 0
---help---
Reduces RAM usage in the SMART MTD layer by replacing the 1-for-1
logical to physical sector map with a smaller cache-based structure.
This can save a considerable amount of RAM on devices with a large
sector count, but at the expense of increased read/write times when a
cache miss occurs. If the requested logical sector has not been
cached, then the device will need to be scanned to located it on the
physical medium.
config MTD_SMART_SECTOR_CACHE_SIZE
int "Number of entries in the SMART logical sector cache"
depends on MTD_SMART_MINIMIZE_RAM
default 512
---help---
Sets the size of the cache used for logical to physical sector
mapping. A larger number allows larger files to be "seek"ed randomly
without encountering cache misses. Any files larger than
CACHE_SIZE * SECTOR_SIZE that are sought start to end will cause the
cache to flush forcing manual scanning of the MTD device to find the
logical to physical mappings.
config MTD_SMART_SECTOR_PACK_COUNTS
bool "Pack free and release counts when possible"
depends on MTD_SMART_MINIMIZE_RAM
default y
---help---
For volumes with 16 sectors per erase block or less, this option
causes the free sector and released sector counts used for allocation
and garbage collection to be packed such that two values are stored
per byte. For volumes with 16 sectors per erase block, the 4 LSBs
are packed and all of the high-order bits are packed separately
(8 per byte). This squeezes even more RAM out.
config MTD_SMART_SECTOR_ERASE_DEBUG
bool "Track Erase Block erasure counts"
depends on MTD_SMART
default n
---help---
Allocates an Erase Block erase count array and keeps track of the
number of erases per erase block. This data is then presented on the
procfs interface.
config MTD_SMART_ALLOC_DEBUG
bool "RAM Allocation Debug"
depends on MTD_SMART
default n
---help---
Records all SMART MTD layer allocations for debug purposes and makes
them accessible from the ProcFS interface if it is enabled.
endif # MTD_SMART
config MTD_RAMTRON
bool "SPI-based RAMTRON NVRAM Devices FM25V10"
default n
select SPI
---help---
SPI-based RAMTRON NVRAM Devices FM25V10
if MTD_RAMTRON
config RAMTRON_SETSPEED
bool "Adjustable bus speed"
default n
---help---
Select an option to provide an ioctl, MTDIOC_SETSPEED call that
supports dynamic selection of the RAMTRON bus speed.
config RAMTRON_CHUNKING
bool "Support chunked writes"
default n
---help---
Some Re-RAMs like MB85AS4MT have write buffer size limitation and
require smaller, "chunked" writes.
config RAMTRON_EMULATE_SECTOR_SHIFT
int "RAMTRON emulates sector size by setting shift value"
default 9
---help---
RAMTRON devices do not have pages and sectors.
For purpose of the VFAT file system, we emulate them.
Specify sector shift value to determine emulated sector size.
The relationship between sector shift value and emulated sector size
is described in the equation:
RAMTRON_EMULATE_SECTOR_SIZE = (1 << RAMTRON_EMULATE_SECTOR_SHIFT)
sector shift value : sector size in bytes
0 : 1
1 : 2
2 : 4
3 : 8
4 : 16
5 : 32
6 : 64
7 : 128
8 : 256
9 : 512
config RAMTRON_EMULATE_PAGE_SHIFT
int "RAMTRON emulates page size by setting shift value"
default 9
---help---
RAMTRON devices do not have pages and sectors.
For purpose of the VFAT file system, we emulate them.
Specify page shift value to determine emulated page size.
The relationship between page shift value and emulated page size is
described in the equation:
RAMTRON_EMULATE_PAGE_SIZE = (1 << RAMTRON_EMULATE_PAGE_SHIFT)
page shift value : page size in bytes
0 : 1
1 : 2
2 : 4
3 : 8
4 : 16
5 : 32
6 : 64
7 : 128
8 : 256
9 : 512
endif # MTD_RAMTRON
config MTD_SST25
bool "SPI-based SST25 FLASH"
default n
select SPI
if MTD_SST25
config SST25_SPIMODE
int "SST25 SPI Mode"
default 0
config SST25_SPIFREQUENCY
int "SST25 SPI Frequency"
default 20000000
config SST25_READONLY
bool "SST25 Read-Only FLASH"
default n
config SST25_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
config SST25_SLOWWRITE
bool
default n
---help---
There used to be a bug in the current code when using the higher
speed AAI write sequence. The nature of the bug is that the WRDI
instruction is not working. At the end of the AAI sequence, the
status register continues to report that the SST25 is write enabled
(WEL bit) and in AAI mode (AAI bit).
This has been fixed by David Sidrane!
config SST25_SLOWREAD
bool
default n
endif # MTD_SST25
config MTD_SST25XX
bool "SPI-based SST25XX FLASH (64-MBit and larger)"
default n
select SPI
---help---
With the 64 MBit and larger parts, SST changed the write mechanism to
support page write instead of byte/word write like the smaller parts.
As a result, the SST25 driver is not compatible with the larger
density parts, and the SST25XX driver must be used instead.
if MTD_SST25XX
config SST25XX_SPIMODE
int "SST25 SPI Mode"
default 0
config SST25XX_SPIFREQUENCY
int "SST25 SPI Frequency"
default 20000000
config SST25XX_MANUFACTURER
hex "Manufacturers ID"
default 0xBF
---help---
Various manufacturers may have produced the parts. 0xBF is the
manufacturer ID for the parts manufactured by SST.
config SST25XX_MEMORY_TYPE
hex "Memory type ID"
default 0x25
---help---
The memory type for SST25VF065 series is 0x25, but this can be
modified if needed to support compatible devices from different
manufacturers.
endif # MTD_SST25XX
config MTD_SST26
bool "SPI/QSPI-based SST26XX FLASHes (16,32,64-MBit)"
default n
select SPI
---help---
These part are also different from SST25 and SST25XX, they support
both SPI and QSPI.
if MTD_SST26
config SST26_SPIMODE
int "SST26 (Q)SPI Mode"
default 0
config SST26_SPIFREQUENCY
int "SST26 (Q)SPI Frequency"
default 64000000
config SST26_MANUFACTURER
hex "Manufacturers ID"
default 0xBF
---help---
Various manufacturers may have produced the parts. 0xBF is the
manufacturer ID for the parts manufactured by SST.
config SST26_MEMORY_TYPE
hex "Memory type ID"
default 0x26
---help---
The memory type for SST26VF0xx series is 0x26, but this can be
modified if needed to support compatible devices from different
manufacturers.
config SST26_DEBUG
bool "Debug output from the SST26 driver"
depends on DEBUG_FS
default n
endif # MTD_SST26
config MTD_SST39FV
bool "SST39FV NOR FLASH"
default n
---help---
Selects 16-bit SST NOR FLASH. This includes support for:
SST39FV1601/SST39FV1602: 2Mb
SST39FV3201/SST39FV3202: 4Mb
if MTD_SST39FV
config SST39VF_BASE_ADDRESS
hex "SST39FV bass address"
default 0x00000000
---help---
This is the address where the SST29VF FLASH can be found in memory.
endif # MTD_SST39FV
config MTD_W25
bool "SPI-based W25 FLASH"
default n
select SPI
if MTD_W25
config W25_SPIMODE
int "W25 SPI Mode"
default 0
config W25_SPIFREQUENCY
int "W25 SPI Frequency"
default 20000000
config W25_READONLY
bool "W25 Read-Only FLASH"
default n
config W25_SECTOR512
bool "Simulate 512 byte Erase Blocks"
default n
config W25_SLOWREAD
bool
default n
endif # MTD_W25
config MTD_GD25
bool "SPI-based GD25 FLASH"
default n
select SPI
if MTD_GD25
config GD25_SPIMODE
int "GD25 SPI Mode"
default 0
config GD25_SPIFREQUENCY
int "GD25 SPI Frequency"
default 20000000
config GD25_READONLY
bool "GD25 Read-Only FLASH"
default n
config GD25_SLOWREAD
bool
default n
config GD25_START_DELAY
int "GD25 startdelay"
---help---
The delay between CS active and first CLK. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
config GD25_STOP_DELAY
int "GD25 stopdelay"
---help---
The delay between last CLK and CS inactive. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
config GD25_CS_DELAY
int "GD25 csdelay"
---help---
The delay between CS inactive and CS active again. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
config GD25_IFDELAY
int "GD25 ifdelay"
---help---
The delay between frames. In ns.
depends on SPI_DELAY_CONTROL
range 0 1000000
default 5000
endif # MTD_GD25
config MTD_GD5F
bool "SPI-based GD5F nand FLASH"
default n
select SPI
if MTD_GD5F
config GD5F_SPIMODE
int "GD5F SPI Mode"
default 0
config GD5F_SPIFREQUENCY
int "GD5F SPI Frequency"
default 20000000
endif # MTD_GD5F
config MTD_DHARA
bool "MTD Nandflash use dhara map"
default n
if MTD_DHARA
config DHARA_GC_RATIO
int "dhara garbage collection ratio"
default 4
config DHARA_READ_NCACHES
int "dhara read cache numbers"
default 4
endif
endif # MTD