SPI NOR framework

How to propose a new flash addition

Most SPI NOR flashes comply with the JEDEC JESD216 Serial Flash Discoverable Parameter (SFDP) standard. SFDP describes the functional and feature capabilities of serial flash devices in a standard set of internal read-only parameter tables.

The SPI NOR driver queries the SFDP tables in order to determine the flash's parameters and settings. If the flash defines the SFDP tables it's likely that you won't need a flash entry at all, and instead rely on the generic flash driver which probes the flash solely based on its SFDP data. All one has to do is to specify the "jedec,spi-nor" compatible in the device tree.

There are cases however where you need to define an explicit flash entry. This typically happens when the flash has settings or support that is not covered by the SFDP tables (e.g. Block Protection), or when the flash contains mangled SFDP data. If the later, one needs to implement the spi_nor_fixups hooks in order to amend the SFDP parameters with the correct values.

Minimum testing requirements

Do all the tests from below and paste them in the commit's comments section, after the --- marker.

  1. Specify the controller that you used to test the flash and specify the frequency at which the flash was operated, e.g.:

    This flash is populated on the X board and was tested at Y
    frequency using the Z (put compatible) SPI controller.
    
  2. Dump the sysfs entries and print the md5/sha1/sha256 SFDP checksum:

    root@1:~# cat /sys/bus/spi/devices/spi0.0/spi-nor/partname
    sst26vf064b
    root@1:~# cat /sys/bus/spi/devices/spi0.0/spi-nor/jedec_id
    bf2643
    root@1:~# cat /sys/bus/spi/devices/spi0.0/spi-nor/manufacturer
    sst
    root@1:~# xxd -p /sys/bus/spi/devices/spi0.0/spi-nor/sfdp
    53464450060102ff00060110300000ff81000106000100ffbf0001180002
    0001fffffffffffffffffffffffffffffffffd20f1ffffffff0344eb086b
    083b80bbfeffffffffff00ffffff440b0c200dd80fd810d820914824806f
    1d81ed0f773830b030b0f7ffffff29c25cfff030c080ffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffff0004fff37f0000f57f0000f9ff
    7d00f57f0000f37f0000ffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
    ffffbf2643ffb95ffdff30f260f332ff0a122346ff0f19320f1919ffffff
    ffffffff00669938ff05013506040232b03072428de89888a585c09faf5a
    ffff06ec060c0003080bffffffffff07ffff0202ff060300fdfd040700fc
    0300fefe0202070e
    root@1:~# sha256sum /sys/bus/spi/devices/spi0.0/spi-nor/sfdp
    428f34d0461876f189ac97f93e68a05fa6428c6650b3b7baf736a921e5898ed1  /sys/bus/spi/devices/spi0.0/spi-nor/sfdp
    

    Please dump the SFDP tables using xxd -p. It enables us to do the reverse operation and convert the hexdump to binary with xxd -rp. Dumping the SFDP data with hexdump -Cv is accepted, but less desirable.

  3. Dump debugfs data:

    root@1:~# cat /sys/kernel/debug/spi-nor/spi0.0/capabilities
    Supported read modes by the flash
     1S-1S-1S
      opcode            0x03
      mode cycles       0
      dummy cycles      0
     1S-1S-1S (fast read)
      opcode            0x0b
      mode cycles       0
      dummy cycles      8
     1S-1S-2S
      opcode            0x3b
      mode cycles       0
      dummy cycles      8
     1S-2S-2S
      opcode            0xbb
      mode cycles       4
      dummy cycles      0
     1S-1S-4S
      opcode            0x6b
      mode cycles       0
      dummy cycles      8
     1S-4S-4S
      opcode            0xeb
      mode cycles       2
      dummy cycles      4
     4S-4S-4S
      opcode            0x0b
      mode cycles       2
      dummy cycles      4
    
    Supported page program modes by the flash
     1S-1S-1S
      opcode    0x02
    
    root@1:~# cat /sys/kernel/debug/spi-nor/spi0.0/params
    name                sst26vf064b
    id                  bf 26 43 bf 26 43
    size                8.00 MiB
    write size          1
    page size           256
    address nbytes      3
    flags               HAS_LOCK | HAS_16BIT_SR | SOFT_RESET | SWP_IS_VOLATILE
    
    opcodes
     read               0xeb
      dummy cycles      6
     erase              0x20
     program            0x02
     8D extension       none
    
    protocols
     read               1S-4S-4S
     write              1S-1S-1S
     register           1S-1S-1S
    
    erase commands
     20 (4.00 KiB) [0]
     d8 (8.00 KiB) [1]
     d8 (32.0 KiB) [2]
     d8 (64.0 KiB) [3]
     c7 (8.00 MiB)
    
    sector map
     region (in hex)   | erase mask | flags
     ------------------+------------+----------
     00000000-00007fff |     [01  ] |
     00008000-0000ffff |     [0 2 ] |
     00010000-007effff |     [0  3] |
     007f0000-007f7fff |     [0 2 ] |
     007f8000-007fffff |     [01  ] |
    
  4. Use mtd-utils and verify that erase, read and page program operations work fine:

    root@1:~# dd if=/dev/urandom of=./spi_test bs=1M count=2
    2+0 records in
    2+0 records out
    2097152 bytes (2.1 MB, 2.0 MiB) copied, 0.848566 s, 2.5 MB/s
    
    root@1:~# mtd_debug erase /dev/mtd0 0 2097152
    Erased 2097152 bytes from address 0x00000000 in flash
    
    root@1:~# mtd_debug read /dev/mtd0 0 2097152 spi_read
    Copied 2097152 bytes from address 0x00000000 in flash to spi_read
    
    root@1:~# hexdump spi_read
    0000000 ffff ffff ffff ffff ffff ffff ffff ffff
    *
    0200000
    
    root@1:~# sha256sum spi_read
    4bda3a28f4ffe603c0ec1258c0034d65a1a0d35ab7bd523a834608adabf03cc5  spi_read
    
    root@1:~# mtd_debug write /dev/mtd0 0 2097152 spi_test
    Copied 2097152 bytes from spi_test to address 0x00000000 in flash
    
    root@1:~# mtd_debug read /dev/mtd0 0 2097152 spi_read
    Copied 2097152 bytes from address 0x00000000 in flash to spi_read
    
    root@1:~# sha256sum spi*
    c444216a6ba2a4a66cccd60a0dd062bce4b865dd52b200ef5e21838c4b899ac8  spi_read
    c444216a6ba2a4a66cccd60a0dd062bce4b865dd52b200ef5e21838c4b899ac8  spi_test
    

    If the flash comes erased by default and the previous erase was ignored, we won't catch it, thus test the erase again:

    root@1:~# mtd_debug erase /dev/mtd0 0 2097152
    Erased 2097152 bytes from address 0x00000000 in flash
    
    root@1:~# mtd_debug read /dev/mtd0 0 2097152 spi_read
    Copied 2097152 bytes from address 0x00000000 in flash to spi_read
    
    root@1:~# sha256sum spi*
    4bda3a28f4ffe603c0ec1258c0034d65a1a0d35ab7bd523a834608adabf03cc5  spi_read
    c444216a6ba2a4a66cccd60a0dd062bce4b865dd52b200ef5e21838c4b899ac8  spi_test
    

    Dump some other relevant data:

    root@1:~# mtd_debug info /dev/mtd0
    mtd.type = MTD_NORFLASH
    mtd.flags = MTD_CAP_NORFLASH
    mtd.size = 8388608 (8M)
    mtd.erasesize = 4096 (4K)
    mtd.writesize = 1
    mtd.oobsize = 0
    regions = 0