Hi Geert,
On Mon, Sep 27, 2021 at 10:46 AM Geert Uytterhoeven
<geert@xxxxxxxxxxxxxx> wrote:
>
> Hi Prabhakar,
>
> On Mon, Sep 27, 2021 at 10:52 AM Lad, Prabhakar
> <prabhakar.csengg@xxxxxxxxx> wrote:
> > On Wed, Sep 22, 2021 at 10:10 AM Wolfram Sang
> > <wsa+renesas@xxxxxxxxxxxxxxxxxxxx> wrote:
> > > This patch fixes 2 problems:
> > > [1] The output warning logs and data loss when performing
> > > mount/umount then remount the device with jffs2 format.
> > > [2] The access width of SMWDR[0:1]/SMRDR[0:1] register is wrong.
> > >
> > > This is the sample warning logs when performing mount/umount then
> > > remount the device with jffs2 format:
> > > jffs2: jffs2_scan_inode_node(): CRC failed on node at 0x031c51d4:
> > > Read 0x00034e00, calculated 0xadb272a7
> > >
> > > The reason for issue [1] is that the writing data seems to
> > > get messed up.
> > > Data is only completed when the number of bytes is divisible by 4.
> > > If you only have 3 bytes of data left to write, 1 garbage byte
> > > is inserted after the end of the write stream.
> > > If you only have 2 bytes of data left to write, 2 bytes of '00'
> > > are added into the write stream.
> > > If you only have 1 byte of data left to write, 2 bytes of '00'
> > > are added into the write stream. 1 garbage byte is inserted after
> > > the end of the write stream.
> > >
> > > To solve problem [1], data must be written continuously in serial
> > > and the write stream ends when data is out.
> > >
> > > Following HW manual 62.2.15, access to SMWDR0 register should be
> > > in the same size as the transfer size specified in the SPIDE[3:0]
> > > bits in the manual mode enable setting register (SMENR).
> > > Be sure to access from address 0.
> > >
> > > So, in 16-bit transfer (SPIDE[3:0]=b'1100), SMWDR0 should be
> > > accessed by 16-bit width.
> > > Similar to SMWDR1, SMDDR0/1 registers.
> > > In current code, SMWDR0 register is accessed by regmap_write()
> > > that only set up to do 32-bit width.
> > >
> > > To solve problem [2], data must be written 16-bit or 8-bit when
> > > transferring 1-byte or 2-byte.
> > >
> > > Signed-off-by: Duc Nguyen <duc.nguyen.ub@xxxxxxxxxxx>
> > > [wsa: refactored to use regmap only via reg_read/reg_write]
> > > Signed-off-by: Wolfram Sang <wsa+renesas@xxxxxxxxxxxxxxxxxxxx>
> > > ---
> > >
> > > Hi,
> > >
> > > I could reproduce the issue by a simple:
> > >
> > > $ echo "Hello" > /dev/mtd10
> > >
> > > The original BSP patch fixed the issue but mixed regmap-acces with
> > > ioread/iowrite accesses. So, I refactored it to use custom regmap
> > > accessors. This keeps the code more readable IMO. With this patch, my
> > > custom test cases work as well as the JFFS2 remount mentioned in the
> > > commit message. Tested on a Renesas Condor board (R-Car V3M) and a
> > > Falcon board (R-Car V3U). I send this as RFC because this is my first
> > > patch for the RPC code and hope for feedback. The BSP team has been
> > > contacted as well for comments and testing. Nonetheless, this addresses
> > > a serious issue which has caused broken boards because of writing to
> > > unintended locations. So, I'd like to see this discussed and applied
> > > soon if possible.
> > >
> > I hit the exact same issue on RZ/G2L where erase/write operation
> > screwed some random sectors and made the board un-bootable. With the
> > patch applied, read/write/erase worked as expected. Below are the logs
> > on RZ/G2L SMARC EVK.
> >
> > root@smarc-rzg2l:~# sh -x ./flash.sh
> > + cat /proc/mtd
> > dev: size erasesize name
> > mtd0: 02000000 00001000 "boot"
> > mtd1: 02000000 00001000 "user"
> > + flashcp -v sample.bin /dev/mtd1
> > Erasing blocks: 1024/1024 (100%)
> > Writing data: 4096k/4096k (100%)
> > Verifying data: 4096k/4096k (100%)
> > + dd if=/dev/urandom of=/tmp/sample.bin bs=1024 count=4096
> > 4096+0 records in
> > 4096+0 records out
> > 4194304 bytes (4.2 MB) copied, 0.0786743 s, 53.3 MB/s
> > + flash_erase -j -q /dev/mtd1 0 0
> > + mount -t jffs2 /dev/mtdblock1 /mnt
> > + cp /tmp/sample.bin /mnt
> > + ls -ltr /mnt
> > total 4096
> > -rw-r--r-- 1 root root 4194304 Sep 20 10:54 sample.bin
> > + echo 'test write'
> > + umount /mnt
> > + mount -t jffs2 /dev/mtdblock1 /mnt
> > + ls -ltr /mnt
> > total 4097
> > -rw-r--r-- 1 root root 11 Sep 20 10:54 write.txt
> > -rw-r--r-- 1 root root 4194304 Sep 20 10:54 sample.bin
> > + cat /mnt/write.txt
> > test write
> > + umount /mnt
> >
> > Tested-by: Lad Prabhakar <prabhakar.mahadev-lad.rj@xxxxxxxxxxxxxx>
>
> Might be a good idea to update the erase test to make a copy first,
> and verify that only the wanted blocks have been affected by the erase.
>
Right, I have updated my erase test. Below are logs for my erase test
(from a give offset),
root@smarc-rzg2l:~# flashcp -v sample.bin /dev/mtd1
Erasing blocks: 1024/1024 (100%)
Writing data: 4096k/4096k (100%)
Verifying data: 4096k/4096k (100%)
root@smarc-rzg2l:~# flash_erase /dev/mtd1 4096 1
Erasing 4 Kibyte @ 1000 -- 100 % complete
root@smarc-rzg2l:~# hexdump -C /dev/mtd1 | less
00000fd0 c0 2b 03 33 96 ff 87 5b f7 96 b5 a9 de 57 eb 2f |.+.3...[.....W./|
00000fe0 11 70 11 f1 71 53 48 94 67 c8 0e 53 34 76 f4 f6 |.p..qSH.g..S4v..|
00000ff0 a0 ec ed 8d 62 f3 f2 5a d0 0a 66 74 95 a7 91 7b |....b..Z..ft...{|
00001000 ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff |................|
*
00002000 ae d0 f4 f5 4b 66 b7 6f 2c 09 04 f1 10 58 40 b0 |....Kf.o,....X@.|
00002010 e5 27 6a d7 1f 8e af 8f ff 57 34 75 6d b7 7d 99 |.'j......W4um.}.|
00002020 d8 e1 88 20 1a 83 37 e3 54 df 72 76 0a ec 1e 76 |... ..7.T.rv...v|
00002030 84 5c 05 f2 88 61 72 cd 34 4a 71 62 68 b7 b0 f6 |.\...ar.4Jqbh...|
00002040 2e eb a5 d6 79 d5 4d 1a 44 26 e9 77 0d 72 fb f3 |....y.M.D&.w.r..|
00002050 36 64 5a a0 44 1a 35 14 79 69 94 78 78 34 f2 04 |6dZ.D.5.yi.xx4..|
00002060 13 91 3a 5c 07 28 61 c8 a7 82 bc f6 7f 87 d4 da |..:\.(a.........|
00002070 b4 ec 27 b6 f2 7c 07 c8 b3 d3 8b 8e 1f 5e 75 97 |..'..|.......^u.|
00002080 14 e7 ac b0 bd 3a 20 ce ed 6a be 53 21 a3 7e 64 |.....: ..j.S!.~d|
00002090 99 0b 61 f0 dd 4c f6 90 c0 aa f4 52 8c 67 05 d0 |..a..L.....R.g..|
000020a0 b8 eb 0e 1e b8 40 09 52 ac 23 57 7f bd 94 3b 7a |.....@.R.#W...;z|
000020b0 8e 8b 10 7a db bc 9f f8 15 dd 41 ac 92 cc b6 3f |...z......A....?|
000020c0 67 57 dd d0 fc f1 6e 1e 27 d8 4f 62 98 71 74 ea |gW....n.'.Ob.qt.|
000020d0 8c 62 82 50 8d ed 5b f1 a6 f1 99 7c e9 f1 8e 08 |.b.P..[....|....|
000020e0 48 c7 2d 73 83 03 96 78 f4 64 57 94 95 64 23 c2 |H.-s...x.dW..d#.|
000020f0 6f 53 32 e7 43 1b 5e 25 a8 b0 34 17 1f 33 4d f4 |oS2.C.^%..4..3M.|
00002100 30 95 91 4d f1 06 37 09 71 f3 ce 5d be f8 62 96 |0..M..7.q..]..b.|
00002110 0f d4 26 cb eb 50 a3 4c 81 6f 1c 8a e6 a2 c6 d3 |..&..P.L.o......|
Cheers,
Prabhakar
> Gr{oetje,eeting}s,
>
> Geert
>
> --
> Geert Uytterhoeven -- There's lots of Linux beyond ia32 -- geert@xxxxxxxxxxxxxx
>
> In personal conversations with technical people, I call myself a hacker. But
> when I'm talking to journalists I just say "programmer" or something like that.
> -- Linus Torvalds
