Re: [PATCH v2 0/5] mtd: spi-nor: Add support for Octal 8D-8D-8D mode

[masonccyang@xxxxxxxxxxx]

Hi Pratyush,

> > > > > 
> > > > > I posted a re-roll of my series here [0]. Could you please base 
your 
> > 
> > > > > changes on top of it? Let me know if the series is missing 
something 
> > you 
> > > > 
> > > > > need.
> > > > > 
> > > > > [0] 
> > > > 
> > 
https://lore.kernel.org/linux-mtd/20200424184410.8578-1-p.yadav@xxxxxx/
> > > > 
> > > > 
> > > > Our mx25uw51245g supports BFPT DWORD-18,19 and 20 data and xSPI 
> > profile 
> > > > 1.0,
> > > > and it comply with BFPT DWORD-19, octal mode enable sequences by 
write 
> > CFG 
> > > > Reg2 
> > > > with instruction 0x72. Therefore, I can't apply your patches.
> > > 
> > > I didn't mean apply my patches directly. I meant more along the 
lines of 
> > 
> > > edit your patches to work on top of my series. It should be as easy 
as 
> > > adding your flash's fixup hooks and its octal DTR enable hook, but 
if my 
> > 
> > > series is missing something you need (like complete Profile 1.0 
parsing, 
> > 
> > > which I left out because I wanted to be conservative and didn't see 
any 
> > > immediate use-case for us), let me know, and we can work together to 

> > > address it.
> > 
> > yes,sure!
> > let's work together to upstream the Octal 8D-8D-8D driver to mainline.
> > 
> > The main concern is where and how to enable xSPI octal mode?
> > 
> > Vignesh don't agree to enable it in fixup hooks and that's why I 
patched
> > it to spi_nor_late_init_params() and confirmed the device support xSPI 

> > Octal mode after BFPT DWORD-19 and xSPI pf 1.0 have been parsed.
> 
> My series does it in a octal_dtr_enable() hook, which is called from 
> spi_nor_init(). Just like how it is done for quad_enable(). So, the 
> expectation is that you populate the octal DTR hook for your flash in a 
> flash-specific hook (like the default_init() fixup hook). Example of 
> this can be seen in patches 15 and 16 of my series in 
> spi_nor_cypress_octal_enable() and spi_nor_micron_octal_dtr_enable().
> 
> An alternative for this would be a generic way to enable these flashes, 
> like from BFPT DWORD 19. That doesn't work for either of the flashes I 
> had, so I didn't implement it because I wouldn't be able to test it. If 
> it works for you, please implement it. I don't mind doing it myself, but 

> then you would need to help me test it.
> 
> > I can't apply your patches to enable xSPI Octal mode for mx25uw51245g 
> > because your patches set up Octal protocol first and then using Octal 
> > protocol to write Configuration Register 2(CFG Reg2). I think driver
> > should write CFG Reg2 in SPI 1-1-1 mode (power on state) and make sure
> > write CFG Reg 2 is success and then setup Octa protocol in the last.
> 
> Register writes should work in 1S mode, because nor->reg_proto is only 
> set _after_ 8D mode is enabled (see spi_nor_octal_dtr_enable()). In 
> fact, both patch 15 and 16 in my series use register writes in 1S mode.

but I didn't see driver roll back "nor->read/write_proto = 1" 
if xxx->octal_dtr_enable() return failed!

> 
> > As JESD216F description on BFPT DOWRD 19th, only two way to enable 
> > xSPI Octal mode;
> > one is by two instruction: issue instruction 06h(WREN) and then E8h.
> > the other is issue instruction 06h, then issue instruction 72h (Write
> > CFG Reg2), address 0h and data 02h (8D-8D-8D).
> > 
> > Let our patches comply with this. you may refer to my patches
> > [v2,3/5] mtd: spi-nor: Parse BFPT DWORD-18, 19 and 20 for Octal 
8D-8D-8D 
> > mode
> 
> The Cypress Semper S28 flash family says that it does not have an Octal 
> Enable bit (i.e, the Octal Enable Requirements field is 0), even though 
> it does have an Octal Enable bit. That bit resides in CFG Reg 5. And the 

> Micron MT35ABA family, doesn't have DWORD19 in their BFPT at all. So, 
> the two flashes I need to support don't have this. At the very least, we 

> need to provide a flash-specific way to enable Octal DTR mode, along 
> with an xSPI compliant way.
> 
> So I suggest that we have two separate type of 8D enable functions. One 
> type which is generic and works on any xSPI complint device, like the 
> spi_nor_cfg_reg2_octal_enable() in your patch. The other would be 
> flash-specific ones, which flashes can set in their fixup hooks.

okay, sure.

> 
> >                  /* Octal mode enable sequences. */
> >                  switch (bfpt.dwords[BFPT_DWORD(19)] & 
> > BFPT_DWORD19_OCTAL_SEQ_MASK) {
> >                  case BFPT_DWORD19_TWO_INST:
> > +       ----> to patch here.
> >                                  break;
> >                  case BFPT_DWORD19_CFG_REG2:
> >                                  params->xspi_enable = 
> > spi_nor_cfg_reg2_octal_enable;
> >                                  break;
> >                  default:
> >                                  break;
> >                  }
> > 
> > 
> > > 
> > > > I quickly went through your patches but can't reply them in each 
your 
> > > > patches.
> > > > 
> > > > i.e,.
> > > > 1) [v4,03/16] spi: spi-mem: allow specifying a command's extension
> > > > 
> > > > -                                u8 opcode;
> > > > +                                u16 opcode;
> > > > 
> > > > big/little Endian issue, right? 
> > > > why not just u8 ext_opcode;
> > > > No any impact for exist code and actually only xSPI device use 
> > extension 
> > > > command.
> > > 
> > > Boris already explained the reasoning behind it.
> > 
> > yup, I got his point and please make sure CPU data access.
> > 
> > i.e,.
> > Fix endianness of the BFPT DWORDs and xSPI in sfdp.c
> > 
> > and your patch,
> > +                                ext = spi_nor_get_cmd_ext(nor, op);
> > +                                op->cmd.opcode = (op->cmd.opcode << 
8) | 
> > ext;
> > +                                op->cmd.nbytes = 2;
> > 
> > I think maybe using u8 opcode[2] could avoid endianness.
> 
> Again, thanks Boris for answering this. FWIW, I don't see anything wrong 

> with his suggestion.
> 
> To clarify a bit more, the idea is that we transmit the opcode MSB 
> first, just we do for the address. Assume we want to issue the command 
> 0x05. In 1S mode, we set cmd.opcode to 0x05. Here cmd.nbytes == 1. Treat 

> is as a 1-byte value, so the MSB is the same as the LSB. We directly 
> send 0x5 on the bus.

There are many SPI controllers driver use "op->cmd.opcode" directly,
so is spi-mxic.c.

i.e,.
ret = mxic_spi_data_xfer(mxic, &op->cmd.opcode, NULL, op->cmd.nbytes);

> 
> If cmd.nbytes == 2, then the opcode would be 0x05FA (assuming extension 
> is invert of command). So we send the MSB (0x05) first, and LSB (0xFA) 
> next.

My platform is Xilinx Zynq platform which CPU is ARMv7 processor.

In 1-1-1 mode, it's OK to send 1 byte command by u16 opcode but
in 8D-8D-8D mode, I need to patch

i.e.,
op->cmd.opcode = op->cmd.opcode | (ext << 8);

rather than your patch.


> 
> In all this, I don't see where endianness comes into the picture. While 
> the _location_ of the MSB in memory may change because of the 
> endianness, the MSB of the _number_ will always be 0x05. So, regardless 
> of the endianness, the operation (opcode >> 8) should always give 0x05 
> and (opcode & F) should always give 0xFA. Endianness is just how you 
> represent these values in memory.
> 

thanks & best regards,
Mason


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