[PATCH 0/4] mtd: spi-nor: add a new framework for SPI NOR

Sourav Poddar sourav.poddar at ti.com
Tue Dec 3 10:16:21 EST 2013


Dear Marek Vasut,
On Tuesday 03 December 2013 08:39 PM, Marek Vasut wrote:
> Dear Sourav Poddar,
>
>> Dear Marek Vasut,
>>
>> On Tuesday 03 December 2013 07:49 PM, Marek Vasut wrote:
>>> Dear Sourav Poddar,
>>>
>>>> Dear Marek Vasut,
>>>>
>>>> On Tuesday 03 December 2013 07:12 PM, Marek Vasut wrote:
>>>>> Dear Sourav Poddar,
>>>>>
>>>>>> Dear Marek Vasut,
>>>>>>
>>>>>> On Tuesday 03 December 2013 05:29 AM, Marek Vasut wrote:
>>>>>>> Dear Sourav Poddar,
>>>>>>>
>>>>>>>> Dear Marek Vasut,
>>>>>>>>
>>>>>>>> On Wednesday 27 November 2013 03:36 PM, Marek Vasut wrote:
>>>>>>>>> Dear Sourav Poddar,
>>>>>>>>>
>>>>>>>>>> Dear Marek Vasut, Huang,
>>>>>>>>>>
>>>>>>>>>> On Wednesday 27 November 2013 02:57 PM, Marek Vasut wrote:
>>>>>>>>>>> Dear Huang Shijie,
>>>>>>>>>>>
>>>>>>>>>>>> 1.) Why add a new framework for SPI NOR?
>>>>>>>>>>>>
>>>>>>>>>>>>         The SPI-NOR controller such as Freescale's Quadspi
>>>>>>>>>>>>         controller is working in a different way from the SPI
>>>>>>>>>>>>         bus. It should knows the NOR commands to find the right
>>>>>>>>>>>>         LUT sequence. Unfortunately, the current code can not
>>>>>>>>>>>>         meet this requirement.
>>>>>>>>>>> Is there any kind of documentation for this controller available?
>>>>>>>>>>> I cannot quite understand how this controller works and why can
>>>>>>>>>>> it not be used with our current infrastructure.
>>>>>>>>>> I do have a similar requirement where my controller need to be
>>>>>>>>>> configured from slave info. I have submiited a series in the mtd
>>>>>>>>>> list adding that portion
>>>>>>>>>> of handling such cases. Here, is the patch which specific to
>>>>>>>>>> m25p80 part. http://patchwork.ozlabs.org/patch/294285/
>>>>>>>>>>
>>>>>>>>>> The whole series can be found here:
>>>>>>>>>> https://www.mail-archive.com/linux-omap@vger.kernel.org/msg98691.h
>>>>>>>>>> tm l
>>>>>>>>> Is this TI QSPI the same thing as the Altera QSPI controller please
>>>>>>>>> ?
>>>>>>>> No, its differenet.
>>>>>>>>
>>>>>>>>> Otherwise, I seriously believe you and Huang should work on a
>>>>>>>>> common infrastructure. I would first like to understand how is the
>>>>>>>>> controller in DRA7xx different from regular SPI controller though.
>>>>>>>>> Is there any kind of documentation I could study please?
>>>>>>>> Sorry, we dont have a public document yet.
>>>>>>> Sorry for the delayed reply. I am processing the input on the QSPI
>>>>>>> and I'm finally starting to understand what's going on in here.
>>>>>> Thanks for the response.
>>>>>>
>>>>>>>> Though, this is what ti qspi contoller has
>>>>>>>>
>>>>>>>> It supports two modes of operation, one is SPI mode(normal), other
>>>>>>>> is the memory mapped read mode.
>>>>>>>>
>>>>>>>> For SPI mode, the state machine remains the same as it is with other
>>>>>>>> spi controller
>>>>>>>> available.
>>>>>>>>
>>>>>>>> For memory mapped, there is something more which we need to do
>>>>>>>> around ..
>>>>>>>>
>>>>>>>> 1. There is a qspi "set up" register available, which needs to be
>>>>>>>> filled with
>>>>>>>>
>>>>>>>>           information like flash opcode, dummy bytes etc. In short,
>>>>>>>>           flash
>>>>>>>>
>>>>>>>> specific
>>>>>>>>
>>>>>>>>           details.
>>>>>>>>
>>>>>>>> 2   if the above register is configured with the required opcodes,
>>>>>>>> then whenever
>>>>>>>>
>>>>>>>>           we need to use memory mapped operations, we need to do is
>>>>>>>>           to
>>>>>>>>
>>>>>>>> switch our
>>>>>>>>
>>>>>>>>           qspi controller to memory mapped mode.
>>>>>>>>
>>>>>>>>          Switching of this mode to memory mapped needs
>>>>>>>>
>>>>>>>>           a )  write to a particular qspi register
>>>>>>>>           b)   write to control module(optional based on SOC).
>>>>>>>>
>>>>>>>> 3. Once the above steps are configured, then the flash data will be
>>>>>>>> mapped to a
>>>>>>>>
>>>>>>>>          particular memory address(SOC specific) from where the flash
>>>>>>>>          data
>>>>>>>>
>>>>>>>> can be read.
>>>>>>> OK, but is the memory mapped mode of any use (but for booting I
>>>>>>> suppose) ? How does it handle large SPI NOR flashes (we have spansion
>>>>>>> devices as big as 128MiB), does it really hog a _large_ amount of
>>>>>>> address space from the CPU address space ? Or is the operation
>>>>>>> somehow indexed ? Why is it better than using DMA?
>>>>>> Memory mapped will be of use whenever we try to read the flash
>>>>>> content. Instead of going through the entire SPI framework, and
>>>>>> raising interrupts, we can
>>>>>> memcpy the flash contents. I am using it for mounting a jffs2
>>>>>> filesystem.
>>>>>>
>>>>>> For me the memory mapped regions are like in the range 5c000000 -
>>>>>> 5fffffff, so
>>>>>> I can handle flash as large as 64MB.
>>>>>>
>>>>>> As far as its comparison with DMA is concerned, I cant comment much
>>>>>> about it.
>>>>>> My Qspi controller does not support DMA :(:(. So, memory mapped
>>>>>> becomes the best option option for me.
>>>>> OK, understood. So to sling large chunks of memory from SPI NOR to your
>>>>> DRAM, you need to issue these two steps in a loop:
>>>>>
>>>>> 1) write into the controller register the starting address of the SPI
>>>>> flash which you want to have available via the mmap interface
>>>>> 2) memcpy() from this mmaped area to DRAM
>>>>>
>>>>> correct? Won't the second step be pretty CPU-intensive
>>>> No, we dont need to write the starting address in any register.
>>> OK, but how does this handle for example Spansion S70FL01GS , which is 1
>>> GBit SPI NOR (128MB) if your memory map window is only 64MB?
>> So, the code added in m25p80 does not care about the flash size. It
>> works for me
>> for 64MB flash spansion (S25fl256s) and Macronix( mx66l51235l, 128 MB)
>> flash.
>> That memory mapped region info will from device tree. You can see
>> patch16/17) of my
>> series.
>> so in m25p80_read,
>>    memcpy(buf, base + from, len)
>> where,
>> base= memmaped base region
>>            ex: ioremap(0x5c000000)
>>
>> len =  can be anything, (64mb, 128 mb etc..). Just we need to
>> make sure that we have ioremapped the required region through dt.
>>
>> For me, SOC takes care of the memory mapped region required.
>>
>> DRA7xx board with 64mb spansion flash has mmap region (5c000000 - 5fffffff)
>> AM43x board with 128mb macronix flash has mmap region (30000000 -
>> 33fffffff)
> You mean 0x3000_0000 - 0x33ff_ffff (with one less 'f'), or am I wrong? But
> 0x0400_0000 is only 64MiB, how can this map 128MiB SPI NOR? I am still not
> connecting with you here, I am sorry.
>
Sorry on my side for confusing you. I got confused with macronix
flash sheet. Actually, here also the flash is 64MB, for which my SOC has
the required memory map address space reserved.
> Does the QSPI controller simply chomp away N MiB of CPU address space? How big
> is the maximum N here ? I was under the impression that N=64 , but now I am a
> bit confused by your claim that you can use 128 MiB SPI NOR.
>
Yes, and for my SOC(DRA7x and am43x), its 64MB.
>>>> 1. we need to write opcodes(flash specific) in a qspi set up register.
>>>> 2. Switch to mmap mode using qspi SWITCH register.
>>>>
>>>> Memory mapped address need to be avilable though to m25p80_read api to
>>>> do memcpy, which is currently done by get_buf api.
>>> OK, got it.
>>>
>>>> We dont need to do the steps in a loop.
>>>> Point1 above is one time configurable.
>>>> point2 above need to be done whenever we want to use mmap operations.
>>> OK, but copying the SPI NOR will be pretty CPU intensive, correct? You'd
>>> need to do memcpy() on a full 64MB of stuff on the CPU. I mean, that's
>>> what we had DMA for thus far, so the CPU can do more useful things.
>> Yes, but there is no DMA available for my controller.
> OK, got it, thanks for explaining!




More information about the linux-arm-kernel mailing list