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SubjectRe: [[LINUX PATCH v10] 3/4] Documentation: nand: pl353: Add documentation for controller and driver
On Thu, 21 Jun 2018 12:12:30 +0530
Naga Sureshkumar Relli <naga.sureshkumar.relli@xilinx.com> wrote:

> Added notes about the controller and driver.
>
> Signed-off-by: Naga Sureshkumar Relli <naga.sureshkumar.relli@xilinx.com>
> ---
> Changes in v10:
> - None
> Changes in v9:
> - Addressed the comments given by Miquel and Randy
> Changes in v8
> - None
> Changes in v7:
> - None
> Changes in v6:
> - None
> Changes in v5:
> - Fixed the review comments
> Changes in v4:
> - None
> ---
> Documentation/mtd/nand/pl353-nand.txt | 99 +++++++++++++++++++++++++++++++++++
> 1 file changed, 99 insertions(+)
> create mode 100644 Documentation/mtd/nand/pl353-nand.txt

Can we put these information directly in the driver instead of having
yet another place where we have things partially documented? I just
discovered a doc for the pxa NAND controller in this directory because
of this patch, which kind of proves my point :-).

>
> diff --git a/Documentation/mtd/nand/pl353-nand.txt b/Documentation/mtd/nand/pl353-nand.txt
> new file mode 100644
> index 0000000..c352c87
> --- /dev/null
> +++ b/Documentation/mtd/nand/pl353-nand.txt
> @@ -0,0 +1,99 @@
> +This document provides some notes about the ARM pl353 SMC controller used in
> +Zynq SOC and confined to NAND specific details.
> +
> +Overview of the controller
> +==========================
> + The SMC (PL353) supports two memory interfaces:
> + Interface 0 type SRAM.
> + Interface 1 type NAND.
> + This configuration supports the following configurable options:
> + . 32-bit or 64-bit AXI data width
> + . 8-bit, 16-bit, or 32-bit memory data width for interface 0
> + . 8-bit, or 16-bit memory data width for interface 1
> + . 1-4 chip selects on each interface
> + . SLC ECC block for interface 1
> +
> +For more information, refer the below link for TRM
> +http://infocenter.arm.com/help/topic/com.arm.doc.ddi0380g/DDI0380G_smc_pl350_series_r2p1_trm.pdf
> +
> +NAND memory accesses
> +====================
> + . Two phase NAND accesses
> + . NAND command phase transfers
> + . NAND data phase transfers
> +
> +Two phase NAND accesses
> + The SMC defines two phases of commands when transferring data to or from
> +NAND flash.
> +
> +Command phase
> + Commands and optional address information are written to the NAND flash.
> +The command and address can be associated with either a data phase operation to
> +write to or read from the array, or a status/ID register transfer.
> +
> +Data phase
> + Data is either written to or read from the NAND flash. This data can be either
> +data transferred to or from the array, or status/ID register information.
> +
> +NAND AXI address setup
> + AXI address Command phase Data phase
> + [31:24] Chip address Chip address
> + [23] NoOfAddCycles_2 Reserved
> + [22] NoOfAddCycles_1 Reserved
> + [21] NoOfAddCycles_0 ClearCS
> + [20] End command valid End command valid
> + [19] 0 1
> + [18:11] End command End command
> + [10:3] Start command [10] ECC Last
> + [9:3] Reserved
> + [2:0] Reserved Reserved
> +
> +ECC
> +===
> + It operates on a number of 512 byte blocks of NAND memory and can be
> +programmed to store the ECC codes after the data in memory. For writes,
> +the ECC is written to the spare area of the page. For reads, the result of
> +a block ECC check are made available to the device driver.
> +
> +------------------------------------------------------------------------
> +| n * 512 blocks | extra | ecc | |
> +| | block | codes | |
> +------------------------------------------------------------------------
> +
> +The ECC calculation uses a simple Hamming code, using 1-bit correction 2-bit
> +detection. It starts when a valid read or write command with a 512 byte aligned
> +address is detected on the memory interface.
> +
> +Driver details
> +==============
> + The NAND driver has dependency with the pl353_smc memory controller
> +driver for initializing the NAND timing parameters, bus width, ECC modes,
> +control and status information.
> +
> +Since the controller expects that the chip select bit would be cleared for the
> +last data transfer i.e last 4 data bytes, the existing nand page
> +read/write routines for soft ECC and ECC none modes will not work. So, in order
> +to make this driver work, it always updates the ECC mode as HW ECC and
> +implements the page read/write functions for supporting the SW ECC.
> +i.e. There is a limitation in SMC controller, that we must set ECC LAST on
> +last data phase access, to tell ECC block not to expect any data further.
> +Ex: When number of ECC STEPS are 4, then till 3 we will write to flash
> +using SMC with HW ECC enabled. And for the last ECC STEP, we will subtract
> +4bytes from page size, and will initiate a transfer. And the remaining 4 as
> +one more transfer with ECC_LAST bit set in NAND data phase register to notify
> +ECC block not to expect any more data. The last block should be align with end
> +of 512 byte block. Because of this limitation, we are not using core routines.
> +
> +HW ECC mode:
> + Up to 2K page size is supported and beyond that it returns
> +-ENOTSUPPORT error. If the flash has on-die ECC controller then the
> +priority is given to the on-die ECC controller. Also the current
> +implementation has support for up to 64 bytes of OOB data.
> +
> +SW ECC mode:
> + It supports all the page sizes. But since, Zynq SOC bootrom uses
> +HW ECC for the devices that have page <= 2K. so, When the kernel is not
> +aware of the ECC mode, it uses HW ECC by default.
> +
> +For devicetree binding information please refer to the below dt binding file
> +Documentation/devicetree/bindings/memory-controllers/pl353-smc.txt.

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