Hi William,This is the nand-ecc-* property, right?
In BCMBCA SoC, there is only one cs and customer design also have to use strap for the bootrom to boot up properly. They can override it with dts in linux but I don't think any customer would do that.I am not sure if I understand you comments correctly but are you >> suggesting to put this whole nand controller node into each board dts? >> We have other ip block nodes like SPI, uart in this same soc dtsi file >> too. For all the bcmbca soc dtsi I am updating here(and its board >> design), we always use the strap to for ecc setting. So I thought it >> should be okay to put brcm,nand-ecc-use-strap in the default dtsi >> file. For any board that uses the raw nand nand-ecc property, the >> board dts can do so and override the brcm,nand-ecc-use-strap setting.+ nand_controller: nand-controller@1800 {
+ #address-cells = <1>;
+ #size-cells = <0>;
+ compatible = "brcm,nand-bcm63138", >>>> "brcm,brcmnand-v7.1", "brcm,brcmnand";
+ reg = <0x1800 0x600>, <0x2000 0x10>;
+ reg-names = "nand", "nand-int-base";
+ brcm,nand-use-wp = <0>;
+ status = "disabled";
+
+ nandcs: nand@0 {
+ compatible = "brcm,nandcs";
+ reg = <0>;
+ nand-on-flash-bbt;
+ brcm,nand-ecc-use-strap;
Describing the NAND chip in a SoC DTSI does not look relevant to me.
Even more if you add something like this nand-ecc-use-strap setting
which is very board dependent.
I read Miquel's comment as meaning that the nandcs aka the NAND > chip/flash part description should be in the board .dts file, while the > controller itself can remain in the .dtsi file with its status = > "disabled" property.
Are there customer boards, that is non reference boards that might chose > a different chip select number and/or not use the strap settings?
Maybe the nand-on-flash-bbt could be possible item that customer may have to set it differently if they don't follow our reference software design.
I will move the nand-on-flash-bbt to the board dts but I would like to keep the other default nandcs settings in SoC.dsti if that is not too out of the conventional rule and Miquel is okay with it.
I think there is a global misunderstanding regarding the use of the
nand-ecc-* properties. These are not the default. The default is the OS
choice and depends on the NAND capabilities. The OS will always try to
match the closest ECC settings offered by the engine, based on the NAND
chip requirements which are discoverable. If you want to maximize your
strength, it is also possible to tell the OS with a dedicated (generic)
property. And only if you want something different, you may use theseCorrect, no change to strap is possible on real product because they are always through soldered down resister and no dip switch/jumper for ecc strap. But as the SoC requires, it is part of bootstrap each product has to set and that's how bootloader get the ecc setting as it does not have the access to the dts and the capability to auto select the ecc setting.
properties, but they should be the exception rather than the rule.
Overriding this with a strap is a bad hardware design on commercial
products IMO. I am totally fine with the idea of a strap to choose
the ECC configuration for development boards/evaluation kits, but once
you've decided which setting you want you cannot change it for the
lifetime of your project (or with a lot of difficulties) so I don't see
the point of such a strap. So really, I don't like the idea of defining
by default a variable which asks for an override of the defaults, even
though many of your customers might want to use that.
Okay I will move nand-on-flash-bbt and brcm,nand-ecc-use-strap from soc dtsi to board dts but leave the default nandcs node with compatible and reg = 0 in the dtsi as they are not design dependent and board dts can conveniently reference the nandcs node.
So, anything that is design dependent (the chip CS, ECC
configuration, etc) should go into the board DTS, and what is SoC
related hardware (like the definition of the NAND controller) should
stay in the DTSI, as properly clarified by Florian.
Thanks,
Miquèl
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