On 5/8/2015 1:47 PM, Brian Norris wrote: > On Fri, May 08, 2015 at 09:49:02PM +0200, Arnd Bergmann wrote: >> On Friday 08 May 2015 12:38:50 Brian Norris wrote: >>> On Fri, May 08, 2015 at 03:41:10PM +0200, Arnd Bergmann wrote: > [...] > >>> To be clear, since I'm not sure if you're confused below: >>> >>> * Cygnus is a family of chips using the IPROC architecture, coming from >>> the Infrastructure/Networking Group; there are BCMxxxx numbers noted >>> in arch/arm/mach-bcm/Kconfig for them, but I usually just refer to >>> the Cygnus family or the IPROC architecture. >>> >>> * BCM63xxx is a class of DSL chips from the Broadband/Connectivity >>> Group. >> >> Thanks for the clarification, I think that is roughly what I thought it was, >> but I'm still not sure about brcmstb. Is that related to bcm63xxx or separate? > > I think arch/arm/mach-bcm/Kconfig has the best summary. brcmstb is > separate; BCM7xxx is generally (always?) Set-Top Box. > > Another potentially confusing point: the main driver is named > 'brcsmtb_nand' since the NAND core (and driver) originated from STB > chips. But that core was applied to other non-STB chips, and so the > driver has been extended. > >>>> bcm63138_nand_driver with its own probe() function that calls the >>>> common probe function. That would make the soc specific parts >>>> better contained and match how we normally do abstractions of >>>> similar drivers. >>> >>> OK, so I can imagine this might require changing the DT binding a bit [1] >>> (is that your goal?). But what's the intended software difference? [2] >>> I'll still be passing around the same sorts of callbacks from the >>> 'iproc_nand' probe to the common probe function. > > ^^ before getting bogged down on the DT details (which can be changed > independently), I'd like to address this point. > >>> Brian >>> >>> [1] e.g.: >>> >>> nand: nand@18046000 { >>> compatible = "brcm,iproc-nand", "brcm,brcmnand-v6.1", "brcm,brcmnand"; >>> reg = <0x18046000 0x600>, <0xf8105408 0x600>, <0x18046f00 0x20>; >>> reg-names = "nand", "iproc-idm", "iproc-ext"; >>> interrupts = <GIC_SPI 69 IRQ_TYPE_LEVEL_HIGH>; >>> >>> #address-cells = <1>; >>> #size-cells = <0>; >>> >>> brcm,nand-has-wp; >>> }; >>> >>> This captures the extra "iproc-*" register ranges. Then we could have >>> the iproc_nand driver bind against "brcm,iproc-nand", then call into the >>> common probe, which would then accept/reject based on >>> "brcm,brcmnand-vX.Y". >>> >>> [2] The DT structure from [1] could actually accommodate either driver >>> structure just fine. So maybe that means it's a better hardware >>> description? >> >> Yes, I think this makes sense overall. Regarding the specific example, can you >> clarify how the register areas in iproc are structured? >> >> The 0xf8105408 and 0x18046f00 start addresses are not aligned to large powers >> of two, which often indicates that they are part of some other, larger, >> unit that might need to have a driver of its own, so before we specify >> a binding like the one you proposed above I'd like to make sure we're not >> getting ourselves into trouble later. > > I may want the Cygnus guys to speak up here, partly for technical > expertise and partly to know how much they care to share... > > <0xf8105408 0x600>: covers a series of NAND_IDM registers. NAND has a > few bits we don't care about (for debugging, logging, and resetting), as > well as its interrupt enable bits. The adjacent blocks cover similar IDM > blocks for other cores (SPI, PNOR, DDR), and they are similarly > unaligned. Not sure why, exactly; probably just a compact layout. Yes, starting from 0xf8105408, within the range of 0x600, there are various NAND_IDM registers scattered, which is indeed a very weird register layout. Like Brian said, most of those NAND_IDM registers are for debugging, logging, or status reporting. As of today, we only care about the first register, that contains a bunch of bits that allow you to configure the endianness of the AXI/APB bus, enabling NAND interrupts and clocks. > > <0x18046f00 0x20>: a series of 8 NAND interrupt registers, each word > containing a single bit representing status/clear. There is nothing > between the "nand" range and this range, and the SPI core register range > follows. Correct. > > So I think these are pretty clearly-delineated register ranges for NAND, > and the alignment is not really missing anything. Adjacent hardware > (e.g., SPI) is independent, though pieces look similar. For one, it has > similar: > > * interrupt enable bits in the IDM range (0xf8106408 to 0xf8106a00); > and > * interrupt status/clear following the SPI block (0x180473a0 to > 0x180473b8) > > Brian > -- To unsubscribe from this list: send the line "unsubscribe devicetree" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html