On 2/5/19 10:41 AM, Tony Lindgren wrote: > * Roger Quadros <rogerq@xxxxxx> [190205 09:40]: >> On 04/02/19 18:33, Tony Lindgren wrote: >>> >>> shrdram2: memory@10000 { >>> device_type = "memory"; >>> reg = <0x10000 0x3000>; >>> }; >> >> Shared RAM is not so straight forward. Both PRU firmwares and both application drivers >> might need to read/write here. The area split is decided by firmware design and there >> is no hardware protection to prevent from stomping on each others toes. >> >> We need a carveout based memory allocator at least I think that can do a >> allocate(base_offset, size); into shared RAM. >> >> This could be used by pru_rproc driver at firmware load time and by application drivers >> at initialization time. >> >> Thoughts? > > That sounds sane to me :) > >>> If the ti,pruss-gp-mux-sel and ti,pru-interrupt-map are >>> firmware configuration options, maybe leave them out of >>> the dts completely and make the app-node optional. >> >> Yes the app-node is optional. I will mention it. >> >> No, ti,pruss-gp-mux-sel and ti,pru-interrupt-map are not firmware options. >> But these settings are application/firmware specific. >> >> ti,pru-interrupt-map specifies the configuration to be used for the INTC interrupt >> controller. > > OK. So just to see if we have a standard solution available already.. > It sounds a bit similar to what we're doing with omap-wakeupgen.c > and stacked interrupts? I wonder if something similar might help > here? > >> ti,pruss-gp-mux-sel is used to configure this register. >> "Table 30-20. PRUSS_GPCFG0" in http://www.tij.co.jp/jp/lit/ug/spruhz7h/spruhz7h.pdf >> "29:26 PR1_PRU0_GP_MUX_SEL" >> >> It configures how the pins from the PRUSS module are routed internally >> to the various modules. Actually, that's not entirely accurate. This is an internal pinmux (not controllable per pin, but rather dictates a different sets of groups of pins at the PRUSS boundary, which are then again multiplexed at the SoC level using the standard padconf/pinmux. It is a single register per core into which you can set some values between 0 through 4 IIRC (unfortunately the values are also not uniform across the various SoCs). regards Suman >> >> see "30.2.1 PRU-ICSS I/O Interface" >> and "Table 30-1. PRU-ICSS1 I/O Signals" > > Well these are external signals for PRUSS processor (although not > necessarily external signals for the SoC). So why not handle them > with a standard pinctlr binding with #pinctrl-cells? > > Sure it may not even be the Linux pinctrl framework running on the > main SoC handling these pins, but after all you're describing > hardware for a processor. Maybe Linus W has some comments on this? > > Regards, > > Tony >