On Thursday 22 August 2013 04:12 AM, Mike Turquette wrote: > Quoting Santosh Shilimkar (2013-08-21 06:16:33) >> On Tuesday 20 August 2013 10:22 PM, Mike Turquette wrote: >>> Quoting Santosh Shilimkar (2013-08-20 15:54:15) >>>> On Tuesday 20 August 2013 06:41 PM, Mike Turquette wrote: >>>>> Quoting Santosh Shilimkar (2013-08-20 14:55:56) >>>>>> On Tuesday 20 August 2013 05:30 PM, Mike Turquette wrote: >>>> >>>> [...] >>>> >>>>>>>> They are bit different w.r.t OMAP. LPSC itself is the clock control of the >>>>>>>> IP. The LPSC number in the bindings is actually the specific number which >>>>>>>> is used to reach to the address space of the clock control. One can view >>>>>>>> that one as clock control register index. >>>>>>> >>>>>>> Thanks for the information. I have a further question about then: are >>>>>>> the LPSC clocks really module clocks that belong to the IP that they are >>>>>>> gating? >>>>>>> >>>>>> LPSC controls the clock enable/disable to the IP/module so answer is yes. >>>>>> In certain cases LPSC controls clock to more than one IP as well. >>>>>> >>>>>>> If so then they could be defined within the node defining their parent >>>>>>> IP. That might be enough to get rid of the LPSC index value. Again I >>>>>>> might be over-engineering it. Just trying to get an understanding. >>>>>>> >>>>>> Am not sure I follow you here on not having the LPSC index. Sorry. >>>>> >>>>> How are the 'reg' property and the 'lpsc' property related? Does the >>>>> lpsc property modify the register address used to access the clock >>>>> control bits? >>>>> >>>> Yes it does. Currently all nodes use fix address and then lpsc is >>>> used as an index. >>> >>> Ok cool. Well the reason I brought that up was because I even had the >>> idea to define these module clocks within the module nodes that own them >>> in DT. I am way outside of my DT knowledge at this point but I wonder >>> if the following type of binding is possible: >>> >>> module: module@4a308200 { >>> #address-cells = <1>; >>> #size-cells = <1>; >>> reg = <0x4a308200 0x1000>; >>> >>> clock { >>> #clock-cells = <0>; >>> compatible = "keystone,psc-clk"; >>> clocks = <&chipclk3>; >>> clock-output-names = "debugss_trc"; >>> reg = <0x0256>; >>> pd = <1>; >>> }; >>> }; >>> >>> Again, my DT knowledge is pretty limited, but could the reg property of >>> the clock be directly affected by the parent node? That seems like it >>> could nicely model what the hardware is really doing. >>> >> The module(I assume you mean IP here) reg address space is separate than >> that used for clock control so that doesn't fit as such. Traditionally >> clock controls even though targeted for specific modules sits in different >> control as at least seen on OMAP and Keystone. OCP wrappers on OMAP >> were bit of exceptions but they were little bit of glue logic without >> much control within the address space. > > Great, you perfectly answered my questions. I think that assigning the > "final" address to the 'reg' property is the right way to go (fixed > address + LPSC index). > Thanks Mike. Regards, Santosh -- 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