Quoting Saravana Kannan (2019-10-08 17:11:59) > Quoting Stephen Boyd: > > The property would describe what's going to this device and how it's > > integrated into the SoC. This is similar to how we describe what port is > > connected to a device with the of graph binding or how we only list the > > clk or regulator that goes to a device and not the whole path to the > > root of the respective tree. > > > > There can be a driver API that gets these port numbers out and > > constructs a path to another struct device or struct device_node. I > > imagine that 90% of the time a driver is going to request some bandwidth > > from their master port (or ports) to the DDR controller. We could either > > make the DDR controller a device that can be globally acquired or > > integrate it deeply into the API to the point that it looks for a DDR > > controller somewhere or relies on interconnect providers to tell the > > framework about the controller. > > > > TL;DR is that I don't want to have to specify paths in each and every > > node to say that some port on this device here is connected to some port > > on the DDR controller and that we want to adjust the bandwidth or QoS > > across this path. I'd like to describe a device "hermetically" by > > listing out the ports the device has. Then we can rely on the OS to > > figure out what paths to construct and change. If we need to constrain > > or tweak those paths then we can do that with the existing interconnects > > binding, but let's worry about that when we get there. > > I think I understand what you are trying to do here. Correct me if my > understanding is wrong. Each device just lists what interconnects (and their > ports) it's connected to -- let's call this device endpoints. Yes this is the ideal case. > > If a device is making bandwidth votes from itself to some other device, it just > specifies the other end point (as a device? path name?) in icc_get(). The > interconnect framework can then figure out what two interconnect ports the > icc_get() is about (by looking at the device endpoints info) and then construct > the path. > > But it's not clear how you'll handle the case where a Device-A wants to make a > bandwidth vote from a Device-B to Device-C. This is necessary for multiple > scenarios. Eg: booting a remote proc where the CPU needs to make sure the > remote proc has its path to DDR active. icc_get() can't always assume the > source is the device making the request. So, I don't think you can omit the > source of the path in the DT binding. This is one scenario, not various scenarios. For a remote proc why wouldn't we list the endpoint for the remote processor in the remote proc node in DT? That makes sense to me so I'm not following this scenario. > > If we take the above into account, would the only change in your proposal be to > list the source and destination device in DT instead of their interconnect and > ports? I don't have a strong opinion on whether this is necessary, but want to > make sure that we are all talking about the same thing. What does this mean? I would assume that if device A is using another device B, either that would be expressed in DT via a phandle property or userspace would be connecting the two devices up with each other with something like dma_buf so the driver would know the other side of the path they want to scale bandwidth on. > > Another way to look at this: There's one crucial difference between clocks and > interconnects. Given a clock controller and it's "output port", the clock that > you referring to doesn't change irrespective of what device is asking for it. > But in the case of an interconnect, if you specify just a destination > interconnect and it's port, the path that you are referring to changes based on > which device is requesting it. And if you want a device independent of > referring to a path, you need to specify the source and destination explicitly. Yes but those are use-cases that don't need to be expressed in DT. We should be able to get by with just listing the endpoints and then build the layer in the kernel to get the other side of the endpoint if it's something like DDR or another device that we want to connect the endpoint to. > > Also, if a firmware isn't used, how do you see your icc_get() proposal working > with just the "name"? In what way is it better than the current icc_get() API? If there isn't firmware and we're using platform data then I imagine we would have to have data tables listing out the endpoints of various devices, endpoint names, and the device names associated with those endpoints so we could match them up in the framework.