[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [early RFC] ARM PCI Passthrough design document
On Tue, Jan 31, 2017 at 05:09:53PM +0000, Julien Grall wrote: > Hi Edgar, > > Thank you for the feedbacks. Hi Julien, > > On 31/01/17 16:53, Edgar E. Iglesias wrote: > >On Wed, Jan 25, 2017 at 06:53:20PM +0000, Julien Grall wrote: > >>On 24/01/17 20:07, Stefano Stabellini wrote: > >>>On Tue, 24 Jan 2017, Julien Grall wrote: > >>For generic host bridge, the initialization is inexistent. However some host > >>bridge (e.g xgene, xilinx) may require some specific setup and also > >>configuring clocks. Given that Xen only requires to access the configuration > >>space, I was thinking to let DOM0 initialization the host bridge. This would > >>avoid to import a lot of code in Xen, however this means that we need to > >>know when the host bridge has been initialized before accessing the > >>configuration space. > > > > > >Yes, that's correct. > >There's a sequence on the ZynqMP that involves assiging Gigabit Transceivers > >to PCI (GTs are shared among PCIe, USB, SATA and the Display Port), > >enabling clocks and configuring a few registers to enable ECAM and MSI. > > > >I'm not sure if this could be done prior to starting Xen. Perhaps. > >If so, bootloaders would have to know a head of time what devices > >the GTs are supposed to be configured for. > > I've got further questions regarding the Gigabit Transceivers. You mention > they are shared, do you mean that multiple devices can use a GT at the same > time? Or the software is deciding at startup which device will use a given > GT? If so, how does the software make this decision? Software will decide at startup. AFAIK, the allocation is normally done once but I guess that in theory you could design boards that could switch at runtime. I'm not sure we need to worry about that use-case though. The details can be found here: https://www.xilinx.com/support/documentation/user_guides/ug1085-zynq-ultrascale-trm.pdf I suggest looking at pages 672 and 733. > > >> - For all other host bridges => I don't know if there are host bridges > >>falling under this category. I also don't have any idea how to handle this. > >> > >>> > >>>Otherwise, if Dom0 is the only one to drive the physical host bridge, > >>>and Xen is the one to provide the emulated host bridge, how are DomU PCI > >>>config reads and writes supposed to work in details? > >> > >>I think I have answered to this question with my explanation above. Let me > >>know if it is not the case. > >> > >>> How is MSI configuration supposed to work? > >> > >>For GICv3 ITS, the MSI will be configured with the eventID (it is uniq > >>per-device) and the address of the doorbell. The linkage between the LPI and > >>"MSI" will be done through the ITS. > >> > >>For GICv2m, the MSI will be configured with an SPIs (or offset on some > >>GICv2m) and the address of the doorbell. Note that for DOM0 SPIs are mapped > >>1:1. > >> > >>So in both case, I don't think it is necessary to trap MSI configuration for > >>DOM0. This may not be true if we want to handle other MSI controller. > >> > >>I have in mind the xilinx MSI controller (embedded in the host bridge? [4]) > >>and xgene MSI controller ([5]). But I have no idea how they work and if we > >>need to support them. Maybe Edgar could share details on the Xilinx one? > > > > > >The Xilinx controller has 2 dedicated SPIs and pages for MSIs. AFAIK, > >there's no > >way to protect the MSI doorbells from mal-configured end-points raising > >malicious EventIDs. > >So perhaps trapped config accesses from domUs can help by adding this > >protection > >as drivers configure the device. > > > >On Linux, Once MSI's hit, the kernel takes the SPI interrupts, reads > >out the EventID from a FIFO in the controller and injects a new IRQ into > >the kernel. > > It might be early to ask, but how do you expect MSI to work with DOMU on > your hardware? Does your MSI controller supports virtualization? Or are you > looking for a different way to inject MSI? MSI support in HW is quite limited to support domU and will require SW hacks :-( Anyway, something along the lines of this might work: * Trap domU CPU writes to MSI descriptors in config space. Force real MSI descriptors to the address of the door bell area. Force real MSI descriptors to use a specific device unique Event ID allocated by Xen. Remember what EventID domU requested per device and descriptor. * Xen or Dom0 take the real SPI generated when device writes into the doorbell area. At this point, we can read out the EventID from the MSI FIFO and map it to the one requested from domU. Xen or Dom0 inject the expected EventID into domU Do you have any good ideas? :-) Cheers, Edgar > > > > >I hope that helps! > > It helped thank you! > > Cheers, > > -- > Julien Grall _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx https://lists.xen.org/xen-devel
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