On 25/08/2017 09:54, Marc Zyngier wrote: > On Thu, Aug 24 2017 at 10:53:16 pm BST, Mason <slash.tmp@xxxxxxx> wrote: >> On 24/08/2017 20:35, Ard Biesheuvel wrote: >>> On 24 August 2017 at 18:51, Marc Gonzalez wrote: >>>> On 24/08/2017 19:04, Bjorn Helgaas wrote: >>>>> On Tue, Aug 22, 2017 Marc Zyngier wrote: >>>>>> Marc Gonzalez wrote: >>>>>>> On 22/08/2017 18:29, Marc Zyngier wrote: >>>>>>>> On 22/08/17 15:56, Marc Gonzalez wrote: >>>>>>>> >>>>>>>>> #define SMP8759_MUX 0x48 >>>>>>>>> #define SMP8759_TEST_OUT 0x74 >>>>>>>>> +#define SMP8759_STATUS 0x80 >>>>>>>>> +#define SMP8759_ENABLE 0xa0 >>>>>>>>> +#define SMP8759_DOORBELL 0xa002e07c >>>>>>>> >>>>>>>> Why is this hardcoded and not coming from the device-tree, just like any >>>>>>>> other address property? >>>>>>> >>>>>>> Since this bus address is software-configurable, I didn't think >>>>>>> it belonged in the DT. Also, I didn't see anything similar in >>>>>>> other binding docs, especially >>>>>>> >>>>>>> Documentation/devicetree/bindings/interrupt-controller/msi.txt >>>>>> >>>>>> If that's software configurable, how on Earth did you pick the address? >>>>>> How do you ensure that it doesn't conflict with DMA? How is it >>>>>> configured into the RC? >>>>> >>>>> But we *do* need to resolve this. This does seem like an address that >>>>> shouldn't be hard-coded into the driver. Since this driver is >>>>> programming the address into an MSI message, but not into the receiver >>>>> of that message, there's a coordination issue between this driver and >>>>> whatever other software does that receiver configuration. >>>> >>>> OK. I'll move the doorbell address to the DT for v11. >>>> >>>> What property should be used for this address? >>>> >>>> sigma,doorbell ? >>>> >>>> Or maybe I can put it in reg, since I have a 1:1 mapping >>>> between bus and cpu addresses? >>>> >>>> git grep -i doorbell arch/arm/boot/dts/ arch/arm64/boot/dts/ >>>> returns nothing. >>> >>> You haven't answered the question yet: you stated that the doorbell >>> address is software configurable, yet your code does not seem to >>> configure it. It only returns the doorbell address so that it gets >>> communicated to the downstream devices. >>> >>> So how does the RC know which address is special, so it can trigger on >>> inbound writes hitting that address and assert the SPI ? >> >> The CPU address of the MSI doorbell address is 0x2e07c >> i.e. within the reg space of the PCIe controller block. > > Which you describe in DT already, right? So why aren't you using an > offset in this region as your MSI ddorbell (potentially applying an > offset, see below)? > > >> As I discussed back in March, the RC implements an odd >> bus-to-system mapping. >> >> RC BAR0 defines a window in PCI address space (max 1GB). >> Accesses outside this window are silently ignored. >> The window is divided into 8 "regions" and there are 8 >> registers defining the offset into CPU space. >> >> In pseudo code, assuming pci_address is within the >> window defined by BAR0: >> >> cpu_address map_bus_to_system(pci_address) >> { >> temp = pci_address - BAR0.base >> region = temp / region_size >> offset = temp % region_size >> cpu_address = region_reg[region] + offset >> return cpu_address >> } >> >> The current setup is: >> >> DRAM at 0x80000000-0xa0000000 >> BAR0.base = 0x80000000 >> REGION[0] = 0x80000000 >> REGION[1] = 0x88000000 >> REGION[2] = 0x90000000 >> REGION[3] = 0x98000000 >> REGION[4] = 0x0 >> >> (This map means 1:1 identity for DRAM addresses.) >> >> Thus when a device writes to 0xa002e07c (region 4) >> the write is forwarded to 0x2e07c. > > But how do you find out about the 0xa0000000 offset? You must make sure > that the provided address is outside of RAM, should you end-up on a > system more than 1GB of RAM. Robin wrote a prophetic post back in March: http://lists.infradead.org/pipermail/linux-arm-kernel/2017-March/492965.html > The appropriate DT property would be "dma-ranges", i.e. > > pci@... { > ... > dma-ranges = <(PCI bus address) (CPU phys address) (size)>; > } The dma-ranges property seems to be exactly what I'm looking for: Restrict DMA to the first X MB of RAM (use a bounce buffer for other physical addresses). I added the following property to my PCIe node dma-ranges = <0x0 0x80000000 0x80000000 0x20000000>; with the intent to create a 1:1 mapping for [0x80000000, 0xa0000000[ But it does not work. Arg! My PCIe controller driver seems to be correctly calling of_dma_get_range: [ 0.520469] [<c03d85e8>] (of_dma_get_range) from [<c03d5ad8>] (of_dma_configure+0x48/0x234) [ 0.520483] [<c03d5ad8>] (of_dma_configure) from [<c02fa154>] (pci_device_add+0xac/0x350) [ 0.520493] [<c02fa154>] (pci_device_add) from [<c02fa488>] (pci_scan_single_device+0x90/0xb0) [ 0.520501] [<c02fa488>] (pci_scan_single_device) from [<c02fa500>] (pci_scan_slot+0x58/0x100) [ 0.520510] [<c02fa500>] (pci_scan_slot) from [<c02fb418>] (pci_scan_child_bus+0x20/0xf8) [ 0.520519] [<c02fb418>] (pci_scan_child_bus) from [<c02fb6e8>] (pci_scan_root_bus_msi+0xcc/0xd8) [ 0.520527] [<c02fb6e8>] (pci_scan_root_bus_msi) from [<c02fb70c>] (pci_scan_root_bus+0x18/0x20) [ 0.520537] [<c02fb70c>] (pci_scan_root_bus) from [<c0310544>] (pci_host_common_probe+0xc8/0x314) [ 0.520546] [<c0310544>] (pci_host_common_probe) from [<c0310ce8>] (tango_pcie_probe+0x148/0x350) [ 0.520557] [<c0310ce8>] (tango_pcie_probe) from [<c034d398>] (platform_drv_probe+0x34/0x6c) of_dma_get_range() is called on the pcie node (which is expected) but after parsing n_addr_cells and n_size_cells in the while loop, the code jumps to the parent node ("soc")... while my property is attached to the pcie node... [ 0.507754] of_dma_get_range: node=dfbf74cc np=dfbf74cc name=/soc/pcie@2e000 name2=/soc/pcie@2e000 ... [ 0.509162] __of_find_property: node=soc find=#address-cells prop=compatible [ 0.509168] __of_find_property: node=soc find=#address-cells prop=interrupt-parent [ 0.509173] __of_find_property: node=soc find=#address-cells prop=#address-cells [ 0.509178] __of_find_property: node=soc find=#size-cells prop=compatible [ 0.509182] __of_find_property: node=soc find=#size-cells prop=interrupt-parent [ 0.509186] __of_find_property: node=soc find=#size-cells prop=#address-cells [ 0.509190] __of_find_property: node=soc find=#size-cells prop=#size-cells [ 0.509195] __of_find_property: node=soc find=dma-ranges prop=compatible [ 0.509199] __of_find_property: node=soc find=dma-ranges prop=interrupt-parent [ 0.509203] __of_find_property: node=soc find=dma-ranges prop=#address-cells [ 0.509207] __of_find_property: node=soc find=dma-ranges prop=#size-cells [ 0.509211] __of_find_property: node=soc find=dma-ranges prop=ranges [ 0.509215] __of_find_property: node=soc find=dma-ranges prop=name [ 0.509219] dma-ranges= (null) http://elixir.free-electrons.com/linux/latest/source/drivers/of/address.c#L838 What am I missing? Regards.