On Fri, Jun 22, 2012 at 04:18:05AM -0600, Bjorn Helgaas wrote: > On Thu, Jun 21, 2012 at 12:47 AM, Thierry Reding > <thierry.reding@xxxxxxxxxxxxxxxxx> wrote: > > On Tue, Jun 19, 2012 at 11:31:39AM -1000, Mitch Bradley wrote: > > >> Version A - 3 address cells: In this version, the intermediate > >> address space has 3 cells: port#, address type, offset. Address > >> type is > >> 0 : root port > >> 1 : config space > >> 2 : extended config space > >> 3 : I/O > >> 4 : non-prefetchable memory > >> 5 : prefetchable memory. > >> > >> The third cell "offset" is necessary so that the size field has a > >> number space that can include it. > >> > >> pcie-controller { > >> compatible = "nvidia,tegra20-pcie"; > >> reg = <0x80003000 0x00000800 /* PADS registers */ > >> 0x80003800 0x00000200>; /* extended configuration space */ > >> interrupts = <0 98 0x04 /* controller interrupt */ > >> 0 99 0x04>; /* MSI interrupt */ > >> status = "disabled"; > >> > >> ranges = <0 0 0 0x80000000 0x00001000 /* Root port 0 */ > >> 0 1 0 0x80004000 0x00080000 /* Port 0 config space */ > >> 0 2 0 0x80104000 0x00080000 /* Port 0 ext config space * > >> 0 3 0 0x80400000 0x00008000 /* Port 0 downstream I/O */ > >> 0 4 0 0x90000000 0x08000000 /* Port 0 non-prefetchable memory */ > >> 0 5 0 0xa0000000 0x08000000 /* Port 0 prefetchable memory */ > >> > >> 1 0 0 0x80001000 0x00001000 /* Root port 1 */ > >> 1 1 0 0x80004000 0x00080000 /* Port 1 config space */ > >> 1 2 0 0x80184000 0x00080000 /* Port 1 ext config space */ > >> 1 3 0 0x80408000 0x00010000 /* Port 1 downstream I/O */ > >> 1 4 0 0x98000000 0x08000000 /* Port 1 non-prefetchable memory */ > >> 1 5 0 0xa0000000 0x08000000>; /* Port 1 prefetchable memory */ > >> > >> #address-cells = <3>; > >> #size-cells = <1>; > >> > >> pci@0 { > >> reg = <0 0 0 0x1000>; > >> status = "disabled"; > >> > >> #address-cells = <3>; > >> #size-cells = <2>; > >> > >> ranges = <0x80000000 0 0 0 1 0 0 0x00080000 /* config */ > >> 0x90000000 0 0 0 2 0 0 0x00080000 /* extended config */ > >> 0x81000000 0 0 0 3 0 0 0x00008000 /* I/O */ > >> 0x82000000 0 0 0 4 0 0 0x08000000 /* non-prefetchable memory */ > >> 0xc2000000 0 0 0 5 0 0 0x08000000>; /* prefetchable memory */ > >> > >> nvidia,ctrl-offset = <0x110>; > >> nvidia,num-lanes = <2>; > >> }; > >> > >> > >> pci@1 { > >> reg = <1 0 0 0x1000>; > >> status = "disabled"; > >> > >> #address-cells = <3>; > >> #size-cells = <2>; > >> > >> ranges = <0x80000000 0 0 1 1 0 0 0x00080000 /* config */ > >> 0x90000000 0 0 1 2 0 0 0x00080000 /* extended config */ > >> 0x81000000 0 0 1 3 0 0 0x00008000 /* I/O */ > >> 0x82000000 0 0 1 4 0 0 0x08000000 /* non-prefetchable memory */ > >> 0xc2000000 0 0 1 5 0 0 0x08000000>; /* prefetchable memory */ > >> > >> nvidia,ctrl-offset = <0x118>; > >> nvidia,num-lanes = <2>; > >> }; > > I'm not familiar with device tree, so pardon me if these are stupid > questions. These seem to be describing PCI host bridges. Yes, correct. > I assume some of these ranges describe MMIO, prefetchable MMIO, and > I/O port apertures that the bridge forwards to the PCI bus. Yes. > Is there provision for any address offset applied by the bridge when > it forwards downstream? (Maybe these bridges don't apply any offset?) > "0xa0000000 0x08000000" appears for both ports 0 and 1 prefetchable > memory; I don't know if that's an error, an indication that each > bridge applies a different offset, or that both bridges forward the > same aperture (I hope not the latter, because Linux can't really deal > with that). That seems to be a typo. It should have been 0xa8000000 in the second case. The PCIe controller has registers that are programmed with the aperture for the configuration and extended configuration spaces, as well as the downstream I/O, prefetchable and non-prefetchable memory regions. The configuration spaces aren't actually forwarded by the bridges, but are handled only by the controller. The other apertures are programmed into the bridges using standard PCI registers. > Is the bus number aperture included somewhere? How do we know what > bus numbers are available for allocation under each bridge? Not yet. I don't think DT imposes a bus number allocation on PCI bridges. However the matching of DT nodes to PCI bridges is done based on the bus number. For that you provide a bus-ranges property which defines the bus aperture of the given PCI bridge. The DT matching code compares the first cell of this property with the primary bus number of the bridge. This is in fact somewhat counter-productive because it requires you to hard-code the PCI hierarchy within the DT and you loose a lot of the probing functionality. This is not much of an issue for typical PCI endpoints (like network cards) but becomes a problem if you have a PCI endpoint that implements an I2C bus and you want to match I2C slaves on that bus to device nodes so that the kernel can parse and instantiate them properly. I guess in the latter cases hard-coding the PCI tree in DT is not actually a drawback, though. > I see mention of config space. Is some of that referring to the ECAM > as in 7.2.2 of the PCIe spec v3.0 (what we refer to as MMCONFIG on > x86)? I only have access to the PCIe 2.0 specification, but it seems to contain the same 7.2.2 section. In fact it looks as though this particular controller indeed implements something similar to ECAM. The address mapping is a little different, though: A[(16 + n - 1):16]: bus number A[15:11]: device number A[10:8]: function number A[7:2]: register number A[1:0]: unused That information comes directly from the driver and I have no access to the corresponding documentation. It seems like the extended configuration space is accessed using the same mapping but starting at a different base address. But now that you mention it, maybe the driver code is buggy here, and the controller indeed implements ECAM. Furthermore it also seems like the current code doesn't work for the extended configuration space because while the correct offset into the extended configuration space is chosen, the access to registers is done using the same mapping as above, so instead of the 12 (10) bits required for the register number only 8 (6) are in fact used. I wonder whether anyone's actually tested this. Stephen: can you try to find out whether the Tegra PCIe controller indeed implements ECAM, or if this scheme is actually just a proprietary variant? Thierry
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