From: Daire McNamara <daire.mcnamara@xxxxxxxxxxxxx> Hi all, On Microchip PolarFire SoC (MPFS), the PCIe controller is connected to the CPU via one of three Fabric Interface Connectors (FICs). Each FIC present to the CPU complex as 64-bit AXI-M and 64-bit AXI-S. To preserve compatibility with other PolarFire family members, the PCIe controller is connected to its encapsulating FIC via a 32-bit AXI-M and 32-bit AXI-S interface. Each FIC is implemented in FPGA logic and can incorporate logic along its 64-bit AXI-M to 32-bit AXI-M chain (including address translation) and, likewise, along its 32-bit AXI-S to 64-bit AXI-S chain (again including address translation). In order to reduce the potential support space for the PCIe controller in this environment, MPFS supports certain reference designs for these address translations: reference designs for cache-coherent memory accesses and reference designs for non-cache-coherent memory accesses. The precise details of these reference designs and associated customer guidelines recommending that customers adhere to the addressing schemes used in those reference designs are available from Microchip, but the implication for the PCIe controller address translation between CPU-space and PCIe-space are: For outbound address translation, the PCIe controller address translation tables are treated as if they are 32-bit only. Any further address translation must be done in FPGA fabric. For inbound address translation, the PCIe controller is configurable for two cases: * In the case of cache-coherent designs, the base of the AXI-S side of the address translation must be set to 0 and the size should be 4 GiB wide. The FPGA fabric must complete any address translations based on that 0-based address translation. * In the case of non-cache coherent designs, the base of AXI-S side of the address translation must be set to 0x8000'0000 and the size shall be 2 GiB wide. The FPGA fabric must complete any address translation based on that 0x80000000 base. So, for example, in the non-cache-coherent case, with a device tree property that maps an inbound range from 0x10'0000'0000 in PCIe space to 0x10'0000'0000 in CPU space, the PCIe rootport will translate a PCIe address of 0x10'0000'0000 to an intermediate 32-bit AXI-S address of 0x8000'0000 and the FIC is responsible for translating that intermediate 32-bit AXI-S address of 0x8000'0000 to a 64-bit AXI-S address of 0x10'0000'0000. And similarly, for example, in the cache-coherent case, with a device tree property that maps an inbound range from 0x10'0000'0000 in PCIe space to 0x10'0000'0000 in CPU space, the PCIe rootport will translate a PCIe address of 0x10'0000'0000 to an intermediate 32-bit AXI-S address of 0x0000'0000 and the FIC is responsible for translating that intermediate 32-bit AXI-S address of 0x0000'0000 to a 64-bit AXI-S address of 0x10'0000'0000. See https://lore.kernel.org/all/20220902142202.2437658-1-daire.mcnamara@xxxxxxxxxxxxx/T/ for backstory. Changes since v3: - Added nice cleanups suggested by Ilpo Jarvinen Changes since v2: - Added <Signed-off-by: tag> Changes since v1: - added bindings patch to allow dma-noncoherent - changed a size_t to u64 to pass 32-bit compile tests - allowed 64-bit outbound pcie translations - tied PCIe side of eCAM translation table to 0 Conor Dooley (1): dt-bindings: PCI: microchip,pcie-host: allow dma-noncoherent Daire McNamara (2): PCI: microchip: Fix outbound address translation tables PCI: microchip: Fix inbound address translation tables .../bindings/pci/microchip,pcie-host.yaml | 2 + drivers/pci/controller/pcie-microchip-host.c | 112 +++++++++++++++--- 2 files changed, 100 insertions(+), 14 deletions(-) base-commit: a38297e3fb012ddfa7ce0321a7e5a8daeb1872b6 -- 2.34.1