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08d3c18e66
Add bus glue driver for Xilinx USB host controller. The controller can be configured as HS only or HS/FS hybrid. The driver uses the device tree file to configure the driver according to the setting in the hardware system. This driver has been tested with usbtest using the NET2280 PCI card. Signed-off-by: Julie Zhu <julie.zhu@xilinx.com> Signed-off-by: John Linn <john.linn@xilinx.com> Acked-by: Grant Likely <grant.likely@secretlab.ca> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
306 lines
10 KiB
Text
306 lines
10 KiB
Text
d) Xilinx IP cores
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The Xilinx EDK toolchain ships with a set of IP cores (devices) for use
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in Xilinx Spartan and Virtex FPGAs. The devices cover the whole range
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of standard device types (network, serial, etc.) and miscellaneous
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devices (gpio, LCD, spi, etc). Also, since these devices are
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implemented within the fpga fabric every instance of the device can be
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synthesised with different options that change the behaviour.
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Each IP-core has a set of parameters which the FPGA designer can use to
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control how the core is synthesized. Historically, the EDK tool would
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extract the device parameters relevant to device drivers and copy them
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into an 'xparameters.h' in the form of #define symbols. This tells the
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device drivers how the IP cores are configured, but it requres the kernel
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to be recompiled every time the FPGA bitstream is resynthesized.
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The new approach is to export the parameters into the device tree and
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generate a new device tree each time the FPGA bitstream changes. The
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parameters which used to be exported as #defines will now become
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properties of the device node. In general, device nodes for IP-cores
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will take the following form:
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(name): (generic-name)@(base-address) {
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compatible = "xlnx,(ip-core-name)-(HW_VER)"
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[, (list of compatible devices), ...];
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reg = <(baseaddr) (size)>;
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interrupt-parent = <&interrupt-controller-phandle>;
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interrupts = < ... >;
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xlnx,(parameter1) = "(string-value)";
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xlnx,(parameter2) = <(int-value)>;
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};
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(generic-name): an open firmware-style name that describes the
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generic class of device. Preferably, this is one word, such
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as 'serial' or 'ethernet'.
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(ip-core-name): the name of the ip block (given after the BEGIN
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directive in system.mhs). Should be in lowercase
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and all underscores '_' converted to dashes '-'.
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(name): is derived from the "PARAMETER INSTANCE" value.
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(parameter#): C_* parameters from system.mhs. The C_ prefix is
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dropped from the parameter name, the name is converted
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to lowercase and all underscore '_' characters are
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converted to dashes '-'.
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(baseaddr): the baseaddr parameter value (often named C_BASEADDR).
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(HW_VER): from the HW_VER parameter.
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(size): the address range size (often C_HIGHADDR - C_BASEADDR + 1).
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Typically, the compatible list will include the exact IP core version
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followed by an older IP core version which implements the same
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interface or any other device with the same interface.
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'reg', 'interrupt-parent' and 'interrupts' are all optional properties.
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For example, the following block from system.mhs:
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BEGIN opb_uartlite
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PARAMETER INSTANCE = opb_uartlite_0
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PARAMETER HW_VER = 1.00.b
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PARAMETER C_BAUDRATE = 115200
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PARAMETER C_DATA_BITS = 8
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PARAMETER C_ODD_PARITY = 0
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PARAMETER C_USE_PARITY = 0
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PARAMETER C_CLK_FREQ = 50000000
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PARAMETER C_BASEADDR = 0xEC100000
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PARAMETER C_HIGHADDR = 0xEC10FFFF
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BUS_INTERFACE SOPB = opb_7
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PORT OPB_Clk = CLK_50MHz
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PORT Interrupt = opb_uartlite_0_Interrupt
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PORT RX = opb_uartlite_0_RX
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PORT TX = opb_uartlite_0_TX
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PORT OPB_Rst = sys_bus_reset_0
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END
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becomes the following device tree node:
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opb_uartlite_0: serial@ec100000 {
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device_type = "serial";
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compatible = "xlnx,opb-uartlite-1.00.b";
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reg = <ec100000 10000>;
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interrupt-parent = <&opb_intc_0>;
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interrupts = <1 0>; // got this from the opb_intc parameters
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current-speed = <d#115200>; // standard serial device prop
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clock-frequency = <d#50000000>; // standard serial device prop
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xlnx,data-bits = <8>;
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xlnx,odd-parity = <0>;
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xlnx,use-parity = <0>;
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};
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Some IP cores actually implement 2 or more logical devices. In
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this case, the device should still describe the whole IP core with
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a single node and add a child node for each logical device. The
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ranges property can be used to translate from parent IP-core to the
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registers of each device. In addition, the parent node should be
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compatible with the bus type 'xlnx,compound', and should contain
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#address-cells and #size-cells, as with any other bus. (Note: this
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makes the assumption that both logical devices have the same bus
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binding. If this is not true, then separate nodes should be used
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for each logical device). The 'cell-index' property can be used to
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enumerate logical devices within an IP core. For example, the
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following is the system.mhs entry for the dual ps2 controller found
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on the ml403 reference design.
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BEGIN opb_ps2_dual_ref
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PARAMETER INSTANCE = opb_ps2_dual_ref_0
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PARAMETER HW_VER = 1.00.a
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PARAMETER C_BASEADDR = 0xA9000000
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PARAMETER C_HIGHADDR = 0xA9001FFF
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BUS_INTERFACE SOPB = opb_v20_0
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PORT Sys_Intr1 = ps2_1_intr
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PORT Sys_Intr2 = ps2_2_intr
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PORT Clkin1 = ps2_clk_rx_1
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PORT Clkin2 = ps2_clk_rx_2
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PORT Clkpd1 = ps2_clk_tx_1
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PORT Clkpd2 = ps2_clk_tx_2
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PORT Rx1 = ps2_d_rx_1
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PORT Rx2 = ps2_d_rx_2
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PORT Txpd1 = ps2_d_tx_1
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PORT Txpd2 = ps2_d_tx_2
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END
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It would result in the following device tree nodes:
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opb_ps2_dual_ref_0: opb-ps2-dual-ref@a9000000 {
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#address-cells = <1>;
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#size-cells = <1>;
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compatible = "xlnx,compound";
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ranges = <0 a9000000 2000>;
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// If this device had extra parameters, then they would
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// go here.
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ps2@0 {
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compatible = "xlnx,opb-ps2-dual-ref-1.00.a";
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reg = <0 40>;
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interrupt-parent = <&opb_intc_0>;
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interrupts = <3 0>;
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cell-index = <0>;
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};
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ps2@1000 {
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compatible = "xlnx,opb-ps2-dual-ref-1.00.a";
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reg = <1000 40>;
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interrupt-parent = <&opb_intc_0>;
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interrupts = <3 0>;
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cell-index = <0>;
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};
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};
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Also, the system.mhs file defines bus attachments from the processor
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to the devices. The device tree structure should reflect the bus
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attachments. Again an example; this system.mhs fragment:
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BEGIN ppc405_virtex4
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PARAMETER INSTANCE = ppc405_0
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PARAMETER HW_VER = 1.01.a
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BUS_INTERFACE DPLB = plb_v34_0
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BUS_INTERFACE IPLB = plb_v34_0
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END
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BEGIN opb_intc
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PARAMETER INSTANCE = opb_intc_0
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PARAMETER HW_VER = 1.00.c
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PARAMETER C_BASEADDR = 0xD1000FC0
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PARAMETER C_HIGHADDR = 0xD1000FDF
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BUS_INTERFACE SOPB = opb_v20_0
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END
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BEGIN opb_uart16550
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PARAMETER INSTANCE = opb_uart16550_0
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PARAMETER HW_VER = 1.00.d
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PARAMETER C_BASEADDR = 0xa0000000
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PARAMETER C_HIGHADDR = 0xa0001FFF
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BUS_INTERFACE SOPB = opb_v20_0
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END
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BEGIN plb_v34
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PARAMETER INSTANCE = plb_v34_0
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PARAMETER HW_VER = 1.02.a
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END
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BEGIN plb_bram_if_cntlr
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PARAMETER INSTANCE = plb_bram_if_cntlr_0
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PARAMETER HW_VER = 1.00.b
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PARAMETER C_BASEADDR = 0xFFFF0000
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PARAMETER C_HIGHADDR = 0xFFFFFFFF
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BUS_INTERFACE SPLB = plb_v34_0
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END
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BEGIN plb2opb_bridge
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PARAMETER INSTANCE = plb2opb_bridge_0
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PARAMETER HW_VER = 1.01.a
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PARAMETER C_RNG0_BASEADDR = 0x20000000
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PARAMETER C_RNG0_HIGHADDR = 0x3FFFFFFF
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PARAMETER C_RNG1_BASEADDR = 0x60000000
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PARAMETER C_RNG1_HIGHADDR = 0x7FFFFFFF
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PARAMETER C_RNG2_BASEADDR = 0x80000000
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PARAMETER C_RNG2_HIGHADDR = 0xBFFFFFFF
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PARAMETER C_RNG3_BASEADDR = 0xC0000000
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PARAMETER C_RNG3_HIGHADDR = 0xDFFFFFFF
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BUS_INTERFACE SPLB = plb_v34_0
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BUS_INTERFACE MOPB = opb_v20_0
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END
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Gives this device tree (some properties removed for clarity):
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plb@0 {
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#address-cells = <1>;
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#size-cells = <1>;
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compatible = "xlnx,plb-v34-1.02.a";
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device_type = "ibm,plb";
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ranges; // 1:1 translation
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plb_bram_if_cntrl_0: bram@ffff0000 {
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reg = <ffff0000 10000>;
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}
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opb@20000000 {
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#address-cells = <1>;
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#size-cells = <1>;
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ranges = <20000000 20000000 20000000
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60000000 60000000 20000000
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80000000 80000000 40000000
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c0000000 c0000000 20000000>;
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opb_uart16550_0: serial@a0000000 {
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reg = <a00000000 2000>;
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};
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opb_intc_0: interrupt-controller@d1000fc0 {
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reg = <d1000fc0 20>;
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};
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};
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};
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That covers the general approach to binding xilinx IP cores into the
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device tree. The following are bindings for specific devices:
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i) Xilinx ML300 Framebuffer
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Simple framebuffer device from the ML300 reference design (also on the
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ML403 reference design as well as others).
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Optional properties:
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- resolution = <xres yres> : pixel resolution of framebuffer. Some
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implementations use a different resolution.
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Default is <d#640 d#480>
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- virt-resolution = <xvirt yvirt> : Size of framebuffer in memory.
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Default is <d#1024 d#480>.
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- rotate-display (empty) : rotate display 180 degrees.
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ii) Xilinx SystemACE
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The Xilinx SystemACE device is used to program FPGAs from an FPGA
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bitstream stored on a CF card. It can also be used as a generic CF
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interface device.
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Optional properties:
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- 8-bit (empty) : Set this property for SystemACE in 8 bit mode
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iii) Xilinx EMAC and Xilinx TEMAC
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Xilinx Ethernet devices. In addition to general xilinx properties
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listed above, nodes for these devices should include a phy-handle
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property, and may include other common network device properties
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like local-mac-address.
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iv) Xilinx Uartlite
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Xilinx uartlite devices are simple fixed speed serial ports.
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Required properties:
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- current-speed : Baud rate of uartlite
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v) Xilinx hwicap
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Xilinx hwicap devices provide access to the configuration logic
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of the FPGA through the Internal Configuration Access Port
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(ICAP). The ICAP enables partial reconfiguration of the FPGA,
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readback of the configuration information, and some control over
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'warm boots' of the FPGA fabric.
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Required properties:
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- xlnx,family : The family of the FPGA, necessary since the
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capabilities of the underlying ICAP hardware
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differ between different families. May be
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'virtex2p', 'virtex4', or 'virtex5'.
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vi) Xilinx Uart 16550
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Xilinx UART 16550 devices are very similar to the NS16550 but with
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different register spacing and an offset from the base address.
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Required properties:
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- clock-frequency : Frequency of the clock input
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- reg-offset : A value of 3 is required
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- reg-shift : A value of 2 is required
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vii) Xilinx USB Host controller
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The Xilinx USB host controller is EHCI compatible but with a different
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base address for the EHCI registers, and it is always a big-endian
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USB Host controller. The hardware can be configured as high speed only,
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or high speed/full speed hybrid.
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Required properties:
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- xlnx,support-usb-fs: A value 0 means the core is built as high speed
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only. A value 1 means the core also supports
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full speed devices.
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