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authorWade Fife <wade.fife@ettus.com>2020-10-15 18:13:45 -0500
committerAaron Rossetto <aaron.rossetto@ni.com>2021-06-03 11:26:54 -0500
commit30b522b268aed6e7b4bc1a556e88d2a4b2fe6f77 (patch)
tree7239b4c30939d749fb775605b35b922c34904ac5 /fpga/usrp3/lib
parent87574a7c322f9f1af954bcee5dd9f59929992a85 (diff)
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fpga: lib: Add eth_ipv4_internal
This adds a generic version of eth_internal that allows you to specify the CHDR width.
Diffstat (limited to 'fpga/usrp3/lib')
-rw-r--r--fpga/usrp3/lib/rfnoc/xport_sv/Makefile.srcs1
-rw-r--r--fpga/usrp3/lib/rfnoc/xport_sv/eth_ipv4_internal.sv441
2 files changed, 442 insertions, 0 deletions
diff --git a/fpga/usrp3/lib/rfnoc/xport_sv/Makefile.srcs b/fpga/usrp3/lib/rfnoc/xport_sv/Makefile.srcs
index 397a86326..6adcf8fb7 100644
--- a/fpga/usrp3/lib/rfnoc/xport_sv/Makefile.srcs
+++ b/fpga/usrp3/lib/rfnoc/xport_sv/Makefile.srcs
@@ -13,4 +13,5 @@ eth_ipv4_add_udp.sv \
eth_ipv4_chdr_adapter.sv \
eth_ipv4_chdr_dispatch.sv \
eth_ipv4_interface.sv \
+eth_ipv4_internal.sv \
))
diff --git a/fpga/usrp3/lib/rfnoc/xport_sv/eth_ipv4_internal.sv b/fpga/usrp3/lib/rfnoc/xport_sv/eth_ipv4_internal.sv
new file mode 100644
index 000000000..c0af2a84d
--- /dev/null
+++ b/fpga/usrp3/lib/rfnoc/xport_sv/eth_ipv4_internal.sv
@@ -0,0 +1,441 @@
+//
+// Copyright 2020 Ettus Research, a National Instruments Brand
+//
+// SPDX-License-Identifier: LGPL-3.0-or-later
+//
+// Module: eth_ipv4_internal
+//
+// Description:
+//
+// This internal Ethernet port is responsible for routing CHDR data between
+// the ARM CPU and RFNoC. Treating the RFNoC interface to the CPU like an
+// internal Ethernet device allows the ARM processor to take advantage of
+// highly optimized DMA engines and software designed for Ethernet. This
+// block also includes an ARP responder for IP address discovery.
+//
+// Prefixes are used to distinguish the various AXI-Stream buses:
+//
+// - e2h : Ethernet to Host (Ethernet transport adapter to ARM)
+// - h2e : Host to Ethernet (ARM to Ethernet transport adapter)
+// - e2v : Ethernet to CHDR (Ethernet transport to RFNoC)
+// - v2e : CHDR to Ethernet (RFNoC to Ethernet transport adapter)
+// - e2c : Ethernet to CPU (Ethernet transport adapter to ARP responder)
+// - c2e : CPU to Ethernet (ARP responder to Ethernet transport adapter)
+//
+// Parameters:
+//
+// CHDR_W : CHDR width
+// BYTE_MTU : Sets the MTU to 2^BYTE_MTU bytes
+// DWIDTH : Data width for AXI-Lite interface (32 or 64)
+// AWIDTH : Address width for AXI-Lite interface
+// PORTNUM : Ethernet port number
+// RFNOC_PROTOVER : 16-bit RFNoC protocol version (major[7:0], minor[7:0])
+//
+
+`default_nettype none
+
+
+module eth_ipv4_internal #(
+ parameter CHDR_W = 64,
+ parameter BYTE_MTU = 10,
+ parameter DWIDTH = 32,
+ parameter AWIDTH = 14,
+ parameter [ 7:0] PORTNUM = 0,
+ parameter [15:0] RFNOC_PROTOVER = {8'd1, 8'd0}
+) (
+ input wire bus_clk,
+ input wire bus_rst,
+
+ // AXI-Lite
+ input wire s_axi_aclk,
+ input wire s_axi_aresetn,
+ input wire [AWIDTH-1:0] s_axi_awaddr,
+ input wire s_axi_awvalid,
+ output wire s_axi_awready,
+
+ input wire [ DWIDTH-1:0] s_axi_wdata,
+ input wire [DWIDTH/8-1:0] s_axi_wstrb,
+ input wire s_axi_wvalid,
+ output wire s_axi_wready,
+
+ output wire [1:0] s_axi_bresp,
+ output wire s_axi_bvalid,
+ input wire s_axi_bready,
+
+ input wire [AWIDTH-1:0] s_axi_araddr,
+ input wire s_axi_arvalid,
+ output wire s_axi_arready,
+
+ output wire [DWIDTH-1:0] s_axi_rdata,
+ output wire [ 1:0] s_axi_rresp,
+ output wire s_axi_rvalid,
+ input wire s_axi_rready,
+
+ // Host DMA Interface
+ output wire [ 63:0] e2h_tdata,
+ output wire [ 7:0] e2h_tkeep,
+ output wire e2h_tlast,
+ output wire e2h_tvalid,
+ input wire e2h_tready,
+
+ input wire [ 63:0] h2e_tdata,
+ input wire [ 7:0] h2e_tkeep,
+ input wire h2e_tlast,
+ input wire h2e_tvalid,
+ output wire h2e_tready,
+
+ // RFNoC Interface
+ output reg [CHDR_W-1:0] e2v_tdata,
+ output reg e2v_tlast,
+ output reg e2v_tvalid,
+ input wire e2v_tready,
+
+ input wire [CHDR_W-1:0] v2e_tdata,
+ input wire v2e_tlast,
+ input wire v2e_tvalid,
+ output reg v2e_tready,
+
+ // Misc
+ input wire [15:0] device_id
+);
+ // The CPU (host DMA) interface is currently fixed at 64 bits, due to the
+ // arp_responder and arm_framer/deframer only supporting 64 bits.
+ localparam CPU_W = 64;
+
+
+ //---------------------------------------------------------------------------
+ // AXI-Lite to RegPort Register Access Bridge
+ //---------------------------------------------------------------------------
+
+ localparam REG_BASE_ETH_IO = 14'h0;
+ localparam REG_BASE_ETH_SWITCH = 14'h1000;
+
+ logic reg_wr_req;
+ logic [AWIDTH-1:0] reg_wr_addr;
+ logic [DWIDTH-1:0] reg_wr_data;
+ logic reg_rd_req;
+ logic [AWIDTH-1:0] reg_rd_addr;
+ logic reg_rd_resp;
+ logic [DWIDTH-1:0] reg_rd_data;
+
+ axil_regport_master #(
+ .DWIDTH (DWIDTH), // Width of the AXI4-Lite data bus (must be 32 or 64)
+ .AWIDTH (AWIDTH), // Width of the address bus
+ .WRBASE (0), // Write address base
+ .RDBASE (0), // Read address base
+ .TIMEOUT (10) // Read will timeout after (2^TIMEOUT-1) cycles
+ ) eth_dma_reg_mst_i (
+ // Clock and reset
+ .s_axi_aclk (s_axi_aclk),
+ .s_axi_aresetn (s_axi_aresetn),
+ // AXI4-Lite: Write address port (domain: s_axi_aclk)
+ .s_axi_awaddr (s_axi_awaddr),
+ .s_axi_awvalid (s_axi_awvalid),
+ .s_axi_awready (s_axi_awready),
+ // AXI4-Lite: Write data port (domain: s_axi_aclk)
+ .s_axi_wdata (s_axi_wdata),
+ .s_axi_wstrb (s_axi_wstrb),
+ .s_axi_wvalid (s_axi_wvalid),
+ .s_axi_wready (s_axi_wready),
+ // AXI4-Lite: Write response port (domain: s_axi_aclk)
+ .s_axi_bresp (s_axi_bresp),
+ .s_axi_bvalid (s_axi_bvalid),
+ .s_axi_bready (s_axi_bready),
+ // AXI4-Lite: Read address port (domain: s_axi_aclk)
+ .s_axi_araddr (s_axi_araddr),
+ .s_axi_arvalid (s_axi_arvalid),
+ .s_axi_arready (s_axi_arready),
+ // AXI4-Lite: Read data port (domain: s_axi_aclk)
+ .s_axi_rdata (s_axi_rdata),
+ .s_axi_rresp (s_axi_rresp),
+ .s_axi_rvalid (s_axi_rvalid),
+ .s_axi_rready (s_axi_rready),
+ // Register port: Write port (domain: reg_clk)
+ .reg_clk (bus_clk),
+ .reg_wr_req (reg_wr_req),
+ .reg_wr_addr (reg_wr_addr),
+ .reg_wr_data (reg_wr_data),
+ .reg_wr_keep (),
+ // Register port: Read port (domain: reg_clk)
+ .reg_rd_req (reg_rd_req),
+ .reg_rd_addr (reg_rd_addr),
+ .reg_rd_resp (reg_rd_resp),
+ .reg_rd_data (reg_rd_data)
+ );
+
+ logic reg_rd_resp_eth_if;
+ logic reg_rd_resp_io = 1'b0;
+ logic [DWIDTH-1:0] reg_rd_data_eth_if;
+ logic [DWIDTH-1:0] reg_rd_data_io = 'd0;
+
+ // RegPort mux for responses
+ regport_resp_mux #(
+ .WIDTH (DWIDTH),
+ .NUM_SLAVES (2)
+ ) reg_resp_mux_i (
+ .clk (bus_clk),
+ .reset (bus_rst),
+ .sla_rd_resp ({reg_rd_resp_eth_if, reg_rd_resp_io}),
+ .sla_rd_data ({reg_rd_data_eth_if, reg_rd_data_io}),
+ .mst_rd_resp (reg_rd_resp),
+ .mst_rd_data (reg_rd_data)
+ );
+
+
+ //---------------------------------------------------------------------------
+ // ARM Framer/Deframer
+ //---------------------------------------------------------------------------
+ //
+ // The arm_deframer removes bytes from the beginning of every packet sent by
+ // the ARM processor to give the packets a specific alignment that will be
+ // used later. The framer does the opposite, padding the packet before
+ // sending it to the ARM CPU.
+ //
+ //---------------------------------------------------------------------------
+
+ // Host Ethernet-to-CHDR
+ logic [63:0] h2e_chdr_tdata;
+ logic [3:0] h2e_chdr_tuser;
+ logic h2e_chdr_tlast;
+ logic h2e_chdr_tvalid;
+ logic h2e_chdr_tready;
+ //
+ logic [63:0] e2h_chdr_tdata;
+ logic [3:0] e2h_chdr_tuser;
+ logic e2h_chdr_tlast;
+ logic e2h_chdr_tvalid;
+ logic e2h_chdr_tready;
+
+ logic [3:0] e2h_tuser;
+ logic [3:0] h2e_tuser;
+
+ // Converting tuser to tkeep for ingress packets
+ assign e2h_tkeep = ~e2h_tlast ? 8'b1111_1111
+ : (e2h_tuser == 4'd0) ? 8'b1111_1111
+ : (e2h_tuser == 4'd1) ? 8'b0000_0001
+ : (e2h_tuser == 4'd2) ? 8'b0000_0011
+ : (e2h_tuser == 4'd3) ? 8'b0000_0111
+ : (e2h_tuser == 4'd4) ? 8'b0000_1111
+ : (e2h_tuser == 4'd5) ? 8'b0001_1111
+ : (e2h_tuser == 4'd6) ? 8'b0011_1111
+ : 8'b0111_1111;
+
+ // Convert tkeep to tuser for egress packets
+ assign h2e_tuser = ~h2e_tlast ? 4'd0
+ : (h2e_tkeep == 8'b1111_1111) ? 4'd0
+ : (h2e_tkeep == 8'b0111_1111) ? 4'd7
+ : (h2e_tkeep == 8'b0011_1111) ? 4'd6
+ : (h2e_tkeep == 8'b0001_1111) ? 4'd5
+ : (h2e_tkeep == 8'b0000_1111) ? 4'd4
+ : (h2e_tkeep == 8'b0000_0111) ? 4'd3
+ : (h2e_tkeep == 8'b0000_0011) ? 4'd2
+ : (h2e_tkeep == 8'b0000_0001) ? 4'd1
+ : 4'd0;
+
+ arm_deframer arm_deframer_i (
+ .clk (bus_clk),
+ .reset (bus_rst),
+ .clear (1'b0),
+ .s_axis_tdata (h2e_tdata),
+ .s_axis_tuser (h2e_tuser),
+ .s_axis_tlast (h2e_tlast),
+ .s_axis_tvalid (h2e_tvalid),
+ .s_axis_tready (h2e_tready),
+ .m_axis_tdata (h2e_chdr_tdata),
+ .m_axis_tuser (h2e_chdr_tuser),
+ .m_axis_tlast (h2e_chdr_tlast),
+ .m_axis_tvalid (h2e_chdr_tvalid),
+ .m_axis_tready (h2e_chdr_tready)
+ );
+
+ axi64_to_xge64 arm_framer_i (
+ .clk (bus_clk),
+ .reset (bus_rst),
+ .clear (1'b0),
+ .s_axis_tdata (e2h_chdr_tdata),
+ .s_axis_tuser (e2h_chdr_tuser),
+ .s_axis_tlast (e2h_chdr_tlast),
+ .s_axis_tvalid (e2h_chdr_tvalid),
+ .s_axis_tready (e2h_chdr_tready),
+ .m_axis_tdata (e2h_tdata),
+ .m_axis_tuser (e2h_tuser),
+ .m_axis_tlast (e2h_tlast),
+ .m_axis_tvalid (e2h_tvalid),
+ .m_axis_tready (e2h_tready)
+ );
+
+
+ //---------------------------------------------------------------------------
+ // Ethernet Interface
+ //---------------------------------------------------------------------------
+
+ // FPGA-side addresses for the ARP responder
+ logic [47:0] my_mac;
+ logic [31:0] my_ip;
+
+ // ARP responder signals
+ logic [63:0] e2c_tdata;
+ logic [7:0] e2c_tkeep;
+ logic e2c_tlast;
+ logic e2c_tvalid;
+ logic e2c_tready;
+ //
+ logic [63:0] c2e_tdata;
+ logic [7:0] c2e_tkeep;
+ logic c2e_tlast;
+ logic c2e_tvalid;
+ logic c2e_tready;
+
+ localparam CPU_USER_W = $clog2(CPU_W/8)+1; // SOF + trailing bytes
+
+ // Host DMA interfaces
+ AxiStreamIf #(.DATA_WIDTH(CPU_W), .USER_WIDTH(CPU_USER_W), .TUSER(1), .TKEEP(0))
+ e2h_chdr(bus_clk, bus_rst);
+ AxiStreamIf #(.DATA_WIDTH(CPU_W), .USER_WIDTH(CPU_USER_W), .TUSER(1), .TKEEP(0))
+ h2e_chdr(bus_clk, bus_rst);
+
+ // RFNoC Interfaces
+ AxiStreamIf #(.DATA_WIDTH(CHDR_W), .TUSER(0), .TKEEP(0))
+ e2v_chdr(bus_clk, bus_rst);
+ AxiStreamIf #(.DATA_WIDTH(CHDR_W), .TUSER(0), .TKEEP(0))
+ v2e_chdr(bus_clk, bus_rst);
+
+ // ARP Responder Interfaces
+ AxiStreamIf #(.DATA_WIDTH(CPU_W), .TUSER(0), .TKEEP(1))
+ e2c_chdr(bus_clk, bus_rst);
+ AxiStreamIf #(.DATA_WIDTH(CPU_W), .TUSER(0), .TKEEP(1))
+ c2e_chdr(bus_clk, bus_rst);
+
+ // Translate between SystemVerilog interfaces and Verilog signals
+ always_comb begin
+ e2h_chdr_tdata = e2h_chdr.tdata;
+ e2h_chdr_tlast = e2h_chdr.tlast;
+ e2h_chdr_tvalid = e2h_chdr.tvalid;
+ e2h_chdr_tuser = e2h_chdr.tuser;
+ e2h_chdr.tready = e2h_chdr_tready;
+
+ h2e_chdr.tdata = h2e_chdr_tdata;
+ h2e_chdr.tlast = h2e_chdr_tlast;
+ h2e_chdr.tvalid = h2e_chdr_tvalid;
+ h2e_chdr.tuser = h2e_chdr_tuser;
+ h2e_chdr_tready = h2e_chdr.tready;
+
+ e2v_tdata = e2v_chdr.tdata;
+ e2v_tlast = e2v_chdr.tlast;
+ e2v_tvalid = e2v_chdr.tvalid;
+ e2v_chdr.tready = e2v_tready;
+
+ v2e_chdr.tdata = v2e_tdata;
+ v2e_chdr.tlast = v2e_tlast;
+ v2e_chdr.tvalid = v2e_tvalid;
+ v2e_tready = v2e_chdr.tready;
+
+ e2c_tdata = e2c_chdr.tdata;
+ e2c_tlast = e2c_chdr.tlast;
+ e2c_tkeep = e2c_chdr.tkeep;
+ e2c_tvalid = e2c_chdr.tvalid;
+ e2c_chdr.tready = e2c_tready;
+
+ c2e_chdr.tdata = c2e_tdata;
+ c2e_chdr.tlast = c2e_tlast;
+ c2e_chdr.tkeep = c2e_tkeep;
+ c2e_chdr.tvalid = c2e_tvalid;
+ c2e_tready = c2e_chdr.tready;
+ end
+
+ eth_ipv4_interface #(
+ .PROTOVER (RFNOC_PROTOVER),
+ .CPU_FIFO_SIZE (BYTE_MTU),
+ .CHDR_FIFO_SIZE (BYTE_MTU),
+ .NODE_INST (0),
+ .BASE (REG_BASE_ETH_SWITCH),
+ .PREAMBLE_BYTES (6),
+ .ADD_SOF (1),
+ .ENET_W (CPU_W),
+ .CPU_W (CPU_W),
+ .CHDR_W (CHDR_W)
+ ) eth_ipv4_interface_i (
+ .bus_clk (bus_clk),
+ .bus_rst (bus_rst),
+ .device_id (device_id),
+ .reg_wr_req (reg_wr_req),
+ .reg_wr_addr (reg_wr_addr),
+ .reg_wr_data (reg_wr_data),
+ .reg_rd_req (reg_rd_req),
+ .reg_rd_addr (reg_rd_addr),
+ .reg_rd_resp (reg_rd_resp_eth_if),
+ .reg_rd_data (reg_rd_data_eth_if),
+ .eth_tx (e2h_chdr),
+ .eth_rx (h2e_chdr),
+ .e2v (e2v_chdr),
+ .v2e (v2e_chdr),
+ .e2c (e2c_chdr),
+ .c2e (c2e_chdr),
+ .my_udp_chdr_port (),
+ .my_ip (my_ip),
+ .my_mac (my_mac)
+ );
+
+
+ //---------------------------------------------------------------------------
+ // ARP Responder
+ //---------------------------------------------------------------------------
+ //
+ // This block sends replies to ARP IPv4 frames.
+ //
+ //---------------------------------------------------------------------------
+
+ arp_responder arp_responder_i (
+ .aclk (bus_clk),
+ .aresetn (~bus_rst),
+ .mac_addr (my_mac),
+ .ip_addr (my_ip),
+ .s_axis_tdata (e2c_tdata),
+ .s_axis_tvalid (e2c_tvalid),
+ .s_axis_tready (e2c_tready),
+ .s_axis_tkeep (e2c_tkeep),
+ .s_axis_tlast (e2c_tlast),
+ .s_axis_tuser (1'b0),
+ .m_axis_tdata (c2e_tdata),
+ .m_axis_tvalid (c2e_tvalid),
+ .m_axis_tready (c2e_tready),
+ .m_axis_tkeep (c2e_tkeep),
+ .m_axis_tlast (c2e_tlast),
+ .m_axis_tuser ()
+ );
+
+
+ //---------------------------------------------------------------------------
+ // NIXGE Registers
+ //---------------------------------------------------------------------------
+ //
+ // Implement the minimum subset of registers needed by the NIXGE driver for
+ // our internal Ethernet port. Only the NIXGE_REG_LED_CTL register is
+ // actually used, but the internal adapter doesn't need LED control. So all
+ // registers read as 0 and all writes are ignored.
+ //
+ //---------------------------------------------------------------------------
+
+ // NIXGE Registers
+ localparam REG_PORT_INFO = REG_BASE_ETH_IO + 'h0;
+ localparam REG_MAC_CTRL_STATUS = REG_BASE_ETH_IO + 'h4;
+ localparam REG_PHY_CTRL_STATUS = REG_BASE_ETH_IO + 'h8;
+ localparam REG_MAC_LED_CTL = REG_BASE_ETH_IO + 'hC;
+
+ always @(posedge bus_clk) begin
+ if (reg_rd_req) begin
+ case(reg_rd_addr[AWIDTH-1:2])
+ REG_PORT_INFO [AWIDTH-1:2] |
+ REG_MAC_CTRL_STATUS[AWIDTH-1:2] |
+ REG_PHY_CTRL_STATUS[AWIDTH-1:2] |
+ REG_MAC_LED_CTL [AWIDTH-1:2]:
+ reg_rd_resp_io <= 1'b1;
+ default:
+ reg_rd_resp_io <= 1'b0;
+ endcase
+ end
+ end
+
+endmodule
+
+`default_nettype wire