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pcie: Add VSEC AXIL register access extended capability implementation for UltraScale

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Signed-off-by: Alex Forencich <alex@alexforencich.com>
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Alex Forencich
2026-02-24 12:20:02 -08:00
parent 7bb3f18fa3
commit 5d3aff95cc
1 changed files with 186 additions and 0 deletions
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src/pcie/rtl/taxi_pcie_us_vsec_axil.sv Normal file
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// SPDX-License-Identifier: CERN-OHL-S-2.0
/*
Copyright (c) 2026 FPGA Ninja, LLC
Authors:
- Alex Forencich
*/
`resetall
`timescale 1ns / 1ps
`default_nettype none
/*
* UltraScale PCIe vendor-specific capability for register access via AXI lite
*/
module taxi_pcie_us_vsec_apb #
(
parameter logic [15:0] EXT_CAP_ID = 16'h000B,
parameter logic [3:0] EXT_CAP_VERSION = 4'h1,
parameter logic [11:0] EXT_CAP_OFFSET = 12'h480,
parameter logic [11:0] EXT_CAP_NEXT = 12'h000,
parameter logic [15:0] EXT_CAP_VSEC_ID = 16'h00FF,
parameter logic [3:0] EXT_CAP_VSEC_REV = 4'h1,
parameter logic [11:0] EXT_CAP_VSEC_LEN = 12'h0010
)
(
input wire logic clk,
input wire logic rst,
/*
* AXI lite interface for register space
*/
taxi_axil_if.wr_mst m_axil_wr,
taxi_axil_if.rd_mst m_axil_rd,
/*
* Interface to Ultrascale PCIe IP core
*/
input wire logic cfg_ext_read_received,
input wire logic cfg_ext_write_received,
input wire logic [9:0] cfg_ext_register_number,
input wire logic [7:0] cfg_ext_function_number,
input wire logic [31:0] cfg_ext_write_data,
input wire logic [3:0] cfg_ext_write_byte_enable,
output wire logic [31:0] cfg_ext_read_data,
output wire logic cfg_ext_read_data_valid
);
localparam ADDR_W = m_axil_wr.ADDR_W;
localparam DATA_W = m_axil_wr.DATA_W;
localparam STRB_W = m_axil_wr.STRB_W;
// check configuration
if (DATA_W > 32)
$fatal(0, "Error: Data width must be 32 or less (instance %m)");
if (STRB_W * 8 != DATA_W)
$fatal(0, "Error: Interface requires byte (8-bit) granularity (instance %m)");
if (m_axil_rd.ADDR_W != ADDR_W || m_axil_rd.DATA_W != DATA_W)
$fatal(0, "Error: Interface configuration mismatch (instance %m)");
logic [31:0] cfg_ext_read_data_reg = '0, cfg_ext_read_data_next;
logic cfg_ext_read_data_valid_reg = 1'b0, cfg_ext_read_data_valid_next;
logic flag_reg = 1'b0, flag_next;
logic [ADDR_W-1:0] addr_reg = '0, addr_next;
logic [DATA_W-1:0] data_reg = '0, data_next;
logic [STRB_W-1:0] strb_reg = '0, strb_next;
logic m_axil_awvalid_reg = 1'b0, m_axil_awvalid_next;
logic m_axil_wvalid_reg = 1'b0, m_axil_wvalid_next;
logic m_axil_arvalid_reg = 1'b0, m_axil_arvalid_next;
assign m_axil_wr.awaddr = addr_reg;
assign m_axil_wr.awprot = 3'b010;
assign m_axil_wr.awuser = '0;
assign m_axil_wr.awvalid = m_axil_awvalid_reg;
assign m_axil_wr.wdata = data_reg;
assign m_axil_wr.wstrb = strb_reg;
assign m_axil_wr.wuser = '0;
assign m_axil_wr.wvalid = m_axil_wvalid_reg;
assign m_axil_wr.bready = 1'b1;
assign m_axil_rd.araddr = addr_reg;
assign m_axil_rd.arprot = 3'b010;
assign m_axil_wr.aruser = '0;
assign m_axil_rd.arvalid = m_axil_arvalid_reg;
assign m_axil_rd.rready = 1'b1;
assign cfg_ext_read_data = cfg_ext_read_data_reg;
assign cfg_ext_read_data_valid = cfg_ext_read_data_valid_reg;
always_comb begin
cfg_ext_read_data_next = '0;
cfg_ext_read_data_valid_next = 1'b0;
flag_next = flag_reg;
addr_next = addr_reg;
data_next = data_reg;
strb_next = strb_reg;
m_axil_awvalid_next = m_axil_awvalid_reg && !m_axil_wr.awready;
m_axil_wvalid_next = m_axil_wvalid_reg && !m_axil_wr.wready;
m_axil_arvalid_next = m_axil_arvalid_reg&& !m_axil_rd.arready;
if (m_axil_rd.rvalid) begin
// read complete
flag_next = 1'b1;
data_next = m_axil_rd.rdata;
end
if (m_axil_wr.bvalid) begin
// write complete
flag_next = 1'b0;
end
if (cfg_ext_read_received) begin
if (cfg_ext_register_number == 10'(EXT_CAP_OFFSET >> 2)+0) begin
cfg_ext_read_data_next[15:0] = EXT_CAP_ID;
cfg_ext_read_data_next[19:16] = EXT_CAP_VERSION;
cfg_ext_read_data_next[31:20] = EXT_CAP_NEXT;
cfg_ext_read_data_valid_next = 1'b1;
end else if (cfg_ext_register_number == 10'(EXT_CAP_OFFSET >> 2)+1) begin
cfg_ext_read_data_next[15:0] = EXT_CAP_VSEC_ID;
cfg_ext_read_data_next[19:16] = EXT_CAP_VSEC_REV;
cfg_ext_read_data_next[31:20] = EXT_CAP_VSEC_LEN;
cfg_ext_read_data_valid_next = 1'b1;
end else if (cfg_ext_register_number == 10'(EXT_CAP_OFFSET >> 2)+2) begin
cfg_ext_read_data_next[30:0] = 31'(addr_reg);
cfg_ext_read_data_next[31] = flag_reg;
cfg_ext_read_data_valid_next = 1'b1;
end else if (cfg_ext_register_number == 10'(EXT_CAP_OFFSET >> 2)+3) begin
cfg_ext_read_data_next = 32'(data_reg);
cfg_ext_read_data_valid_next = 1'b1;
end
end
if (cfg_ext_write_received && !(m_axil_awvalid_reg || m_axil_wvalid_reg || m_axil_arvalid_reg)) begin
if (cfg_ext_register_number == 10'(EXT_CAP_OFFSET >> 2)+2) begin
addr_next = ADDR_W'(cfg_ext_write_data[30:0]);
flag_next = cfg_ext_write_data[31];
if (cfg_ext_write_data[31]) begin
// write
m_axil_awvalid_next = 1'b1;
m_axil_wvalid_next = 1'b1;
end else begin
// read
m_axil_arvalid_next = 1'b1;
end
end else if (cfg_ext_register_number == 10'(EXT_CAP_OFFSET >> 2)+3) begin
data_next = DATA_W'(cfg_ext_write_data);
strb_next = STRB_W'(cfg_ext_write_byte_enable);
end
end
end
always_ff @(posedge clk) begin
cfg_ext_read_data_reg <= cfg_ext_read_data_next;
cfg_ext_read_data_valid_reg <= cfg_ext_read_data_valid_next;
flag_reg <= flag_next;
addr_reg <= addr_next;
data_reg <= data_next;
strb_reg <= strb_next;
m_axil_awvalid_reg <= m_axil_awvalid_next;
m_axil_wvalid_reg <= m_axil_wvalid_next;
m_axil_arvalid_reg <= m_axil_arvalid_next;
if (rst) begin
cfg_ext_read_data_valid_reg <= 1'b0;
flag_reg <= 1'b0;
addr_reg <= '0;
data_reg <= '0;
m_axil_awvalid_reg <= 1'b0;
m_axil_wvalid_reg <= 1'b0;
m_axil_arvalid_reg <= 1'b0;
end
end
endmodule
`resetall