/* Copyright 2019, The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE REGENTS OF THE UNIVERSITY OF CALIFORNIA ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OF THE UNIVERSITY OF CALIFORNIA OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. The views and conclusions contained in the software and documentation are those of the authors and should not be interpreted as representing official policies, either expressed or implied, of The Regents of the University of California. */ // Language: Verilog 2001 `timescale 1ns / 1ps /* * NIC Interface */ module interface # ( // Number of ports parameter PORTS = 1, // DMA address width parameter DMA_ADDR_WIDTH = 64, // DMA length field width parameter DMA_LEN_WIDTH = 16, // DMA tag field width parameter DMA_TAG_WIDTH = 8, // Number of outstanding operations (event queue) parameter EVENT_QUEUE_OP_TABLE_SIZE = 16, // Number of outstanding operations (transmit queue) parameter TX_QUEUE_OP_TABLE_SIZE = 16, // Number of outstanding operations (receive queue) parameter RX_QUEUE_OP_TABLE_SIZE = 16, // Number of outstanding operations (transmit completion queue) parameter TX_CPL_QUEUE_OP_TABLE_SIZE = 16, // Number of outstanding operations (receive completion queue) parameter RX_CPL_QUEUE_OP_TABLE_SIZE = 16, // Event queue index width parameter EVENT_QUEUE_INDEX_WIDTH = 5, // Transmit queue index width parameter TX_QUEUE_INDEX_WIDTH = 8, // Receive queue index width parameter RX_QUEUE_INDEX_WIDTH = 8, // Transmit completion queue index width parameter TX_CPL_QUEUE_INDEX_WIDTH = 8, // Receive completion queue index width parameter RX_CPL_QUEUE_INDEX_WIDTH = 8, // Pipeline setting (event queue) parameter EVENT_QUEUE_PIPELINE = 3, // Pipeline setting (transmit queue) parameter TX_QUEUE_PIPELINE = 3, // Pipeline setting (receive queue) parameter RX_QUEUE_PIPELINE = 3, // Pipeline setting (transmit completion queue) parameter TX_CPL_QUEUE_PIPELINE = 3, // Pipeline setting (receive completion queue) parameter RX_CPL_QUEUE_PIPELINE = 3, // Transmit descriptor table size (number of in-flight operations) parameter TX_DESC_TABLE_SIZE = 16, // Transmit packet table size (number of in-progress packets) parameter TX_PKT_TABLE_SIZE = 8, // Receive descriptor table size (number of in-flight operations) parameter RX_DESC_TABLE_SIZE = 16, // Receive packet table size (number of in-progress packets) parameter RX_PKT_TABLE_SIZE = 8, // Transmit scheduler type parameter TX_SCHEDULER = "RR", // Scheduler operation table size parameter TX_SCHEDULER_OP_TABLE_SIZE = 32, // Scheduler pipeline setting parameter TX_SCHEDULER_PIPELINE = 3, // Scheduler TDMA index width parameter TDMA_INDEX_WIDTH = 8, // Interrupt number width parameter INT_WIDTH = 8, // Queue element pointer width parameter QUEUE_PTR_WIDTH = 16, // Queue log size field width parameter QUEUE_LOG_SIZE_WIDTH = 4, // Enable PTP timestamping parameter PTP_TS_ENABLE = 1, // PTP timestamp width parameter PTP_TS_WIDTH = 96, // Enable TX checksum offload parameter TX_CHECKSUM_ENABLE = 1, // Enable RX RSS parameter RX_RSS_ENABLE = 1, // Enable RX hashing parameter RX_HASH_ENABLE = 1, // Enable RX checksum offload parameter RX_CHECKSUM_ENABLE = 1, // Width of AXI lite data bus in bits parameter AXIL_DATA_WIDTH = 32, // Width of AXI lite address bus in bits parameter AXIL_ADDR_WIDTH = 16, // Width of AXI lite wstrb (width of data bus in words) parameter AXIL_STRB_WIDTH = (AXIL_DATA_WIDTH/8), // DMA RAM segment count parameter SEG_COUNT = 2, // DMA RAM segment data width parameter SEG_DATA_WIDTH = 64, // DMA RAM segment address width parameter SEG_ADDR_WIDTH = 8, // DMA RAM segment byte enable width parameter SEG_BE_WIDTH = SEG_DATA_WIDTH/8, // DMA RAM segment select width parameter RAM_SEL_WIDTH = $clog2(PORTS), // DMA RAM address width parameter RAM_ADDR_WIDTH = SEG_ADDR_WIDTH+$clog2(SEG_COUNT)+$clog2(SEG_BE_WIDTH), // DMA RAM pipeline stages parameter RAM_PIPELINE = 2, // Width of AXI stream interfaces in bits parameter AXIS_DATA_WIDTH = 256, // AXI stream tkeep signal width (words per cycle) parameter AXIS_KEEP_WIDTH = AXIS_DATA_WIDTH/8, // Max transmit packet size parameter MAX_TX_SIZE = 2048, // Max receive packet size parameter MAX_RX_SIZE = 2048, // DMA TX RAM size parameter TX_RAM_SIZE = TX_PKT_TABLE_SIZE*MAX_TX_SIZE, // DMA RX RAM size parameter RX_RAM_SIZE = RX_PKT_TABLE_SIZE*MAX_RX_SIZE ) ( input wire clk, input wire rst, /* * DMA read descriptor output (control) */ output wire [DMA_ADDR_WIDTH-1:0] m_axis_ctrl_dma_read_desc_dma_addr, output wire [RAM_SEL_WIDTH-1:0] m_axis_ctrl_dma_read_desc_ram_sel, output wire [RAM_ADDR_WIDTH-1:0] m_axis_ctrl_dma_read_desc_ram_addr, output wire [DMA_LEN_WIDTH-1:0] m_axis_ctrl_dma_read_desc_len, output wire [DMA_TAG_WIDTH-1:0] m_axis_ctrl_dma_read_desc_tag, output wire m_axis_ctrl_dma_read_desc_valid, input wire m_axis_ctrl_dma_read_desc_ready, /* * DMA read descriptor status input (control) */ input wire [DMA_TAG_WIDTH-1:0] s_axis_ctrl_dma_read_desc_status_tag, input wire s_axis_ctrl_dma_read_desc_status_valid, /* * DMA write descriptor output (control) */ output wire [DMA_ADDR_WIDTH-1:0] m_axis_ctrl_dma_write_desc_dma_addr, output wire [RAM_SEL_WIDTH-1:0] m_axis_ctrl_dma_write_desc_ram_sel, output wire [RAM_ADDR_WIDTH-1:0] m_axis_ctrl_dma_write_desc_ram_addr, output wire [DMA_LEN_WIDTH-1:0] m_axis_ctrl_dma_write_desc_len, output wire [DMA_TAG_WIDTH-1:0] m_axis_ctrl_dma_write_desc_tag, output wire m_axis_ctrl_dma_write_desc_valid, input wire m_axis_ctrl_dma_write_desc_ready, /* * DMA write descriptor status input (control) */ input wire [DMA_TAG_WIDTH-1:0] s_axis_ctrl_dma_write_desc_status_tag, input wire s_axis_ctrl_dma_write_desc_status_valid, /* * DMA read descriptor output (data) */ output wire [DMA_ADDR_WIDTH-1:0] m_axis_data_dma_read_desc_dma_addr, output wire [RAM_SEL_WIDTH-1:0] m_axis_data_dma_read_desc_ram_sel, output wire [RAM_ADDR_WIDTH-1:0] m_axis_data_dma_read_desc_ram_addr, output wire [DMA_LEN_WIDTH-1:0] m_axis_data_dma_read_desc_len, output wire [DMA_TAG_WIDTH-1:0] m_axis_data_dma_read_desc_tag, output wire m_axis_data_dma_read_desc_valid, input wire m_axis_data_dma_read_desc_ready, /* * DMA read descriptor status input (data) */ input wire [DMA_TAG_WIDTH-1:0] s_axis_data_dma_read_desc_status_tag, input wire s_axis_data_dma_read_desc_status_valid, /* * DMA write descriptor output (data) */ output wire [DMA_ADDR_WIDTH-1:0] m_axis_data_dma_write_desc_dma_addr, output wire [RAM_SEL_WIDTH-1:0] m_axis_data_dma_write_desc_ram_sel, output wire [RAM_ADDR_WIDTH-1:0] m_axis_data_dma_write_desc_ram_addr, output wire [DMA_LEN_WIDTH-1:0] m_axis_data_dma_write_desc_len, output wire [DMA_TAG_WIDTH-1:0] m_axis_data_dma_write_desc_tag, output wire m_axis_data_dma_write_desc_valid, input wire m_axis_data_dma_write_desc_ready, /* * DMA write descriptor status input (data) */ input wire [DMA_TAG_WIDTH-1:0] s_axis_data_dma_write_desc_status_tag, input wire s_axis_data_dma_write_desc_status_valid, /* * AXI-Lite slave interface */ input wire [AXIL_ADDR_WIDTH-1:0] s_axil_awaddr, input wire [2:0] s_axil_awprot, input wire s_axil_awvalid, output wire s_axil_awready, input wire [AXIL_DATA_WIDTH-1:0] s_axil_wdata, input wire [AXIL_STRB_WIDTH-1:0] s_axil_wstrb, input wire s_axil_wvalid, output wire s_axil_wready, output wire [1:0] s_axil_bresp, output wire s_axil_bvalid, input wire s_axil_bready, input wire [AXIL_ADDR_WIDTH-1:0] s_axil_araddr, input wire [2:0] s_axil_arprot, input wire s_axil_arvalid, output wire s_axil_arready, output wire [AXIL_DATA_WIDTH-1:0] s_axil_rdata, output wire [1:0] s_axil_rresp, output wire s_axil_rvalid, input wire s_axil_rready, /* * AXI-Lite master interface (passthrough for NIC control and status) */ output wire [AXIL_ADDR_WIDTH-1:0] m_axil_csr_awaddr, output wire [2:0] m_axil_csr_awprot, output wire m_axil_csr_awvalid, input wire m_axil_csr_awready, output wire [AXIL_DATA_WIDTH-1:0] m_axil_csr_wdata, output wire [AXIL_STRB_WIDTH-1:0] m_axil_csr_wstrb, output wire m_axil_csr_wvalid, input wire m_axil_csr_wready, input wire [1:0] m_axil_csr_bresp, input wire m_axil_csr_bvalid, output wire m_axil_csr_bready, output wire [AXIL_ADDR_WIDTH-1:0] m_axil_csr_araddr, output wire [2:0] m_axil_csr_arprot, output wire m_axil_csr_arvalid, input wire m_axil_csr_arready, input wire [AXIL_DATA_WIDTH-1:0] m_axil_csr_rdata, input wire [1:0] m_axil_csr_rresp, input wire m_axil_csr_rvalid, output wire m_axil_csr_rready, /* * RAM interface (control) */ input wire [SEG_COUNT*RAM_SEL_WIDTH-1:0] ctrl_dma_ram_wr_cmd_sel, input wire [SEG_COUNT*SEG_BE_WIDTH-1:0] ctrl_dma_ram_wr_cmd_be, input wire [SEG_COUNT*SEG_ADDR_WIDTH-1:0] ctrl_dma_ram_wr_cmd_addr, input wire [SEG_COUNT*SEG_DATA_WIDTH-1:0] ctrl_dma_ram_wr_cmd_data, input wire [SEG_COUNT-1:0] ctrl_dma_ram_wr_cmd_valid, output wire [SEG_COUNT-1:0] ctrl_dma_ram_wr_cmd_ready, input wire [SEG_COUNT*RAM_SEL_WIDTH-1:0] ctrl_dma_ram_rd_cmd_sel, input wire [SEG_COUNT*SEG_ADDR_WIDTH-1:0] ctrl_dma_ram_rd_cmd_addr, input wire [SEG_COUNT-1:0] ctrl_dma_ram_rd_cmd_valid, output wire [SEG_COUNT-1:0] ctrl_dma_ram_rd_cmd_ready, output wire [SEG_COUNT*SEG_DATA_WIDTH-1:0] ctrl_dma_ram_rd_resp_data, output wire [SEG_COUNT-1:0] ctrl_dma_ram_rd_resp_valid, input wire [SEG_COUNT-1:0] ctrl_dma_ram_rd_resp_ready, /* * RAM interface (data) */ input wire [SEG_COUNT*RAM_SEL_WIDTH-1:0] data_dma_ram_wr_cmd_sel, input wire [SEG_COUNT*SEG_BE_WIDTH-1:0] data_dma_ram_wr_cmd_be, input wire [SEG_COUNT*SEG_ADDR_WIDTH-1:0] data_dma_ram_wr_cmd_addr, input wire [SEG_COUNT*SEG_DATA_WIDTH-1:0] data_dma_ram_wr_cmd_data, input wire [SEG_COUNT-1:0] data_dma_ram_wr_cmd_valid, output wire [SEG_COUNT-1:0] data_dma_ram_wr_cmd_ready, input wire [SEG_COUNT*RAM_SEL_WIDTH-1:0] data_dma_ram_rd_cmd_sel, input wire [SEG_COUNT*SEG_ADDR_WIDTH-1:0] data_dma_ram_rd_cmd_addr, input wire [SEG_COUNT-1:0] data_dma_ram_rd_cmd_valid, output wire [SEG_COUNT-1:0] data_dma_ram_rd_cmd_ready, output wire [SEG_COUNT*SEG_DATA_WIDTH-1:0] data_dma_ram_rd_resp_data, output wire [SEG_COUNT-1:0] data_dma_ram_rd_resp_valid, input wire [SEG_COUNT-1:0] data_dma_ram_rd_resp_ready, /* * Transmit data output */ output wire [PORTS*AXIS_DATA_WIDTH-1:0] tx_axis_tdata, output wire [PORTS*AXIS_KEEP_WIDTH-1:0] tx_axis_tkeep, output wire [PORTS-1:0] tx_axis_tvalid, input wire [PORTS-1:0] tx_axis_tready, output wire [PORTS-1:0] tx_axis_tlast, output wire [PORTS-1:0] tx_axis_tuser, /* * Transmit timestamp input */ input wire [PORTS*PTP_TS_WIDTH-1:0] s_axis_tx_ptp_ts_96, input wire [PORTS-1:0] s_axis_tx_ptp_ts_valid, output wire [PORTS-1:0] s_axis_tx_ptp_ts_ready, /* * Receive data input */ input wire [PORTS*AXIS_DATA_WIDTH-1:0] rx_axis_tdata, input wire [PORTS*AXIS_KEEP_WIDTH-1:0] rx_axis_tkeep, input wire [PORTS-1:0] rx_axis_tvalid, output wire [PORTS-1:0] rx_axis_tready, input wire [PORTS-1:0] rx_axis_tlast, input wire [PORTS-1:0] rx_axis_tuser, /* * Receive timestamp input */ input wire [PORTS*PTP_TS_WIDTH-1:0] s_axis_rx_ptp_ts_96, input wire [PORTS-1:0] s_axis_rx_ptp_ts_valid, output wire [PORTS-1:0] s_axis_rx_ptp_ts_ready, /* * PTP clock */ input wire [95:0] ptp_ts_96, input wire ptp_ts_step, /* * MSI interrupts */ output wire [31:0] msi_irq ); parameter DESC_SIZE = 16; parameter CPL_SIZE = 32; parameter EVENT_SIZE = 32; parameter AXIS_DESC_DATA_WIDTH = DESC_SIZE*8; parameter AXIS_DESC_KEEP_WIDTH = AXIS_DESC_DATA_WIDTH/8; parameter EVENT_SOURCE_WIDTH = 16; parameter EVENT_TYPE_WIDTH = 16; parameter MAX_DESC_TABLE_SIZE = TX_DESC_TABLE_SIZE > RX_DESC_TABLE_SIZE ? TX_DESC_TABLE_SIZE : RX_DESC_TABLE_SIZE; parameter REQ_TAG_WIDTH = $clog2(MAX_DESC_TABLE_SIZE) + 1 + $clog2(PORTS+1); parameter DESC_REQ_TAG_WIDTH = $clog2(MAX_DESC_TABLE_SIZE) + 1 + $clog2(PORTS+1); parameter QUEUE_REQ_TAG_WIDTH = $clog2(MAX_DESC_TABLE_SIZE) + 1 + $clog2(PORTS+1); parameter QUEUE_OP_TAG_WIDTH = 6; parameter DMA_TAG_WIDTH_INT = DMA_TAG_WIDTH - $clog2(PORTS); parameter QUEUE_INDEX_WIDTH = TX_QUEUE_INDEX_WIDTH > RX_QUEUE_INDEX_WIDTH ? TX_QUEUE_INDEX_WIDTH : RX_QUEUE_INDEX_WIDTH; parameter CPL_QUEUE_INDEX_WIDTH = TX_CPL_QUEUE_INDEX_WIDTH > RX_CPL_QUEUE_INDEX_WIDTH ? TX_CPL_QUEUE_INDEX_WIDTH : RX_CPL_QUEUE_INDEX_WIDTH; parameter PORT_DESC_REQ_TAG_WIDTH = DESC_REQ_TAG_WIDTH - $clog2(PORTS+1); parameter AXIL_CSR_ADDR_WIDTH = AXIL_ADDR_WIDTH-5-$clog2((PORTS+3)/8); parameter AXIL_CTRL_ADDR_WIDTH = AXIL_ADDR_WIDTH-5-$clog2((PORTS+3)/8); parameter AXIL_EQM_ADDR_WIDTH = AXIL_ADDR_WIDTH-4-$clog2((PORTS+3)/8); parameter AXIL_TX_QM_ADDR_WIDTH = AXIL_ADDR_WIDTH-3-$clog2((PORTS+3)/8); parameter AXIL_TX_CQM_ADDR_WIDTH = AXIL_ADDR_WIDTH-3-$clog2((PORTS+3)/8); parameter AXIL_RX_QM_ADDR_WIDTH = AXIL_ADDR_WIDTH-4-$clog2((PORTS+3)/8); parameter AXIL_RX_CQM_ADDR_WIDTH = AXIL_ADDR_WIDTH-4-$clog2((PORTS+3)/8); parameter AXIL_PORT_ADDR_WIDTH = AXIL_ADDR_WIDTH-3-$clog2((PORTS+3)/8); parameter AXIL_CSR_BASE_ADDR = 0; parameter AXIL_CTRL_BASE_ADDR = AXIL_CSR_BASE_ADDR + 2**AXIL_CSR_ADDR_WIDTH; parameter AXIL_EQM_BASE_ADDR = AXIL_CTRL_BASE_ADDR + 2**AXIL_CTRL_ADDR_WIDTH; parameter AXIL_TX_QM_BASE_ADDR = AXIL_EQM_BASE_ADDR + 2**AXIL_EQM_ADDR_WIDTH; parameter AXIL_TX_CQM_BASE_ADDR = AXIL_TX_QM_BASE_ADDR + 2**AXIL_TX_QM_ADDR_WIDTH; parameter AXIL_RX_QM_BASE_ADDR = AXIL_TX_CQM_BASE_ADDR + 2**AXIL_TX_CQM_ADDR_WIDTH; parameter AXIL_RX_CQM_BASE_ADDR = AXIL_RX_QM_BASE_ADDR + 2**AXIL_RX_QM_ADDR_WIDTH; parameter AXIL_PORT_BASE_ADDR = AXIL_RX_CQM_BASE_ADDR + 2**AXIL_RX_CQM_ADDR_WIDTH; // parameter sizing helpers function [31:0] w_32(input [31:0] val); w_32 = val; endfunction // AXI lite connections wire [AXIL_ADDR_WIDTH-1:0] axil_ctrl_awaddr; wire [2:0] axil_ctrl_awprot; wire axil_ctrl_awvalid; wire axil_ctrl_awready; wire [AXIL_DATA_WIDTH-1:0] axil_ctrl_wdata; wire [AXIL_STRB_WIDTH-1:0] axil_ctrl_wstrb; wire axil_ctrl_wvalid; wire axil_ctrl_wready; wire [1:0] axil_ctrl_bresp; wire axil_ctrl_bvalid; wire axil_ctrl_bready; wire [AXIL_ADDR_WIDTH-1:0] axil_ctrl_araddr; wire [2:0] axil_ctrl_arprot; wire axil_ctrl_arvalid; wire axil_ctrl_arready; wire [AXIL_DATA_WIDTH-1:0] axil_ctrl_rdata; wire [1:0] axil_ctrl_rresp; wire axil_ctrl_rvalid; wire axil_ctrl_rready; wire [AXIL_ADDR_WIDTH-1:0] axil_event_queue_manager_awaddr; wire [2:0] axil_event_queue_manager_awprot; wire axil_event_queue_manager_awvalid; wire axil_event_queue_manager_awready; wire [AXIL_DATA_WIDTH-1:0] axil_event_queue_manager_wdata; wire [AXIL_STRB_WIDTH-1:0] axil_event_queue_manager_wstrb; wire axil_event_queue_manager_wvalid; wire axil_event_queue_manager_wready; wire [1:0] axil_event_queue_manager_bresp; wire axil_event_queue_manager_bvalid; wire axil_event_queue_manager_bready; wire [AXIL_ADDR_WIDTH-1:0] axil_event_queue_manager_araddr; wire [2:0] axil_event_queue_manager_arprot; wire axil_event_queue_manager_arvalid; wire axil_event_queue_manager_arready; wire [AXIL_DATA_WIDTH-1:0] axil_event_queue_manager_rdata; wire [1:0] axil_event_queue_manager_rresp; wire axil_event_queue_manager_rvalid; wire axil_event_queue_manager_rready; wire [AXIL_ADDR_WIDTH-1:0] axil_tx_queue_manager_awaddr; wire [2:0] axil_tx_queue_manager_awprot; wire axil_tx_queue_manager_awvalid; wire axil_tx_queue_manager_awready; wire [AXIL_DATA_WIDTH-1:0] axil_tx_queue_manager_wdata; wire [AXIL_STRB_WIDTH-1:0] axil_tx_queue_manager_wstrb; wire axil_tx_queue_manager_wvalid; wire axil_tx_queue_manager_wready; wire [1:0] axil_tx_queue_manager_bresp; wire axil_tx_queue_manager_bvalid; wire axil_tx_queue_manager_bready; wire [AXIL_ADDR_WIDTH-1:0] axil_tx_queue_manager_araddr; wire [2:0] axil_tx_queue_manager_arprot; wire axil_tx_queue_manager_arvalid; wire axil_tx_queue_manager_arready; wire [AXIL_DATA_WIDTH-1:0] axil_tx_queue_manager_rdata; wire [1:0] axil_tx_queue_manager_rresp; wire axil_tx_queue_manager_rvalid; wire axil_tx_queue_manager_rready; wire [AXIL_ADDR_WIDTH-1:0] axil_tx_cpl_queue_manager_awaddr; wire [2:0] axil_tx_cpl_queue_manager_awprot; wire axil_tx_cpl_queue_manager_awvalid; wire axil_tx_cpl_queue_manager_awready; wire [AXIL_DATA_WIDTH-1:0] axil_tx_cpl_queue_manager_wdata; wire [AXIL_STRB_WIDTH-1:0] axil_tx_cpl_queue_manager_wstrb; wire axil_tx_cpl_queue_manager_wvalid; wire axil_tx_cpl_queue_manager_wready; wire [1:0] axil_tx_cpl_queue_manager_bresp; wire axil_tx_cpl_queue_manager_bvalid; wire axil_tx_cpl_queue_manager_bready; wire [AXIL_ADDR_WIDTH-1:0] axil_tx_cpl_queue_manager_araddr; wire [2:0] axil_tx_cpl_queue_manager_arprot; wire axil_tx_cpl_queue_manager_arvalid; wire axil_tx_cpl_queue_manager_arready; wire [AXIL_DATA_WIDTH-1:0] axil_tx_cpl_queue_manager_rdata; wire [1:0] axil_tx_cpl_queue_manager_rresp; wire axil_tx_cpl_queue_manager_rvalid; wire axil_tx_cpl_queue_manager_rready; wire [AXIL_ADDR_WIDTH-1:0] axil_rx_queue_manager_awaddr; wire [2:0] axil_rx_queue_manager_awprot; wire axil_rx_queue_manager_awvalid; wire axil_rx_queue_manager_awready; wire [AXIL_DATA_WIDTH-1:0] axil_rx_queue_manager_wdata; wire [AXIL_STRB_WIDTH-1:0] axil_rx_queue_manager_wstrb; wire axil_rx_queue_manager_wvalid; wire axil_rx_queue_manager_wready; wire [1:0] axil_rx_queue_manager_bresp; wire axil_rx_queue_manager_bvalid; wire axil_rx_queue_manager_bready; wire [AXIL_ADDR_WIDTH-1:0] axil_rx_queue_manager_araddr; wire [2:0] axil_rx_queue_manager_arprot; wire axil_rx_queue_manager_arvalid; wire axil_rx_queue_manager_arready; wire [AXIL_DATA_WIDTH-1:0] axil_rx_queue_manager_rdata; wire [1:0] axil_rx_queue_manager_rresp; wire axil_rx_queue_manager_rvalid; wire axil_rx_queue_manager_rready; wire [AXIL_ADDR_WIDTH-1:0] axil_rx_cpl_queue_manager_awaddr; wire [2:0] axil_rx_cpl_queue_manager_awprot; wire axil_rx_cpl_queue_manager_awvalid; wire axil_rx_cpl_queue_manager_awready; wire [AXIL_DATA_WIDTH-1:0] axil_rx_cpl_queue_manager_wdata; wire [AXIL_STRB_WIDTH-1:0] axil_rx_cpl_queue_manager_wstrb; wire axil_rx_cpl_queue_manager_wvalid; wire axil_rx_cpl_queue_manager_wready; wire [1:0] axil_rx_cpl_queue_manager_bresp; wire axil_rx_cpl_queue_manager_bvalid; wire axil_rx_cpl_queue_manager_bready; wire [AXIL_ADDR_WIDTH-1:0] axil_rx_cpl_queue_manager_araddr; wire [2:0] axil_rx_cpl_queue_manager_arprot; wire axil_rx_cpl_queue_manager_arvalid; wire axil_rx_cpl_queue_manager_arready; wire [AXIL_DATA_WIDTH-1:0] axil_rx_cpl_queue_manager_rdata; wire [1:0] axil_rx_cpl_queue_manager_rresp; wire axil_rx_cpl_queue_manager_rvalid; wire axil_rx_cpl_queue_manager_rready; wire [PORTS*AXIL_ADDR_WIDTH-1:0] axil_port_awaddr; wire [PORTS*3-1:0] axil_port_awprot; wire [PORTS-1:0] axil_port_awvalid; wire [PORTS-1:0] axil_port_awready; wire [PORTS*AXIL_DATA_WIDTH-1:0] axil_port_wdata; wire [PORTS*AXIL_STRB_WIDTH-1:0] axil_port_wstrb; wire [PORTS-1:0] axil_port_wvalid; wire [PORTS-1:0] axil_port_wready; wire [PORTS*2-1:0] axil_port_bresp; wire [PORTS-1:0] axil_port_bvalid; wire [PORTS-1:0] axil_port_bready; wire [PORTS*AXIL_ADDR_WIDTH-1:0] axil_port_araddr; wire [PORTS*3-1:0] axil_port_arprot; wire [PORTS-1:0] axil_port_arvalid; wire [PORTS-1:0] axil_port_arready; wire [PORTS*AXIL_DATA_WIDTH-1:0] axil_port_rdata; wire [PORTS*2-1:0] axil_port_rresp; wire [PORTS-1:0] axil_port_rvalid; wire [PORTS-1:0] axil_port_rready; // DMA wire [PORTS*DMA_ADDR_WIDTH-1:0] port_dma_read_desc_dma_addr; wire [PORTS*RAM_ADDR_WIDTH-1:0] port_dma_read_desc_ram_addr; wire [PORTS*DMA_LEN_WIDTH-1:0] port_dma_read_desc_len; wire [PORTS*DMA_TAG_WIDTH_INT-1:0] port_dma_read_desc_tag; wire [PORTS-1:0] port_dma_read_desc_valid; wire [PORTS-1:0] port_dma_read_desc_ready; wire [PORTS*DMA_TAG_WIDTH_INT-1:0] port_dma_read_desc_status_tag; wire [PORTS-1:0] port_dma_read_desc_status_valid; wire [PORTS*DMA_ADDR_WIDTH-1:0] port_dma_write_desc_dma_addr; wire [PORTS*RAM_ADDR_WIDTH-1:0] port_dma_write_desc_ram_addr; wire [PORTS*DMA_LEN_WIDTH-1:0] port_dma_write_desc_len; wire [PORTS*DMA_TAG_WIDTH_INT-1:0] port_dma_write_desc_tag; wire [PORTS-1:0] port_dma_write_desc_valid; wire [PORTS-1:0] port_dma_write_desc_ready; wire [PORTS*DMA_TAG_WIDTH_INT-1:0] port_dma_write_desc_status_tag; wire [PORTS-1:0] port_dma_write_desc_status_valid; wire [PORTS*SEG_COUNT*SEG_BE_WIDTH-1:0] port_dma_ram_wr_cmd_be; wire [PORTS*SEG_COUNT*SEG_ADDR_WIDTH-1:0] port_dma_ram_wr_cmd_addr; wire [PORTS*SEG_COUNT*SEG_DATA_WIDTH-1:0] port_dma_ram_wr_cmd_data; wire [PORTS*SEG_COUNT-1:0] port_dma_ram_wr_cmd_valid; wire [PORTS*SEG_COUNT-1:0] port_dma_ram_wr_cmd_ready; wire [PORTS*SEG_COUNT*SEG_ADDR_WIDTH-1:0] port_dma_ram_rd_cmd_addr; wire [PORTS*SEG_COUNT-1:0] port_dma_ram_rd_cmd_valid; wire [PORTS*SEG_COUNT-1:0] port_dma_ram_rd_cmd_ready; wire [PORTS*SEG_COUNT*SEG_DATA_WIDTH-1:0] port_dma_ram_rd_resp_data; wire [PORTS*SEG_COUNT-1:0] port_dma_ram_rd_resp_valid; wire [PORTS*SEG_COUNT-1:0] port_dma_ram_rd_resp_ready; // Queue management wire [CPL_QUEUE_INDEX_WIDTH-1:0] event_enqueue_req_queue; wire [QUEUE_REQ_TAG_WIDTH-1:0] event_enqueue_req_tag; wire event_enqueue_req_valid; wire event_enqueue_req_ready; wire [DMA_ADDR_WIDTH-1:0] event_enqueue_resp_addr; wire [QUEUE_REQ_TAG_WIDTH-1:0] event_enqueue_resp_tag; wire [QUEUE_OP_TAG_WIDTH-1:0] event_enqueue_resp_op_tag; wire event_enqueue_resp_full; wire event_enqueue_resp_error; wire event_enqueue_resp_valid; wire event_enqueue_resp_ready; wire [QUEUE_OP_TAG_WIDTH-1:0] event_enqueue_commit_op_tag; wire event_enqueue_commit_valid; wire event_enqueue_commit_ready; wire [QUEUE_INDEX_WIDTH-1:0] tx_desc_dequeue_req_queue; wire [QUEUE_REQ_TAG_WIDTH-1:0] tx_desc_dequeue_req_tag; wire tx_desc_dequeue_req_valid; wire tx_desc_dequeue_req_ready; wire [QUEUE_INDEX_WIDTH-1:0] tx_desc_dequeue_resp_queue; wire [QUEUE_PTR_WIDTH-1:0] tx_desc_dequeue_resp_ptr; wire [DMA_ADDR_WIDTH-1:0] tx_desc_dequeue_resp_addr; wire [CPL_QUEUE_INDEX_WIDTH-1:0] tx_desc_dequeue_resp_cpl; wire [QUEUE_REQ_TAG_WIDTH-1:0] tx_desc_dequeue_resp_tag; wire [QUEUE_OP_TAG_WIDTH-1:0] tx_desc_dequeue_resp_op_tag; wire tx_desc_dequeue_resp_empty; wire tx_desc_dequeue_resp_error; wire tx_desc_dequeue_resp_valid; wire tx_desc_dequeue_resp_ready; wire [QUEUE_OP_TAG_WIDTH-1:0] tx_desc_dequeue_commit_op_tag; wire tx_desc_dequeue_commit_valid; wire tx_desc_dequeue_commit_ready; wire [TX_QUEUE_INDEX_WIDTH-1:0] tx_doorbell_queue; wire tx_doorbell_valid; wire [CPL_QUEUE_INDEX_WIDTH-1:0] tx_cpl_enqueue_req_queue; wire [QUEUE_REQ_TAG_WIDTH-1:0] tx_cpl_enqueue_req_tag; wire tx_cpl_enqueue_req_valid; wire tx_cpl_enqueue_req_ready; wire [DMA_ADDR_WIDTH-1:0] tx_cpl_enqueue_resp_addr; wire [QUEUE_REQ_TAG_WIDTH-1:0] tx_cpl_enqueue_resp_tag; wire [QUEUE_OP_TAG_WIDTH-1:0] tx_cpl_enqueue_resp_op_tag; wire tx_cpl_enqueue_resp_full; wire tx_cpl_enqueue_resp_error; wire tx_cpl_enqueue_resp_valid; wire tx_cpl_enqueue_resp_ready; wire [QUEUE_OP_TAG_WIDTH-1:0] tx_cpl_enqueue_commit_op_tag; wire tx_cpl_enqueue_commit_valid; wire tx_cpl_enqueue_commit_ready; wire [QUEUE_INDEX_WIDTH-1:0] rx_desc_dequeue_req_queue; wire [QUEUE_REQ_TAG_WIDTH-1:0] rx_desc_dequeue_req_tag; wire rx_desc_dequeue_req_valid; wire rx_desc_dequeue_req_ready; wire [QUEUE_INDEX_WIDTH-1:0] rx_desc_dequeue_resp_queue; wire [QUEUE_PTR_WIDTH-1:0] rx_desc_dequeue_resp_ptr; wire [DMA_ADDR_WIDTH-1:0] rx_desc_dequeue_resp_addr; wire [CPL_QUEUE_INDEX_WIDTH-1:0] rx_desc_dequeue_resp_cpl; wire [QUEUE_REQ_TAG_WIDTH-1:0] rx_desc_dequeue_resp_tag; wire [QUEUE_OP_TAG_WIDTH-1:0] rx_desc_dequeue_resp_op_tag; wire rx_desc_dequeue_resp_empty; wire rx_desc_dequeue_resp_error; wire rx_desc_dequeue_resp_valid; wire rx_desc_dequeue_resp_ready; wire [QUEUE_OP_TAG_WIDTH-1:0] rx_desc_dequeue_commit_op_tag; wire rx_desc_dequeue_commit_valid; wire rx_desc_dequeue_commit_ready; wire [CPL_QUEUE_INDEX_WIDTH-1:0] rx_cpl_enqueue_req_queue; wire [QUEUE_REQ_TAG_WIDTH-1:0] rx_cpl_enqueue_req_tag; wire rx_cpl_enqueue_req_valid; wire rx_cpl_enqueue_req_ready; wire [DMA_ADDR_WIDTH-1:0] rx_cpl_enqueue_resp_addr; wire [QUEUE_REQ_TAG_WIDTH-1:0] rx_cpl_enqueue_resp_tag; wire [QUEUE_OP_TAG_WIDTH-1:0] rx_cpl_enqueue_resp_op_tag; wire rx_cpl_enqueue_resp_full; wire rx_cpl_enqueue_resp_error; wire rx_cpl_enqueue_resp_valid; wire rx_cpl_enqueue_resp_ready; wire [QUEUE_OP_TAG_WIDTH-1:0] rx_cpl_enqueue_commit_op_tag; wire rx_cpl_enqueue_commit_valid; wire rx_cpl_enqueue_commit_ready; // descriptor and completion wire [0:0] desc_req_sel; wire [QUEUE_INDEX_WIDTH-1:0] desc_req_queue; wire [DESC_REQ_TAG_WIDTH-1:0] desc_req_tag; wire desc_req_valid; wire desc_req_ready; wire [QUEUE_INDEX_WIDTH-1:0] desc_req_status_queue; wire [QUEUE_PTR_WIDTH-1:0] desc_req_status_ptr; wire [CPL_QUEUE_INDEX_WIDTH-1:0] desc_req_status_cpl; wire [DESC_REQ_TAG_WIDTH-1:0] desc_req_status_tag; wire desc_req_status_empty; wire desc_req_status_error; wire desc_req_status_valid; wire [AXIS_DESC_DATA_WIDTH-1:0] axis_desc_tdata; wire [AXIS_DESC_KEEP_WIDTH-1:0] axis_desc_tkeep; wire axis_desc_tvalid; wire axis_desc_tready; wire axis_desc_tlast; wire [DESC_REQ_TAG_WIDTH-1:0] axis_desc_tid; wire axis_desc_tuser; wire [PORTS*1-1:0] port_desc_req_sel; wire [PORTS*QUEUE_INDEX_WIDTH-1:0] port_desc_req_queue; wire [PORTS*PORT_DESC_REQ_TAG_WIDTH-1:0] port_desc_req_tag; wire [PORTS-1:0] port_desc_req_valid; wire [PORTS-1:0] port_desc_req_ready; wire [PORTS*QUEUE_INDEX_WIDTH-1:0] port_desc_req_status_queue; wire [PORTS*QUEUE_PTR_WIDTH-1:0] port_desc_req_status_ptr; wire [PORTS*CPL_QUEUE_INDEX_WIDTH-1:0] port_desc_req_status_cpl; wire [PORTS*PORT_DESC_REQ_TAG_WIDTH-1:0] port_desc_req_status_tag; wire [PORTS-1:0] port_desc_req_status_empty; wire [PORTS-1:0] port_desc_req_status_error; wire [PORTS-1:0] port_desc_req_status_valid; wire [PORTS*AXIS_DESC_DATA_WIDTH-1:0] port_axis_desc_tdata; wire [PORTS*AXIS_DESC_KEEP_WIDTH-1:0] port_axis_desc_tkeep; wire [PORTS-1:0] port_axis_desc_tvalid; wire [PORTS-1:0] port_axis_desc_tready; wire [PORTS-1:0] port_axis_desc_tlast; wire [PORTS*PORT_DESC_REQ_TAG_WIDTH-1:0] port_axis_desc_tid; wire [PORTS-1:0] port_axis_desc_tuser; wire [1:0] cpl_req_sel; wire [QUEUE_INDEX_WIDTH-1:0] cpl_req_queue; wire [DESC_REQ_TAG_WIDTH-1:0] cpl_req_tag; wire [CPL_SIZE*8-1:0] cpl_req_data; wire cpl_req_valid; wire cpl_req_ready; wire [DESC_REQ_TAG_WIDTH-1:0] cpl_req_status_tag; wire cpl_req_status_full; wire cpl_req_status_error; wire cpl_req_status_valid; wire [1:0] event_cpl_req_sel = 2'd2; wire [QUEUE_INDEX_WIDTH-1:0] event_cpl_req_queue; wire [PORT_DESC_REQ_TAG_WIDTH-1:0] event_cpl_req_tag; wire [CPL_SIZE*8-1:0] event_cpl_req_data; wire event_cpl_req_valid; wire event_cpl_req_ready; wire [PORT_DESC_REQ_TAG_WIDTH-1:0] event_cpl_req_status_tag; wire event_cpl_req_status_full; wire event_cpl_req_status_error; wire event_cpl_req_status_valid; wire [PORTS*2-1:0] port_cpl_req_sel; wire [PORTS*QUEUE_INDEX_WIDTH-1:0] port_cpl_req_queue; wire [PORTS*PORT_DESC_REQ_TAG_WIDTH-1:0] port_cpl_req_tag; wire [PORTS*CPL_SIZE*8-1:0] port_cpl_req_data; wire [PORTS-1:0] port_cpl_req_valid; wire [PORTS-1:0] port_cpl_req_ready; wire [PORTS*PORT_DESC_REQ_TAG_WIDTH-1:0] port_cpl_req_status_tag; wire [PORTS-1:0] port_cpl_req_status_full; wire [PORTS-1:0] port_cpl_req_status_error; wire [PORTS-1:0] port_cpl_req_status_valid; // events wire [EVENT_QUEUE_INDEX_WIDTH-1:0] axis_event_queue; wire [EVENT_TYPE_WIDTH-1:0] axis_event_type; wire [EVENT_SOURCE_WIDTH-1:0] axis_event_source; wire axis_event_valid; wire axis_event_ready; wire [EVENT_QUEUE_INDEX_WIDTH-1:0] tx_fifo_event; wire [EVENT_TYPE_WIDTH-1:0] tx_fifo_event_type; wire [EVENT_SOURCE_WIDTH-1:0] tx_fifo_event_source; wire tx_fifo_event_valid; wire tx_fifo_event_ready; wire [EVENT_QUEUE_INDEX_WIDTH-1:0] rx_fifo_event; wire [EVENT_TYPE_WIDTH-1:0] rx_fifo_event_type; wire [EVENT_SOURCE_WIDTH-1:0] rx_fifo_event_source; wire rx_fifo_event_valid; wire rx_fifo_event_ready; wire [EVENT_QUEUE_INDEX_WIDTH-1:0] tx_event; wire [EVENT_TYPE_WIDTH-1:0] tx_event_type = 16'd0; wire [EVENT_SOURCE_WIDTH-1:0] tx_event_source; wire tx_event_valid; wire [EVENT_QUEUE_INDEX_WIDTH-1:0] rx_event; wire [EVENT_TYPE_WIDTH-1:0] rx_event_type = 16'd1; wire [EVENT_SOURCE_WIDTH-1:0] rx_event_source; wire rx_event_valid; // interrupts wire [INT_WIDTH-1:0] event_int; wire event_int_valid; assign msi_irq = (event_int_valid << event_int); // Interface control registers reg axil_ctrl_awready_reg = 1'b0; reg axil_ctrl_wready_reg = 1'b0; reg [1:0] axil_ctrl_bresp_reg = 2'b00; reg axil_ctrl_bvalid_reg = 1'b0; reg axil_ctrl_arready_reg = 1'b0; reg [AXIL_DATA_WIDTH-1:0] axil_ctrl_rdata_reg = {AXIL_DATA_WIDTH{1'b0}}; reg [1:0] axil_ctrl_rresp_reg = 2'b00; reg axil_ctrl_rvalid_reg = 1'b0; assign axil_ctrl_awready = axil_ctrl_awready_reg; assign axil_ctrl_wready = axil_ctrl_wready_reg; assign axil_ctrl_bresp = axil_ctrl_bresp_reg; assign axil_ctrl_bvalid = axil_ctrl_bvalid_reg; assign axil_ctrl_arready = axil_ctrl_arready_reg; assign axil_ctrl_rdata = axil_ctrl_rdata_reg; assign axil_ctrl_rresp = axil_ctrl_rresp_reg; assign axil_ctrl_rvalid = axil_ctrl_rvalid_reg; always @(posedge clk) begin axil_ctrl_awready_reg <= 1'b0; axil_ctrl_wready_reg <= 1'b0; axil_ctrl_bresp_reg <= 2'b00; axil_ctrl_bvalid_reg <= axil_ctrl_bvalid_reg && !axil_ctrl_bready; axil_ctrl_arready_reg <= 1'b0; axil_ctrl_rresp_reg <= 2'b00; axil_ctrl_rvalid_reg <= axil_ctrl_rvalid_reg && !axil_ctrl_rready; if (axil_ctrl_awvalid && axil_ctrl_wvalid && !axil_ctrl_bvalid) begin // write operation axil_ctrl_awready_reg <= 1'b1; axil_ctrl_wready_reg <= 1'b1; axil_ctrl_bresp_reg <= 2'b00; axil_ctrl_bvalid_reg <= 1'b1; // case ({axil_ctrl_awaddr[15:2], 2'b00}) // 16'h0000: // endcase end if (axil_ctrl_arvalid && !axil_ctrl_rvalid) begin // read operation axil_ctrl_arready_reg <= 1'b1; axil_ctrl_rresp_reg <= 2'b00; axil_ctrl_rvalid_reg <= 1'b1; axil_ctrl_rdata_reg <= {AXIL_DATA_WIDTH{1'b0}}; case ({axil_ctrl_araddr[15:2], 2'b00}) 16'h0000: axil_ctrl_rdata_reg <= 32'd0; // if_id 16'h0004: begin // if_features axil_ctrl_rdata_reg[0] <= RX_RSS_ENABLE && RX_HASH_ENABLE; axil_ctrl_rdata_reg[4] <= PTP_TS_ENABLE; axil_ctrl_rdata_reg[8] <= TX_CHECKSUM_ENABLE; axil_ctrl_rdata_reg[9] <= RX_CHECKSUM_ENABLE; axil_ctrl_rdata_reg[10] <= RX_HASH_ENABLE; end 16'h0010: axil_ctrl_rdata_reg <= 2**EVENT_QUEUE_INDEX_WIDTH; // event_queue_count 16'h0014: axil_ctrl_rdata_reg <= AXIL_EQM_BASE_ADDR; // event_queue_offset 16'h0020: axil_ctrl_rdata_reg <= 2**TX_QUEUE_INDEX_WIDTH; // tx_queue_count 16'h0024: axil_ctrl_rdata_reg <= AXIL_TX_QM_BASE_ADDR; // tx_queue_offset 16'h0028: axil_ctrl_rdata_reg <= 2**TX_CPL_QUEUE_INDEX_WIDTH; // tx_cpl_queue_count 16'h002C: axil_ctrl_rdata_reg <= AXIL_TX_CQM_BASE_ADDR; // tx_cpl_queue_offset 16'h0030: axil_ctrl_rdata_reg <= 2**RX_QUEUE_INDEX_WIDTH; // rx_queue_count 16'h0034: axil_ctrl_rdata_reg <= AXIL_RX_QM_BASE_ADDR; // rx_queue_offset 16'h0038: axil_ctrl_rdata_reg <= 2**RX_CPL_QUEUE_INDEX_WIDTH; // rx_cpl_queue_count 16'h003C: axil_ctrl_rdata_reg <= AXIL_RX_CQM_BASE_ADDR; // rx_cpl_queue_offset 16'h0040: axil_ctrl_rdata_reg <= PORTS; // port_count 16'h0044: axil_ctrl_rdata_reg <= AXIL_PORT_BASE_ADDR; // port_offset 16'h0048: axil_ctrl_rdata_reg <= 2**AXIL_PORT_ADDR_WIDTH; // port_stride endcase end if (rst) begin axil_ctrl_awready_reg <= 1'b0; axil_ctrl_wready_reg <= 1'b0; axil_ctrl_bvalid_reg <= 1'b0; axil_ctrl_arready_reg <= 1'b0; axil_ctrl_rvalid_reg <= 1'b0; end end // AXI lite interconnect parameter AXIL_S_COUNT = 1; parameter AXIL_M_COUNT = 7+PORTS; axil_interconnect #( .DATA_WIDTH(AXIL_DATA_WIDTH), .ADDR_WIDTH(AXIL_ADDR_WIDTH), .STRB_WIDTH(AXIL_STRB_WIDTH), .S_COUNT(AXIL_S_COUNT), .M_COUNT(AXIL_M_COUNT), .M_ADDR_WIDTH({{PORTS{w_32(AXIL_PORT_ADDR_WIDTH)}}, w_32(AXIL_RX_CQM_ADDR_WIDTH), w_32(AXIL_RX_QM_ADDR_WIDTH), w_32(AXIL_TX_CQM_ADDR_WIDTH), w_32(AXIL_TX_QM_ADDR_WIDTH), w_32(AXIL_EQM_ADDR_WIDTH), w_32(AXIL_CTRL_ADDR_WIDTH), w_32(AXIL_CSR_ADDR_WIDTH)}), .M_CONNECT_READ({AXIL_M_COUNT{{AXIL_S_COUNT{1'b1}}}}), .M_CONNECT_WRITE({AXIL_M_COUNT{{AXIL_S_COUNT{1'b1}}}}) ) axil_interconnect_inst ( .clk(clk), .rst(rst), .s_axil_awaddr(s_axil_awaddr), .s_axil_awprot(s_axil_awprot), .s_axil_awvalid(s_axil_awvalid), .s_axil_awready(s_axil_awready), .s_axil_wdata(s_axil_wdata), .s_axil_wstrb(s_axil_wstrb), .s_axil_wvalid(s_axil_wvalid), .s_axil_wready(s_axil_wready), .s_axil_bresp(s_axil_bresp), .s_axil_bvalid(s_axil_bvalid), .s_axil_bready(s_axil_bready), .s_axil_araddr(s_axil_araddr), .s_axil_arprot(s_axil_arprot), .s_axil_arvalid(s_axil_arvalid), .s_axil_arready(s_axil_arready), .s_axil_rdata(s_axil_rdata), .s_axil_rresp(s_axil_rresp), .s_axil_rvalid(s_axil_rvalid), .s_axil_rready(s_axil_rready), .m_axil_awaddr( {axil_port_awaddr, axil_rx_cpl_queue_manager_awaddr, axil_rx_queue_manager_awaddr, axil_tx_cpl_queue_manager_awaddr, axil_tx_queue_manager_awaddr, axil_event_queue_manager_awaddr, axil_ctrl_awaddr, m_axil_csr_awaddr}), .m_axil_awprot( {axil_port_awprot, axil_rx_cpl_queue_manager_awprot, axil_rx_queue_manager_awprot, axil_tx_cpl_queue_manager_awprot, axil_tx_queue_manager_awprot, axil_event_queue_manager_awprot, axil_ctrl_awprot, m_axil_csr_awprot}), .m_axil_awvalid({axil_port_awvalid, axil_rx_cpl_queue_manager_awvalid, axil_rx_queue_manager_awvalid, axil_tx_cpl_queue_manager_awvalid, axil_tx_queue_manager_awvalid, axil_event_queue_manager_awvalid, axil_ctrl_awvalid, m_axil_csr_awvalid}), .m_axil_awready({axil_port_awready, axil_rx_cpl_queue_manager_awready, axil_rx_queue_manager_awready, axil_tx_cpl_queue_manager_awready, axil_tx_queue_manager_awready, axil_event_queue_manager_awready, axil_ctrl_awready, m_axil_csr_awready}), .m_axil_wdata( {axil_port_wdata, axil_rx_cpl_queue_manager_wdata, axil_rx_queue_manager_wdata, axil_tx_cpl_queue_manager_wdata, axil_tx_queue_manager_wdata, axil_event_queue_manager_wdata, axil_ctrl_wdata, m_axil_csr_wdata}), .m_axil_wstrb( {axil_port_wstrb, axil_rx_cpl_queue_manager_wstrb, axil_rx_queue_manager_wstrb, axil_tx_cpl_queue_manager_wstrb, axil_tx_queue_manager_wstrb, axil_event_queue_manager_wstrb, axil_ctrl_wstrb, m_axil_csr_wstrb}), .m_axil_wvalid( {axil_port_wvalid, axil_rx_cpl_queue_manager_wvalid, axil_rx_queue_manager_wvalid, axil_tx_cpl_queue_manager_wvalid, axil_tx_queue_manager_wvalid, axil_event_queue_manager_wvalid, axil_ctrl_wvalid, m_axil_csr_wvalid}), .m_axil_wready( {axil_port_wready, axil_rx_cpl_queue_manager_wready, axil_rx_queue_manager_wready, axil_tx_cpl_queue_manager_wready, axil_tx_queue_manager_wready, axil_event_queue_manager_wready, axil_ctrl_wready, m_axil_csr_wready}), .m_axil_bresp( {axil_port_bresp, axil_rx_cpl_queue_manager_bresp, axil_rx_queue_manager_bresp, axil_tx_cpl_queue_manager_bresp, axil_tx_queue_manager_bresp, axil_event_queue_manager_bresp, axil_ctrl_bresp, m_axil_csr_bresp}), .m_axil_bvalid( {axil_port_bvalid, axil_rx_cpl_queue_manager_bvalid, axil_rx_queue_manager_bvalid, axil_tx_cpl_queue_manager_bvalid, axil_tx_queue_manager_bvalid, axil_event_queue_manager_bvalid, axil_ctrl_bvalid, m_axil_csr_bvalid}), .m_axil_bready( {axil_port_bready, axil_rx_cpl_queue_manager_bready, axil_rx_queue_manager_bready, axil_tx_cpl_queue_manager_bready, axil_tx_queue_manager_bready, axil_event_queue_manager_bready, axil_ctrl_bready, m_axil_csr_bready}), .m_axil_araddr( {axil_port_araddr, axil_rx_cpl_queue_manager_araddr, axil_rx_queue_manager_araddr, axil_tx_cpl_queue_manager_araddr, axil_tx_queue_manager_araddr, axil_event_queue_manager_araddr, axil_ctrl_araddr, m_axil_csr_araddr}), .m_axil_arprot( {axil_port_arprot, axil_rx_cpl_queue_manager_arprot, axil_rx_queue_manager_arprot, axil_tx_cpl_queue_manager_arprot, axil_tx_queue_manager_arprot, axil_event_queue_manager_arprot, axil_ctrl_arprot, m_axil_csr_arprot}), .m_axil_arvalid({axil_port_arvalid, axil_rx_cpl_queue_manager_arvalid, axil_rx_queue_manager_arvalid, axil_tx_cpl_queue_manager_arvalid, axil_tx_queue_manager_arvalid, axil_event_queue_manager_arvalid, axil_ctrl_arvalid, m_axil_csr_arvalid}), .m_axil_arready({axil_port_arready, axil_rx_cpl_queue_manager_arready, axil_rx_queue_manager_arready, axil_tx_cpl_queue_manager_arready, axil_tx_queue_manager_arready, axil_event_queue_manager_arready, axil_ctrl_arready, m_axil_csr_arready}), .m_axil_rdata( {axil_port_rdata, axil_rx_cpl_queue_manager_rdata, axil_rx_queue_manager_rdata, axil_tx_cpl_queue_manager_rdata, axil_tx_queue_manager_rdata, axil_event_queue_manager_rdata, axil_ctrl_rdata, m_axil_csr_rdata}), .m_axil_rresp( {axil_port_rresp, axil_rx_cpl_queue_manager_rresp, axil_rx_queue_manager_rresp, axil_tx_cpl_queue_manager_rresp, axil_tx_queue_manager_rresp, axil_event_queue_manager_rresp, axil_ctrl_rresp, m_axil_csr_rresp}), .m_axil_rvalid( {axil_port_rvalid, axil_rx_cpl_queue_manager_rvalid, axil_rx_queue_manager_rvalid, axil_tx_cpl_queue_manager_rvalid, axil_tx_queue_manager_rvalid, axil_event_queue_manager_rvalid, axil_ctrl_rvalid, m_axil_csr_rvalid}), .m_axil_rready( {axil_port_rready, axil_rx_cpl_queue_manager_rready, axil_rx_queue_manager_rready, axil_tx_cpl_queue_manager_rready, axil_tx_queue_manager_rready, axil_event_queue_manager_rready, axil_ctrl_rready, m_axil_csr_rready}) ); // Queue managers cpl_queue_manager #( .ADDR_WIDTH(DMA_ADDR_WIDTH), .REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .OP_TABLE_SIZE(EVENT_QUEUE_OP_TABLE_SIZE), .OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(EVENT_QUEUE_INDEX_WIDTH), .EVENT_WIDTH(INT_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .QUEUE_LOG_SIZE_WIDTH(QUEUE_LOG_SIZE_WIDTH), .CPL_SIZE(EVENT_SIZE), .PIPELINE(EVENT_QUEUE_PIPELINE), .AXIL_DATA_WIDTH(AXIL_DATA_WIDTH), .AXIL_ADDR_WIDTH(AXIL_EQM_ADDR_WIDTH), .AXIL_STRB_WIDTH(AXIL_STRB_WIDTH) ) event_queue_manager_inst ( .clk(clk), .rst(rst), /* * Enqueue request input */ .s_axis_enqueue_req_queue(event_enqueue_req_queue), .s_axis_enqueue_req_tag(event_enqueue_req_tag), .s_axis_enqueue_req_valid(event_enqueue_req_valid), .s_axis_enqueue_req_ready(event_enqueue_req_ready), /* * Enqueue response output */ .m_axis_enqueue_resp_queue(), .m_axis_enqueue_resp_ptr(), .m_axis_enqueue_resp_addr(event_enqueue_resp_addr), .m_axis_enqueue_resp_event(), .m_axis_enqueue_resp_tag(event_enqueue_resp_tag), .m_axis_enqueue_resp_op_tag(event_enqueue_resp_op_tag), .m_axis_enqueue_resp_full(event_enqueue_resp_full), .m_axis_enqueue_resp_error(event_enqueue_resp_error), .m_axis_enqueue_resp_valid(event_enqueue_resp_valid), .m_axis_enqueue_resp_ready(event_enqueue_resp_ready), /* * Enqueue commit input */ .s_axis_enqueue_commit_op_tag(event_enqueue_commit_op_tag), .s_axis_enqueue_commit_valid(event_enqueue_commit_valid), .s_axis_enqueue_commit_ready(event_enqueue_commit_ready), /* * Event output */ .m_axis_event(event_int), .m_axis_event_source(), .m_axis_event_valid(event_int_valid), /* * AXI-Lite slave interface */ .s_axil_awaddr(axil_event_queue_manager_awaddr), .s_axil_awprot(axil_event_queue_manager_awprot), .s_axil_awvalid(axil_event_queue_manager_awvalid), .s_axil_awready(axil_event_queue_manager_awready), .s_axil_wdata(axil_event_queue_manager_wdata), .s_axil_wstrb(axil_event_queue_manager_wstrb), .s_axil_wvalid(axil_event_queue_manager_wvalid), .s_axil_wready(axil_event_queue_manager_wready), .s_axil_bresp(axil_event_queue_manager_bresp), .s_axil_bvalid(axil_event_queue_manager_bvalid), .s_axil_bready(axil_event_queue_manager_bready), .s_axil_araddr(axil_event_queue_manager_araddr), .s_axil_arprot(axil_event_queue_manager_arprot), .s_axil_arvalid(axil_event_queue_manager_arvalid), .s_axil_arready(axil_event_queue_manager_arready), .s_axil_rdata(axil_event_queue_manager_rdata), .s_axil_rresp(axil_event_queue_manager_rresp), .s_axil_rvalid(axil_event_queue_manager_rvalid), .s_axil_rready(axil_event_queue_manager_rready), /* * Configuration */ .enable(1'b1) ); queue_manager #( .ADDR_WIDTH(DMA_ADDR_WIDTH), .REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .OP_TABLE_SIZE(TX_QUEUE_OP_TABLE_SIZE), .OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(TX_QUEUE_INDEX_WIDTH), .CPL_INDEX_WIDTH(TX_CPL_QUEUE_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .QUEUE_LOG_SIZE_WIDTH(QUEUE_LOG_SIZE_WIDTH), .DESC_SIZE(DESC_SIZE), .PIPELINE(TX_QUEUE_PIPELINE), .AXIL_DATA_WIDTH(AXIL_DATA_WIDTH), .AXIL_ADDR_WIDTH(AXIL_TX_QM_ADDR_WIDTH), .AXIL_STRB_WIDTH(AXIL_STRB_WIDTH) ) tx_queue_manager_inst ( .clk(clk), .rst(rst), /* * Dequeue request input */ .s_axis_dequeue_req_queue(tx_desc_dequeue_req_queue), .s_axis_dequeue_req_tag(tx_desc_dequeue_req_tag), .s_axis_dequeue_req_valid(tx_desc_dequeue_req_valid), .s_axis_dequeue_req_ready(tx_desc_dequeue_req_ready), /* * Dequeue response output */ .m_axis_dequeue_resp_queue(tx_desc_dequeue_resp_queue), .m_axis_dequeue_resp_ptr(tx_desc_dequeue_resp_ptr), .m_axis_dequeue_resp_addr(tx_desc_dequeue_resp_addr), .m_axis_dequeue_resp_cpl(tx_desc_dequeue_resp_cpl), .m_axis_dequeue_resp_tag(tx_desc_dequeue_resp_tag), .m_axis_dequeue_resp_op_tag(tx_desc_dequeue_resp_op_tag), .m_axis_dequeue_resp_empty(tx_desc_dequeue_resp_empty), .m_axis_dequeue_resp_error(tx_desc_dequeue_resp_error), .m_axis_dequeue_resp_valid(tx_desc_dequeue_resp_valid), .m_axis_dequeue_resp_ready(tx_desc_dequeue_resp_ready), /* * Dequeue commit input */ .s_axis_dequeue_commit_op_tag(tx_desc_dequeue_commit_op_tag), .s_axis_dequeue_commit_valid(tx_desc_dequeue_commit_valid), .s_axis_dequeue_commit_ready(tx_desc_dequeue_commit_ready), /* * Doorbell output */ .m_axis_doorbell_queue(tx_doorbell_queue), .m_axis_doorbell_valid(tx_doorbell_valid), /* * AXI-Lite slave interface */ .s_axil_awaddr(axil_tx_queue_manager_awaddr), .s_axil_awprot(axil_tx_queue_manager_awprot), .s_axil_awvalid(axil_tx_queue_manager_awvalid), .s_axil_awready(axil_tx_queue_manager_awready), .s_axil_wdata(axil_tx_queue_manager_wdata), .s_axil_wstrb(axil_tx_queue_manager_wstrb), .s_axil_wvalid(axil_tx_queue_manager_wvalid), .s_axil_wready(axil_tx_queue_manager_wready), .s_axil_bresp(axil_tx_queue_manager_bresp), .s_axil_bvalid(axil_tx_queue_manager_bvalid), .s_axil_bready(axil_tx_queue_manager_bready), .s_axil_araddr(axil_tx_queue_manager_araddr), .s_axil_arprot(axil_tx_queue_manager_arprot), .s_axil_arvalid(axil_tx_queue_manager_arvalid), .s_axil_arready(axil_tx_queue_manager_arready), .s_axil_rdata(axil_tx_queue_manager_rdata), .s_axil_rresp(axil_tx_queue_manager_rresp), .s_axil_rvalid(axil_tx_queue_manager_rvalid), .s_axil_rready(axil_tx_queue_manager_rready), /* * Configuration */ .enable(1'b1) ); cpl_queue_manager #( .ADDR_WIDTH(DMA_ADDR_WIDTH), .REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .OP_TABLE_SIZE(TX_QUEUE_OP_TABLE_SIZE), .OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(TX_CPL_QUEUE_INDEX_WIDTH), .EVENT_WIDTH(EVENT_QUEUE_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .QUEUE_LOG_SIZE_WIDTH(QUEUE_LOG_SIZE_WIDTH), .CPL_SIZE(CPL_SIZE), .PIPELINE(TX_CPL_QUEUE_PIPELINE), .AXIL_DATA_WIDTH(AXIL_DATA_WIDTH), .AXIL_ADDR_WIDTH(AXIL_TX_CQM_ADDR_WIDTH), .AXIL_STRB_WIDTH(AXIL_STRB_WIDTH) ) tx_cpl_queue_manager_inst ( .clk(clk), .rst(rst), /* * Enqueue request input */ .s_axis_enqueue_req_queue(tx_cpl_enqueue_req_queue), .s_axis_enqueue_req_tag(tx_cpl_enqueue_req_tag), .s_axis_enqueue_req_valid(tx_cpl_enqueue_req_valid), .s_axis_enqueue_req_ready(tx_cpl_enqueue_req_ready), /* * Enqueue response output */ .m_axis_enqueue_resp_queue(), .m_axis_enqueue_resp_ptr(), .m_axis_enqueue_resp_addr(tx_cpl_enqueue_resp_addr), .m_axis_enqueue_resp_event(), .m_axis_enqueue_resp_tag(tx_cpl_enqueue_resp_tag), .m_axis_enqueue_resp_op_tag(tx_cpl_enqueue_resp_op_tag), .m_axis_enqueue_resp_full(tx_cpl_enqueue_resp_full), .m_axis_enqueue_resp_error(tx_cpl_enqueue_resp_error), .m_axis_enqueue_resp_valid(tx_cpl_enqueue_resp_valid), .m_axis_enqueue_resp_ready(tx_cpl_enqueue_resp_ready), /* * Enqueue commit input */ .s_axis_enqueue_commit_op_tag(tx_cpl_enqueue_commit_op_tag), .s_axis_enqueue_commit_valid(tx_cpl_enqueue_commit_valid), .s_axis_enqueue_commit_ready(tx_cpl_enqueue_commit_ready), /* * Event output */ .m_axis_event(tx_event), .m_axis_event_source(tx_event_source), .m_axis_event_valid(tx_event_valid), /* * AXI-Lite slave interface */ .s_axil_awaddr(axil_tx_cpl_queue_manager_awaddr), .s_axil_awprot(axil_tx_cpl_queue_manager_awprot), .s_axil_awvalid(axil_tx_cpl_queue_manager_awvalid), .s_axil_awready(axil_tx_cpl_queue_manager_awready), .s_axil_wdata(axil_tx_cpl_queue_manager_wdata), .s_axil_wstrb(axil_tx_cpl_queue_manager_wstrb), .s_axil_wvalid(axil_tx_cpl_queue_manager_wvalid), .s_axil_wready(axil_tx_cpl_queue_manager_wready), .s_axil_bresp(axil_tx_cpl_queue_manager_bresp), .s_axil_bvalid(axil_tx_cpl_queue_manager_bvalid), .s_axil_bready(axil_tx_cpl_queue_manager_bready), .s_axil_araddr(axil_tx_cpl_queue_manager_araddr), .s_axil_arprot(axil_tx_cpl_queue_manager_arprot), .s_axil_arvalid(axil_tx_cpl_queue_manager_arvalid), .s_axil_arready(axil_tx_cpl_queue_manager_arready), .s_axil_rdata(axil_tx_cpl_queue_manager_rdata), .s_axil_rresp(axil_tx_cpl_queue_manager_rresp), .s_axil_rvalid(axil_tx_cpl_queue_manager_rvalid), .s_axil_rready(axil_tx_cpl_queue_manager_rready), /* * Configuration */ .enable(1'b1) ); queue_manager #( .ADDR_WIDTH(DMA_ADDR_WIDTH), .REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .OP_TABLE_SIZE(RX_QUEUE_OP_TABLE_SIZE), .OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(RX_QUEUE_INDEX_WIDTH), .CPL_INDEX_WIDTH(RX_CPL_QUEUE_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .QUEUE_LOG_SIZE_WIDTH(QUEUE_LOG_SIZE_WIDTH), .DESC_SIZE(DESC_SIZE), .PIPELINE(RX_QUEUE_PIPELINE), .AXIL_DATA_WIDTH(AXIL_DATA_WIDTH), .AXIL_ADDR_WIDTH(AXIL_RX_QM_ADDR_WIDTH), .AXIL_STRB_WIDTH(AXIL_STRB_WIDTH) ) rx_queue_manager_inst ( .clk(clk), .rst(rst), /* * Dequeue request input */ .s_axis_dequeue_req_queue(rx_desc_dequeue_req_queue), .s_axis_dequeue_req_tag(rx_desc_dequeue_req_tag), .s_axis_dequeue_req_valid(rx_desc_dequeue_req_valid), .s_axis_dequeue_req_ready(rx_desc_dequeue_req_ready), /* * Dequeue response output */ .m_axis_dequeue_resp_queue(rx_desc_dequeue_resp_queue), .m_axis_dequeue_resp_ptr(rx_desc_dequeue_resp_ptr), .m_axis_dequeue_resp_addr(rx_desc_dequeue_resp_addr), .m_axis_dequeue_resp_cpl(rx_desc_dequeue_resp_cpl), .m_axis_dequeue_resp_tag(rx_desc_dequeue_resp_tag), .m_axis_dequeue_resp_op_tag(rx_desc_dequeue_resp_op_tag), .m_axis_dequeue_resp_empty(rx_desc_dequeue_resp_empty), .m_axis_dequeue_resp_error(rx_desc_dequeue_resp_error), .m_axis_dequeue_resp_valid(rx_desc_dequeue_resp_valid), .m_axis_dequeue_resp_ready(rx_desc_dequeue_resp_ready), /* * Dequeue commit input */ .s_axis_dequeue_commit_op_tag(rx_desc_dequeue_commit_op_tag), .s_axis_dequeue_commit_valid(rx_desc_dequeue_commit_valid), .s_axis_dequeue_commit_ready(rx_desc_dequeue_commit_ready), /* * Doorbell output */ .m_axis_doorbell_queue(), .m_axis_doorbell_valid(), /* * AXI-Lite slave interface */ .s_axil_awaddr(axil_rx_queue_manager_awaddr), .s_axil_awprot(axil_rx_queue_manager_awprot), .s_axil_awvalid(axil_rx_queue_manager_awvalid), .s_axil_awready(axil_rx_queue_manager_awready), .s_axil_wdata(axil_rx_queue_manager_wdata), .s_axil_wstrb(axil_rx_queue_manager_wstrb), .s_axil_wvalid(axil_rx_queue_manager_wvalid), .s_axil_wready(axil_rx_queue_manager_wready), .s_axil_bresp(axil_rx_queue_manager_bresp), .s_axil_bvalid(axil_rx_queue_manager_bvalid), .s_axil_bready(axil_rx_queue_manager_bready), .s_axil_araddr(axil_rx_queue_manager_araddr), .s_axil_arprot(axil_rx_queue_manager_arprot), .s_axil_arvalid(axil_rx_queue_manager_arvalid), .s_axil_arready(axil_rx_queue_manager_arready), .s_axil_rdata(axil_rx_queue_manager_rdata), .s_axil_rresp(axil_rx_queue_manager_rresp), .s_axil_rvalid(axil_rx_queue_manager_rvalid), .s_axil_rready(axil_rx_queue_manager_rready), /* * Configuration */ .enable(1'b1) ); cpl_queue_manager #( .ADDR_WIDTH(DMA_ADDR_WIDTH), .REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .OP_TABLE_SIZE(RX_QUEUE_OP_TABLE_SIZE), .OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(RX_CPL_QUEUE_INDEX_WIDTH), .EVENT_WIDTH(EVENT_QUEUE_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .QUEUE_LOG_SIZE_WIDTH(QUEUE_LOG_SIZE_WIDTH), .CPL_SIZE(CPL_SIZE), .PIPELINE(RX_CPL_QUEUE_PIPELINE), .AXIL_DATA_WIDTH(AXIL_DATA_WIDTH), .AXIL_ADDR_WIDTH(AXIL_RX_CQM_ADDR_WIDTH), .AXIL_STRB_WIDTH(AXIL_STRB_WIDTH) ) rx_cpl_queue_manager_inst ( .clk(clk), .rst(rst), /* * Enqueue request input */ .s_axis_enqueue_req_queue(rx_cpl_enqueue_req_queue), .s_axis_enqueue_req_tag(rx_cpl_enqueue_req_tag), .s_axis_enqueue_req_valid(rx_cpl_enqueue_req_valid), .s_axis_enqueue_req_ready(rx_cpl_enqueue_req_ready), /* * Enqueue response output */ .m_axis_enqueue_resp_queue(), .m_axis_enqueue_resp_ptr(), .m_axis_enqueue_resp_addr(rx_cpl_enqueue_resp_addr), .m_axis_enqueue_resp_event(), .m_axis_enqueue_resp_tag(rx_cpl_enqueue_resp_tag), .m_axis_enqueue_resp_op_tag(rx_cpl_enqueue_resp_op_tag), .m_axis_enqueue_resp_full(rx_cpl_enqueue_resp_full), .m_axis_enqueue_resp_error(rx_cpl_enqueue_resp_error), .m_axis_enqueue_resp_valid(rx_cpl_enqueue_resp_valid), .m_axis_enqueue_resp_ready(rx_cpl_enqueue_resp_ready), /* * Enqueue commit input */ .s_axis_enqueue_commit_op_tag(rx_cpl_enqueue_commit_op_tag), .s_axis_enqueue_commit_valid(rx_cpl_enqueue_commit_valid), .s_axis_enqueue_commit_ready(rx_cpl_enqueue_commit_ready), /* * Event output */ .m_axis_event(rx_event), .m_axis_event_source(rx_event_source), .m_axis_event_valid(rx_event_valid), /* * AXI-Lite slave interface */ .s_axil_awaddr(axil_rx_cpl_queue_manager_awaddr), .s_axil_awprot(axil_rx_cpl_queue_manager_awprot), .s_axil_awvalid(axil_rx_cpl_queue_manager_awvalid), .s_axil_awready(axil_rx_cpl_queue_manager_awready), .s_axil_wdata(axil_rx_cpl_queue_manager_wdata), .s_axil_wstrb(axil_rx_cpl_queue_manager_wstrb), .s_axil_wvalid(axil_rx_cpl_queue_manager_wvalid), .s_axil_wready(axil_rx_cpl_queue_manager_wready), .s_axil_bresp(axil_rx_cpl_queue_manager_bresp), .s_axil_bvalid(axil_rx_cpl_queue_manager_bvalid), .s_axil_bready(axil_rx_cpl_queue_manager_bready), .s_axil_araddr(axil_rx_cpl_queue_manager_araddr), .s_axil_arprot(axil_rx_cpl_queue_manager_arprot), .s_axil_arvalid(axil_rx_cpl_queue_manager_arvalid), .s_axil_arready(axil_rx_cpl_queue_manager_arready), .s_axil_rdata(axil_rx_cpl_queue_manager_rdata), .s_axil_rresp(axil_rx_cpl_queue_manager_rresp), .s_axil_rvalid(axil_rx_cpl_queue_manager_rvalid), .s_axil_rready(axil_rx_cpl_queue_manager_rready), /* * Configuration */ .enable(1'b1) ); if (PORTS > 1) begin desc_op_mux #( .PORTS(PORTS), .SELECT_WIDTH(1), .QUEUE_INDEX_WIDTH(QUEUE_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .CPL_QUEUE_INDEX_WIDTH(CPL_QUEUE_INDEX_WIDTH), .S_REQ_TAG_WIDTH(PORT_DESC_REQ_TAG_WIDTH), .M_REQ_TAG_WIDTH(DESC_REQ_TAG_WIDTH), .AXIS_DATA_WIDTH(AXIS_DESC_DATA_WIDTH), .AXIS_KEEP_WIDTH(AXIS_DESC_KEEP_WIDTH), .ARB_TYPE("ROUND_ROBIN"), .LSB_PRIORITY("HIGH") ) desc_op_mux_inst ( .clk(clk), .rst(rst), /* * Descriptor request output */ .m_axis_req_sel(desc_req_sel), .m_axis_req_queue(desc_req_queue), .m_axis_req_tag(desc_req_tag), .m_axis_req_valid(desc_req_valid), .m_axis_req_ready(desc_req_ready), /* * Descriptor request status input */ .s_axis_req_status_queue(desc_req_status_queue), .s_axis_req_status_ptr(desc_req_status_ptr), .s_axis_req_status_cpl(desc_req_status_cpl), .s_axis_req_status_tag(desc_req_status_tag), .s_axis_req_status_empty(desc_req_status_empty), .s_axis_req_status_error(desc_req_status_error), .s_axis_req_status_valid(desc_req_status_valid), /* * Descriptor data input */ .s_axis_desc_tdata(axis_desc_tdata), .s_axis_desc_tkeep(axis_desc_tkeep), .s_axis_desc_tvalid(axis_desc_tvalid), .s_axis_desc_tready(axis_desc_tready), .s_axis_desc_tlast(axis_desc_tlast), .s_axis_desc_tid(axis_desc_tid), .s_axis_desc_tuser(axis_desc_tuser), /* * Descriptor request input */ .s_axis_req_sel(port_desc_req_sel), .s_axis_req_queue(port_desc_req_queue), .s_axis_req_tag(port_desc_req_tag), .s_axis_req_valid(port_desc_req_valid), .s_axis_req_ready(port_desc_req_ready), /* * Descriptor request status output */ .m_axis_req_status_queue(port_desc_req_status_queue), .m_axis_req_status_ptr(port_desc_req_status_ptr), .m_axis_req_status_cpl(port_desc_req_status_cpl), .m_axis_req_status_tag(port_desc_req_status_tag), .m_axis_req_status_empty(port_desc_req_status_empty), .m_axis_req_status_error(port_desc_req_status_error), .m_axis_req_status_valid(port_desc_req_status_valid), /* * Descriptor data output */ .m_axis_desc_tdata(port_axis_desc_tdata), .m_axis_desc_tkeep(port_axis_desc_tkeep), .m_axis_desc_tvalid(port_axis_desc_tvalid), .m_axis_desc_tready(port_axis_desc_tready), .m_axis_desc_tlast(port_axis_desc_tlast), .m_axis_desc_tid(port_axis_desc_tid), .m_axis_desc_tuser(port_axis_desc_tuser) ); end else begin assign desc_req_sel = port_desc_req_sel; assign desc_req_queue = port_desc_req_queue; assign desc_req_tag = port_desc_req_tag; assign desc_req_valid = port_desc_req_valid; assign port_desc_req_ready = desc_req_ready; assign port_desc_req_status_queue = desc_req_status_queue; assign port_desc_req_status_ptr = desc_req_status_ptr; assign port_desc_req_status_cpl = desc_req_status_cpl; assign port_desc_req_status_tag = desc_req_status_tag; assign port_desc_req_status_empty = desc_req_status_empty; assign port_desc_req_status_error = desc_req_status_error; assign port_desc_req_status_valid = desc_req_status_valid; assign port_axis_desc_tdata = axis_desc_tdata; assign port_axis_desc_tkeep = axis_desc_tkeep; assign port_axis_desc_tvalid = axis_desc_tvalid; assign axis_desc_tready = port_axis_desc_tready; assign port_axis_desc_tlast = axis_desc_tlast; assign port_axis_desc_tid = axis_desc_tid; assign port_axis_desc_tuser = axis_desc_tuser; end desc_fetch #( .PORTS(2), .SELECT_WIDTH(1), .SEG_COUNT(SEG_COUNT), .SEG_DATA_WIDTH(SEG_DATA_WIDTH), .SEG_ADDR_WIDTH(SEG_ADDR_WIDTH), .SEG_BE_WIDTH(SEG_BE_WIDTH), .RAM_ADDR_WIDTH(RAM_ADDR_WIDTH), .RAM_PIPELINE(RAM_PIPELINE), .AXIS_DATA_WIDTH(AXIS_DESC_DATA_WIDTH), .AXIS_KEEP_WIDTH(AXIS_DESC_KEEP_WIDTH), .DMA_ADDR_WIDTH(DMA_ADDR_WIDTH), .DMA_LEN_WIDTH(DMA_LEN_WIDTH), .DMA_TAG_WIDTH(DMA_TAG_WIDTH), .REQ_TAG_WIDTH(DESC_REQ_TAG_WIDTH), .QUEUE_REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .QUEUE_OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(QUEUE_INDEX_WIDTH), .CPL_QUEUE_INDEX_WIDTH(CPL_QUEUE_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .DESC_SIZE(DESC_SIZE), .DESC_TABLE_SIZE(32) ) desc_fetch_inst ( .clk(clk), .rst(rst), /* * Descriptor read request input */ .s_axis_req_sel(desc_req_sel), .s_axis_req_queue(desc_req_queue), .s_axis_req_tag(desc_req_tag), .s_axis_req_valid(desc_req_valid), .s_axis_req_ready(desc_req_ready), /* * Descriptor read request status output */ .m_axis_req_status_queue(desc_req_status_queue), .m_axis_req_status_ptr(desc_req_status_ptr), .m_axis_req_status_cpl(desc_req_status_cpl), .m_axis_req_status_tag(desc_req_status_tag), .m_axis_req_status_empty(desc_req_status_empty), .m_axis_req_status_error(desc_req_status_error), .m_axis_req_status_valid(desc_req_status_valid), /* * Descriptor data output */ .m_axis_desc_tdata(axis_desc_tdata), .m_axis_desc_tkeep(axis_desc_tkeep), .m_axis_desc_tvalid(axis_desc_tvalid), .m_axis_desc_tready(axis_desc_tready), .m_axis_desc_tlast(axis_desc_tlast), .m_axis_desc_tid(axis_desc_tid), .m_axis_desc_tuser(axis_desc_tuser), /* * Descriptor dequeue request output */ .m_axis_desc_dequeue_req_queue({rx_desc_dequeue_req_queue, tx_desc_dequeue_req_queue}), .m_axis_desc_dequeue_req_tag({rx_desc_dequeue_req_tag, tx_desc_dequeue_req_tag}), .m_axis_desc_dequeue_req_valid({rx_desc_dequeue_req_valid, tx_desc_dequeue_req_valid}), .m_axis_desc_dequeue_req_ready({rx_desc_dequeue_req_ready, tx_desc_dequeue_req_ready}), /* * Descriptor dequeue response input */ .s_axis_desc_dequeue_resp_queue({rx_desc_dequeue_resp_queue, tx_desc_dequeue_resp_queue}), .s_axis_desc_dequeue_resp_ptr({rx_desc_dequeue_resp_ptr, tx_desc_dequeue_resp_ptr}), .s_axis_desc_dequeue_resp_addr({rx_desc_dequeue_resp_addr, tx_desc_dequeue_resp_addr}), .s_axis_desc_dequeue_resp_cpl({rx_desc_dequeue_resp_cpl, tx_desc_dequeue_resp_cpl}), .s_axis_desc_dequeue_resp_tag({rx_desc_dequeue_resp_tag, tx_desc_dequeue_resp_tag}), .s_axis_desc_dequeue_resp_op_tag({rx_desc_dequeue_resp_op_tag, tx_desc_dequeue_resp_op_tag}), .s_axis_desc_dequeue_resp_empty({rx_desc_dequeue_resp_empty, tx_desc_dequeue_resp_empty}), .s_axis_desc_dequeue_resp_error({rx_desc_dequeue_resp_error, tx_desc_dequeue_resp_error}), .s_axis_desc_dequeue_resp_valid({rx_desc_dequeue_resp_valid, tx_desc_dequeue_resp_valid}), .s_axis_desc_dequeue_resp_ready({rx_desc_dequeue_resp_ready, tx_desc_dequeue_resp_ready}), /* * Descriptor dequeue commit output */ .m_axis_desc_dequeue_commit_op_tag({rx_desc_dequeue_commit_op_tag, tx_desc_dequeue_commit_op_tag}), .m_axis_desc_dequeue_commit_valid({rx_desc_dequeue_commit_valid, tx_desc_dequeue_commit_valid}), .m_axis_desc_dequeue_commit_ready({rx_desc_dequeue_commit_ready, tx_desc_dequeue_commit_ready}), /* * DMA read descriptor output */ .m_axis_dma_read_desc_dma_addr(m_axis_ctrl_dma_read_desc_dma_addr), .m_axis_dma_read_desc_ram_addr(m_axis_ctrl_dma_read_desc_ram_addr), .m_axis_dma_read_desc_len(m_axis_ctrl_dma_read_desc_len), .m_axis_dma_read_desc_tag(m_axis_ctrl_dma_read_desc_tag), .m_axis_dma_read_desc_valid(m_axis_ctrl_dma_read_desc_valid), .m_axis_dma_read_desc_ready(m_axis_ctrl_dma_read_desc_ready), /* * DMA read descriptor status input */ .s_axis_dma_read_desc_status_tag(s_axis_ctrl_dma_read_desc_status_tag), .s_axis_dma_read_desc_status_valid(s_axis_ctrl_dma_read_desc_status_valid), /* * RAM interface */ .dma_ram_wr_cmd_be(ctrl_dma_ram_wr_cmd_be), .dma_ram_wr_cmd_addr(ctrl_dma_ram_wr_cmd_addr), .dma_ram_wr_cmd_data(ctrl_dma_ram_wr_cmd_data), .dma_ram_wr_cmd_valid(ctrl_dma_ram_wr_cmd_valid), .dma_ram_wr_cmd_ready(ctrl_dma_ram_wr_cmd_ready), /* * Configuration */ .enable(1'b1) ); assign m_axis_ctrl_dma_read_desc_ram_sel = 0; cpl_op_mux #( .PORTS(PORTS+1), .SELECT_WIDTH(2), .QUEUE_INDEX_WIDTH(QUEUE_INDEX_WIDTH), .S_REQ_TAG_WIDTH(PORT_DESC_REQ_TAG_WIDTH), .M_REQ_TAG_WIDTH(DESC_REQ_TAG_WIDTH), .CPL_SIZE(CPL_SIZE), .ARB_TYPE("ROUND_ROBIN"), .LSB_PRIORITY("HIGH") ) cpl_op_mux_inst ( .clk(clk), .rst(rst), /* * Completion request output */ .m_axis_req_sel(cpl_req_sel), .m_axis_req_queue(cpl_req_queue), .m_axis_req_tag(cpl_req_tag), .m_axis_req_data(cpl_req_data), .m_axis_req_valid(cpl_req_valid), .m_axis_req_ready(cpl_req_ready), /* * Completion request status input */ .s_axis_req_status_tag(cpl_req_status_tag), .s_axis_req_status_full(cpl_req_status_full), .s_axis_req_status_error(cpl_req_status_error), .s_axis_req_status_valid(cpl_req_status_valid), /* * Completion request input */ .s_axis_req_sel({port_cpl_req_sel, event_cpl_req_sel}), .s_axis_req_queue({port_cpl_req_queue, event_cpl_req_queue}), .s_axis_req_tag({port_cpl_req_tag, event_cpl_req_tag}), .s_axis_req_data({port_cpl_req_data, event_cpl_req_data}), .s_axis_req_valid({port_cpl_req_valid, event_cpl_req_valid}), .s_axis_req_ready({port_cpl_req_ready, event_cpl_req_ready}), /* * Completion response output */ .m_axis_req_status_tag({port_cpl_req_status_tag, event_cpl_req_status_tag}), .m_axis_req_status_full({port_cpl_req_status_full, event_cpl_req_status_full}), .m_axis_req_status_error({port_cpl_req_status_error, event_cpl_req_status_error}), .m_axis_req_status_valid({port_cpl_req_status_valid, event_cpl_req_status_valid}) ); cpl_write #( .PORTS(3), .SELECT_WIDTH(2), .SEG_COUNT(SEG_COUNT), .SEG_DATA_WIDTH(SEG_DATA_WIDTH), .SEG_ADDR_WIDTH(SEG_ADDR_WIDTH), .SEG_BE_WIDTH(SEG_BE_WIDTH), .RAM_PIPELINE(RAM_PIPELINE), .RAM_ADDR_WIDTH(RAM_ADDR_WIDTH), .DMA_ADDR_WIDTH(DMA_ADDR_WIDTH), .DMA_LEN_WIDTH(DMA_LEN_WIDTH), .DMA_TAG_WIDTH(DMA_TAG_WIDTH), .REQ_TAG_WIDTH(DESC_REQ_TAG_WIDTH), .QUEUE_REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .QUEUE_OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .QUEUE_INDEX_WIDTH(QUEUE_INDEX_WIDTH), .CPL_SIZE(CPL_SIZE), .DESC_TABLE_SIZE(32) ) cpl_write_inst ( .clk(clk), .rst(rst), /* * Completion read request input */ .s_axis_req_sel(cpl_req_sel), .s_axis_req_queue(cpl_req_queue), .s_axis_req_tag(cpl_req_tag), .s_axis_req_data(cpl_req_data), .s_axis_req_valid(cpl_req_valid), .s_axis_req_ready(cpl_req_ready), /* * Completion read request status output */ .m_axis_req_status_tag(cpl_req_status_tag), .m_axis_req_status_full(cpl_req_status_full), .m_axis_req_status_error(cpl_req_status_error), .m_axis_req_status_valid(cpl_req_status_valid), /* * Completion enqueue request output */ .m_axis_cpl_enqueue_req_queue({event_enqueue_req_queue, rx_cpl_enqueue_req_queue, tx_cpl_enqueue_req_queue}), .m_axis_cpl_enqueue_req_tag({event_enqueue_req_tag, rx_cpl_enqueue_req_tag, tx_cpl_enqueue_req_tag}), .m_axis_cpl_enqueue_req_valid({event_enqueue_req_valid, rx_cpl_enqueue_req_valid, tx_cpl_enqueue_req_valid}), .m_axis_cpl_enqueue_req_ready({event_enqueue_req_ready, rx_cpl_enqueue_req_ready, tx_cpl_enqueue_req_ready}), /* * Completion enqueue response input */ .s_axis_cpl_enqueue_resp_addr({event_enqueue_resp_addr, rx_cpl_enqueue_resp_addr, tx_cpl_enqueue_resp_addr}), .s_axis_cpl_enqueue_resp_tag({event_enqueue_resp_tag, rx_cpl_enqueue_resp_tag, tx_cpl_enqueue_resp_tag}), .s_axis_cpl_enqueue_resp_op_tag({event_enqueue_resp_op_tag, rx_cpl_enqueue_resp_op_tag, tx_cpl_enqueue_resp_op_tag}), .s_axis_cpl_enqueue_resp_full({event_enqueue_resp_full, rx_cpl_enqueue_resp_full, tx_cpl_enqueue_resp_full}), .s_axis_cpl_enqueue_resp_error({event_enqueue_resp_error, rx_cpl_enqueue_resp_error, tx_cpl_enqueue_resp_error}), .s_axis_cpl_enqueue_resp_valid({event_enqueue_resp_valid, rx_cpl_enqueue_resp_valid, tx_cpl_enqueue_resp_valid}), .s_axis_cpl_enqueue_resp_ready({event_enqueue_resp_ready, rx_cpl_enqueue_resp_ready, tx_cpl_enqueue_resp_ready}), /* * Completion enqueue commit output */ .m_axis_cpl_enqueue_commit_op_tag({event_enqueue_commit_op_tag, rx_cpl_enqueue_commit_op_tag, tx_cpl_enqueue_commit_op_tag}), .m_axis_cpl_enqueue_commit_valid({event_enqueue_commit_valid, rx_cpl_enqueue_commit_valid, tx_cpl_enqueue_commit_valid}), .m_axis_cpl_enqueue_commit_ready({event_enqueue_commit_ready, rx_cpl_enqueue_commit_ready, tx_cpl_enqueue_commit_ready}), /* * DMA write descriptor output */ .m_axis_dma_write_desc_dma_addr(m_axis_ctrl_dma_write_desc_dma_addr), .m_axis_dma_write_desc_ram_addr(m_axis_ctrl_dma_write_desc_ram_addr), .m_axis_dma_write_desc_len(m_axis_ctrl_dma_write_desc_len), .m_axis_dma_write_desc_tag(m_axis_ctrl_dma_write_desc_tag), .m_axis_dma_write_desc_valid(m_axis_ctrl_dma_write_desc_valid), .m_axis_dma_write_desc_ready(m_axis_ctrl_dma_write_desc_ready), /* * DMA write descriptor status input */ .s_axis_dma_write_desc_status_tag(s_axis_ctrl_dma_write_desc_status_tag), .s_axis_dma_write_desc_status_valid(s_axis_ctrl_dma_write_desc_status_valid), /* * RAM interface */ .dma_ram_rd_cmd_addr(ctrl_dma_ram_rd_cmd_addr), .dma_ram_rd_cmd_valid(ctrl_dma_ram_rd_cmd_valid), .dma_ram_rd_cmd_ready(ctrl_dma_ram_rd_cmd_ready), .dma_ram_rd_resp_data(ctrl_dma_ram_rd_resp_data), .dma_ram_rd_resp_valid(ctrl_dma_ram_rd_resp_valid), .dma_ram_rd_resp_ready(ctrl_dma_ram_rd_resp_ready), /* * Configuration */ .enable(1'b1) ); assign m_axis_ctrl_dma_write_desc_ram_sel = 0; if (PORTS > 1) begin dma_if_mux # ( .PORTS(PORTS), .SEG_COUNT(SEG_COUNT), .SEG_DATA_WIDTH(SEG_DATA_WIDTH), .SEG_ADDR_WIDTH(SEG_ADDR_WIDTH), .SEG_BE_WIDTH(SEG_BE_WIDTH), .S_RAM_SEL_WIDTH(0), .M_RAM_SEL_WIDTH(RAM_SEL_WIDTH), .RAM_ADDR_WIDTH(RAM_ADDR_WIDTH), .DMA_ADDR_WIDTH(DMA_ADDR_WIDTH), .LEN_WIDTH(DMA_LEN_WIDTH), .S_TAG_WIDTH(DMA_TAG_WIDTH_INT), .M_TAG_WIDTH(DMA_TAG_WIDTH), .ARB_TYPE("ROUND_ROBIN"), .LSB_PRIORITY("HIGH") ) dma_if_mux_inst ( .clk(clk), .rst(rst), /* * Read descriptor output (to DMA interface) */ .m_axis_read_desc_dma_addr(m_axis_data_dma_read_desc_dma_addr), .m_axis_read_desc_ram_sel(m_axis_data_dma_read_desc_ram_sel), .m_axis_read_desc_ram_addr(m_axis_data_dma_read_desc_ram_addr), .m_axis_read_desc_len(m_axis_data_dma_read_desc_len), .m_axis_read_desc_tag(m_axis_data_dma_read_desc_tag), .m_axis_read_desc_valid(m_axis_data_dma_read_desc_valid), .m_axis_read_desc_ready(m_axis_data_dma_read_desc_ready), /* * Read descriptor status input (from DMA interface) */ .s_axis_read_desc_status_tag(s_axis_data_dma_read_desc_status_tag), .s_axis_read_desc_status_valid(s_axis_data_dma_read_desc_status_valid), /* * Read descriptor input */ .s_axis_read_desc_dma_addr(port_dma_read_desc_dma_addr), .s_axis_read_desc_ram_sel(0), .s_axis_read_desc_ram_addr(port_dma_read_desc_ram_addr), .s_axis_read_desc_len(port_dma_read_desc_len), .s_axis_read_desc_tag(port_dma_read_desc_tag), .s_axis_read_desc_valid(port_dma_read_desc_valid), .s_axis_read_desc_ready(port_dma_read_desc_ready), /* * Read descriptor status output */ .m_axis_read_desc_status_tag(port_dma_read_desc_status_tag), .m_axis_read_desc_status_valid(port_dma_read_desc_status_valid), /* * Write descriptor output (to DMA interface) */ .m_axis_write_desc_dma_addr(m_axis_data_dma_write_desc_dma_addr), .m_axis_write_desc_ram_sel(m_axis_data_dma_write_desc_ram_sel), .m_axis_write_desc_ram_addr(m_axis_data_dma_write_desc_ram_addr), .m_axis_write_desc_len(m_axis_data_dma_write_desc_len), .m_axis_write_desc_tag(m_axis_data_dma_write_desc_tag), .m_axis_write_desc_valid(m_axis_data_dma_write_desc_valid), .m_axis_write_desc_ready(m_axis_data_dma_write_desc_ready), /* * Write descriptor status input (from DMA interface) */ .s_axis_write_desc_status_tag(s_axis_data_dma_write_desc_status_tag), .s_axis_write_desc_status_valid(s_axis_data_dma_write_desc_status_valid), /* * Write descriptor input */ .s_axis_write_desc_dma_addr(port_dma_write_desc_dma_addr), .s_axis_write_desc_ram_sel(0), .s_axis_write_desc_ram_addr(port_dma_write_desc_ram_addr), .s_axis_write_desc_len(port_dma_write_desc_len), .s_axis_write_desc_tag(port_dma_write_desc_tag), .s_axis_write_desc_valid(port_dma_write_desc_valid), .s_axis_write_desc_ready(port_dma_write_desc_ready), /* * Write descriptor status output */ .m_axis_write_desc_status_tag(port_dma_write_desc_status_tag), .m_axis_write_desc_status_valid(port_dma_write_desc_status_valid), /* * RAM interface (from DMA interface) */ .if_ram_wr_cmd_sel(data_dma_ram_wr_cmd_sel), .if_ram_wr_cmd_be(data_dma_ram_wr_cmd_be), .if_ram_wr_cmd_addr(data_dma_ram_wr_cmd_addr), .if_ram_wr_cmd_data(data_dma_ram_wr_cmd_data), .if_ram_wr_cmd_valid(data_dma_ram_wr_cmd_valid), .if_ram_wr_cmd_ready(data_dma_ram_wr_cmd_ready), .if_ram_rd_cmd_sel(data_dma_ram_rd_cmd_sel), .if_ram_rd_cmd_addr(data_dma_ram_rd_cmd_addr), .if_ram_rd_cmd_valid(data_dma_ram_rd_cmd_valid), .if_ram_rd_cmd_ready(data_dma_ram_rd_cmd_ready), .if_ram_rd_resp_data(data_dma_ram_rd_resp_data), .if_ram_rd_resp_valid(data_dma_ram_rd_resp_valid), .if_ram_rd_resp_ready(data_dma_ram_rd_resp_ready), /* * RAM interface */ .ram_wr_cmd_sel(), .ram_wr_cmd_be(port_dma_ram_wr_cmd_be), .ram_wr_cmd_addr(port_dma_ram_wr_cmd_addr), .ram_wr_cmd_data(port_dma_ram_wr_cmd_data), .ram_wr_cmd_valid(port_dma_ram_wr_cmd_valid), .ram_wr_cmd_ready(port_dma_ram_wr_cmd_ready), .ram_rd_cmd_sel(), .ram_rd_cmd_addr(port_dma_ram_rd_cmd_addr), .ram_rd_cmd_valid(port_dma_ram_rd_cmd_valid), .ram_rd_cmd_ready(port_dma_ram_rd_cmd_ready), .ram_rd_resp_data(port_dma_ram_rd_resp_data), .ram_rd_resp_valid(port_dma_ram_rd_resp_valid), .ram_rd_resp_ready(port_dma_ram_rd_resp_ready) ); end else begin assign m_axis_data_dma_read_desc_dma_addr = port_dma_read_desc_dma_addr; assign m_axis_data_dma_read_desc_ram_sel = 0; assign m_axis_data_dma_read_desc_ram_addr = port_dma_read_desc_ram_addr; assign m_axis_data_dma_read_desc_len = port_dma_read_desc_len; assign m_axis_data_dma_read_desc_tag = port_dma_read_desc_tag; assign m_axis_data_dma_read_desc_valid = port_dma_read_desc_valid; assign port_dma_read_desc_ready = m_axis_data_dma_read_desc_ready; assign port_dma_read_desc_status_tag = s_axis_data_dma_read_desc_status_tag; assign port_dma_read_desc_status_valid = s_axis_data_dma_read_desc_status_valid; assign m_axis_data_dma_write_desc_dma_addr = port_dma_write_desc_dma_addr; assign m_axis_data_dma_write_desc_ram_sel = 0; assign m_axis_data_dma_write_desc_ram_addr = port_dma_write_desc_ram_addr; assign m_axis_data_dma_write_desc_len = port_dma_write_desc_len; assign m_axis_data_dma_write_desc_tag = port_dma_write_desc_tag; assign m_axis_data_dma_write_desc_valid = port_dma_write_desc_valid; assign port_dma_write_desc_ready = m_axis_data_dma_write_desc_ready; assign port_dma_write_desc_status_tag = s_axis_data_dma_write_desc_status_tag; assign port_dma_write_desc_status_valid = s_axis_data_dma_write_desc_status_valid; assign port_dma_ram_wr_cmd_be = data_dma_ram_wr_cmd_be; assign port_dma_ram_wr_cmd_addr = data_dma_ram_wr_cmd_addr; assign port_dma_ram_wr_cmd_data = data_dma_ram_wr_cmd_data; assign port_dma_ram_wr_cmd_valid = data_dma_ram_wr_cmd_valid; assign data_dma_ram_wr_cmd_ready = port_dma_ram_wr_cmd_ready; assign port_dma_ram_rd_cmd_addr = data_dma_ram_rd_cmd_addr; assign port_dma_ram_rd_cmd_valid = data_dma_ram_rd_cmd_valid; assign data_dma_ram_rd_cmd_ready = port_dma_ram_rd_cmd_ready; assign data_dma_ram_rd_resp_data = port_dma_ram_rd_resp_data; assign data_dma_ram_rd_resp_valid = port_dma_ram_rd_resp_valid; assign port_dma_ram_rd_resp_ready = data_dma_ram_rd_resp_ready; end event_mux #( .PORTS(2), .QUEUE_INDEX_WIDTH(EVENT_QUEUE_INDEX_WIDTH), .EVENT_TYPE_WIDTH(EVENT_TYPE_WIDTH), .EVENT_SOURCE_WIDTH(EVENT_SOURCE_WIDTH), .ARB_TYPE("ROUND_ROBIN"), .LSB_PRIORITY("HIGH") ) event_mux_inst ( .clk(clk), .rst(rst), /* * Event output */ .m_axis_event_queue(axis_event_queue), .m_axis_event_type(axis_event_type), .m_axis_event_source(axis_event_source), .m_axis_event_valid(axis_event_valid), .m_axis_event_ready(axis_event_ready), /* * Event input */ .s_axis_event_queue({rx_fifo_event, tx_fifo_event}), .s_axis_event_type({rx_fifo_event_type, tx_fifo_event_type}), .s_axis_event_source({rx_fifo_event_source, tx_fifo_event_source}), .s_axis_event_valid({rx_fifo_event_valid, tx_fifo_event_valid}), .s_axis_event_ready({rx_fifo_event_ready, tx_fifo_event_ready}) ); assign event_cpl_req_queue = axis_event_queue; assign event_cpl_req_tag = 0; assign event_cpl_req_data[15:0] = axis_event_type; assign event_cpl_req_data[31:16] = axis_event_source; assign event_cpl_req_data[255:32] = 0; assign event_cpl_req_valid = axis_event_valid; assign axis_event_ready = event_cpl_req_ready; axis_fifo #( .DEPTH(16), .DATA_WIDTH(EVENT_SOURCE_WIDTH+EVENT_TYPE_WIDTH+EVENT_QUEUE_INDEX_WIDTH), .KEEP_ENABLE(0), .LAST_ENABLE(0), .ID_ENABLE(0), .DEST_ENABLE(0), .USER_ENABLE(0), .FRAME_FIFO(0) ) tx_event_fifo ( .clk(clk), .rst(rst), // AXI input .s_axis_tdata({tx_event_source, tx_event_type, tx_event}), .s_axis_tkeep(0), .s_axis_tvalid(tx_event_valid), .s_axis_tready(), .s_axis_tlast(0), .s_axis_tid(0), .s_axis_tdest(0), .s_axis_tuser(0), // AXI output .m_axis_tdata({tx_fifo_event_source, tx_fifo_event_type, tx_fifo_event}), .m_axis_tkeep(), .m_axis_tvalid(tx_fifo_event_valid), .m_axis_tready(tx_fifo_event_ready), .m_axis_tlast(), .m_axis_tid(), .m_axis_tdest(), .m_axis_tuser(), // Status .status_overflow(), .status_bad_frame(), .status_good_frame() ); axis_fifo #( .DEPTH(16), .DATA_WIDTH(EVENT_SOURCE_WIDTH+EVENT_TYPE_WIDTH+EVENT_QUEUE_INDEX_WIDTH), .KEEP_ENABLE(0), .LAST_ENABLE(0), .ID_ENABLE(0), .DEST_ENABLE(0), .USER_ENABLE(0), .FRAME_FIFO(0) ) rx_event_fifo ( .clk(clk), .rst(rst), // AXI input .s_axis_tdata({rx_event_source, rx_event_type, rx_event}), .s_axis_tkeep(0), .s_axis_tvalid(rx_event_valid), .s_axis_tready(), .s_axis_tlast(0), .s_axis_tid(0), .s_axis_tdest(0), .s_axis_tuser(0), // AXI output .m_axis_tdata({rx_fifo_event_source, rx_fifo_event_type, rx_fifo_event}), .m_axis_tkeep(), .m_axis_tvalid(rx_fifo_event_valid), .m_axis_tready(rx_fifo_event_ready), .m_axis_tlast(), .m_axis_tid(), .m_axis_tdest(), .m_axis_tuser(), // Status .status_overflow(), .status_bad_frame(), .status_good_frame() ); generate genvar n; for (n = 0; n < PORTS; n = n + 1) begin : port assign port_cpl_req_sel[n*2+1 +: 1] = 1'b0; port #( .DMA_ADDR_WIDTH(DMA_ADDR_WIDTH), .DMA_LEN_WIDTH(DMA_LEN_WIDTH), .DMA_TAG_WIDTH(DMA_TAG_WIDTH_INT), .REQ_TAG_WIDTH(REQ_TAG_WIDTH), .DESC_REQ_TAG_WIDTH(PORT_DESC_REQ_TAG_WIDTH), .QUEUE_REQ_TAG_WIDTH(QUEUE_REQ_TAG_WIDTH), .QUEUE_OP_TAG_WIDTH(QUEUE_OP_TAG_WIDTH), .TX_QUEUE_INDEX_WIDTH(TX_QUEUE_INDEX_WIDTH), .RX_QUEUE_INDEX_WIDTH(RX_QUEUE_INDEX_WIDTH), .QUEUE_INDEX_WIDTH(QUEUE_INDEX_WIDTH), .TX_CPL_QUEUE_INDEX_WIDTH(TX_CPL_QUEUE_INDEX_WIDTH), .RX_CPL_QUEUE_INDEX_WIDTH(RX_CPL_QUEUE_INDEX_WIDTH), .CPL_QUEUE_INDEX_WIDTH(CPL_QUEUE_INDEX_WIDTH), .TX_DESC_TABLE_SIZE(TX_DESC_TABLE_SIZE), .TX_PKT_TABLE_SIZE(TX_PKT_TABLE_SIZE), .RX_DESC_TABLE_SIZE(RX_DESC_TABLE_SIZE), .RX_PKT_TABLE_SIZE(RX_PKT_TABLE_SIZE), .TX_SCHEDULER(TX_SCHEDULER), .TX_SCHEDULER_OP_TABLE_SIZE(TX_SCHEDULER_OP_TABLE_SIZE), .TX_SCHEDULER_PIPELINE(TX_SCHEDULER_PIPELINE), .TDMA_INDEX_WIDTH(TDMA_INDEX_WIDTH), .QUEUE_PTR_WIDTH(QUEUE_PTR_WIDTH), .PTP_TS_ENABLE(PTP_TS_ENABLE), .PTP_TS_WIDTH(PTP_TS_WIDTH), .TX_CHECKSUM_ENABLE(TX_CHECKSUM_ENABLE), .RX_RSS_ENABLE(RX_RSS_ENABLE), .RX_HASH_ENABLE(RX_HASH_ENABLE), .RX_CHECKSUM_ENABLE(RX_CHECKSUM_ENABLE), .AXIL_DATA_WIDTH(AXIL_DATA_WIDTH), .AXIL_ADDR_WIDTH(AXIL_PORT_ADDR_WIDTH), .AXIL_STRB_WIDTH(AXIL_STRB_WIDTH), .SEG_COUNT(SEG_COUNT), .SEG_DATA_WIDTH(SEG_DATA_WIDTH), .SEG_ADDR_WIDTH(SEG_ADDR_WIDTH), .SEG_BE_WIDTH(SEG_BE_WIDTH), .RAM_ADDR_WIDTH(RAM_ADDR_WIDTH), .RAM_PIPELINE(RAM_PIPELINE), .AXIS_DATA_WIDTH(AXIS_DATA_WIDTH), .AXIS_KEEP_WIDTH(AXIS_KEEP_WIDTH), .MAX_TX_SIZE(MAX_TX_SIZE), .MAX_RX_SIZE(MAX_RX_SIZE), .DESC_SIZE(DESC_SIZE), .CPL_SIZE(CPL_SIZE), .AXIS_DESC_DATA_WIDTH(AXIS_DESC_DATA_WIDTH), .AXIS_DESC_KEEP_WIDTH(AXIS_DESC_KEEP_WIDTH), .TX_RAM_SIZE(TX_RAM_SIZE), .RX_RAM_SIZE(RX_RAM_SIZE) ) port_inst ( .clk(clk), .rst(rst), /* * Descriptor request output */ .m_axis_desc_req_sel(port_desc_req_sel[n*1 +: 1]), .m_axis_desc_req_queue(port_desc_req_queue[n*QUEUE_INDEX_WIDTH +: QUEUE_INDEX_WIDTH]), .m_axis_desc_req_tag(port_desc_req_tag[n*PORT_DESC_REQ_TAG_WIDTH +: PORT_DESC_REQ_TAG_WIDTH]), .m_axis_desc_req_valid(port_desc_req_valid[n +: 1]), .m_axis_desc_req_ready(port_desc_req_ready[n +: 1]), /* * Descriptor response input */ .s_axis_desc_req_status_queue(port_desc_req_status_queue[n*QUEUE_INDEX_WIDTH +: QUEUE_INDEX_WIDTH]), .s_axis_desc_req_status_ptr(port_desc_req_status_ptr[n*QUEUE_PTR_WIDTH +: QUEUE_PTR_WIDTH]), .s_axis_desc_req_status_cpl(port_desc_req_status_cpl[n*CPL_QUEUE_INDEX_WIDTH +: CPL_QUEUE_INDEX_WIDTH]), .s_axis_desc_req_status_tag(port_desc_req_status_tag[n*PORT_DESC_REQ_TAG_WIDTH +: PORT_DESC_REQ_TAG_WIDTH]), .s_axis_desc_req_status_empty(port_desc_req_status_empty[n +: 1]), .s_axis_desc_req_status_error(port_desc_req_status_error[n +: 1]), .s_axis_desc_req_status_valid(port_desc_req_status_valid[n +: 1]), /* * Descriptor data input */ .s_axis_desc_tdata(port_axis_desc_tdata[n*AXIS_DESC_DATA_WIDTH +: AXIS_DESC_DATA_WIDTH]), .s_axis_desc_tkeep(port_axis_desc_tkeep[n*AXIS_DESC_KEEP_WIDTH +: AXIS_DESC_KEEP_WIDTH]), .s_axis_desc_tvalid(port_axis_desc_tvalid[n +: 1]), .s_axis_desc_tready(port_axis_desc_tready[n +: 1]), .s_axis_desc_tlast(port_axis_desc_tlast[n +: 1]), .s_axis_desc_tid(port_axis_desc_tid[n*PORT_DESC_REQ_TAG_WIDTH +: PORT_DESC_REQ_TAG_WIDTH]), .s_axis_desc_tuser(port_axis_desc_tuser[n +: 1]), /* * Completion request output */ .m_axis_cpl_req_sel(port_cpl_req_sel[n*2 +: 1]), .m_axis_cpl_req_queue(port_cpl_req_queue[n*QUEUE_INDEX_WIDTH +: QUEUE_INDEX_WIDTH]), .m_axis_cpl_req_tag(port_cpl_req_tag[n*PORT_DESC_REQ_TAG_WIDTH +: PORT_DESC_REQ_TAG_WIDTH]), .m_axis_cpl_req_data(port_cpl_req_data[n*CPL_SIZE*8 +: CPL_SIZE*8]), .m_axis_cpl_req_valid(port_cpl_req_valid[n +: 1]), .m_axis_cpl_req_ready(port_cpl_req_ready[n +: 1]), /* * Completion response input */ .s_axis_cpl_req_status_tag(port_cpl_req_status_tag[n*PORT_DESC_REQ_TAG_WIDTH +: PORT_DESC_REQ_TAG_WIDTH]), .s_axis_cpl_req_status_full(port_cpl_req_status_full[n +: 1]), .s_axis_cpl_req_status_error(port_cpl_req_status_error[n +: 1]), .s_axis_cpl_req_status_valid(port_cpl_req_status_valid[n +: 1]), /* * TX doorbell input */ .s_axis_tx_doorbell_queue(tx_doorbell_queue), .s_axis_tx_doorbell_valid(tx_doorbell_valid), /* * DMA read descriptor output */ .m_axis_dma_read_desc_dma_addr(port_dma_read_desc_dma_addr[n*DMA_ADDR_WIDTH +: DMA_ADDR_WIDTH]), .m_axis_dma_read_desc_ram_addr(port_dma_read_desc_ram_addr[n*RAM_ADDR_WIDTH +: RAM_ADDR_WIDTH]), .m_axis_dma_read_desc_len(port_dma_read_desc_len[n*DMA_LEN_WIDTH +: DMA_LEN_WIDTH]), .m_axis_dma_read_desc_tag(port_dma_read_desc_tag[n*DMA_TAG_WIDTH_INT +: DMA_TAG_WIDTH_INT]), .m_axis_dma_read_desc_valid(port_dma_read_desc_valid[n +: 1]), .m_axis_dma_read_desc_ready(port_dma_read_desc_ready[n +: 1]), /* * DMA read descriptor status input */ .s_axis_dma_read_desc_status_tag(port_dma_read_desc_status_tag[n*DMA_TAG_WIDTH_INT +: DMA_TAG_WIDTH_INT]), .s_axis_dma_read_desc_status_valid(port_dma_read_desc_status_valid[n +: 1]), /* * DMA write descriptor output */ .m_axis_dma_write_desc_dma_addr(port_dma_write_desc_dma_addr[n*DMA_ADDR_WIDTH +: DMA_ADDR_WIDTH]), .m_axis_dma_write_desc_ram_addr(port_dma_write_desc_ram_addr[n*RAM_ADDR_WIDTH +: RAM_ADDR_WIDTH]), .m_axis_dma_write_desc_len(port_dma_write_desc_len[n*DMA_LEN_WIDTH +: DMA_LEN_WIDTH]), .m_axis_dma_write_desc_tag(port_dma_write_desc_tag[n*DMA_TAG_WIDTH_INT +: DMA_TAG_WIDTH_INT]), .m_axis_dma_write_desc_valid(port_dma_write_desc_valid[n +: 1]), .m_axis_dma_write_desc_ready(port_dma_write_desc_ready[n +: 1]), /* * DMA write descriptor status input */ .s_axis_dma_write_desc_status_tag(port_dma_write_desc_status_tag[n*DMA_TAG_WIDTH_INT +: DMA_TAG_WIDTH_INT]), .s_axis_dma_write_desc_status_valid(port_dma_write_desc_status_valid[n +: 1]), /* * AXI-Lite slave interface */ .s_axil_awaddr(axil_port_awaddr[n*AXIL_ADDR_WIDTH +: AXIL_ADDR_WIDTH]), .s_axil_awprot(axil_port_awprot[n*3 +: 3]), .s_axil_awvalid(axil_port_awvalid[n +: 1]), .s_axil_awready(axil_port_awready[n +: 1]), .s_axil_wdata(axil_port_wdata[n*AXIL_DATA_WIDTH +: AXIL_DATA_WIDTH]), .s_axil_wstrb(axil_port_wstrb[n*AXIL_STRB_WIDTH +: AXIL_STRB_WIDTH]), .s_axil_wvalid(axil_port_wvalid[n +: 1]), .s_axil_wready(axil_port_wready[n +: 1]), .s_axil_bresp(axil_port_bresp[n*2 +: 2]), .s_axil_bvalid(axil_port_bvalid[n +: 1]), .s_axil_bready(axil_port_bready[n +: 1]), .s_axil_araddr(axil_port_araddr[n*AXIL_ADDR_WIDTH +: AXIL_ADDR_WIDTH]), .s_axil_arprot(axil_port_arprot[n*3 +: 3]), .s_axil_arvalid(axil_port_arvalid[n +: 1]), .s_axil_arready(axil_port_arready[n +: 1]), .s_axil_rdata(axil_port_rdata[n*AXIL_DATA_WIDTH +: AXIL_DATA_WIDTH]), .s_axil_rresp(axil_port_rresp[n*2 +: 2]), .s_axil_rvalid(axil_port_rvalid[n +: 1]), .s_axil_rready(axil_port_rready[n +: 1]), /* * RAM interface */ .dma_ram_wr_cmd_be(port_dma_ram_wr_cmd_be[SEG_COUNT*SEG_BE_WIDTH*n +: SEG_COUNT*SEG_BE_WIDTH]), .dma_ram_wr_cmd_addr(port_dma_ram_wr_cmd_addr[SEG_COUNT*SEG_ADDR_WIDTH*n +: SEG_COUNT*SEG_ADDR_WIDTH]), .dma_ram_wr_cmd_data(port_dma_ram_wr_cmd_data[SEG_COUNT*SEG_DATA_WIDTH*n +: SEG_COUNT*SEG_DATA_WIDTH]), .dma_ram_wr_cmd_valid(port_dma_ram_wr_cmd_valid[SEG_COUNT*n +: SEG_COUNT]), .dma_ram_wr_cmd_ready(port_dma_ram_wr_cmd_ready[SEG_COUNT*n +: SEG_COUNT]), .dma_ram_rd_cmd_addr(port_dma_ram_rd_cmd_addr[SEG_COUNT*SEG_ADDR_WIDTH*n +: SEG_COUNT*SEG_ADDR_WIDTH]), .dma_ram_rd_cmd_valid(port_dma_ram_rd_cmd_valid[SEG_COUNT*n +: SEG_COUNT]), .dma_ram_rd_cmd_ready(port_dma_ram_rd_cmd_ready[SEG_COUNT*n +: SEG_COUNT]), .dma_ram_rd_resp_data(port_dma_ram_rd_resp_data[SEG_COUNT*SEG_DATA_WIDTH*n +: SEG_COUNT*SEG_DATA_WIDTH]), .dma_ram_rd_resp_valid(port_dma_ram_rd_resp_valid[SEG_COUNT*n +: SEG_COUNT]), .dma_ram_rd_resp_ready(port_dma_ram_rd_resp_ready[SEG_COUNT*n +: SEG_COUNT]), /* * Transmit data output */ .tx_axis_tdata(tx_axis_tdata[n*AXIS_DATA_WIDTH +: AXIS_DATA_WIDTH]), .tx_axis_tkeep(tx_axis_tkeep[n*AXIS_KEEP_WIDTH +: AXIS_KEEP_WIDTH]), .tx_axis_tvalid(tx_axis_tvalid[n +: 1]), .tx_axis_tready(tx_axis_tready[n +: 1]), .tx_axis_tlast(tx_axis_tlast[n +: 1]), .tx_axis_tuser(tx_axis_tuser[n +: 1]), /* * Transmit timestamp input */ .s_axis_tx_ptp_ts_96(s_axis_tx_ptp_ts_96[n*PTP_TS_WIDTH +: PTP_TS_WIDTH]), .s_axis_tx_ptp_ts_valid(s_axis_tx_ptp_ts_valid[n +: 1]), .s_axis_tx_ptp_ts_ready(s_axis_tx_ptp_ts_ready[n +: 1]), /* * Receive data input */ .rx_axis_tdata(rx_axis_tdata[n*AXIS_DATA_WIDTH +: AXIS_DATA_WIDTH]), .rx_axis_tkeep(rx_axis_tkeep[n*AXIS_KEEP_WIDTH +: AXIS_KEEP_WIDTH]), .rx_axis_tvalid(rx_axis_tvalid[n +: 1]), .rx_axis_tready(rx_axis_tready[n +: 1]), .rx_axis_tlast(rx_axis_tlast[n +: 1]), .rx_axis_tuser(rx_axis_tuser[n +: 1]), /* * Receive timestamp input */ .s_axis_rx_ptp_ts_96(s_axis_rx_ptp_ts_96[n*PTP_TS_WIDTH +: PTP_TS_WIDTH]), .s_axis_rx_ptp_ts_valid(s_axis_rx_ptp_ts_valid[n +: 1]), .s_axis_rx_ptp_ts_ready(s_axis_rx_ptp_ts_ready[n +: 1]), /* * PTP clock */ .ptp_ts_96(ptp_ts_96), .ptp_ts_step(ptp_ts_step) ); end endgenerate endmodule