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- //-----------------------------------------------------------------
- // USB Serial Port
- // V0.1
- // Ultra-Embedded.com
- // Copyright 2020
- //
- // Email: admin@ultra-embedded.com
- //
- // License: LGPL
- //-----------------------------------------------------------------
- //
- // This source file may be used and distributed without
- // restriction provided that this copyright statement is not
- // removed from the file and that any derivative work contains
- // the original copyright notice and the associated disclaimer.
- //
- // This source file is free software; you can redistribute it
- // and/or modify it under the terms of the GNU Lesser General
- // Public License as published by the Free Software Foundation;
- // either version 2.1 of the License, or (at your option) any
- // later version.
- //
- // This source is distributed in the hope that it will be
- // useful, but WITHOUT ANY WARRANTY; without even the implied
- // warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
- // PURPOSE. See the GNU Lesser General Public License for more
- // details.
- //
- // You should have received a copy of the GNU Lesser General
- // Public License along with this source; if not, write to the
- // Free Software Foundation, Inc., 59 Temple Place, Suite 330,
- // Boston, MA 02111-1307 USA
- //-----------------------------------------------------------------
- //-----------------------------------------------------------------
- // Generated File
- //-----------------------------------------------------------------
- module usbf_sie_rx
- (
- // Inputs
- input clk_i
- ,input rst_i
- ,input enable_i
- ,input [ 7:0] utmi_data_i
- ,input utmi_rxvalid_i
- ,input utmi_rxactive_i
- ,input [ 6:0] current_addr_i
- // Outputs
- ,output [ 7:0] pid_o
- ,output frame_valid_o
- ,output [ 10:0] frame_number_o
- ,output token_valid_o
- ,output [ 6:0] token_addr_o
- ,output [ 3:0] token_ep_o
- ,output token_crc_err_o
- ,output handshake_valid_o
- ,output data_valid_o
- ,output data_strb_o
- ,output [ 7:0] data_o
- ,output data_last_o
- ,output data_crc_err_o
- ,output data_complete_o
- );
- //-----------------------------------------------------------------
- // Defines:
- //-----------------------------------------------------------------
- `include "usbf_defs.v"
- localparam STATE_W = 4;
- localparam STATE_RX_IDLE = 4'd0;
- localparam STATE_RX_TOKEN2 = 4'd1;
- localparam STATE_RX_TOKEN3 = 4'd2;
- localparam STATE_RX_TOKEN_COMPLETE = 4'd3;
- localparam STATE_RX_SOF2 = 4'd4;
- localparam STATE_RX_SOF3 = 4'd5;
- localparam STATE_RX_DATA = 4'd6;
- localparam STATE_RX_DATA_COMPLETE = 4'd7;
- localparam STATE_RX_IGNORED = 4'd8;
- reg [STATE_W-1:0] state_q;
- //-----------------------------------------------------------------
- // Wire / Regs
- //-----------------------------------------------------------------
- `define USB_FRAME_W 11
- reg [`USB_FRAME_W-1:0] frame_num_q;
- `define USB_DEV_W 7
- reg [`USB_DEV_W-1:0] token_dev_q;
- `define USB_EP_W 4
- reg [`USB_EP_W-1:0] token_ep_q;
- `define USB_PID_W 8
- reg [`USB_PID_W-1:0] token_pid_q;
- //-----------------------------------------------------------------
- // Data delay (to strip the CRC16 trailing bytes)
- //-----------------------------------------------------------------
- reg [31:0] data_buffer_q;
- reg [3:0] data_valid_q;
- reg [3:0] rx_active_q;
- wire shift_en_w = (utmi_rxvalid_i & utmi_rxactive_i) || !utmi_rxactive_i;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- data_buffer_q <= 32'b0;
- else if (shift_en_w)
- data_buffer_q <= {utmi_data_i, data_buffer_q[31:8]};
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- data_valid_q <= 4'b0;
- else if (shift_en_w)
- data_valid_q <= {(utmi_rxvalid_i & utmi_rxactive_i), data_valid_q[3:1]};
- else
- data_valid_q <= {data_valid_q[3:1], 1'b0};
- reg [1:0] data_crc_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- data_crc_q <= 2'b0;
- else if (shift_en_w)
- data_crc_q <= {!utmi_rxactive_i, data_crc_q[1]};
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- rx_active_q <= 4'b0;
- else
- rx_active_q <= {utmi_rxactive_i, rx_active_q[3:1]};
- wire [7:0] data_w = data_buffer_q[7:0];
- wire data_ready_w = data_valid_q[0];
- wire crc_byte_w = data_crc_q[0];
- wire rx_active_w = rx_active_q[0];
- wire address_match_w = (token_dev_q == current_addr_i);
- //-----------------------------------------------------------------
- // Next state
- //-----------------------------------------------------------------
- reg [STATE_W-1:0] next_state_r;
- always @ *
- begin
- next_state_r = state_q;
- case (state_q)
- //-----------------------------------------
- // IDLE
- //-----------------------------------------
- STATE_RX_IDLE :
- begin
- if (data_ready_w)
- begin
- // Decode PID
- case (data_w)
- `PID_OUT, `PID_IN, `PID_SETUP, `PID_PING:
- next_state_r = STATE_RX_TOKEN2;
- `PID_SOF:
- next_state_r = STATE_RX_SOF2;
- `PID_DATA0, `PID_DATA1, `PID_DATA2, `PID_MDATA:
- begin
- next_state_r = STATE_RX_DATA;
- end
- `PID_ACK, `PID_NAK, `PID_STALL, `PID_NYET:
- next_state_r = STATE_RX_IDLE;
- default : // SPLIT / ERR
- next_state_r = STATE_RX_IGNORED;
- endcase
- end
- end
- //-----------------------------------------
- // RX_IGNORED: Unknown / unsupported
- //-----------------------------------------
- STATE_RX_IGNORED :
- begin
- // Wait until the end of the packet
- if (!rx_active_w)
- next_state_r = STATE_RX_IDLE;
- end
- //-----------------------------------------
- // SOF (BYTE 2)
- //-----------------------------------------
- STATE_RX_SOF2 :
- begin
- if (data_ready_w)
- next_state_r = STATE_RX_SOF3;
- else if (!rx_active_w)
- next_state_r = STATE_RX_IDLE;
- end
- //-----------------------------------------
- // SOF (BYTE 3)
- //-----------------------------------------
- STATE_RX_SOF3 :
- begin
- if (data_ready_w || !rx_active_w)
- next_state_r = STATE_RX_IDLE;
- end
- //-----------------------------------------
- // TOKEN (IN/OUT/SETUP) (Address/Endpoint)
- //-----------------------------------------
- STATE_RX_TOKEN2 :
- begin
- if (data_ready_w)
- next_state_r = STATE_RX_TOKEN3;
- else if (!rx_active_w)
- next_state_r = STATE_RX_IDLE;
- end
- //-----------------------------------------
- // TOKEN (IN/OUT/SETUP) (Endpoint/CRC)
- //-----------------------------------------
- STATE_RX_TOKEN3 :
- begin
- if (data_ready_w)
- next_state_r = STATE_RX_TOKEN_COMPLETE;
- else if (!rx_active_w)
- next_state_r = STATE_RX_IDLE;
- end
- //-----------------------------------------
- // RX_TOKEN_COMPLETE
- //-----------------------------------------
- STATE_RX_TOKEN_COMPLETE :
- begin
- next_state_r = STATE_RX_IDLE;
- end
- //-----------------------------------------
- // RX_DATA
- //-----------------------------------------
- STATE_RX_DATA :
- begin
- // Receive complete
- if (crc_byte_w)
- next_state_r = STATE_RX_DATA_COMPLETE;
- end
- //-----------------------------------------
- // RX_DATA_COMPLETE
- //-----------------------------------------
- STATE_RX_DATA_COMPLETE :
- begin
- if (!rx_active_w)
- next_state_r = STATE_RX_IDLE;
- end
- default :
- ;
- endcase
- end
- // Update state
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- state_q <= STATE_RX_IDLE;
- else if (!enable_i)
- state_q <= STATE_RX_IDLE;
- else
- state_q <= next_state_r;
- //-----------------------------------------------------------------
- // Handshake:
- //-----------------------------------------------------------------
- reg handshake_valid_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- handshake_valid_q <= 1'b0;
- else if (state_q == STATE_RX_IDLE && data_ready_w)
- begin
- case (data_w)
- `PID_ACK, `PID_NAK, `PID_STALL, `PID_NYET:
- handshake_valid_q <= address_match_w;
- default :
- handshake_valid_q <= 1'b0;
- endcase
- end
- else
- handshake_valid_q <= 1'b0;
- assign handshake_valid_o = handshake_valid_q;
- //-----------------------------------------------------------------
- // SOF: Frame number
- //-----------------------------------------------------------------
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- frame_num_q <= `USB_FRAME_W'b0;
- else if (state_q == STATE_RX_SOF2 && data_ready_w)
- frame_num_q <= {3'b0, data_w};
- else if (state_q == STATE_RX_SOF3 && data_ready_w)
- frame_num_q <= {data_w[2:0], frame_num_q[7:0]};
- else if (!enable_i)
- frame_num_q <= `USB_FRAME_W'b0;
- assign frame_number_o = frame_num_q;
- reg frame_valid_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- frame_valid_q <= 1'b0;
- else
- frame_valid_q <= (state_q == STATE_RX_SOF3 && data_ready_w);
- assign frame_valid_o = frame_valid_q;
- //-----------------------------------------------------------------
- // Token: PID
- //-----------------------------------------------------------------
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- token_pid_q <= `USB_PID_W'b0;
- else if (state_q == STATE_RX_IDLE && data_ready_w)
- token_pid_q <= data_w;
- else if (!enable_i)
- token_pid_q <= `USB_PID_W'b0;
- assign pid_o = token_pid_q;
- reg token_valid_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- token_valid_q <= 1'b0;
- else
- token_valid_q <= (state_q == STATE_RX_TOKEN_COMPLETE) && address_match_w;
- assign token_valid_o = token_valid_q;
- //-----------------------------------------------------------------
- // Token: Device Address
- //-----------------------------------------------------------------
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- token_dev_q <= `USB_DEV_W'b0;
- else if (state_q == STATE_RX_TOKEN2 && data_ready_w)
- token_dev_q <= data_w[6:0];
- else if (!enable_i)
- token_dev_q <= `USB_DEV_W'b0;
- assign token_addr_o = token_dev_q;
- //-----------------------------------------------------------------
- // Token: Endpoint
- //-----------------------------------------------------------------
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- token_ep_q <= `USB_EP_W'b0;
- else if (state_q == STATE_RX_TOKEN2 && data_ready_w)
- token_ep_q[0] <= data_w[7];
- else if (state_q == STATE_RX_TOKEN3 && data_ready_w)
- token_ep_q[3:1] <= data_w[2:0];
- else if (!enable_i)
- token_ep_q <= `USB_EP_W'b0;
- assign token_ep_o = token_ep_q;
- assign token_crc_err_o = 1'b0;
- wire [7:0] input_data_w = data_w;
- wire input_ready_w = state_q == STATE_RX_DATA && data_ready_w && !crc_byte_w;
- //-----------------------------------------------------------------
- // CRC16: Generate CRC16 on incoming data bytes
- //-----------------------------------------------------------------
- reg [15:0] crc_sum_q;
- wire [15:0] crc_out_w;
- reg crc_err_q;
- usbf_crc16
- u_crc16
- (
- .crc_in_i(crc_sum_q),
- .din_i(data_w),
- .crc_out_o(crc_out_w)
- );
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- crc_sum_q <= 16'hFFFF;
- else if (state_q == STATE_RX_IDLE)
- crc_sum_q <= 16'hFFFF;
- else if (data_ready_w)
- crc_sum_q <= crc_out_w;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- crc_err_q <= 1'b0;
- else if (state_q == STATE_RX_IDLE)
- crc_err_q <= 1'b0;
- else if (state_q == STATE_RX_DATA_COMPLETE && next_state_r == STATE_RX_IDLE)
- crc_err_q <= (crc_sum_q != 16'hB001);
- assign data_crc_err_o = crc_err_q;
- reg data_complete_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- data_complete_q <= 1'b0;
- else if (state_q == STATE_RX_DATA_COMPLETE && next_state_r == STATE_RX_IDLE)
- data_complete_q <= 1'b1;
- else
- data_complete_q <= 1'b0;
- assign data_complete_o = data_complete_q;
- reg data_zlp_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- data_zlp_q <= 1'b0;
- else if (state_q == STATE_RX_IDLE && next_state_r == STATE_RX_DATA)
- data_zlp_q <= 1'b1;
- else if (input_ready_w)
- data_zlp_q <= 1'b0;
- //-----------------------------------------------------------------
- // Data Output
- //-----------------------------------------------------------------
- reg valid_q;
- reg last_q;
- reg [7:0] data_q;
- reg mask_q;
- always @ (posedge clk_i or posedge rst_i)
- if (rst_i)
- begin
- valid_q <= 1'b0;
- data_q <= 8'b0;
- mask_q <= 1'b0;
- last_q <= 1'b0;
- end
- else
- begin
- valid_q <= input_ready_w || ((state_q == STATE_RX_DATA) && crc_byte_w && data_zlp_q);
- data_q <= input_data_w;
- mask_q <= input_ready_w;
- last_q <= (state_q == STATE_RX_DATA) && crc_byte_w;
- end
- // Data
- assign data_valid_o = valid_q;
- assign data_strb_o = mask_q;
- assign data_o = data_q;
- assign data_last_o = last_q | crc_byte_w;
- endmodule
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