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//cont_controller.v /* Distributed under the MIT license. Copyright (c) 2011 Dave McCoy (dave.mccoy@cospandesign.com) Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ `include "sata_defines.v" module cont_controller ( input rst, //reset input clk, input phy_ready, input xmit_cont_en, //enable the transmit cont primative (slows simulations WAY!!! down) input last_prim, input [31:0] ll_tx_din, input ll_tx_is_k, output [31:0] cont_tx_dout, output cont_tx_is_k, input [31:0] rx_din, input [3:0] rx_is_k, output detect_sync, output detect_r_rdy, output detect_r_ip, output detect_r_err, output detect_r_ok, output detect_x_rdy, output detect_sof, output detect_eof, output detect_wtrm, output detect_cont, output detect_hold, output detect_holda, output detect_preq_s, output detect_preq_p, output detect_align, output detect_xrdy_xrdy ); //Parameters //Registers/Wires //CONT detect State Machine wire hold_cont; wire holda_cont; wire pmreq_p_cont; wire pmreq_s_cont; wire r_err_cont; wire r_ip_cont; wire r_ok_cont; wire r_rdy_cont; wire sync_cont; wire wtrm_cont; wire x_rdy_cont; reg cont_detect; reg [31:0] prev_prim; reg hold_cont_ready; reg holda_cont_ready; reg pmreq_p_cont_ready; reg pmreq_s_cont_ready; reg r_err_cont_ready; reg r_ip_cont_ready; reg r_ok_cont_ready; reg r_rdy_cont_ready; reg sync_cont_ready; reg wtrm_cont_ready; reg x_rdy_cont_ready; //CONT generate state machine reg [31:0] tx_prev_prim; reg tx_cont_enable; reg tx_cont_sent; reg send_cont; //Scrambler control wire scram_en; wire [31:0] scram_dout; //Submodules scrambler scram ( .rst (rst ), .clk (clk ), .prim_scrambler (1'b1 ), .en (scram_en ), .din (ll_tx_din ), .dout (scram_dout ) ); //Asynchronous Logic assign detect_sync = ((rx_is_k[0]) && (rx_din == `PRIM_SYNC )) || sync_cont; //sync (normal) == sync(cont) assign detect_r_rdy = ((rx_is_k[0]) && (rx_din == `PRIM_R_RDY )) || r_rdy_cont; assign detect_r_ip = ((rx_is_k[0]) && (rx_din == `PRIM_R_IP )) || r_ip_cont; assign detect_r_err = ((rx_is_k[0]) && (rx_din == `PRIM_R_ERR )) || r_err_cont; assign detect_r_ok = ((rx_is_k[0]) && (rx_din == `PRIM_R_OK )) || r_ok_cont; assign detect_x_rdy = ((rx_is_k[0]) && (rx_din == `PRIM_X_RDY )) || x_rdy_cont; assign detect_sof = (rx_is_k[0]) && (rx_din == `PRIM_SOF ); assign detect_eof = (rx_is_k[0]) && (rx_din == `PRIM_EOF ); assign detect_wtrm = ((rx_is_k[0]) && (rx_din == `PRIM_WTRM )) || wtrm_cont; assign detect_cont = (rx_is_k[0]) && (rx_din == `PRIM_CONT ); assign detect_hold = ((rx_is_k[0]) && (rx_din == `PRIM_HOLD )) || hold_cont; //hold (normal) == hold (cont) assign detect_holda = ((rx_is_k[0]) && (rx_din == `PRIM_HOLDA )) || holda_cont; //holda (normal) == holda (cont) assign detect_preq_s = ((rx_is_k[0]) && (rx_din == `PRIM_PREQ_S )) || pmreq_s_cont; assign detect_preq_p = ((rx_is_k[0]) && (rx_din == `PRIM_PREQ_P )) || pmreq_p_cont; assign detect_align = (rx_is_k[0]) && (rx_din == `PRIM_ALIGN ); assign detect_xrdy_xrdy = ((((rx_is_k[0])&& (rx_din == `PRIM_X_RDY )) || x_rdy_cont) && ll_tx_is_k && (ll_tx_din == `PRIM_X_RDY)); assign sync_cont = sync_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign hold_cont = hold_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign holda_cont = holda_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign pmreq_p_cont = pmreq_p_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign pmreq_s_cont = pmreq_s_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign r_err_cont = r_err_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign r_ip_cont = r_ip_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign r_ok_cont = r_ok_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign r_rdy_cont = r_rdy_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign wtrm_cont = wtrm_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign x_rdy_cont = x_rdy_cont_ready && ((rx_din == `PRIM_CONT) || (!rx_is_k[0] || detect_align)); assign cont_tx_dout = (!xmit_cont_en) ? ll_tx_din : //when transmit cont gen is disable ((tx_prev_prim != ll_tx_din) && ll_tx_is_k) ? ll_tx_din : //if the prev != curr (exit) (last_prim) ? ll_tx_din: (tx_cont_enable) ? //if the cont is enabled send_cont ? `PRIM_CONT : //need to first send the cont scram_dout : //send the junk ll_tx_din; //tx cont is not enabled assign cont_tx_is_k = (!xmit_cont_en) ? ll_tx_is_k : ((tx_prev_prim != ll_tx_din) && ll_tx_is_k) ? ll_tx_is_k ://if the prev != curr (exit) (last_prim) ?ll_tx_is_k: (tx_cont_enable) ? //if the cont is enabled send_cont ? 1'b1 : //need to first send the cont 1'b0 : //send the junk ll_tx_is_k; //tx cont is not enabled assign scram_en = tx_cont_enable; //Synchronous logic //Cont detect always @ (posedge clk) begin if (rst) begin cont_detect <= 0; hold_cont_ready <= 0; holda_cont_ready <= 0; pmreq_p_cont_ready <= 0; pmreq_s_cont_ready <= 0; r_err_cont_ready <= 0; r_ip_cont_ready <= 0; r_ok_cont_ready <= 0; r_rdy_cont_ready <= 0; sync_cont_ready <= 0; wtrm_cont_ready <= 0; x_rdy_cont_ready <= 0; end else begin if (!detect_align) begin if (rx_is_k) begin if (rx_din == `PRIM_CONT) begin cont_detect <= 1; end else if (prev_prim == rx_din) begin case (prev_prim) `PRIM_SYNC : begin sync_cont_ready <= 1; end `PRIM_R_RDY : begin r_rdy_cont_ready <= 1; end `PRIM_R_IP : begin r_ip_cont_ready <= 1; end `PRIM_R_ERR : begin r_err_cont_ready <= 1; end `PRIM_R_OK : begin r_ok_cont_ready <= 1; end `PRIM_X_RDY : begin x_rdy_cont_ready <= 1; end `PRIM_WTRM : begin wtrm_cont_ready <= 1; end `PRIM_HOLD : begin if (cont_detect) begin hold_cont_ready <= 0; cont_detect <= 0; end else begin hold_cont_ready <= 1; end end `PRIM_HOLDA : begin if (cont_detect) begin holda_cont_ready <= 0; cont_detect <= 0; end else begin holda_cont_ready <= 1; end end `PRIM_PREQ_S : begin pmreq_s_cont_ready <= 1; end `PRIM_PREQ_P : begin pmreq_p_cont_ready <= 1; end `PRIM_ALIGN : begin end default: begin hold_cont_ready <= 0; holda_cont_ready <= 0; pmreq_p_cont_ready <= 0; pmreq_s_cont_ready <= 0; r_err_cont_ready <= 0; r_ip_cont_ready <= 0; r_ok_cont_ready <= 0; r_rdy_cont_ready <= 0; sync_cont_ready <= 0; wtrm_cont_ready <= 0; x_rdy_cont_ready <= 0; end endcase end //save the previous primative else begin prev_prim <= rx_din; //previous primative doesn't equal current primitive cont_detect <= 0; hold_cont_ready <= 0; holda_cont_ready <= 0; pmreq_p_cont_ready <= 0; pmreq_s_cont_ready <= 0; r_err_cont_ready <= 0; r_ip_cont_ready <= 0; r_ok_cont_ready <= 0; r_rdy_cont_ready <= 0; sync_cont_ready <= 0; wtrm_cont_ready <= 0; x_rdy_cont_ready <= 0; end end if (!rx_is_k[0] && !cont_detect) begin cont_detect <= 0; hold_cont_ready <= 0; holda_cont_ready <= 0; pmreq_p_cont_ready <= 0; pmreq_s_cont_ready <= 0; r_err_cont_ready <= 0; r_ip_cont_ready <= 0; r_ok_cont_ready <= 0; r_rdy_cont_ready <= 0; sync_cont_ready <= 0; wtrm_cont_ready <= 0; x_rdy_cont_ready <= 0; end end end end //Cont Generator always @ (posedge clk) begin if (rst || !xmit_cont_en) begin tx_prev_prim <= 0; tx_cont_enable <= 0; tx_cont_sent <= 0; send_cont <= 0; end else begin if (phy_ready) begin send_cont <= 0; if (ll_tx_is_k) begin //reset everything because the previous primative is not equal to the current one if (tx_prev_prim != ll_tx_din) begin send_cont <= 0; tx_cont_sent <= 0; tx_cont_enable <= 0; end else begin //see if we need to send the cont primative if (tx_cont_enable && send_cont) begin tx_cont_sent <= 1; end //previous primative == current primative case (tx_prev_prim) `PRIM_SYNC : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_R_RDY : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_R_IP : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_R_ERR : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_R_OK : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_X_RDY : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_WTRM : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_HOLD : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_HOLDA : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_PREQ_S : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end `PRIM_PREQ_P : begin tx_cont_enable <= 1; if (!tx_cont_sent && !send_cont) begin send_cont <= 1; end end default: begin send_cont <= 0; tx_cont_enable <= 0; tx_cont_sent <= 0; end endcase end end else begin //it is not a k value so don't read it tx_prev_prim <= 0; end //k value record the PRIM tx_prev_prim <= ll_tx_din; if (last_prim) begin tx_cont_enable <= 0; end end end end endmodule