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[/] [openmsp430/] [trunk/] [fpga/] [actel_m1a3pl_dev_kit/] [rtl/] [verilog/] [openmsp430/] [omsp_dbg_uart.v] - Rev 153
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//---------------------------------------------------------------------------- // Copyright (C) 2009 , Olivier Girard // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * 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. // * Neither the name of the authors nor the names of its contributors // may be used to endorse or promote products derived from this software // without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 COPYRIGHT HOLDER 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 // //---------------------------------------------------------------------------- // // *File Name: omsp_dbg_uart.v // // *Module Description: // Debug UART communication interface (8N1, Half-duplex) // // *Author(s): // - Olivier Girard, olgirard@gmail.com // //---------------------------------------------------------------------------- // $Rev: 103 $ // $LastChangedBy: olivier.girard $ // $LastChangedDate: 2011-03-05 15:44:48 +0100 (Sat, 05 Mar 2011) $ //---------------------------------------------------------------------------- `ifdef OMSP_NO_INCLUDE `else `include "openMSP430_defines.v" `endif module omsp_dbg_uart ( // OUTPUTs dbg_addr, // Debug register address dbg_din, // Debug register data input dbg_rd, // Debug register data read dbg_uart_txd, // Debug interface: UART TXD dbg_wr, // Debug register data write // INPUTs dbg_clk, // Debug unit clock dbg_dout, // Debug register data output dbg_rd_rdy, // Debug register data is ready for read dbg_rst, // Debug unit reset dbg_uart_rxd, // Debug interface: UART RXD mem_burst, // Burst on going mem_burst_end, // End TX/RX burst mem_burst_rd, // Start TX burst mem_burst_wr, // Start RX burst mem_bw // Burst byte width ); // OUTPUTs //========= output [5:0] dbg_addr; // Debug register address output [15:0] dbg_din; // Debug register data input output dbg_rd; // Debug register data read output dbg_uart_txd; // Debug interface: UART TXD output dbg_wr; // Debug register data write // INPUTs //========= input dbg_clk; // Debug unit clock input [15:0] dbg_dout; // Debug register data output input dbg_rd_rdy; // Debug register data is ready for read input dbg_rst; // Debug unit reset input dbg_uart_rxd; // Debug interface: UART RXD input mem_burst; // Burst on going input mem_burst_end; // End TX/RX burst input mem_burst_rd; // Start TX burst input mem_burst_wr; // Start RX burst input mem_bw; // Burst byte width //============================================================================= // 1) UART RECEIVE LINE SYNCHRONIZTION & FILTERING //============================================================================= // Synchronize RXD input //-------------------------------- `ifdef SYNC_DBG_UART_RXD wire uart_rxd_n; omsp_sync_cell sync_cell_uart_rxd ( .data_out (uart_rxd_n), .data_in (~dbg_uart_rxd), .clk (dbg_clk), .rst (dbg_rst) ); wire uart_rxd = ~uart_rxd_n; `else wire uart_rxd = dbg_uart_rxd; `endif // RXD input buffer //-------------------------------- reg [1:0] rxd_buf; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) rxd_buf <= 2'h3; else rxd_buf <= {rxd_buf[0], uart_rxd}; // Majority decision //------------------------ reg rxd_maj; wire rxd_maj_nxt = (uart_rxd & rxd_buf[0]) | (uart_rxd & rxd_buf[1]) | (rxd_buf[0] & rxd_buf[1]); always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) rxd_maj <= 1'b1; else rxd_maj <= rxd_maj_nxt; wire rxd_s = rxd_maj; wire rxd_fe = rxd_maj & ~rxd_maj_nxt; wire rxd_re = ~rxd_maj & rxd_maj_nxt; wire rxd_edge = rxd_maj ^ rxd_maj_nxt; //============================================================================= // 2) UART STATE MACHINE //============================================================================= // Receive state //------------------------ reg [2:0] uart_state; reg [2:0] uart_state_nxt; wire sync_done; wire xfer_done; reg [19:0] xfer_buf; wire [19:0] xfer_buf_nxt; // State machine definition parameter RX_SYNC = 3'h0; parameter RX_CMD = 3'h1; parameter RX_DATA1 = 3'h2; parameter RX_DATA2 = 3'h3; parameter TX_DATA1 = 3'h4; parameter TX_DATA2 = 3'h5; // State transition always @(uart_state or xfer_buf_nxt or mem_burst or mem_burst_wr or mem_burst_rd or mem_burst_end or mem_bw) case (uart_state) RX_SYNC : uart_state_nxt = RX_CMD; RX_CMD : uart_state_nxt = mem_burst_wr ? (mem_bw ? RX_DATA2 : RX_DATA1) : mem_burst_rd ? (mem_bw ? TX_DATA2 : TX_DATA1) : (xfer_buf_nxt[`DBG_UART_WR] ? (xfer_buf_nxt[`DBG_UART_BW] ? RX_DATA2 : RX_DATA1) : (xfer_buf_nxt[`DBG_UART_BW] ? TX_DATA2 : TX_DATA1)); RX_DATA1 : uart_state_nxt = RX_DATA2; RX_DATA2 : uart_state_nxt = (mem_burst & ~mem_burst_end) ? (mem_bw ? RX_DATA2 : RX_DATA1) : RX_CMD; TX_DATA1 : uart_state_nxt = TX_DATA2; TX_DATA2 : uart_state_nxt = (mem_burst & ~mem_burst_end) ? (mem_bw ? TX_DATA2 : TX_DATA1) : RX_CMD; // pragma coverage off default : uart_state_nxt = RX_CMD; // pragma coverage on endcase // State machine always @(posedge dbg_clk or posedge dbg_rst) if (dbg_rst) uart_state <= RX_SYNC; else if (xfer_done | sync_done | mem_burst_wr | mem_burst_rd) uart_state <= uart_state_nxt; // Utility signals wire cmd_valid = (uart_state==RX_CMD) & xfer_done; wire rx_active = (uart_state==RX_DATA1) | (uart_state==RX_DATA2) | (uart_state==RX_CMD); wire tx_active = (uart_state==TX_DATA1) | (uart_state==TX_DATA2); //============================================================================= // 3) UART SYNCHRONIZATION //============================================================================= // After DBG_RST, the host needs to fist send a synchronization character (0x80) // If this feature doesn't work properly, it is possible to disable it by // commenting the DBG_UART_AUTO_SYNC define in the openMSP430.inc file. reg sync_busy; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) sync_busy <= 1'b0; else if ((uart_state==RX_SYNC) & rxd_fe) sync_busy <= 1'b1; else if ((uart_state==RX_SYNC) & rxd_re) sync_busy <= 1'b0; assign sync_done = (uart_state==RX_SYNC) & rxd_re & sync_busy; `ifdef DBG_UART_AUTO_SYNC reg [`DBG_UART_XFER_CNT_W+2:0] sync_cnt; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) sync_cnt <= {{`DBG_UART_XFER_CNT_W{1'b1}}, 3'b000}; else if (sync_busy | (~sync_busy & sync_cnt[2])) sync_cnt <= sync_cnt+{{`DBG_UART_XFER_CNT_W+2{1'b0}}, 1'b1}; wire [`DBG_UART_XFER_CNT_W-1:0] bit_cnt_max = sync_cnt[`DBG_UART_XFER_CNT_W+2:3]; `else wire [`DBG_UART_XFER_CNT_W-1:0] bit_cnt_max = `DBG_UART_CNT; `endif //============================================================================= // 4) UART RECEIVE / TRANSMIT //============================================================================= // Transfer counter //------------------------ reg [3:0] xfer_bit; reg [`DBG_UART_XFER_CNT_W-1:0] xfer_cnt; wire txd_start = dbg_rd_rdy | (xfer_done & (uart_state==TX_DATA1)); wire rxd_start = (xfer_bit==4'h0) & rxd_fe & ((uart_state!=RX_SYNC)); wire xfer_bit_inc = (xfer_bit!=4'h0) & (xfer_cnt=={`DBG_UART_XFER_CNT_W{1'b0}}); assign xfer_done = rx_active ? (xfer_bit==4'ha) : (xfer_bit==4'hb); always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) xfer_bit <= 4'h0; else if (txd_start | rxd_start) xfer_bit <= 4'h1; else if (xfer_done) xfer_bit <= 4'h0; else if (xfer_bit_inc) xfer_bit <= xfer_bit+4'h1; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) xfer_cnt <= {`DBG_UART_XFER_CNT_W{1'b0}}; else if (rx_active & rxd_edge) xfer_cnt <= {1'b0, bit_cnt_max[`DBG_UART_XFER_CNT_W-1:1]}; else if (txd_start | xfer_bit_inc) xfer_cnt <= bit_cnt_max; else if (|xfer_cnt) xfer_cnt <= xfer_cnt+{`DBG_UART_XFER_CNT_W{1'b1}}; // Receive/Transmit buffer //------------------------- assign xfer_buf_nxt = {rxd_s, xfer_buf[19:1]}; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) xfer_buf <= 20'h00000; else if (dbg_rd_rdy) xfer_buf <= {1'b1, dbg_dout[15:8], 2'b01, dbg_dout[7:0], 1'b0}; else if (xfer_bit_inc) xfer_buf <= xfer_buf_nxt; // Generate TXD output //------------------------ reg dbg_uart_txd; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) dbg_uart_txd <= 1'b1; else if (xfer_bit_inc & tx_active) dbg_uart_txd <= xfer_buf[0]; //============================================================================= // 5) INTERFACE TO DEBUG REGISTERS //============================================================================= reg [5:0] dbg_addr; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) dbg_addr <= 6'h00; else if (cmd_valid) dbg_addr <= xfer_buf_nxt[`DBG_UART_ADDR]; reg dbg_bw; always @ (posedge dbg_clk or posedge dbg_rst) if (dbg_rst) dbg_bw <= 1'b0; else if (cmd_valid) dbg_bw <= xfer_buf_nxt[`DBG_UART_BW]; wire dbg_din_bw = mem_burst ? mem_bw : dbg_bw; wire [15:0] dbg_din = dbg_din_bw ? {8'h00, xfer_buf_nxt[18:11]} : {xfer_buf_nxt[18:11], xfer_buf_nxt[9:2]}; wire dbg_wr = (xfer_done & (uart_state==RX_DATA2)); wire dbg_rd = mem_burst ? (xfer_done & (uart_state==TX_DATA2)) : (cmd_valid & ~xfer_buf_nxt[`DBG_UART_WR]) | mem_burst_rd; endmodule // omsp_dbg_uart `ifdef OMSP_NO_INCLUDE `else `include "openMSP430_undefines.v" `endif
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