📄 jtag_uart.v
字号:
.num_bytes (num_bytes),
.q (fifo_rdata),
.reset_n (rst_n),
.safe (safe)
);
// Generate rfifo_entries for simulation
always @(posedge clk or negedge rst_n)
begin
if (rst_n == 0)
begin
bytes_left <= 32'h0;
fifo_rd_d <= 1'b0;
end
else
begin
fifo_rd_d <= fifo_rd;
// decrement on read
if (fifo_rd_d)
bytes_left <= bytes_left - 1'b1;
// catch new contents
if (new_rom)
bytes_left <= num_bytes;
end
end
assign fifo_EF = bytes_left == 32'b0;
assign rfifo_full = bytes_left > 7'h40;
assign rfifo_entries = (rfifo_full) ? 7'h40 : bytes_left;
assign rfifo_used = rfifo_entries[5 : 0];
//////////////// END SIMULATION-ONLY CONTENTS
//synthesis translate_on
endmodule
module jtag_uart_scfifo_r (
// inputs:
clk,
fifo_rd,
rst_n,
t_dat,
wr_rfifo,
// outputs:
fifo_EF,
fifo_rdata,
rfifo_full,
rfifo_used
);
output fifo_EF;
output [ 7: 0] fifo_rdata;
output rfifo_full;
output [ 5: 0] rfifo_used;
input clk;
input fifo_rd;
input rst_n;
input [ 7: 0] t_dat;
input wr_rfifo;
wire fifo_EF;
wire [ 7: 0] fifo_rdata;
wire rfifo_full;
wire [ 5: 0] rfifo_used;
//synthesis translate_off
//////////////// SIMULATION-ONLY CONTENTS
jtag_uart_sim_scfifo_r the_jtag_uart_sim_scfifo_r
(
.clk (clk),
.fifo_EF (fifo_EF),
.fifo_rd (fifo_rd),
.fifo_rdata (fifo_rdata),
.rfifo_full (rfifo_full),
.rfifo_used (rfifo_used),
.rst_n (rst_n)
);
//////////////// END SIMULATION-ONLY CONTENTS
//synthesis translate_on
//synthesis read_comments_as_HDL on
// scfifo rfifo
// (
// .clock (clk),
// .data (t_dat),
// .empty (fifo_EF),
// .full (rfifo_full),
// .q (fifo_rdata),
// .rdreq (fifo_rd),
// .usedw (rfifo_used),
// .wrreq (wr_rfifo)
// );
//
// defparam rfifo.lpm_hint = "RAM_BLOCK_TYPE=AUTO",
// rfifo.lpm_numwords = 64,
// rfifo.lpm_showahead = "OFF",
// rfifo.lpm_type = "scfifo",
// rfifo.lpm_width = 8,
// rfifo.lpm_widthu = 6,
// rfifo.overflow_checking = "OFF",
// rfifo.underflow_checking = "OFF",
// rfifo.use_eab = "ON";
//
//synthesis read_comments_as_HDL off
endmodule
module jtag_uart (
// inputs:
av_address,
av_chipselect,
av_read_n,
av_write_n,
av_writedata,
clk,
rst_n,
// outputs:
av_irq,
av_readdata,
av_waitrequest,
dataavailable,
readyfordata
);
output av_irq;
output [ 31: 0] av_readdata;
output av_waitrequest;
output dataavailable;
output readyfordata;
input av_address;
input av_chipselect;
input av_read_n;
input av_write_n;
input [ 31: 0] av_writedata;
input clk;
input rst_n;
reg ac;
wire activity;
wire av_irq;
wire [ 31: 0] av_readdata;
reg av_waitrequest;
reg dataavailable;
reg fifo_AE;
reg fifo_AF;
wire fifo_EF;
wire fifo_FF;
wire fifo_rd;
wire [ 7: 0] fifo_rdata;
wire [ 7: 0] fifo_wdata;
reg fifo_wr;
reg ien_AE;
reg ien_AF;
wire ipen_AE;
wire ipen_AF;
reg pause_irq;
wire [ 7: 0] r_dat;
reg r_ena;
reg r_val;
wire rd_wfifo;
reg read_0;
reg readyfordata;
wire rfifo_full;
wire [ 5: 0] rfifo_used;
reg rvalid;
reg [ 7: 0] t_dat;
reg t_dav;
reg t_ena;
reg t_pause;
wire wfifo_empty;
wire [ 5: 0] wfifo_used;
reg woverflow;
wire wr_rfifo;
//avalon_jtag_slave, which is an e_avalon_slave
assign rd_wfifo = r_ena & ~wfifo_empty;
assign wr_rfifo = t_ena & ~rfifo_full;
jtag_uart_scfifo_w the_jtag_uart_scfifo_w
(
.clk (clk),
.fifo_FF (fifo_FF),
.fifo_wdata (fifo_wdata),
.fifo_wr (fifo_wr),
.r_dat (r_dat),
.rd_wfifo (rd_wfifo),
.wfifo_empty (wfifo_empty),
.wfifo_used (wfifo_used)
);
jtag_uart_scfifo_r the_jtag_uart_scfifo_r
(
.clk (clk),
.fifo_EF (fifo_EF),
.fifo_rd (fifo_rd),
.fifo_rdata (fifo_rdata),
.rfifo_full (rfifo_full),
.rfifo_used (rfifo_used),
.rst_n (rst_n),
.t_dat (t_dat),
.wr_rfifo (wr_rfifo)
);
assign ipen_AE = ien_AE & fifo_AE;
assign ipen_AF = ien_AF & (pause_irq | fifo_AF);
assign av_irq = ipen_AE | ipen_AF;
assign activity = t_pause | t_ena;
always @(posedge clk or negedge rst_n)
begin
if (rst_n == 0)
pause_irq <= 1'b0;
else // only if fifo is not empty...
if (t_pause & ~fifo_EF)
pause_irq <= 1'b1;
else if (read_0)
pause_irq <= 1'b0;
end
always @(posedge clk or negedge rst_n)
begin
if (rst_n == 0)
begin
r_val <= 1'b0;
t_dav <= 1'b1;
end
else
begin
r_val <= r_ena & ~wfifo_empty;
t_dav <= ~rfifo_full;
end
end
always @(posedge clk or negedge rst_n)
begin
if (rst_n == 0)
begin
fifo_AE <= 1'b0;
fifo_AF <= 1'b0;
fifo_wr <= 1'b0;
rvalid <= 1'b0;
read_0 <= 1'b0;
ien_AE <= 1'b0;
ien_AF <= 1'b0;
ac <= 1'b0;
woverflow <= 1'b0;
av_waitrequest <= 1'b1;
end
else
begin
fifo_AE <= {fifo_FF,wfifo_used} <= 8;
fifo_AF <= (7'h40 - {rfifo_full,rfifo_used}) <= 8;
fifo_wr <= 1'b0;
read_0 <= 1'b0;
av_waitrequest <= ~(av_chipselect & (~av_write_n | ~av_read_n) & av_waitrequest);
if (activity)
ac <= 1'b1;
// write
if (av_chipselect & ~av_write_n & av_waitrequest)
// addr 1 is control; addr 0 is data
if (av_address)
begin
ien_AF <= av_writedata[0];
ien_AE <= av_writedata[1];
if (av_writedata[10] & ~activity)
ac <= 1'b0;
end
else
begin
fifo_wr <= ~fifo_FF;
woverflow <= fifo_FF;
end
// read
if (av_chipselect & ~av_read_n & av_waitrequest)
begin
// addr 1 is interrupt; addr 0 is data
if (~av_address)
rvalid <= ~fifo_EF;
read_0 <= ~av_address;
end
end
end
assign fifo_wdata = av_writedata[7 : 0];
assign fifo_rd = (av_chipselect & ~av_read_n & av_waitrequest & ~av_address) ? ~fifo_EF : 1'b0;
assign av_readdata = read_0 ? { {9{1'b0}},rfifo_full,rfifo_used,rvalid,woverflow,~fifo_FF,~fifo_EF,1'b0,ac,ipen_AE,ipen_AF,fifo_rdata } : { {9{1'b0}},(7'h40 - {fifo_FF,wfifo_used}),rvalid,woverflow,~fifo_FF,~fifo_EF,1'b0,ac,ipen_AE,ipen_AF,{6{1'b0}},ien_AE,ien_AF };
always @(posedge clk or negedge rst_n)
begin
if (rst_n == 0)
readyfordata <= 0;
else if (1)
readyfordata <= ~fifo_FF;
end
//synthesis translate_off
//////////////// SIMULATION-ONLY CONTENTS
// Tie off Atlantic Interface signals not used for simulation
always @(posedge clk)
begin
t_pause <= 1'b0;
t_ena <= 1'b0;
t_dat <= t_dav ? r_dat : {8{r_val}};
r_ena <= 1'b0;
end
always @(fifo_EF)
begin
if (1)
dataavailable <= ~fifo_EF;
end
//////////////// END SIMULATION-ONLY CONTENTS
//synthesis translate_on
//synthesis read_comments_as_HDL on
// alt_jtag_atlantic jtag_uart_alt_jtag_atlantic
// (
// .clk (clk),
// .r_dat (r_dat),
// .r_ena (r_ena),
// .r_val (r_val),
// .rst_n (rst_n),
// .t_dat (t_dat),
// .t_dav (t_dav),
// .t_ena (t_ena),
// .t_pause (t_pause)
// );
//
// defparam jtag_uart_alt_jtag_atlantic.INSTANCE_ID = 0,
// jtag_uart_alt_jtag_atlantic.LOG2_RXFIFO_DEPTH = 6,
// jtag_uart_alt_jtag_atlantic.LOG2_TXFIFO_DEPTH = 6;
//
// always @(posedge clk or negedge rst_n)
// begin
// if (rst_n == 0)
// dataavailable <= 0;
// else if (1)
// dataavailable <= ~fifo_EF;
// end
//
//
//synthesis read_comments_as_HDL off
endmodule
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