tillitis-key/hw/application_fpga/tb/application_fpga_vsim.v

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//======================================================================
//
// application_fpga.v
// ------------------
// Top level module of the application FPGA.
// The design exposes a UART interface to allow a host to
// send commands and receive resposes as needed load, execute and
// communicate with applications.
//
//
// Copyright (C) 2022 - Tillitis AB
// SPDX-License-Identifier: GPL-2.0-only
//
//======================================================================
`default_nettype none
//`define VERBOSE
`ifdef VERBOSE
`define verbose(debug_command) debug_command
`else
`define verbose(debug_command)
`endif
module application_fpga(
input wire clk,
output wire valid,
output wire [03 : 0] wstrb,
output wire [31 : 0] addr,
output wire [31 : 0] wdata,
output wire [31 : 0] rdata,
output wire ready,
output wire interface_rx,
input wire interface_tx,
input wire touch_event,
input wire app_gpio1,
input wire app_gpio2,
output wire app_gpio3,
output wire app_gpio4,
output wire led_r,
output wire led_g,
output wire led_b
);
//----------------------------------------------------------------
// Local parameters
//----------------------------------------------------------------
// Top level mem area prefixes.
localparam ROM_PREFIX = 2'h0;
localparam RAM_PREFIX = 2'h1;
localparam RESERVED_PREFIX = 2'h2;
localparam MMIO_PREFIX = 2'h3;
// MMIO core mem sub-prefixes.
localparam TRNG_PREFIX = 6'h00;
localparam TIMER_PREFIX = 6'h01;
localparam UDS_PREFIX = 6'h02;
localparam UART_PREFIX = 6'h03;
localparam TOUCH_SENSE_PREFIX = 6'h04;
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localparam TK1_PREFIX = 6'h3f;
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//----------------------------------------------------------------
// Registers, memories with associated wires.
//----------------------------------------------------------------
reg [31 : 0] muxed_rdata_reg;
reg [31 : 0] muxed_rdata_new;
reg muxed_ready_reg;
reg muxed_ready_new;
//----------------------------------------------------------------
// Wires.
//----------------------------------------------------------------
wire reset_n;
wire cpu_valid;
wire [03 : 0] cpu_wstrb;
wire [31 : 0] cpu_addr;
wire [31 : 0] cpu_wdata;
/* verilator lint_off UNOPTFLAT */
reg rom_cs;
/* verilator lint_on UNOPTFLAT */
reg [11 : 0] rom_address;
wire [31 : 0] rom_read_data;
wire rom_ready;
reg ram_cs;
reg [3 : 0] ram_we;
reg [14 : 0] ram_address;
reg [31 : 0] ram_write_data;
wire [31 : 0] ram_read_data;
wire ram_ready;
/* verilator lint_off UNOPTFLAT */
reg trng_cs;
/* verilator lint_on UNOPTFLAT */
reg trng_we;
reg [7 : 0] trng_address;
reg [31 : 0] trng_write_data;
wire [31 : 0] trng_read_data;
wire trng_ready;
/* verilator lint_off UNOPTFLAT */
reg timer_cs;
/* verilator lint_on UNOPTFLAT */
reg timer_we;
reg [7 : 0] timer_address;
reg [31 : 0] timer_write_data;
wire [31 : 0] timer_read_data;
wire timer_ready;
/* verilator lint_off UNOPTFLAT */
reg uds_cs;
/* verilator lint_on UNOPTFLAT */
reg [7 : 0] uds_address;
wire [31 : 0] uds_read_data;
wire uds_ready;
/* verilator lint_off UNOPTFLAT */
reg uart_cs;
/* verilator lint_on UNOPTFLAT */
reg uart_we;
reg [7 : 0] uart_address;
reg [31 : 0] uart_write_data;
wire [31 : 0] uart_read_data;
wire uart_ready;
/* verilator lint_off UNOPTFLAT */
reg touch_sense_cs;
/* verilator lint_on UNOPTFLAT */
reg touch_sense_we;
reg [7 : 0] touch_sense_address;
wire [31 : 0] touch_sense_read_data;
wire touch_sense_ready;
/* verilator lint_off UNOPTFLAT */
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reg tk1_cs;
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/* verilator lint_on UNOPTFLAT */
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reg tk1_we;
reg [7 : 0] tk1_address;
reg [31 : 0] tk1_write_data;
wire [31 : 0] tk1_read_data;
wire tk1_ready;
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wire fw_app_mode;
//----------------------------------------------------------------
// Concurrent assignments.
//----------------------------------------------------------------
assign valid = cpu_valid;
assign wstrb = cpu_wstrb;
assign addr = cpu_addr;
assign wdata = cpu_wdata;
assign rdata = muxed_rdata_reg;
assign ready = muxed_ready_reg;
//----------------------------------------------------------------
// Module instantiations.
//----------------------------------------------------------------
reset_gen #(.RESET_CYCLES(200))
reset_gen_inst(.clk(clk), .rst_n(reset_n));
picorv32 #(
.ENABLE_COUNTERS(0),
.LATCHED_MEM_RDATA(0),
.TWO_STAGE_SHIFT(0),
.TWO_CYCLE_ALU(0),
.CATCH_MISALIGN(0),
.CATCH_ILLINSN(0),
.COMPRESSED_ISA(1),
.ENABLE_MUL(1),
.ENABLE_DIV(0),
.BARREL_SHIFTER(0)
) cpu(
.clk(clk),
.resetn(reset_n),
.mem_valid(cpu_valid),
.mem_addr (cpu_addr),
.mem_wdata(cpu_wdata),
.mem_wstrb(cpu_wstrb),
.mem_rdata(muxed_rdata_reg),
.mem_ready(muxed_ready_reg),
// Defined unsed ports. Makes lint happy,
// but still needs to help lint with empty ports.
/* verilator lint_off PINCONNECTEMPTY */
.irq(32'h0),
.eoi(),
.trap(),
.trace_valid(),
.trace_data(),
.mem_instr(),
.mem_la_read(),
.mem_la_write(),
.mem_la_addr(),
.mem_la_wdata(),
.mem_la_wstrb(),
.pcpi_valid(),
.pcpi_insn(),
.pcpi_rs1(),
.pcpi_rs2(),
.pcpi_wr(1'h0),
.pcpi_rd(32'h0),
.pcpi_wait(1'h0),
.pcpi_ready(1'h0)
/* verilator lint_on PINCONNECTEMPTY */
);
rom rom_inst(
.cs(rom_cs),
.address(rom_address),
.read_data(rom_read_data),
.ready(rom_ready)
);
ram ram_inst(
.clk(clk),
.reset_n(reset_n),
.cs(ram_cs),
.we(ram_we),
.address(ram_address),
.write_data(ram_write_data),
.read_data(ram_read_data),
.ready(ram_ready)
);
timer timer_inst(
.clk(clk),
.reset_n(reset_n),
.cs(timer_cs),
.we(timer_we),
.address(timer_address),
.write_data(timer_write_data),
.read_data(timer_read_data),
.ready(timer_ready)
);
uds uds_inst(
.clk(clk),
.reset_n(reset_n),
.cs(uds_cs),
.address(uds_address),
.read_data(uds_read_data),
.ready(uds_ready)
);
uart uart_inst(
.clk(clk),
.reset_n(reset_n),
.rxd(interface_tx),
.txd(interface_rx),
.cs(uart_cs),
.we(uart_we),
.address(uart_address),
.write_data(uart_write_data),
.read_data(uart_read_data),
.ready(uart_ready)
);
touch_sense touch_sense_inst(
.clk(clk),
.reset_n(reset_n),
.touch_event(touch_event),
.cs(touch_sense_cs),
.we(touch_sense_we),
.address(touch_sense_address),
.read_data(touch_sense_read_data),
.ready(touch_sense_ready)
);
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tk1 tk1_inst(
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.clk(clk),
.reset_n(reset_n),
.fw_app_mode(fw_app_mode),
.led_r(led_r),
.led_g(led_g),
.led_b(led_b),
.gpio1(app_gpio1),
.gpio2(app_gpio2),
.gpio3(app_gpio3),
.gpio4(app_gpio4),
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.cs(tk1_cs),
.we(tk1_we),
.address(tk1_address),
.write_data(tk1_write_data),
.read_data(tk1_read_data),
.ready(tk1_ready)
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);
//----------------------------------------------------------------
// Reg_update.
// Posedge triggered with synchronous, active low reset.
//----------------------------------------------------------------
always @(posedge clk)
begin : reg_update
if (!reset_n) begin
muxed_ready_reg <= 1'h0;
muxed_rdata_reg <= 32'h0;
end
else begin
muxed_ready_reg <= muxed_ready_new;
muxed_rdata_reg <= muxed_rdata_new;
end
end
//----------------------------------------------------------------
// cpu_mem_ctrl
// CPU memory decode and control logic.
//----------------------------------------------------------------
always @*
begin : cpu_mem_ctrl
reg [1 : 0] area_prefix;
reg [5 : 0] core_prefix;
area_prefix = cpu_addr[31 : 30];
core_prefix = cpu_addr[29 : 24];
muxed_ready_new = 1'h0;
muxed_rdata_new = 32'h0;
rom_cs = 1'h0;
rom_address = cpu_addr[13 : 2];
ram_cs = 1'h0;
ram_we = cpu_wstrb;
ram_address = cpu_addr[16 : 2];
ram_write_data = cpu_wdata;
trng_cs = 1'h0;
trng_we = |cpu_wstrb;
trng_address = cpu_addr[9 : 2];
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trng_write_data = cpu_wdata;
timer_cs = 1'h0;
timer_we = |cpu_wstrb;
timer_address = cpu_addr[9 : 2];
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timer_write_data = cpu_wdata;
uds_cs = 1'h0;
uds_address = cpu_addr[9 : 2];
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uart_cs = 1'h0;
uart_we = |cpu_wstrb;
uart_address = cpu_addr[9 : 2];
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uart_write_data = cpu_wdata;
touch_sense_cs = 1'h0;
touch_sense_we = |cpu_wstrb;
touch_sense_address = cpu_addr[9 : 2];
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tk1_cs = 1'h0;
tk1_we = |cpu_wstrb;
tk1_address = cpu_addr[9 : 2];
tk1_write_data = cpu_wdata;
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if (cpu_valid && !muxed_ready_reg) begin
case (area_prefix)
ROM_PREFIX: begin
`verbose($display("Access to ROM area");)
rom_cs = 1'h1;
muxed_rdata_new = rom_read_data;
muxed_ready_new = rom_ready;
end
RAM_PREFIX: begin
`verbose($display("Access to RAM area");)
ram_cs = 1'h1;
muxed_rdata_new = ram_read_data;
muxed_ready_new = ram_ready;
end
RESERVED_PREFIX: begin
`verbose($display("Access to RESERVED area");)
muxed_rdata_new = 32'h00000000;
muxed_ready_new = 1'h1;
end
MMIO_PREFIX: begin
`verbose($display("Access to MMIO area");)
case (core_prefix)
TRNG_PREFIX: begin
`verbose($display("Access to TRNG core");)
trng_cs = 1'h1;
muxed_rdata_new = trng_read_data;
muxed_ready_new = trng_ready;
end
TIMER_PREFIX: begin
`verbose($display("Access to TIMER core");)
timer_cs = 1'h1;
muxed_rdata_new = timer_read_data;
muxed_ready_new = timer_ready;
end
UDS_PREFIX: begin
`verbose($display("Access to UDS core");)
uds_cs = 1'h1;
muxed_rdata_new = uds_read_data;
muxed_ready_new = uds_ready;
end
UART_PREFIX: begin
`verbose($display("Access to UART core");)
uart_cs = 1'h1;
muxed_rdata_new = uart_read_data;
muxed_ready_new = uart_ready;
end
TOUCH_SENSE_PREFIX: begin
`verbose($display("Access to TOUCH_SENSE core");)
touch_sense_cs = 1'h1;
muxed_rdata_new = touch_sense_read_data;
muxed_ready_new = touch_sense_ready;
end
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TK1_PREFIX: begin
`verbose($display("Access to TK1 core");)
tk1_cs = 1'h1;
muxed_rdata_new = tk1_read_data;
muxed_ready_new = tk1_ready;
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end
default: begin
`verbose($display("UNDEFINED MMIO");)
muxed_rdata_new = 32'h00000000;
muxed_ready_new = 1'h1;
end
endcase // case (core_prefix)
end // case: MMIO_PREFIX
default: begin
`verbose($display("UNDEFINED AREA");)
muxed_rdata_new = 32'h0;
muxed_ready_new = 1'h1;
end
endcase // case (area_prefix)
end
end
endmodule // application_fpga
//======================================================================
// EOF application_fpga.v
//======================================================================