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`include "defs.svh"
module command_parser
#( TAG = 0
) ( input bit clock
, input bit reset
, output bit uart_ready
, input bit uart_valid
, input uart_byte_t uart_data
, input bit echo_ready
, output bit echo_valid
, output uart_byte_t echo_data
, input bit command_ready
, output bit command_valid
, output ram_command_t command_data
);
bit input_byte_valid;
uart_byte_t input_byte;
bit [`RAM_ADDRESS_BITS:0] zero_count;
(* syn_encoding = "one-hot" *) enum int unsigned
{ READ_COMMAND
, READ_ADDRESS
, READ_DATA
, READ_ZERO_COUNT
, ZERO_MEMORY
} state;
always @(posedge clock) begin
if (reset) begin
uart_ready = 0;
command_valid = 0;
for (int i = 0; i < `RAM_LINE_WORDS; i = i + 1)
command_data.mask[i] = ~0;
command_data.tag = TAG;
input_byte_valid = 0;
input_byte = 0;
zero_count = 0;
state = state.first;
end else begin
if (echo_ready) echo_valid = 0;
if (command_ready && command_valid) begin
command_valid = 0;
++command_data.address;
end
if (uart_ready && uart_valid) begin
echo_valid = 1;
echo_data = uart_data;
input_byte_valid = 1;
input_byte = uart_data;
end
if (!command_valid) begin
case (state)
READ_COMMAND: if (input_byte_valid) begin
case (input_byte)
"@": begin
command_data.address = 0;
state = READ_ADDRESS;
end
"?": begin
command_valid = 1;
command_data.write = 0;
end
"=": begin
command_data.write = 1;
for (int i = 0; i < `RAM_LINE_WORDS; i = i + 1)
command_data.data[i] = 0;
state = READ_DATA;
end
"!": begin
command_data.write = 1;
for (int i = 0; i < `RAM_LINE_WORDS; i = i + 1)
command_data.data[i] = 0;
zero_count = 0;
state = READ_ZERO_COUNT;
end
endcase
input_byte_valid = 0;
end
READ_ADDRESS: if (input_byte_valid) begin
if (input_byte >= "0" && input_byte <= "9") begin
command_data.address = command_data.address << 4;
command_data.address[$clog2(`RAM_LINE_WORDS)+:4] = input_byte - "0";
end else if (input_byte >= "a" && input_byte <= "f") begin
command_data.address = command_data.address << 4;
command_data.address[$clog2(`RAM_LINE_WORDS)+:4] = input_byte - "a" + 10;
end else if (input_byte >= "A" && input_byte <= "F") begin
command_data.address = command_data.address << 4;
command_data.address[$clog2(`RAM_LINE_WORDS)+:4] = input_byte - "A" + 10;
end else begin
state = state.first;
end
input_byte_valid = 0;
end
READ_DATA: if (input_byte_valid) begin
automatic bit [$bits(command_data.data)-1:0] flat_data = command_data.data;
flat_data = flat_data << 4;
if (input_byte >= "0" && input_byte <= "9") begin
flat_data[3:0] = input_byte - "0";
command_data.data = flat_data;
end else if (input_byte >= "a" && input_byte <= "f") begin
flat_data[3:0] = input_byte - "a" + 10;
command_data.data = flat_data;
end else if (input_byte >= "A" && input_byte <= "F") begin
flat_data[3:0] = input_byte - "A" + 10;
command_data.data = flat_data;
end else begin
command_valid = 1;
state = state.first;
end
input_byte_valid = 0;
end
READ_ZERO_COUNT: if (input_byte_valid) begin
if (input_byte >= "0" && input_byte <= "9") begin
zero_count = zero_count << 4;
zero_count[3:0] = input_byte - "0";
end else if (input_byte >= "a" && input_byte <= "f") begin
zero_count = zero_count << 4;
zero_count[3:0] = input_byte - "a" + 10;
end else if (input_byte >= "A" && input_byte <= "F") begin
zero_count = zero_count << 4;
zero_count[3:0] = input_byte - "A" + 10;
end else begin
state = ZERO_MEMORY;
end
input_byte_valid = 0;
end
`ifdef SLOW_ZEROING
ZERO_MEMORY: if (!echo_valid) begin
if (zero_count == 0) begin
echo_valid = 1;
echo_data = "\n";
state = state.first;
end else begin
echo_valid = 1;
echo_data = ".";
command_valid = 1;
--zero_count;
end
end
`else
ZERO_MEMORY: begin
if (zero_count == 0) begin
state = state.first;
end else begin
command_valid = 1;
if (--zero_count == 0)
state = state.first;
end
end
`endif
endcase
end
uart_ready = !echo_valid && !input_byte_valid;
end
end
endmodule
|
