SummerCart64/fw/rtl/serv/serv_mem_if.v

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`default_nettype none
module serv_mem_if
#(
parameter [0:0] WITH_CSR = 1,
parameter W = 1,
parameter B = W-1
)
(
input wire i_clk,
//State
input wire [1:0] i_bytecnt,
input wire [1:0] i_lsb,
output wire o_byte_valid,
output wire o_misalign,
//Control
input wire i_signed,
input wire i_word,
input wire i_half,
//MDU
input wire i_mdu_op,
//Data
input wire [B:0] i_bufreg2_q,
output wire [B:0] o_rd,
//External interface
output wire [3:0] o_wb_sel);
reg signbit;
/*
Before a store operation, the data to be written needs to be shifted into
place. Depending on the address alignment, we need to shift different
amounts. One formula for calculating this is to say that we shift when
i_lsb + i_bytecnt < 4. Unfortunately, the synthesis tools don't seem to be
clever enough so the hideous expression below is used to achieve the same
thing in a more optimal way.
*/
assign o_byte_valid
= (!i_lsb[0] & !i_lsb[1]) |
(!i_bytecnt[0] & !i_bytecnt[1]) |
(!i_bytecnt[1] & !i_lsb[1]) |
(!i_bytecnt[1] & !i_lsb[0]) |
(!i_bytecnt[0] & !i_lsb[1]);
wire dat_valid =
i_mdu_op |
i_word |
(i_bytecnt == 2'b00) |
(i_half & !i_bytecnt[1]);
assign o_rd = dat_valid ? i_bufreg2_q : {W{i_signed & signbit}};
assign o_wb_sel[3] = (i_lsb == 2'b11) | i_word | (i_half & i_lsb[1]);
assign o_wb_sel[2] = (i_lsb == 2'b10) | i_word;
assign o_wb_sel[1] = (i_lsb == 2'b01) | i_word | (i_half & !i_lsb[1]);
assign o_wb_sel[0] = (i_lsb == 2'b00);
always @(posedge i_clk) begin
if (dat_valid)
signbit <= i_bufreg2_q[B];
end
/*
mem_misalign is checked after the init stage to decide whether to do a data
bus transaction or go to the trap state. It is only guaranteed to be correct
at this time
*/
assign o_misalign = WITH_CSR & ((i_lsb[0] & (i_word | i_half)) | (i_lsb[1] & i_word));
endmodule