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module arc4 (
input logic clk,
input logic rst_n,
input logic en,
output logic rdy,
input logic [23:0] key,
output logic [7:0] ct_addr,
input logic [7:0] ct_rddata,
output logic [7:0] pt_addr,
input logic [7:0] pt_rddata,
output logic [7:0] pt_wrdata,
output logic pt_wren
);
logic s_wren;
logic [7:0] s_addr;
logic [7:0] s_wrdata, s_rddata;
logic i_en, i_rdy, i_wren;
logic [7:0] i_addr;
logic [7:0] i_wrdata;
logic k_en, k_rdy, k_wren;
logic [7:0] k_addr;
logic [7:0] k_wrdata;
logic p_en, p_rdy, p_s_wren, p_pt_wren;
logic [7:0] p_s_addr, p_ct_addr, p_pt_addr;
logic [7:0] p_s_wrdata, p_pt_wrdata;
enum logic [2:0] {
IDLE,
INIT_BEGIN,
INIT,
KSA_BEGIN,
KSA,
PRGA_BEGIN,
PRGA,
DONE
} state;
s_core_mem s (
.address(s_addr),
.clock(clk),
.data(s_wrdata),
.wren(s_wren),
.q(s_rddata)
);
init i (
.clk,
.rst_n,
.en(i_en),
.rdy(i_rdy),
.addr(i_addr),
.wrdata(i_wrdata),
.wren(i_wren)
);
ksa k (
.clk,
.rst_n,
.en(k_en),
.rdy(k_rdy),
.key,
.addr(k_addr),
.rddata(s_rddata),
.wrdata(k_wrdata),
.wren(k_wren)
);
prga p (
.clk,
.rst_n,
.en(p_en),
.rdy(p_rdy),
.key,
.s_addr(p_s_addr),
.s_rddata,
.s_wrdata(p_s_wrdata),
.s_wren(p_s_wren),
.ct_addr(p_ct_addr),
.ct_rddata,
.pt_addr(p_pt_addr),
.pt_rddata,
.pt_wrdata(p_pt_wrdata),
.pt_wren(p_pt_wren)
);
always_ff @(posedge clk) begin: fsm
if (~rst_n) begin
state <= IDLE;
end else unique case (state)
IDLE: if (en) state <= INIT_BEGIN;
INIT_BEGIN: if (i_rdy) state <= INIT;
INIT: if (i_rdy) state <= KSA_BEGIN;
KSA_BEGIN: if (k_rdy) state <= KSA;
KSA: if (k_rdy) state <= PRGA_BEGIN;
PRGA_BEGIN: if (p_rdy) state <= PRGA;
PRGA: if (p_rdy) state <= DONE;
DONE: state <= DONE;
default: state <= IDLE;
endcase
end: fsm
always_comb begin: controller
rdy = '0;
i_en = '0;
k_en = '0;
p_en = '0;
s_wren = '0;
s_addr = '0;
s_wrdata = '0;
ct_addr = '0;
pt_wren = '0;
pt_addr = '0;
pt_wrdata = '0;
unique case (state)
IDLE: rdy = '1;
INIT_BEGIN: i_en = i_rdy;
INIT: begin
s_wren = i_wren;
s_addr = i_addr;
s_wrdata = i_wrdata;
end
KSA_BEGIN: k_en = k_rdy;
KSA: begin
s_wren = k_wren;
s_addr = k_addr;
s_wrdata = k_wrdata;
end
PRGA_BEGIN: p_en = p_rdy;
PRGA: begin
s_wren = p_s_wren;
s_addr = p_s_addr;
s_wrdata = p_s_wrdata;
ct_addr = p_ct_addr;
pt_wren = p_pt_wren;
pt_addr = p_pt_addr;
pt_wrdata = p_pt_wrdata;
end
DONE: rdy = '1;
default: begin end
endcase
end: controller
endmodule: arc4
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