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apbslave.v
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apbslave.v
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////////////////////////////////////////////////////////////////////////////////
//
// Filename: apbslave.v
// {{{
// Project: WB2AXIPSP: bus bridges and other odds and ends
//
// Purpose: Just a simple demonstration APB slave
//
// Creator: Dan Gisselquist, Ph.D.
// Gisselquist Technology, LLC
//
////////////////////////////////////////////////////////////////////////////////
// }}}
// Copyright (C) 2020-2021, Gisselquist Technology, LLC
// {{{
// This file is part of the WB2AXIP project.
//
// The WB2AXIP project contains free software and gateware, licensed under the
// Apache License, Version 2.0 (the "License"). You may not use this project,
// or this file, except in compliance with the License. You may obtain a copy
// of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
// License for the specific language governing permissions and limitations
// under the License.
//
////////////////////////////////////////////////////////////////////////////////
//
// }}}
`default_nettype none
//
module apbslave #(
// {{{
parameter C_APB_ADDR_WIDTH = 12,
parameter C_APB_DATA_WIDTH = 32,
localparam AW = C_APB_ADDR_WIDTH,
localparam DW = C_APB_DATA_WIDTH,
localparam APBLSB = $clog2(C_APB_DATA_WIDTH)-3
// }}}
) (
// {{{
input wire PCLK, PRESETn,
input wire PSEL,
input wire PENABLE,
output reg PREADY,
input wire [AW-1:0] PADDR,
input wire PWRITE,
input wire [DW-1:0] PWDATA,
input wire [DW/8-1:0] PWSTRB,
input wire [2:0] PPROT,
output reg [DW-1:0] PRDATA,
output wire PSLVERR
// }}}
);
// Register declarations
// {{{
// Just our demonstration "memory" here
reg [DW-1:0] mem [0:(1<<(AW-APBLSB))-1];
integer ik;
// }}}
// PREADY
// {{{
initial PREADY = 1'b0;
always @(posedge PCLK)
if (!PRESETn)
PREADY <= 1'b0;
else if (PSEL && !PENABLE)
PREADY <= 1'b1;
else
PREADY <= 1'b0;
// }}}
// mem writes
// {{{
always @(posedge PCLK)
if (PRESETn && PSEL && !PENABLE && PWRITE)
begin
for(ik=0; ik<DW/8; ik=ik+1)
if (PWSTRB[ik])
mem[PADDR[AW-1:APBLSB]][8*ik +: 8] <= PWDATA[8*ik +: 8];
end
// }}}
// PRDATA, memory reads
// {{{
always @(posedge PCLK)
if (PSEL && !PENABLE && !PWRITE)
PRDATA <= mem[PADDR[AW-1:APBLSB]];
// }}}
// PSLVERR -- unused in this design, and so kept at zero
// {{{
assign PSLVERR = 1'b0;
// }}}
// Make Verilator happy
// {{{
// Verilator lint_off UNUSED
wire unused;
assign unused = &{ 1'b0, PADDR[APBLSB-1:0], PPROT };
// Verilator lint_on UNUSED
// }}}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
//
// Formal properties
// {{{
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
`ifdef FORMAL
////////////////////////////////////////////////////////////////////////
//
// Interface properties
// {{{
////////////////////////////////////////////////////////////////////////
//
//
fapb_slave #(.AW(C_APB_ADDR_WIDTH), .DW(C_APB_DATA_WIDTH),
.F_OPT_MAXSTALL(1)
) fapb (PCLK, PRESETn,
PSEL, PENABLE, PREADY, PADDR, PWRITE, PWDATA, PWSTRB,
PPROT, PRDATA, PSLVERR);
always @(*)
if (PRESETn && PSEL && PENABLE)
assert(PREADY);
// }}}
////////////////////////////////////////////////////////////////////////
//
// Contract check
// {{{
////////////////////////////////////////////////////////////////////////
//
//
(* anyconst *) reg [AW-1:0] f_addr;
reg [DW-1:0] f_data;
`ifndef FORMAL
initial for(ik=0; ik<(1<<AW); ik=ik+1)
mem[ik] = 0;
`endif
always @(*)
if (!PRESETn)
assume(mem[f_addr[AW-1:APBLSB]] == f_data);
initial f_data = 0;
always @(posedge PCLK)
if (PRESETn && PSEL && !PENABLE && PWRITE && PADDR[AW-1:APBLSB] == f_addr[AW-1:APBLSB])
begin
for(ik=0; ik<DW/8; ik=ik+1)
if (PWSTRB[ik])
f_data[ik*8 +: 8] <= PWDATA[ik*8 +: 8];
end
always @(posedge PCLK)
if (PSEL && PENABLE && PREADY && !PWRITE && PADDR[AW-1:APBLSB] == f_addr[AW-1:APBLSB])
assert(PRDATA == f_data);
always @(*)
assert(f_data == mem[f_addr[AW-1:APBLSB]]);
// }}}
////////////////////////////////////////////////////////////////////////
//
// Cover checks
// {{{
////////////////////////////////////////////////////////////////////////
//
//
reg [2:0] cvr_reads, cvr_writes, cvr_seq;
initial cvr_writes = 0;
always @(posedge PCLK)
if (!PRESETn)
cvr_writes <= 0;
else if (PSEL && PENABLE && PREADY && PWRITE && !cvr_writes[2])
cvr_writes <= cvr_writes + 1;
initial cvr_reads = 0;
always @(posedge PCLK)
if (!PRESETn)
cvr_reads <= 0;
else if (PSEL && PENABLE && PREADY && !PWRITE && !cvr_reads[2])
cvr_reads <= cvr_reads + 1;
always @(*)
cover(cvr_writes[2]);
always @(*)
cover(cvr_reads[2]);
initial cvr_seq = 0;
always @(posedge PCLK)
if (!PRESETn)
cvr_seq <= 0;
else if (PSEL && PENABLE && PREADY && !PWRITE && PADDR == f_addr)
begin
if (cvr_seq == 0 && PRDATA == 32'h12345678)
cvr_seq[0] <= 1'b1;
if (cvr_seq[0] && PRDATA == 32'h87654321)
cvr_seq[1] <= 1'b1;
if (cvr_seq[1] && PRDATA == 32'h0)
cvr_seq[2] <= 1'b1;
end
always @(*)
if (PRESETn)
begin
cover(cvr_seq[0]);
cover(cvr_seq[1]);
cover(cvr_seq[2]);
end
always @(*)
cover(PRESETn && !PSEL && !PENABLE && cvr_seq[2]);
// }}}
`endif
// }}}
endmodule