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axil2apb.v
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axil2apb.v
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////////////////////////////////////////////////////////////////////////////////
//
// Filename: axil2apb.v
// {{{
// Project: WB2AXIPSP: bus bridges and other odds and ends
//
// Purpose: High throughput AXI-lite bridge to APB. With both skid
// buffers enabled, it can handle 50% throughput--the maximum
// that APB can handle.
//
// 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 axil2apb #(
// {{{
parameter C_AXI_ADDR_WIDTH = 32,
parameter C_AXI_DATA_WIDTH = 32,
// OPT_OUTGOING_SKIDBUFFER: required for 50% throughput
parameter [0:0] OPT_OUTGOING_SKIDBUFFER = 1'b0
// }}}
) (
// {{{
input wire S_AXI_ACLK,
input wire S_AXI_ARESETN,
//
// The AXI-lite interface
// {{{
input wire S_AXI_AWVALID,
output wire S_AXI_AWREADY,
input wire [C_AXI_ADDR_WIDTH-1:0] S_AXI_AWADDR,
input wire [2:0] S_AXI_AWPROT,
//
input wire S_AXI_WVALID,
output wire S_AXI_WREADY,
input wire [C_AXI_DATA_WIDTH-1 : 0] S_AXI_WDATA,
input wire [(C_AXI_DATA_WIDTH/8)-1:0] S_AXI_WSTRB,
//
output reg S_AXI_BVALID,
input wire S_AXI_BREADY,
output reg [1:0] S_AXI_BRESP,
//
input wire S_AXI_ARVALID,
output wire S_AXI_ARREADY,
input wire [C_AXI_ADDR_WIDTH-1:0] S_AXI_ARADDR,
input wire [2:0] S_AXI_ARPROT,
//
output reg S_AXI_RVALID,
input wire S_AXI_RREADY,
output reg [C_AXI_DATA_WIDTH-1:0] S_AXI_RDATA,
output reg [1:0] S_AXI_RRESP,
// }}}
//
// The APB interface
// {{{
output reg M_APB_PSEL,
output reg M_APB_PENABLE,
input wire M_APB_PREADY,
output reg [C_AXI_ADDR_WIDTH-1:0] M_APB_PADDR,
output reg M_APB_PWRITE,
output reg [C_AXI_DATA_WIDTH-1:0] M_APB_PWDATA,
output reg [C_AXI_DATA_WIDTH/8-1:0] M_APB_PWSTRB,
output reg [2:0] M_APB_PPROT,
input wire [C_AXI_DATA_WIDTH-1:0] M_APB_PRDATA,
input wire M_APB_PSLVERR
// }}}
// }}}
);
// Register declarations
// {{{
localparam AW = C_AXI_ADDR_WIDTH;
localparam DW = C_AXI_DATA_WIDTH;
localparam AXILLSB = $clog2(C_AXI_DATA_WIDTH)-3;
wire awskd_valid, wskd_valid, arskd_valid;
reg axil_write_ready, axil_read_ready,
write_grant, apb_idle;
wire [AW-AXILLSB-1:0] awskd_addr, arskd_addr;
wire [DW-1:0] wskd_data;
wire [DW/8-1:0] wskd_strb;
wire [2:0] awskd_prot, arskd_prot;
reg apb_bvalid, apb_rvalid, apb_error, out_skid_full;
reg [DW-1:0] apb_data;
// }}}
////////////////////////////////////////////////////////////////////////
//
// Incoming AXI-lite write interface
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// awskd - write address skid buffer
// {{{
skidbuffer #(.DW(C_AXI_ADDR_WIDTH-AXILLSB + 3),
.OPT_OUTREG(0)
) awskd (.i_clk(S_AXI_ACLK), .i_reset(!S_AXI_ARESETN),
.i_valid(S_AXI_AWVALID), .o_ready(S_AXI_AWREADY),
.i_data({ S_AXI_AWADDR[AW-1:AXILLSB], S_AXI_AWPROT }),
.o_valid(awskd_valid), .i_ready(axil_write_ready),
.o_data({ awskd_addr, awskd_prot }));
// }}}
// wskd - write data skid buffer
// {{{
skidbuffer #(.DW(DW+(DW/8)),
.OPT_OUTREG(0)
) wskd (.i_clk(S_AXI_ACLK), .i_reset(!S_AXI_ARESETN),
.i_valid(S_AXI_WVALID), .o_ready(S_AXI_WREADY),
.i_data({ S_AXI_WDATA, S_AXI_WSTRB }),
.o_valid(wskd_valid), .i_ready(axil_write_ready),
.o_data({ wskd_data, wskd_strb }));
// }}}
// apb_idle
// {{{
always @(*)
begin
apb_idle = !M_APB_PSEL;// || (M_APB_PENABLE && M_APB_PREADY);
if (OPT_OUTGOING_SKIDBUFFER && (M_APB_PENABLE && M_APB_PREADY))
apb_idle = 1'b1;
end
// }}}
// axil_write_ready
// {{{
always @(*)
begin
axil_write_ready = apb_idle;
if (S_AXI_BVALID && !S_AXI_BREADY)
axil_write_ready = 1'b0;
if (!awskd_valid || !wskd_valid)
axil_write_ready = 1'b0;
if (!write_grant && arskd_valid)
axil_write_ready = 1'b0;
end
// }}}
// }}}
////////////////////////////////////////////////////////////////////////
//
// Incoming AXI-lite read interface
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// arskd buffer
// {{{
skidbuffer #(.DW(C_AXI_ADDR_WIDTH-AXILLSB+3),
.OPT_OUTREG(0)
) arskd (.i_clk(S_AXI_ACLK), .i_reset(!S_AXI_ARESETN),
.i_valid(S_AXI_ARVALID), .o_ready(S_AXI_ARREADY),
.i_data({ S_AXI_ARADDR[AW-1:AXILLSB], S_AXI_ARPROT }),
.o_valid(arskd_valid), .i_ready(axil_read_ready),
.o_data({ arskd_addr, arskd_prot }));
// }}}
// axil_read_ready
// {{{
always @(*)
begin
axil_read_ready = apb_idle;
if (S_AXI_RVALID && !S_AXI_RREADY)
axil_read_ready = 1'b0;
if (write_grant && awskd_valid && wskd_valid)
axil_read_ready = 1'b0;
if (!arskd_valid)
axil_read_ready = 1'b0;
end
// }}}
// }}}
////////////////////////////////////////////////////////////////////////
//
// Arbitrate among reads and writes --- alternating arbitration
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// write_grant -- alternates
// {{{
always @(posedge S_AXI_ACLK)
if (apb_idle)
begin
if (axil_write_ready)
write_grant <= 1'b0;
else if (axil_read_ready)
write_grant <= 1'b1;
end
// }}}
// }}}
////////////////////////////////////////////////////////////////////////
//
// Drive the APB bus
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// APB bus
// {{{
initial M_APB_PSEL = 1'b0;
initial M_APB_PENABLE = 1'b0;
always @(posedge S_AXI_ACLK)
begin
if (apb_idle)
begin
M_APB_PSEL <= 1'b0;
if (axil_read_ready)
begin
M_APB_PSEL <= 1'b1;
M_APB_PADDR <= { arskd_addr, {(AXILLSB){1'b0}} };
M_APB_PWRITE <= 1'b0;
M_APB_PPROT <= arskd_prot;
end else if (axil_write_ready)
begin
M_APB_PSEL <= 1'b1;
M_APB_PADDR <= { awskd_addr, {(AXILLSB){1'b0}} };
M_APB_PWRITE <= 1'b1;
M_APB_PPROT <= awskd_prot;
end
if (wskd_valid)
begin
M_APB_PWDATA <= wskd_data;
M_APB_PWSTRB <= wskd_strb;
end
M_APB_PENABLE <= 1'b0;
end else if (!M_APB_PENABLE)
M_APB_PENABLE <= 1'b1;
else if (M_APB_PREADY)
begin // if (M_APB_PSEL && M_APB_ENABLE)
M_APB_PENABLE <= 1'b0;
M_APB_PSEL <= 1'b0;
end
if (!S_AXI_ARESETN)
begin
M_APB_PSEL <= 1'b0;
M_APB_PENABLE <= 1'b0;
end
end
// }}}
reg r_apb_bvalid, r_apb_rvalid, r_apb_error;
reg [DW-1:0] r_apb_data;
generate if (OPT_OUTGOING_SKIDBUFFER)
begin
// {{{
// r_apb_bvalid, r_apb_rvalid, r_apb_error, r_apb_data
// {{{
initial r_apb_bvalid = 1'b0;
initial r_apb_rvalid = 1'b0;
always @(posedge S_AXI_ACLK)
begin
if (M_APB_PSEL && M_APB_PENABLE && M_APB_PREADY)
begin
r_apb_bvalid <= (S_AXI_BVALID && !S_AXI_BREADY) && M_APB_PWRITE;
r_apb_rvalid <= (S_AXI_RVALID && !S_AXI_RREADY) && !M_APB_PWRITE;
if (!M_APB_PWRITE)
r_apb_data <= M_APB_PRDATA;
r_apb_error <= M_APB_PSLVERR;
end else begin
if (S_AXI_BREADY)
r_apb_bvalid <= 1'b0;
if (S_AXI_RREADY)
r_apb_rvalid <= 1'b0;
end
if (!S_AXI_ARESETN)
begin
r_apb_bvalid <= 1'b0;
r_apb_rvalid <= 1'b0;
end
end
// }}}
// apb_bvalid
// {{{
always @(*)
apb_bvalid = (M_APB_PSEL && M_APB_PENABLE
&& M_APB_PREADY && M_APB_PWRITE)|| r_apb_bvalid;
// }}}
// apb_rvalid
// {{{
always @(*)
apb_rvalid = (M_APB_PSEL && M_APB_PENABLE
&& M_APB_PREADY && !M_APB_PWRITE)||r_apb_rvalid;
// }}}
// apb_data
// {{{
always @(*)
if (out_skid_full)
apb_data = r_apb_data;
else
apb_data = M_APB_PRDATA;
// }}}
// apb_error
// {{{
always @(*)
if (out_skid_full)
apb_error = r_apb_error;
else
apb_error = M_APB_PSLVERR;
// }}}
always @(*)
out_skid_full = r_apb_bvalid || r_apb_rvalid;
// }}}
end else begin
// {{{
initial r_apb_bvalid = 1'b0;
initial r_apb_rvalid = 1'b0;
initial r_apb_error = 1'b0;
initial r_apb_data = 0;
always @(*)
begin
r_apb_bvalid = 1'b0;
r_apb_rvalid = 1'b0;
r_apb_error = 1'b0;
r_apb_data = 0;
apb_bvalid = M_APB_PSEL && M_APB_PENABLE
&& M_APB_PREADY && M_APB_PWRITE;
apb_rvalid = M_APB_PSEL && M_APB_PENABLE
&& M_APB_PREADY && !M_APB_PWRITE;
apb_data = M_APB_PRDATA;
apb_error = M_APB_PSLVERR;
out_skid_full = 1'b0;
end
// Verilator lint_off UNUSED
wire skd_unused;
assign skd_unused = &{ 1'b0, r_apb_bvalid, r_apb_rvalid,
r_apb_data, r_apb_error, out_skid_full };
// Verilator lint_on UNUSED
// }}}
end endgenerate
// }}}
////////////////////////////////////////////////////////////////////////
//
// AXI-lite write return signaling
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// BVALID
// {{{
initial S_AXI_BVALID = 1'b0;
always @(posedge S_AXI_ACLK)
if (!S_AXI_ARESETN)
S_AXI_BVALID <= 1'b0;
else if (!S_AXI_BVALID || S_AXI_BREADY)
S_AXI_BVALID <= apb_bvalid;
// }}}
// BRESP
// {{{
initial S_AXI_BRESP = 2'b00;
always @(posedge S_AXI_ACLK)
if (!S_AXI_ARESETN)
S_AXI_BRESP <= 2'b00;
else if (!S_AXI_BVALID || S_AXI_BREADY)
S_AXI_BRESP <= { apb_error, 1'b0 };
// }}}
// }}}
////////////////////////////////////////////////////////////////////////
//
// AXI-lite read return signaling
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// RVALID
// {{{
initial S_AXI_RVALID = 1'b0;
always @(posedge S_AXI_ACLK)
if (!S_AXI_ARESETN)
S_AXI_RVALID <= 1'b0;
else if (!S_AXI_RVALID || S_AXI_RREADY)
S_AXI_RVALID <= apb_rvalid;
// }}}
// RRESP
// {{{
initial S_AXI_RRESP = 2'b00;
always @(posedge S_AXI_ACLK)
if (!S_AXI_ARESETN)
S_AXI_RRESP <= 2'b00;
else if (!S_AXI_RVALID || S_AXI_RREADY)
S_AXI_RRESP <= { apb_error, 1'b0 };
// }}}
// RDATA
// {{{
always @(posedge S_AXI_ACLK)
if ((!S_AXI_RVALID || S_AXI_RREADY) && apb_rvalid)
S_AXI_RDATA <= apb_data;
// }}}
// }}}
// Make Verilator happy
// {{{
// Verilator lint_off UNUSED
wire unused;
assign unused = &{ 1'b0, S_AXI_AWPROT, S_AXI_ARPROT,
S_AXI_AWADDR[AXILLSB-1:0], S_AXI_ARADDR[AXILLSB-1:0]
};
// Verilator lint_on UNUSED
// }}}
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
//
// Formal properties
// {{{
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
`ifdef FORMAL
localparam F_LGDEPTH = 3;
wire [F_LGDEPTH-1:0] faxi_rd_outstanding,
faxi_wr_outstanding,
faxi_awr_outstanding;
reg f_past_valid;
initial f_past_valid = 1'b0;
always @(posedge S_AXI_ACLK)
f_past_valid <= 1'b1;
////////////////////////////////////////////////////////////////////////
//
// AXI-lite interface properties
// {{{
////////////////////////////////////////////////////////////////////////
//
//
faxil_slave #(
// {{{
.C_AXI_ADDR_WIDTH(C_AXI_ADDR_WIDTH),
.C_AXI_DATA_WIDTH (C_AXI_DATA_WIDTH),
.F_OPT_COVER_BURST(4),
.F_AXI_MAXWAIT(17),
.F_AXI_MAXDELAY(17),
.F_AXI_MAXRSTALL(3),
.F_LGDEPTH(F_LGDEPTH)
// }}}
) faxil (
// {{{
.i_clk(S_AXI_ACLK), // System clock
.i_axi_reset_n(S_AXI_ARESETN),
//
.i_axi_awvalid(S_AXI_AWVALID),
.i_axi_awready(S_AXI_AWREADY),
.i_axi_awaddr(S_AXI_AWADDR),
.i_axi_awprot(S_AXI_AWPROT),
//
.i_axi_wready(S_AXI_WREADY),
.i_axi_wdata(S_AXI_WDATA),
.i_axi_wstrb(S_AXI_WSTRB),
.i_axi_wvalid(S_AXI_WVALID),
//
.i_axi_bresp(S_AXI_BRESP),
.i_axi_bvalid(S_AXI_BVALID),
.i_axi_bready(S_AXI_BREADY),
//
.i_axi_arvalid(S_AXI_ARVALID),
.i_axi_arready(S_AXI_ARREADY),
.i_axi_araddr(S_AXI_ARADDR),
.i_axi_arprot(S_AXI_ARPROT),
//
.i_axi_rvalid(S_AXI_RVALID),
.i_axi_rready(S_AXI_RREADY),
.i_axi_rresp(S_AXI_RRESP),
.i_axi_rdata(S_AXI_RDATA),
//
.f_axi_rd_outstanding(faxi_rd_outstanding),
.f_axi_wr_outstanding(faxi_wr_outstanding),
.f_axi_awr_outstanding(faxi_awr_outstanding)
// }}}
);
// Correlate outstanding counters against our state
// {{{
always @(*)
if (S_AXI_ARESETN)
begin
assert(faxi_awr_outstanding == (S_AXI_AWREADY ? 0:1)
+ (r_apb_bvalid ? 1:0)
+ (S_AXI_BVALID ? 1:0)
+ ((M_APB_PSEL && M_APB_PWRITE) ? 1:0));
assert(faxi_wr_outstanding == (S_AXI_WREADY ? 0:1)
+ (r_apb_bvalid ? 1:0)
+ (S_AXI_BVALID ? 1:0)
+ ((M_APB_PSEL && M_APB_PWRITE) ? 1:0));
assert(faxi_rd_outstanding == (S_AXI_ARREADY ? 0:1)
+ (r_apb_rvalid ? 1:0)
+ (S_AXI_RVALID ? 1:0)
+ ((M_APB_PSEL && !M_APB_PWRITE) ? 1:0));
if (r_apb_bvalid)
assert(S_AXI_BVALID);
if (r_apb_rvalid)
assert(S_AXI_RVALID);
end
// }}}
// }}}
////////////////////////////////////////////////////////////////////////
//
// APB interface properties
// {{{
////////////////////////////////////////////////////////////////////////
//
//
fapb_master #(
// {{{
.AW(C_AXI_ADDR_WIDTH),
.DW(C_AXI_DATA_WIDTH),
.F_OPT_MAXSTALL(3)
// }}}
) fapb (
// {{{
.PCLK(S_AXI_ACLK), .PRESETn(S_AXI_ARESETN),
.PSEL( M_APB_PSEL),
.PENABLE(M_APB_PENABLE),
.PREADY( M_APB_PREADY),
.PADDR( M_APB_PADDR),
.PWRITE( M_APB_PWRITE),
.PWDATA( M_APB_PWDATA),
.PWSTRB( M_APB_PWSTRB),
.PPROT( M_APB_PPROT),
.PRDATA( M_APB_PRDATA),
.PSLVERR(M_APB_PSLVERR)
// }}}
);
always @(*)
if (!M_APB_PSEL)
assert(!M_APB_PENABLE);
// }}}
////////////////////////////////////////////////////////////////////////
//
// Induction invariants
// {{{
////////////////////////////////////////////////////////////////////////
//
//
always @(*)
assert(!axil_write_ready || !axil_read_ready);
// }}}
////////////////////////////////////////////////////////////////////////
//
// Contract properties
// {{{
////////////////////////////////////////////////////////////////////////
//
//
(* anyconst *) reg f_never_test;
(* anyconst *) reg [AW-1:0] f_never_addr;
(* anyconst *) reg [DW-1:0] f_never_data;
(* anyconst *) reg [DW/8-1:0] f_never_strb;
(* anyconst *) reg [2:0] f_never_prot;
// Assume the never values are never received
// {{{
always @(*)
if (f_never_test)
begin
assume(f_never_addr[AXILLSB-1:0] == 0);
if (S_AXI_AWVALID)
begin
assume(S_AXI_AWADDR[AW-1:AXILLSB] != f_never_addr[AW-1:AXILLSB]);
assume(S_AXI_AWPROT != f_never_prot);
end
if (S_AXI_WVALID)
begin
assume(S_AXI_WDATA != f_never_data);
assume(S_AXI_WSTRB != f_never_strb);
end
if (S_AXI_ARVALID)
begin
assume(S_AXI_ARADDR[AW-1:AXILLSB] != f_never_addr[AW-1:AXILLSB]);
assume(S_AXI_ARPROT != f_never_prot);
end
if (M_APB_PSEL && M_APB_PENABLE && M_APB_PREADY&& !M_APB_PWRITE)
assume(M_APB_PRDATA != f_never_data);
end
// }}}
// Assert the never values are never in the incoming skid buffers
// {{{
always @(*)
if (f_never_test)
begin
if (awskd_valid)
begin
assert(awskd_addr != f_never_addr[AW-1:AXILLSB]);
assert(awskd_prot != f_never_prot);
end
if (wskd_valid)
begin
assert(wskd_data != f_never_data);
assert(wskd_strb != f_never_strb);
end
if (arskd_valid)
begin
assert(arskd_addr != f_never_addr[AW-1:AXILLSB]);
assert(arskd_prot != f_never_prot);
end
if (r_apb_rvalid)
assert(r_apb_data != f_never_data);
end
// }}}
// Assert the never values are never output
// {{{
always @(*)
if (f_never_test)
begin
if (M_APB_PSEL)
begin
assert(M_APB_PADDR != f_never_addr);
assert(M_APB_PPROT != f_never_prot);
if (M_APB_PWRITE)
begin
assert(M_APB_PWDATA != f_never_data);
assert(M_APB_PWSTRB != f_never_strb);
end
end
if (S_AXI_RVALID)
assert(S_AXI_RDATA != f_never_data);
end
// }}}
// }}}
////////////////////////////////////////////////////////////////////////
//
// Cover checks
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// None (yet)
// }}}
////////////////////////////////////////////////////////////////////////
//
// Careless assumptions
// {{{
////////////////////////////////////////////////////////////////////////
//
//
// }}}
`endif
// }}}
endmodule