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axlite2wbsp.v
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axlite2wbsp.v
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////////////////////////////////////////////////////////////////////////////////
//
// Filename: axlite2wbsp.v
// {{{
// Project: WB2AXIPSP: bus bridges and other odds and ends
//
// Purpose: Take an AXI lite input, and convert it into WB.
//
// We'll treat AXI as two separate busses: one for writes, another for
// reads, further, we'll insist that the two channels AXI uses for writes
// combine into one channel for our purposes.
//
//
// Creator: Dan Gisselquist, Ph.D.
// Gisselquist Technology, LLC
//
////////////////////////////////////////////////////////////////////////////////
// }}}
// Copyright (C) 2016-2024, 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 axlite2wbsp #(
// {{{
parameter C_AXI_DATA_WIDTH = 32,// Width of the AXI R&W data
parameter C_AXI_ADDR_WIDTH = 28, // AXI Address width
parameter LGFIFO = 4,
`ifdef FORMAL
parameter F_MAXSTALL = 3,
parameter F_MAXDELAY = 3,
`endif
parameter [0:0] OPT_READONLY = 1'b0,
parameter [0:0] OPT_WRITEONLY = 1'b0,
localparam AXILLSB = $clog2(C_AXI_DATA_WIDTH/8)
// }}}
) (
// {{{
input wire i_clk, // System clock
input wire i_axi_reset_n,
// AXI write address channel signals
// {{{
input wire i_axi_awvalid,
output wire o_axi_awready,
input wire [C_AXI_ADDR_WIDTH-1:0] i_axi_awaddr,
input wire [2:0] i_axi_awprot,
// }}}
// AXI write data channel signals
// {{{
input wire i_axi_wvalid,
output wire o_axi_wready,
input wire [C_AXI_DATA_WIDTH-1:0] i_axi_wdata,
input wire [C_AXI_DATA_WIDTH/8-1:0] i_axi_wstrb,
// }}}
// AXI write response channel signals
// {{{
output wire o_axi_bvalid,
input wire i_axi_bready,
output wire [1:0] o_axi_bresp,
// }}}
// AXI read address channel signals
// {{{
input wire i_axi_arvalid,
output wire o_axi_arready,
input wire [C_AXI_ADDR_WIDTH-1:0] i_axi_araddr,
input wire [2:0] i_axi_arprot,
// }}}
// AXI read data channel signals
// {{{
output wire o_axi_rvalid,
input wire i_axi_rready,
output wire [C_AXI_DATA_WIDTH-1:0] o_axi_rdata,
output wire [1:0] o_axi_rresp,
// }}}
// Wishbone signals
// {{{
// We'll share the clock and the reset
output wire o_reset,
output wire o_wb_cyc,
output wire o_wb_stb,
output wire o_wb_we,
output wire [C_AXI_ADDR_WIDTH-AXILLSB-1:0] o_wb_addr,
output wire [C_AXI_DATA_WIDTH-1:0] o_wb_data,
output wire [C_AXI_DATA_WIDTH/8-1:0] o_wb_sel,
input wire i_wb_stall,
input wire i_wb_ack,
input wire [(C_AXI_DATA_WIDTH-1):0] i_wb_data,
input wire i_wb_err
// }}}
// }}}
);
// Local definitions
// {{{
localparam DW = C_AXI_DATA_WIDTH;
localparam AW = C_AXI_ADDR_WIDTH-AXILLSB;
//
//
//
wire [(AW-1):0] w_wb_addr, r_wb_addr;
wire [(DW-1):0] w_wb_data;
wire [(DW/8-1):0] w_wb_sel, r_wb_sel;
wire r_wb_err, r_wb_cyc, r_wb_stb, r_wb_stall, r_wb_ack;
wire w_wb_err, w_wb_cyc, w_wb_stb, w_wb_stall, w_wb_ack;
// verilator lint_off UNUSED
wire r_wb_we, w_wb_we;
assign r_wb_we = 1'b0;
assign w_wb_we = 1'b1;
// verilator lint_on UNUSED
`ifdef FORMAL
// {{{
// Verilator lint_off UNUSED
localparam F_LGDEPTH = LGFIFO+1;
wire [LGFIFO:0] f_wr_fifo_first, f_rd_fifo_first,
f_wr_fifo_mid, f_rd_fifo_mid,
f_wr_fifo_last, f_rd_fifo_last;
// Verilator lint_on UNUSED
wire [(F_LGDEPTH-1):0] f_wb_nreqs, f_wb_nacks,
f_wb_outstanding;
wire [(F_LGDEPTH-1):0] f_wb_wr_nreqs, f_wb_wr_nacks,
f_wb_wr_outstanding;
wire [(F_LGDEPTH-1):0] f_wb_rd_nreqs, f_wb_rd_nacks,
f_wb_rd_outstanding;
wire f_pending_awvalid, f_pending_wvalid;
// }}}
`endif
// }}}
////////////////////////////////////////////////////////////////////////
//
// AXI-lite write channel to WB processing
// {{{
////////////////////////////////////////////////////////////////////////
//
//
generate if (!OPT_READONLY)
begin : AXI_WR
// {{{
axilwr2wbsp #(
// {{{
// .F_LGDEPTH(F_LGDEPTH),
// .C_AXI_DATA_WIDTH(C_AXI_DATA_WIDTH),
.C_AXI_ADDR_WIDTH(C_AXI_ADDR_WIDTH), // .AW(AW),
.LGFIFO(LGFIFO)
// }}}
) axi_write_decoder (
// {{{
.i_clk(i_clk), .i_axi_reset_n(i_axi_reset_n),
//
.i_axi_awvalid(i_axi_awvalid),
.o_axi_awready(o_axi_awready),
.i_axi_awaddr( i_axi_awaddr),
.i_axi_awprot( i_axi_awprot),
//
.i_axi_wvalid( i_axi_wvalid),
.o_axi_wready( o_axi_wready),
.i_axi_wdata( i_axi_wdata),
.i_axi_wstrb( i_axi_wstrb),
//
.o_axi_bvalid(o_axi_bvalid),
.i_axi_bready(i_axi_bready),
.o_axi_bresp(o_axi_bresp),
//
.o_wb_cyc( w_wb_cyc),
.o_wb_stb( w_wb_stb),
.o_wb_addr( w_wb_addr),
.o_wb_data( w_wb_data),
.o_wb_sel( w_wb_sel),
.i_wb_stall(w_wb_stall),
.i_wb_ack( w_wb_ack),
.i_wb_err( w_wb_err)
`ifdef FORMAL
// {{{
,
.f_first(f_wr_fifo_first),
.f_mid( f_wr_fifo_mid),
.f_last( f_wr_fifo_last),
.f_wpending({ f_pending_awvalid, f_pending_wvalid })
// }}}
`endif
// }}}
);
// }}}
end else begin : EMPTY_WRITES
// {{{
assign w_wb_cyc = 0;
assign w_wb_stb = 0;
assign w_wb_addr = 0;
assign w_wb_data = 0;
assign w_wb_sel = 0;
assign o_axi_awready = 0;
assign o_axi_wready = 0;
assign o_axi_bvalid = (i_axi_wvalid);
assign o_axi_bresp = 2'b11;
`ifdef FORMAL
assign f_wr_fifo_first = 0;
assign f_wr_fifo_mid = 0;
assign f_wr_fifo_last = 0;
assign f_pending_awvalid=0;
assign f_pending_wvalid =0;
`endif
// }}}
end endgenerate
assign w_wb_we = 1'b1;
// }}}
////////////////////////////////////////////////////////////////////////
//
// AXI-lite read channel to WB processing
// {{{
////////////////////////////////////////////////////////////////////////
//
//
generate if (!OPT_WRITEONLY)
begin : AXI_RD
// {{{
axilrd2wbsp #(
// {{{
// .C_AXI_DATA_WIDTH(C_AXI_DATA_WIDTH),
.C_AXI_ADDR_WIDTH(C_AXI_ADDR_WIDTH),
.LGFIFO(LGFIFO)
// }}}
) axi_read_decoder(
// {{{
.i_clk(i_clk), .i_axi_reset_n(i_axi_reset_n),
//
.i_axi_arvalid(i_axi_arvalid),
.o_axi_arready(o_axi_arready),
.i_axi_araddr( i_axi_araddr),
.i_axi_arprot( i_axi_arprot),
//
.o_axi_rvalid(o_axi_rvalid),
.i_axi_rready(i_axi_rready),
.o_axi_rdata( o_axi_rdata),
.o_axi_rresp( o_axi_rresp),
//
.o_wb_cyc( r_wb_cyc),
.o_wb_stb( r_wb_stb),
.o_wb_addr( r_wb_addr),
.o_wb_sel( r_wb_sel),
.i_wb_stall(r_wb_stall),
.i_wb_ack( r_wb_ack),
.i_wb_data( i_wb_data),
.i_wb_err( r_wb_err)
`ifdef FORMAL
// {{{
,
.f_first(f_rd_fifo_first),
.f_mid( f_rd_fifo_mid),
.f_last( f_rd_fifo_last)
// }}}
`endif
// }}}
);
// }}}
end else begin : EMPTY_READS
// {{{
assign r_wb_cyc = 0;
assign r_wb_stb = 0;
assign r_wb_addr = 0;
//
assign o_axi_arready = 1'b1;
assign o_axi_rvalid = (i_axi_arvalid)&&(o_axi_arready);
assign o_axi_rresp = (i_axi_arvalid) ? 2'b11 : 2'b00;
assign o_axi_rdata = 0;
`ifdef FORMAL
assign f_rd_fifo_first = 0;
assign f_rd_fifo_mid = 0;
assign f_rd_fifo_last = 0;
`endif
// }}}
end endgenerate
// }}}
////////////////////////////////////////////////////////////////////////
//
// The arbiter that pastes the two sides together
// {{{
////////////////////////////////////////////////////////////////////////
//
//
generate if (OPT_READONLY)
begin : ARB_RD
// {{{
assign o_wb_cyc = r_wb_cyc;
assign o_wb_stb = r_wb_stb;
assign o_wb_we = 1'b0;
assign o_wb_addr = r_wb_addr;
assign o_wb_data = 32'h0;
assign o_wb_sel = r_wb_sel;
assign r_wb_ack = i_wb_ack;
assign r_wb_stall= i_wb_stall;
assign r_wb_ack = i_wb_ack;
assign r_wb_err = i_wb_err;
`ifdef FORMAL
fwb_master #(.DW(DW), .AW(AW),
.F_LGDEPTH(F_LGDEPTH),
.F_MAX_STALL(F_MAXSTALL),
.F_MAX_ACK_DELAY(F_MAXDELAY))
f_wb(i_clk, !i_axi_reset_n,
o_wb_cyc, o_wb_stb, o_wb_we, o_wb_addr, o_wb_data,
o_wb_sel,
i_wb_ack, i_wb_stall, i_wb_data, i_wb_err,
f_wb_nreqs, f_wb_nacks, f_wb_outstanding);
assign f_wb_rd_nreqs = f_wb_nreqs;
assign f_wb_rd_nacks = f_wb_nacks;
assign f_wb_rd_outstanding = f_wb_outstanding;
//
assign f_wb_wr_nreqs = 0;
assign f_wb_wr_nacks = 0;
assign f_wb_wr_outstanding = 0;
`endif
// }}}
end else if (OPT_WRITEONLY)
begin : ARB_WR
// {{{
assign o_wb_cyc = w_wb_cyc;
assign o_wb_stb = w_wb_stb;
assign o_wb_we = 1'b1;
assign o_wb_addr = w_wb_addr;
assign o_wb_data = w_wb_data;
assign o_wb_sel = w_wb_sel;
assign w_wb_ack = i_wb_ack;
assign w_wb_stall= i_wb_stall;
assign w_wb_ack = i_wb_ack;
assign w_wb_err = i_wb_err;
`ifdef FORMAL
fwb_master #(.DW(DW), .AW(AW),
.F_LGDEPTH(F_LGDEPTH),
.F_MAX_STALL(F_MAXSTALL),
.F_MAX_ACK_DELAY(F_MAXDELAY))
f_wb(i_clk, !i_axi_reset_n,
o_wb_cyc, o_wb_stb, o_wb_we, o_wb_addr, o_wb_data,
o_wb_sel,
i_wb_ack, i_wb_stall, i_wb_data, i_wb_err,
f_wb_nreqs, f_wb_nacks, f_wb_outstanding);
assign f_wb_wr_nreqs = f_wb_nreqs;
assign f_wb_wr_nacks = f_wb_nacks;
assign f_wb_wr_outstanding = f_wb_outstanding;
//
assign f_wb_rd_nreqs = 0;
assign f_wb_rd_nacks = 0;
assign f_wb_rd_outstanding = 0;
`endif
// }}}
end else begin : ARB_WB
// {{{
wbarbiter #(
// {{{
.DW(DW), .AW(AW)
`ifdef FORMAL
, .F_LGDEPTH(F_LGDEPTH),
.F_MAX_STALL(F_MAXSTALL),
.F_MAX_ACK_DELAY(F_MAXDELAY)
`endif
// }}}
) readorwrite(
// {{{
.i_clk(i_clk), .i_reset(!i_axi_reset_n),
// Channel A - Reads
// {{{
.i_a_cyc(r_wb_cyc), .i_a_stb(r_wb_stb),
.i_a_we(1'b0),
.i_a_adr(r_wb_addr),
.i_a_dat(w_wb_data),
.i_a_sel(r_wb_sel),
.o_a_stall(r_wb_stall),
.o_a_ack(r_wb_ack),
.o_a_err(r_wb_err),
// }}}
// Channel B
// {{{
.i_b_cyc(w_wb_cyc), .i_b_stb(w_wb_stb),
.i_b_we(1'b1),
.i_b_adr(w_wb_addr),
.i_b_dat(w_wb_data),
.i_b_sel(w_wb_sel),
.o_b_stall(w_wb_stall),
.o_b_ack(w_wb_ack),
.o_b_err(w_wb_err),
// }}}
// Arbitrated outgoing channel
// {{{
.o_cyc(o_wb_cyc), .o_stb(o_wb_stb), .o_we(o_wb_we),
.o_adr(o_wb_addr),
.o_dat(o_wb_data),
.o_sel(o_wb_sel),
.i_stall(i_wb_stall),
.i_ack(i_wb_ack),
.i_err(i_wb_err)
// }}}
`ifdef FORMAL
// {{{
,
.f_nreqs(f_wb_nreqs), .f_nacks(f_wb_nacks),
.f_outstanding(f_wb_outstanding),
.f_a_nreqs(f_wb_rd_nreqs), .f_a_nacks(f_wb_rd_nacks),
.f_a_outstanding(f_wb_rd_outstanding),
.f_b_nreqs(f_wb_wr_nreqs), .f_b_nacks(f_wb_wr_nacks),
.f_b_outstanding(f_wb_wr_outstanding)
// }}}
`endif
// }}}
);
// }}}
end endgenerate
// }}}
assign o_reset = (i_axi_reset_n == 1'b0);
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
//
// Formal properties
// {{{
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////
`ifdef FORMAL
// Formal declarations
// {{{
reg f_past_valid;
initial f_past_valid = 1'b0;
always @(posedge i_clk)
f_past_valid <= 1'b1;
wire [(F_LGDEPTH-1):0] f_axi_rd_outstanding,
f_axi_wr_outstanding,
f_axi_awr_outstanding;
wire [LGFIFO:0] f_awr_fifo_axi_used,
f_rd_fifo_axi_used;
// }}}
initial assume(!i_axi_reset_n);
always @(*)
if (!f_past_valid)
assume(!i_axi_reset_n);
faxil_slave #(
// {{{
// .C_AXI_DATA_WIDTH(C_AXI_DATA_WIDTH),
.C_AXI_ADDR_WIDTH(C_AXI_ADDR_WIDTH),
.F_LGDEPTH(F_LGDEPTH),
.F_AXI_MAXWAIT(0),
.F_AXI_MAXDELAY(0)
// }}}
) f_axi(
// {{{
.i_clk(i_clk), .i_axi_reset_n(i_axi_reset_n),
// AXI write address channnel
.i_axi_awvalid(i_axi_awvalid),
.i_axi_awready(o_axi_awready),
.i_axi_awaddr( i_axi_awaddr),
.i_axi_awprot( i_axi_awprot),
// AXI write data channel
.i_axi_wvalid( i_axi_wvalid),
.i_axi_wready( o_axi_wready),
.i_axi_wdata( i_axi_wdata),
.i_axi_wstrb( i_axi_wstrb),
// AXI write acknowledgement channel
.i_axi_bvalid(o_axi_bvalid),
.i_axi_bready(i_axi_bready),
.i_axi_bresp( o_axi_bresp),
// AXI read address channel
.i_axi_arvalid(i_axi_arvalid),
.i_axi_arready(o_axi_arready),
.i_axi_araddr( i_axi_araddr),
.i_axi_arprot( i_axi_arprot),
// AXI read data return
.i_axi_rvalid( o_axi_rvalid),
.i_axi_rready( i_axi_rready),
.i_axi_rdata( o_axi_rdata),
.i_axi_rresp( o_axi_rresp),
// Quantify where we are within a transaction
.f_axi_rd_outstanding( f_axi_rd_outstanding),
.f_axi_wr_outstanding( f_axi_wr_outstanding),
.f_axi_awr_outstanding(f_axi_awr_outstanding)
// }}}
);
assign f_awr_fifo_axi_used = f_wr_fifo_first - f_wr_fifo_last;
assign f_rd_fifo_axi_used = f_rd_fifo_first - f_rd_fifo_last;
always @(*)
begin
assert(f_axi_rd_outstanding == f_rd_fifo_axi_used);
assert(f_axi_awr_outstanding == f_awr_fifo_axi_used+ (f_pending_awvalid?1:0));
assert(f_axi_wr_outstanding == f_awr_fifo_axi_used+ (f_pending_wvalid?1:0));
end
always @(*)
if (OPT_READONLY)
begin
assert(f_axi_awr_outstanding == 0);
assert(f_axi_wr_outstanding == 0);
end
always @(*)
if (OPT_WRITEONLY)
begin
assert(f_axi_rd_outstanding == 0);
end
//
initial assert((!OPT_READONLY)||(!OPT_WRITEONLY));
always @(*)
if (OPT_READONLY)
begin
assume(i_axi_awvalid == 0);
assume(i_axi_wvalid == 0);
assert(o_axi_bvalid == 0);
end
always @(*)
if (OPT_WRITEONLY)
begin
assume(i_axi_arvalid == 0);
assert(o_axi_rvalid == 0);
end
// Make Verilator happy
// {{{
// Verilator lint_off UNUSED
wire unused_formal;
assign unused_formal = &{ 1'b0, f_wb_nreqs, f_wb_nacks,
f_wb_outstanding, f_wb_wr_nreqs, f_wb_wr_nacks,
f_wb_wr_outstanding, f_wb_rd_nreqs, f_wb_rd_nacks,
f_wb_rd_outstanding };
// Verilator lint_on UNUSED
// }}}
`endif
// }}}
endmodule
`ifndef YOSYS
`default_nettype wire
`endif