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axi_id_prepend.sv
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axi_id_prepend.sv
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// Copyright 2019 ETH Zurich and University of Bologna.
// Copyright and related rights are licensed under the Solderpad Hardware
// License, Version 0.51 (the "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of the License at
// http://solderpad.org/licenses/SHL-0.51. Unless required by applicable law
// or agreed to in writing, software, hardware and materials distributed under
// this 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.
//
// Authors:
// - Wolfgang Roenninger <[email protected]>
// - Andreas Kurth <[email protected]>
// AXI ID Prepend: This module prepends/strips the MSB from the AXI IDs.
// Constraints enforced through assertions: ID width of slave and master port
module axi_id_prepend #(
parameter int unsigned NoBus = 1, // Can take multiple axi busses
parameter int unsigned AxiIdWidthSlvPort = 4, // AXI ID Width of the Slave Ports
parameter int unsigned AxiIdWidthMstPort = 6, // AXI ID Width of the Master Ports
parameter type slv_aw_chan_t = logic, // AW Channel Type for slv port
parameter type slv_w_chan_t = logic, // W Channel Type for slv port
parameter type slv_b_chan_t = logic, // B Channel Type for slv port
parameter type slv_ar_chan_t = logic, // AR Channel Type for slv port
parameter type slv_r_chan_t = logic, // R Channel Type for slv port
parameter type mst_aw_chan_t = logic, // AW Channel Type for mst port
parameter type mst_w_chan_t = logic, // W Channel Type for mst port
parameter type mst_b_chan_t = logic, // B Channel Type for mst port
parameter type mst_ar_chan_t = logic, // AR Channel Type for mst port
parameter type mst_r_chan_t = logic, // R Channel Type for mst port
// DEPENDENT PARAMETER DO NOT OVERWRITE!
parameter int unsigned PreIdWidth = AxiIdWidthMstPort - AxiIdWidthSlvPort
) (
input logic [PreIdWidth-1:0] pre_id_i, // ID to be prepended
// slave port (input), connect master modules here
// AW channel
input slv_aw_chan_t [NoBus-1:0] slv_aw_chans_i,
input logic [NoBus-1:0] slv_aw_valids_i,
output logic [NoBus-1:0] slv_aw_readies_o,
// W channel
input slv_w_chan_t [NoBus-1:0] slv_w_chans_i,
input logic [NoBus-1:0] slv_w_valids_i,
output logic [NoBus-1:0] slv_w_readies_o,
// B channel
output slv_b_chan_t [NoBus-1:0] slv_b_chans_o,
output logic [NoBus-1:0] slv_b_valids_o,
input logic [NoBus-1:0] slv_b_readies_i,
// AR channel
input slv_ar_chan_t [NoBus-1:0] slv_ar_chans_i,
input logic [NoBus-1:0] slv_ar_valids_i,
output logic [NoBus-1:0] slv_ar_readies_o,
// R channel
output slv_r_chan_t [NoBus-1:0] slv_r_chans_o,
output logic [NoBus-1:0] slv_r_valids_o,
input logic [NoBus-1:0] slv_r_readies_i,
// master ports (output), connect slave modules here
// AW channel
output mst_aw_chan_t [NoBus-1:0] mst_aw_chans_o,
output logic [NoBus-1:0] mst_aw_valids_o,
input logic [NoBus-1:0] mst_aw_readies_i,
// W channel
output mst_w_chan_t [NoBus-1:0] mst_w_chans_o,
output logic [NoBus-1:0] mst_w_valids_o,
input logic [NoBus-1:0] mst_w_readies_i,
// B channel
input mst_b_chan_t [NoBus-1:0] mst_b_chans_i,
input logic [NoBus-1:0] mst_b_valids_i,
output logic [NoBus-1:0] mst_b_readies_o,
// AR channel
output mst_ar_chan_t [NoBus-1:0] mst_ar_chans_o,
output logic [NoBus-1:0] mst_ar_valids_o,
input logic [NoBus-1:0] mst_ar_readies_i,
// R channel
input mst_r_chan_t [NoBus-1:0] mst_r_chans_i,
input logic [NoBus-1:0] mst_r_valids_i,
output logic [NoBus-1:0] mst_r_readies_o
);
// prepend the ID
for (genvar i = 0; i < NoBus; i++) begin : gen_id_prepend
if (PreIdWidth == 0) begin : gen_no_prepend
assign mst_aw_chans_o[i] = slv_aw_chans_i[i];
assign mst_ar_chans_o[i] = slv_ar_chans_i[i];
end else begin : gen_prepend
always_comb begin
mst_aw_chans_o[i] = slv_aw_chans_i[i];
mst_ar_chans_o[i] = slv_ar_chans_i[i];
mst_aw_chans_o[i].id = {pre_id_i, slv_aw_chans_i[i].id[AxiIdWidthSlvPort-1:0]};
mst_ar_chans_o[i].id = {pre_id_i, slv_ar_chans_i[i].id[AxiIdWidthSlvPort-1:0]};
end
end
// The ID is in the highest bits of the struct, so an assignment from a channel with a wide ID
// to a channel with a shorter ID correctly cuts the prepended ID.
assign slv_b_chans_o[i] = mst_b_chans_i[i];
assign slv_r_chans_o[i] = mst_r_chans_i[i];
end
// assign the handshaking's and w channel
assign mst_w_chans_o = slv_w_chans_i;
assign mst_aw_valids_o = slv_aw_valids_i;
assign slv_aw_readies_o = mst_aw_readies_i;
assign mst_w_valids_o = slv_w_valids_i;
assign slv_w_readies_o = mst_w_readies_i;
assign slv_b_valids_o = mst_b_valids_i;
assign mst_b_readies_o = slv_b_readies_i;
assign mst_ar_valids_o = slv_ar_valids_i;
assign slv_ar_readies_o = mst_ar_readies_i;
assign slv_r_valids_o = mst_r_valids_i;
assign mst_r_readies_o = slv_r_readies_i;
// pragma translate_off
`ifndef VERILATOR
initial begin : p_assert
assert(NoBus > 0)
else $fatal(1, "Input must be at least one element wide.");
assert(PreIdWidth == ($bits(mst_aw_chans_o[0].id) - $bits(slv_aw_chans_i[0].id)))
else $fatal(1, "Prepend ID Width must be: $bits(mst_aw_chans_o.id)-$bits(slv_aw_chans_i.id)");
assert ($bits(mst_aw_chans_o[0].id) > $bits(slv_aw_chans_i[0].id))
else $fatal(1, "The master AXI port has to have a wider ID than the slave port.");
end
aw_id : assert final(
mst_aw_chans_o[0].id[$bits(slv_aw_chans_i[0].id)-1:0] === slv_aw_chans_i[0].id)
else $fatal (1, "Something with the AW channel ID prepending went wrong.");
aw_addr : assert final(mst_aw_chans_o[0].addr === slv_aw_chans_i[0].addr)
else $fatal (1, "Something with the AW channel ID prepending went wrong.");
aw_len : assert final(mst_aw_chans_o[0].len === slv_aw_chans_i[0].len)
else $fatal (1, "Something with the AW channel ID prepending went wrong.");
aw_size : assert final(mst_aw_chans_o[0].size === slv_aw_chans_i[0].size)
else $fatal (1, "Something with the AW channel ID prepending went wrong.");
aw_qos : assert final(mst_aw_chans_o[0].qos === slv_aw_chans_i[0].qos)
else $fatal (1, "Something with the AW channel ID prepending went wrong.");
b_id : assert final(
mst_b_chans_i[0].id[$bits(slv_b_chans_o[0].id)-1:0] === slv_b_chans_o[0].id)
else $fatal (1, "Something with the B channel ID stripping went wrong.");
b_resp : assert final(mst_b_chans_i[0].resp === slv_b_chans_o[0].resp)
else $fatal (1, "Something with the B channel ID stripping went wrong.");
ar_id : assert final(
mst_ar_chans_o[0].id[$bits(slv_ar_chans_i[0].id)-1:0] === slv_ar_chans_i[0].id)
else $fatal (1, "Something with the AR channel ID prepending went wrong.");
ar_addr : assert final(mst_ar_chans_o[0].addr === slv_ar_chans_i[0].addr)
else $fatal (1, "Something with the AR channel ID prepending went wrong.");
ar_len : assert final(mst_ar_chans_o[0].len === slv_ar_chans_i[0].len)
else $fatal (1, "Something with the AR channel ID prepending went wrong.");
ar_size : assert final(mst_ar_chans_o[0].size === slv_ar_chans_i[0].size)
else $fatal (1, "Something with the AR channel ID prepending went wrong.");
ar_qos : assert final(mst_ar_chans_o[0].qos === slv_ar_chans_i[0].qos)
else $fatal (1, "Something with the AR channel ID prepending went wrong.");
r_id : assert final(mst_r_chans_i[0].id[$bits(slv_r_chans_o[0].id)-1:0] === slv_r_chans_o[0].id)
else $fatal (1, "Something with the R channel ID stripping went wrong.");
r_data : assert final(mst_r_chans_i[0].data === slv_r_chans_o[0].data)
else $fatal (1, "Something with the R channel ID stripping went wrong.");
r_resp : assert final(mst_r_chans_i[0].resp === slv_r_chans_o[0].resp)
else $fatal (1, "Something with the R channel ID stripping went wrong.");
`endif
// pragma translate_on
endmodule