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axi_lite_from_mem.sv
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axi_lite_from_mem.sv
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// Copyright 2022 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]>
// - Nicole Narr <[email protected]>
/// Protocol adapter which translates memory requests to the AXI4-Lite protocol.
///
/// This module acts like an SRAM and makes AXI4-Lite requests downstream.
///
/// Supports multiple outstanding requests and will have responses for reads **and** writes.
/// Response latency is not fixed and for sure **not 1** and depends on the AXI4-Lite memory system.
/// The `mem_rsp_valid_o` can have multiple cycles of latency from the corresponding `mem_gnt_o`.
/// (Was called `mem_to_axi_lite` - originating from https://github.com/pulp-platform/snitch)
module axi_lite_from_mem #(
/// Memory request address width.
parameter int unsigned MemAddrWidth = 32'd0,
/// AXI4-Lite address width.
parameter int unsigned AxiAddrWidth = 32'd0,
/// Data width in bit of the memory request data **and** the Axi4-Lite data channels.
parameter int unsigned DataWidth = 32'd0,
/// How many requests can be in flight at the same time. (Depth of the response mux FIFO).
parameter int unsigned MaxRequests = 32'd0,
/// Protection signal the module should emit on the AXI4-Lite transactions.
parameter axi_pkg::prot_t AxiProt = 3'b000,
/// AXI4-Lite request struct definition.
parameter type axi_req_t = logic,
/// AXI4-Lite response struct definition.
parameter type axi_rsp_t = logic,
/// Dependent parameter do **not** overwrite!
///
/// Memory address type, derived from `MemAddrWidth`.
parameter type mem_addr_t = logic[MemAddrWidth-1:0],
/// Dependent parameter do **not** overwrite!
///
/// AXI4-Lite address type, derived from `AxiAddrWidth`.
parameter type axi_addr_t = logic[AxiAddrWidth-1:0],
/// Dependent parameter do **not** overwrite!
///
/// Data type for read and write data, derived from `DataWidth`.
/// This is the same for the memory request side **and** the AXI4-Lite `W` and `R` channels.
parameter type data_t = logic[DataWidth-1:0],
/// Dependent parameter do **not** overwrite!
///
/// Byte enable / AXI4-Lite strobe type, derived from `DataWidth`.
parameter type strb_t = logic[DataWidth/8-1:0]
) (
/// Clock input, positive edge triggered.
input logic clk_i,
/// Asynchronous reset, active low.
input logic rst_ni,
/// Memory slave port, request is active.
input logic mem_req_i,
/// Memory slave port, request address.
///
/// Byte address, will be extended or truncated to match `AxiAddrWidth`.
input mem_addr_t mem_addr_i,
/// Memory slave port, request is a write.
///
/// `0`: Read request.
/// `1`: Write request.
input logic mem_we_i,
/// Memory salve port, write data for request.
input data_t mem_wdata_i,
/// Memory slave port, write byte enable for request.
///
/// Active high.
input strb_t mem_be_i,
/// Memory request is granted.
output logic mem_gnt_o,
/// Memory slave port, response is valid. For each request, regardless if read or write,
/// this will be active once for one cycle.
output logic mem_rsp_valid_o,
/// Memory slave port, response read data. This is forwarded directly from the AXI4-Lite
/// `R` channel. Only valid for responses generated by a read request.
output data_t mem_rsp_rdata_o,
/// Memory request encountered an error. This is forwarded from the AXI4-Lite error response.
output logic mem_rsp_error_o,
/// AXI4-Lite master port, request output.
output axi_req_t axi_req_o,
/// AXI4-Lite master port, response input.
input axi_rsp_t axi_rsp_i
);
`include "common_cells/registers.svh"
// Response FIFO control signals.
logic fifo_full, fifo_empty;
// Bookkeeping for sent write beats.
logic aw_sent_q, aw_sent_d;
logic w_sent_q, w_sent_d;
// Control for translating request to the AXI4-Lite `AW`, `W` and `AR` channels.
always_comb begin
// Default assignments.
axi_req_o.aw = '0;
axi_req_o.aw.addr = axi_addr_t'(mem_addr_i);
axi_req_o.aw.prot = AxiProt;
axi_req_o.aw_valid = 1'b0;
axi_req_o.w = '0;
axi_req_o.w.data = mem_wdata_i;
axi_req_o.w.strb = mem_be_i;
axi_req_o.w_valid = 1'b0;
axi_req_o.ar = '0;
axi_req_o.ar.addr = axi_addr_t'(mem_addr_i);
axi_req_o.ar.prot = AxiProt;
axi_req_o.ar_valid = 1'b0;
// This is also the push signal for the response FIFO.
mem_gnt_o = 1'b0;
// Bookkeeping about sent write channels.
aw_sent_d = aw_sent_q;
w_sent_d = w_sent_q;
// Control for Request to AXI4-Lite translation.
if (mem_req_i && !fifo_full) begin
if (!mem_we_i) begin
// It is a read request.
axi_req_o.ar_valid = 1'b1;
mem_gnt_o = axi_rsp_i.ar_ready;
end else begin
// Is is a write request, decouple `AW` and `W` channels.
unique case ({aw_sent_q, w_sent_q})
2'b00 : begin
// None of the AXI4-Lite writes have been sent jet.
axi_req_o.aw_valid = 1'b1;
axi_req_o.w_valid = 1'b1;
unique case ({axi_rsp_i.aw_ready, axi_rsp_i.w_ready})
2'b01 : begin // W is sent, still needs AW.
w_sent_d = 1'b1;
end
2'b10 : begin // AW is sent, still needs W.
aw_sent_d = 1'b1;
end
2'b11 : begin // Both are transmitted, grant the write request.
mem_gnt_o = 1'b1;
end
default : /* do nothing */;
endcase
end
2'b10 : begin
// W has to be sent.
axi_req_o.w_valid = 1'b1;
if (axi_rsp_i.w_ready) begin
aw_sent_d = 1'b0;
mem_gnt_o = 1'b1;
end
end
2'b01 : begin
// AW has to be sent.
axi_req_o.aw_valid = 1'b1;
if (axi_rsp_i.aw_ready) begin
w_sent_d = 1'b0;
mem_gnt_o = 1'b1;
end
end
default : begin
// Failsafe go to IDLE.
aw_sent_d = 1'b0;
w_sent_d = 1'b0;
end
endcase
end
end
end
`FFARN(aw_sent_q, aw_sent_d, 1'b0, clk_i, rst_ni)
`FFARN(w_sent_q, w_sent_d, 1'b0, clk_i, rst_ni)
// Select which response should be forwarded. `1` write response, `0` read response.
logic rsp_sel;
fifo_v3 #(
.FALL_THROUGH ( 1'b0 ), // No fallthrough for one cycle delay before ready on AXI.
.DEPTH ( MaxRequests ),
.dtype ( logic )
) i_fifo_rsp_mux (
.clk_i,
.rst_ni,
.flush_i ( 1'b0 ),
.testmode_i ( 1'b0 ),
.full_o ( fifo_full ),
.empty_o ( fifo_empty ),
.usage_o ( /*not used*/ ),
.data_i ( mem_we_i ),
.push_i ( mem_gnt_o ),
.data_o ( rsp_sel ),
.pop_i ( mem_rsp_valid_o )
);
// Response selection control.
// If something is in the FIFO, the corresponding channel is ready.
assign axi_req_o.b_ready = !fifo_empty && rsp_sel;
assign axi_req_o.r_ready = !fifo_empty && !rsp_sel;
// Read data is directly forwarded.
assign mem_rsp_rdata_o = axi_rsp_i.r.data;
// Error is taken from the respective channel.
assign mem_rsp_error_o = rsp_sel ?
(axi_rsp_i.b.resp inside {axi_pkg::RESP_SLVERR, axi_pkg::RESP_DECERR}) :
(axi_rsp_i.r.resp inside {axi_pkg::RESP_SLVERR, axi_pkg::RESP_DECERR});
// Mem response is valid if the handshaking on the respective channel occurs.
// Can not happen at the same time as ready is set from the FIFO.
// This serves as the pop signal for the FIFO.
assign mem_rsp_valid_o = (axi_rsp_i.b_valid && axi_req_o.b_ready) ||
(axi_rsp_i.r_valid && axi_req_o.r_ready);
// pragma translate_off
`ifndef SYNTHESIS
`ifndef VERILATOR
initial begin : proc_assert
assert (MemAddrWidth > 32'd0) else $fatal(1, "MemAddrWidth has to be greater than 0!");
assert (AxiAddrWidth > 32'd0) else $fatal(1, "AxiAddrWidth has to be greater than 0!");
assert (DataWidth inside {32'd32, 32'd64}) else
$fatal(1, "DataWidth has to be either 32 or 64 bit!");
assert (MaxRequests > 32'd0) else $fatal(1, "MaxRequests has to be greater than 0!");
assert (AxiAddrWidth == $bits(axi_req_o.aw.addr)) else
$fatal(1, "AxiAddrWidth has to match axi_req_o.aw.addr!");
assert (AxiAddrWidth == $bits(axi_req_o.ar.addr)) else
$fatal(1, "AxiAddrWidth has to match axi_req_o.ar.addr!");
assert (DataWidth == $bits(axi_req_o.w.data)) else
$fatal(1, "DataWidth has to match axi_req_o.w.data!");
assert (DataWidth/8 == $bits(axi_req_o.w.strb)) else
$fatal(1, "DataWidth / 8 has to match axi_req_o.w.strb!");
assert (DataWidth == $bits(axi_rsp_i.r.data)) else
$fatal(1, "DataWidth has to match axi_rsp_i.r.data!");
end
default disable iff (~rst_ni);
assert property (@(posedge clk_i) (mem_req_i && !mem_gnt_o) |=> mem_req_i) else
$fatal(1, "It is not allowed to deassert the request if it was not granted!");
assert property (@(posedge clk_i) (mem_req_i && !mem_gnt_o) |=> $stable(mem_addr_i)) else
$fatal(1, "mem_addr_i has to be stable if request is not granted!");
assert property (@(posedge clk_i) (mem_req_i && !mem_gnt_o) |=> $stable(mem_we_i)) else
$fatal(1, "mem_we_i has to be stable if request is not granted!");
assert property (@(posedge clk_i) (mem_req_i && !mem_gnt_o) |=> $stable(mem_wdata_i)) else
$fatal(1, "mem_wdata_i has to be stable if request is not granted!");
assert property (@(posedge clk_i) (mem_req_i && !mem_gnt_o) |=> $stable(mem_be_i)) else
$fatal(1, "mem_be_i has to be stable if request is not granted!");
`endif
`endif
// pragma translate_on
endmodule