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axi_dw_downsizer.sv
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axi_dw_downsizer.sv
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// Copyright 2020 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.
// Author: Matheus Cavalcante <[email protected]>
// Description:
// Data width downsize conversion.
// Connects a wide master to a narrower slave.
// NOTE: The downsizer does not support WRAP bursts, and will answer with SLVERR
// upon receiving a burst of such type. The downsizer does support FIXED
// bursts, but only if they consist of a single beat; it will answer with SLVERR
// on multi-beat FIXED bursts.
module axi_dw_downsizer #(
parameter int unsigned AxiMaxReads = 1 , // Number of outstanding reads
parameter int unsigned AxiSlvPortDataWidth = 8 , // Data width of the slv port
parameter int unsigned AxiMstPortDataWidth = 8 , // Data width of the mst port
parameter int unsigned AxiAddrWidth = 1 , // Address width
parameter int unsigned AxiIdWidth = 1 , // ID width
parameter type aw_chan_t = logic, // AW Channel Type
parameter type mst_w_chan_t = logic, // W Channel Type for mst port
parameter type slv_w_chan_t = logic, // W Channel Type for slv port
parameter type b_chan_t = logic, // B Channel Type
parameter type ar_chan_t = logic, // AR Channel Type
parameter type mst_r_chan_t = logic, // R Channel Type for mst port
parameter type slv_r_chan_t = logic, // R Channel Type for slv port
parameter type axi_mst_req_t = logic, // AXI Request Type for mst ports
parameter type axi_mst_resp_t = logic, // AXI Response Type for mst ports
parameter type axi_slv_req_t = logic, // AXI Request Type for slv ports
parameter type axi_slv_resp_t = logic // AXI Response Type for slv ports
) (
input logic clk_i,
input logic rst_ni,
// Slave interface
input axi_slv_req_t slv_req_i,
output axi_slv_resp_t slv_resp_o,
// Master interface
output axi_mst_req_t mst_req_o,
input axi_mst_resp_t mst_resp_i
);
/*****************
* DEFINITIONS *
*****************/
import axi_pkg::aligned_addr;
import axi_pkg::modifiable ;
// Type used to index which adapter is handling each outstanding transaction.
localparam TranIdWidth = AxiMaxReads > 1 ? $clog2(AxiMaxReads) : 1;
typedef logic [TranIdWidth-1:0] tran_id_t;
// Data width
localparam AxiSlvPortStrbWidth = AxiSlvPortDataWidth / 8;
localparam AxiMstPortStrbWidth = AxiMstPortDataWidth / 8;
localparam AxiSlvPortMaxSize = $clog2(AxiSlvPortStrbWidth);
localparam AxiMstPortMaxSize = $clog2(AxiMstPortStrbWidth);
localparam SlvPortByteMask = AxiSlvPortStrbWidth - 1;
localparam MstPortByteMask = AxiMstPortStrbWidth - 1;
// Address width
typedef logic [AxiAddrWidth-1:0] addr_t;
// ID width
typedef logic [AxiIdWidth-1:0] id_t;
// Length of burst after upsizing
typedef logic [$clog2(AxiSlvPortStrbWidth/AxiMstPortStrbWidth) + 7:0] burst_len_t;
// Internal AXI bus
axi_mst_req_t mst_req;
axi_mst_resp_t mst_resp;
/**************
* ARBITERS *
**************/
// R
slv_r_chan_t [AxiMaxReads-1:0] slv_r_tran;
logic [AxiMaxReads-1:0] slv_r_valid_tran;
logic [AxiMaxReads-1:0] slv_r_ready_tran;
rr_arb_tree #(
.NumIn (AxiMaxReads ),
.DataType (slv_r_chan_t),
.AxiVldRdy(1'b1 ),
.ExtPrio (1'b0 ),
.LockIn (1'b1 )
) i_slv_r_arb (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.flush_i(1'b0 ),
.rr_i ('0 ),
.req_i (slv_r_valid_tran ),
.gnt_o (slv_r_ready_tran ),
.data_i (slv_r_tran ),
.gnt_i (slv_req_i.r_ready ),
.req_o (slv_resp_o.r_valid),
.data_o (slv_resp_o.r ),
.idx_o (/* Unused */ )
);
logic [AxiMaxReads-1:0] mst_r_ready_tran;
assign mst_req.r_ready = |mst_r_ready_tran;
// AR
id_t arb_slv_ar_id;
logic arb_slv_ar_req;
logic arb_slv_ar_gnt;
logic [AxiMaxReads-1:0] arb_slv_ar_gnt_tran;
// Multiplex AR slave between AR and AW for the injection of atomic operations with an R response.
logic inject_aw_into_ar;
logic inject_aw_into_ar_req;
logic inject_aw_into_ar_gnt;
assign arb_slv_ar_gnt = |arb_slv_ar_gnt_tran;
rr_arb_tree #(
.NumIn (2 ),
.DataWidth (AxiIdWidth),
.ExtPrio (1'b0 ),
.AxiVldRdy (1'b1 ),
.LockIn (1'b0 )
) i_slv_ar_arb (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.flush_i (1'b0 ),
.rr_i ('0 ),
.req_i ({inject_aw_into_ar_req, slv_req_i.ar_valid} ),
.gnt_o ({inject_aw_into_ar_gnt, slv_resp_o.ar_ready}),
.data_i ({slv_req_i.aw.id, slv_req_i.ar.id} ),
.req_o (arb_slv_ar_req ),
.gnt_i (arb_slv_ar_gnt ),
.data_o (arb_slv_ar_id ),
.idx_o (inject_aw_into_ar )
);
ar_chan_t [AxiMaxReads-1:0] mst_ar_tran;
id_t [AxiMaxReads-1:0] mst_ar_id;
logic [AxiMaxReads-1:0] mst_ar_valid_tran;
logic [AxiMaxReads-1:0] mst_ar_ready_tran;
tran_id_t mst_req_idx;
rr_arb_tree #(
.NumIn (AxiMaxReads),
.DataType (ar_chan_t ),
.AxiVldRdy(1'b1 ),
.ExtPrio (1'b0 ),
.LockIn (1'b1 )
) i_mst_ar_arb (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.flush_i(1'b0 ),
.rr_i ('0 ),
.req_i (mst_ar_valid_tran),
.gnt_o (mst_ar_ready_tran),
.data_i (mst_ar_tran ),
.gnt_i (mst_resp.ar_ready),
.req_o (mst_req.ar_valid ),
.data_o (mst_req.ar ),
.idx_o (mst_req_idx )
);
/*****************
* ERROR SLAVE *
*****************/
axi_mst_req_t axi_err_req;
axi_mst_resp_t axi_err_resp;
axi_err_slv #(
.AxiIdWidth(AxiIdWidth ),
.Resp (axi_pkg::RESP_SLVERR),
.req_t (axi_mst_req_t ),
.resp_t (axi_mst_resp_t )
) i_axi_err_slv (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.test_i (1'b0 ),
.slv_req_i (axi_err_req ),
.slv_resp_o(axi_err_resp)
);
/***********
* DEMUX *
***********/
// Requests can be sent either to the error slave,
// or to the DWC's master port.
logic [AxiMaxReads-1:0] mst_req_ar_err;
logic mst_req_aw_err;
axi_demux #(
.AxiIdWidth (AxiIdWidth ),
.AxiLookBits(AxiIdWidth ),
.aw_chan_t (aw_chan_t ),
.w_chan_t (mst_w_chan_t ),
.b_chan_t (b_chan_t ),
.ar_chan_t (ar_chan_t ),
.r_chan_t (mst_r_chan_t ),
.req_t (axi_mst_req_t ),
.resp_t (axi_mst_resp_t),
.NoMstPorts (2 ),
.MaxTrans (AxiMaxReads ),
.SpillAw (1'b1 ) // Required to break dependency between AW and W channels
) i_axi_demux (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.test_i (1'b0 ),
.mst_reqs_o ({axi_err_req, mst_req_o} ),
.mst_resps_i ({axi_err_resp, mst_resp_i} ),
.slv_ar_select_i(mst_req_ar_err[mst_req_idx]),
.slv_aw_select_i(mst_req_aw_err ),
.slv_req_i (mst_req ),
.slv_resp_o (mst_resp )
);
/**********
* READ *
**********/
typedef enum logic [1:0] {
R_IDLE ,
R_PASSTHROUGH ,
R_INCR_DOWNSIZE,
R_SPLIT_INCR_DOWNSIZE
} r_state_e;
typedef struct packed {
ar_chan_t ar ;
logic ar_valid ;
logic ar_throw_error ;
slv_r_chan_t r ;
logic r_valid ;
burst_len_t burst_len ;
axi_pkg::size_t orig_ar_size;
} r_req_t;
// Decide which downsizer will handle the incoming AXI transaction
logic [AxiMaxReads-1:0] idle_read_downsizer;
tran_id_t idx_ar_downsizer;
// Find an idle downsizer to handle this transaction
tran_id_t idx_idle_downsizer;
lzc #(
.WIDTH(AxiMaxReads)
) i_idle_lzc (
.in_i (idle_read_downsizer),
.cnt_o (idx_idle_downsizer ),
.empty_o(/* Unused */ )
);
// Is there already another downsizer handling a transaction with the same id
logic [AxiMaxReads-1:0] id_clash_downsizer;
tran_id_t idx_id_clash_downsizer;
for (genvar t = 0; t < AxiMaxReads; t++) begin: gen_id_clash
assign id_clash_downsizer[t] = arb_slv_ar_id == mst_ar_id[t] && !idle_read_downsizer[t];
end
onehot_to_bin #(
.ONEHOT_WIDTH(AxiMaxReads)
) i_id_clash_onehot_to_bin (
.onehot(id_clash_downsizer ),
.bin (idx_id_clash_downsizer)
);
// Choose an idle downsizer, unless there is an id clash
assign idx_ar_downsizer = (|id_clash_downsizer) ? idx_id_clash_downsizer : idx_idle_downsizer;
// This ID queue is used to resolve which downsizer is handling
// each outstanding read transaction.
logic [AxiMaxReads-1:0] idqueue_push;
logic [AxiMaxReads-1:0] idqueue_pop;
tran_id_t idqueue_id;
logic idqueue_valid;
id_queue #(
.ID_WIDTH(AxiIdWidth ),
.CAPACITY(AxiMaxReads),
.data_t (tran_id_t )
) i_read_id_queue (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.inp_id_i (arb_slv_ar_id ),
.inp_data_i (idx_ar_downsizer),
.inp_req_i (|idqueue_push ),
.inp_gnt_o (/* Unused */ ),
.oup_id_i (mst_resp.r.id ),
.oup_pop_i (|idqueue_pop ),
.oup_req_i (1'b1 ),
.oup_data_o (idqueue_id ),
.oup_data_valid_o(idqueue_valid ),
.oup_gnt_o (/* Unused */ ),
.exists_data_i ('0 ),
.exists_mask_i ('0 ),
.exists_req_i ('0 ),
.exists_o (/* Unused */ ),
.exists_gnt_o (/* Unused */ )
);
for (genvar t = 0; unsigned'(t) < AxiMaxReads; t++) begin: gen_read_downsizer
r_state_e r_state_d, r_state_q;
r_req_t r_req_d , r_req_q ;
// Are we idle?
assign idle_read_downsizer[t] = (r_state_q == R_IDLE);
always_comb begin
// Maintain state
r_state_d = r_state_q;
r_req_d = r_req_q ;
// AR Channel
mst_ar_tran[t] = r_req_q.ar ;
mst_ar_id[t] = r_req_q.ar.id ;
mst_ar_valid_tran[t] = r_req_q.ar_valid;
// Throw an error
mst_req_ar_err[t] = r_req_q.ar_throw_error;
// R Channel
slv_r_tran[t] = r_req_q.r ;
slv_r_valid_tran[t] = r_req_q.r_valid;
idqueue_push[t] = '0;
idqueue_pop[t] = '0;
arb_slv_ar_gnt_tran[t] = 1'b0;
mst_r_ready_tran[t] = 1'b0;
// Got a grant on the AR channel
if (mst_ar_valid_tran[t] && mst_ar_ready_tran[t]) begin
r_req_d.ar_valid = 1'b0;
r_req_d.ar_throw_error = 1'b0;
end
case (r_state_q)
R_IDLE : begin
// Reset channels
r_req_d.ar = '0;
r_req_d.r = '0;
// New read request
if (arb_slv_ar_req && (idx_ar_downsizer == t)) begin
arb_slv_ar_gnt_tran[t] = 1'b1;
// Push to ID queue
idqueue_push[t] = 1'b1;
// Default state
r_state_d = R_PASSTHROUGH;
// Save beat
r_req_d.ar = slv_req_i.ar ;
r_req_d.ar_valid = 1'b1 ;
r_req_d.burst_len = slv_req_i.ar.len ;
r_req_d.orig_ar_size = slv_req_i.ar.size;
if (inject_aw_into_ar) begin
r_req_d.ar.id = slv_req_i.aw.id ;
r_req_d.ar.addr = slv_req_i.aw.addr ;
r_req_d.ar.size = slv_req_i.aw.size ;
r_req_d.ar.burst = slv_req_i.aw.burst ;
r_req_d.ar.len = slv_req_i.aw.len ;
r_req_d.ar.lock = slv_req_i.aw.lock ;
r_req_d.ar.cache = slv_req_i.aw.cache ;
r_req_d.ar.prot = slv_req_i.aw.prot ;
r_req_d.ar.qos = slv_req_i.aw.qos ;
r_req_d.ar.region = slv_req_i.aw.region;
r_req_d.ar.user = slv_req_i.aw.user ;
r_req_d.ar_valid = 1'b0 ; // Injected "AR"s from AW are not valid.
r_req_d.burst_len = slv_req_i.aw.len ;
r_req_d.orig_ar_size = slv_req_i.aw.size ;
end
case (r_req_d.ar.burst)
axi_pkg::BURST_INCR : begin
// Evaluate downsize ratio
automatic addr_t size_mask = (1 << r_req_d.ar.size) - 1 ;
automatic addr_t conv_ratio = ((1 << r_req_d.ar.size) + AxiMstPortStrbWidth - 1) / AxiMstPortStrbWidth;
// Evaluate output burst length
automatic addr_t align_adj = (r_req_d.ar.addr & size_mask & ~MstPortByteMask) / AxiMstPortStrbWidth;
r_req_d.burst_len = (r_req_d.ar.len + 1) * conv_ratio - align_adj - 1 ;
if (conv_ratio != 1) begin
r_req_d.ar.size = AxiMstPortMaxSize;
if (r_req_d.burst_len <= 255) begin
r_state_d = R_INCR_DOWNSIZE ;
r_req_d.ar.len = r_req_d.burst_len;
end else begin
r_state_d = R_SPLIT_INCR_DOWNSIZE;
r_req_d.ar.len = 255 - align_adj ;
end
end
end
axi_pkg::BURST_FIXED: begin
// Single transaction
if (r_req_d.ar.len == '0) begin
// Evaluate downsize ratio
automatic addr_t size_mask = (1 << r_req_d.ar.size) - 1 ;
automatic addr_t conv_ratio = ((1 << r_req_d.ar.size) + AxiMstPortStrbWidth - 1) / AxiMstPortStrbWidth;
// Evaluate output burst length
automatic addr_t align_adj = (r_req_d.ar.addr & size_mask & ~MstPortByteMask) / AxiMstPortStrbWidth;
r_req_d.burst_len = (conv_ratio >= align_adj + 1) ? (conv_ratio - align_adj - 1) : 0;
if (conv_ratio != 1) begin
r_state_d = R_INCR_DOWNSIZE ;
r_req_d.ar.len = r_req_d.burst_len ;
r_req_d.ar.size = AxiMstPortMaxSize ;
r_req_d.ar.burst = axi_pkg::BURST_INCR;
end
end else begin
// The downsizer does not support fixed burts
r_req_d.ar_throw_error = 1'b1;
end
end
axi_pkg::BURST_WRAP: begin
// The DW converter does not support this type of burst.
r_state_d = R_PASSTHROUGH;
r_req_d.ar_throw_error = 1'b1 ;
end
endcase
end
end
R_PASSTHROUGH, R_INCR_DOWNSIZE, R_SPLIT_INCR_DOWNSIZE: begin
// Got a grant on the R channel
if (slv_r_valid_tran[t] && slv_r_ready_tran[t]) begin
r_req_d.r = '0 ;
r_req_d.r_valid = 1'b0;
end
// Request was accepted
if (!r_req_q.ar_valid)
// Our turn
if ((idqueue_id == t) && idqueue_valid)
// Ready to accept more data
if (!slv_r_valid_tran[t] || (slv_r_valid_tran[t] && slv_r_ready_tran[t])) begin
mst_r_ready_tran[t] = 1'b1;
if (mst_resp.r_valid) begin
automatic addr_t mst_port_offset = r_req_q.ar.addr[(AxiMstPortStrbWidth == 1 ? 1 : $clog2(AxiMstPortStrbWidth)) - 1:0];
automatic addr_t slv_port_offset = r_req_q.ar.addr[(AxiSlvPortStrbWidth == 1 ? 1 : $clog2(AxiSlvPortStrbWidth)) - 1:0];
// Serialization
for (int b = 0; b < AxiSlvPortStrbWidth; b++)
if ((b >= slv_port_offset) &&
(b - slv_port_offset < (1 << r_req_q.orig_ar_size)) &&
(b + mst_port_offset - slv_port_offset < AxiMstPortStrbWidth)) begin
r_req_d.r.data[8*b +: 8] = mst_resp.r.data[8*(b + mst_port_offset - slv_port_offset) +: 8];
end
r_req_d.burst_len = r_req_q.burst_len - 1 ;
r_req_d.ar.len = r_req_q.ar.len - 1 ;
r_req_d.r.last = (r_req_q.burst_len == 0);
r_req_d.r.id = mst_resp.r.id ;
r_req_d.r.resp = mst_resp.r.resp ;
r_req_d.r.user = mst_resp.r.user ;
case (r_req_d.ar.burst)
axi_pkg::BURST_INCR: begin
r_req_d.ar.addr = aligned_addr(r_req_q.ar.addr, r_req_q.ar.size) + (1 << r_req_q.ar.size);
end
axi_pkg::BURST_FIXED: begin
r_req_d.ar.addr = r_req_q.ar.addr;
end
endcase
if (r_req_q.burst_len == 0)
idqueue_pop[t] = 1'b1;
case (r_state_q)
R_PASSTHROUGH :
// Forward data as soon as we can
r_req_d.r_valid = 1'b1;
R_INCR_DOWNSIZE, R_SPLIT_INCR_DOWNSIZE:
// Forward when the burst is finished, or after filling up a word
if (r_req_q.burst_len == 0 || (aligned_addr(r_req_d.ar.addr, r_req_q.orig_ar_size) != aligned_addr(r_req_q.ar.addr, r_req_q.orig_ar_size)))
r_req_d.r_valid = 1'b1;
endcase
// Trigger another burst request, if needed
if (r_state_q == R_SPLIT_INCR_DOWNSIZE)
// Finished current burst, but whole transaction hasn't finished
if (r_req_q.ar.len == '0 && r_req_q.burst_len != '0) begin
r_req_d.ar_valid = 1'b1;
r_req_d.ar.len = (r_req_d.burst_len <= 255) ? r_req_d.burst_len : 255;
end
end
end
if (slv_r_valid_tran[t] && slv_r_ready_tran[t])
if (r_req_q.burst_len == '1)
r_state_d = R_IDLE;
end
endcase
end
always_ff @(posedge clk_i or negedge rst_ni) begin
if (!rst_ni) begin
r_state_q <= R_IDLE;
r_req_q <= '0 ;
end else begin
r_state_q <= r_state_d;
r_req_q <= r_req_d ;
end
end
end : gen_read_downsizer
/***********
* WRITE *
***********/
typedef enum logic [1:0] {
W_IDLE ,
W_PASSTHROUGH ,
W_INCR_DOWNSIZE,
W_SPLIT_INCR_DOWNSIZE
} w_state_e;
typedef struct packed {
aw_chan_t aw ;
logic aw_valid ;
logic aw_throw_error ;
burst_len_t burst_len ;
axi_pkg::size_t orig_aw_size;
} w_req_t;
w_state_e w_state_d, w_state_q;
w_req_t w_req_d, w_req_q;
// This FIFO holds the number of bursts generated by each write transactions handled by this downsizer.
// This is used to forward only the correct B beats to the slave.
logic forward_b_beat_i;
logic forward_b_beat_o;
logic forward_b_beat_push;
logic forward_b_beat_pop;
logic forward_b_beat_full;
fifo_v3 #(
.DATA_WIDTH (1 ),
.DEPTH (AxiMaxReads),
.FALL_THROUGH(1'b1 )
) i_forward_b_beats_queue (
.clk_i (clk_i ),
.rst_ni (rst_ni ),
.flush_i (1'b0 ),
.testmode_i(1'b0 ),
.data_i (forward_b_beat_i ),
.push_i (forward_b_beat_push ),
.full_o (forward_b_beat_full ),
.data_o (forward_b_beat_o ),
.pop_i (forward_b_beat_pop ),
.empty_o (/* Unused */ ),
.usage_o (/* Unused */ )
);
always_comb begin
inject_aw_into_ar_req = 1'b0;
// i_num_b_beats default state
forward_b_beat_i = '0 ;
forward_b_beat_push = 1'b0;
forward_b_beat_pop = 1'b0;
// Maintain state
w_state_d = w_state_q;
w_req_d = w_req_q ;
// AW Channel
mst_req.aw = w_req_q.aw ;
mst_req.aw_valid = w_req_q.aw_valid;
slv_resp_o.aw_ready = '0 ;
// Throw an error.
mst_req_aw_err = w_req_q.aw_throw_error;
// W Channel
mst_req.w = '0;
mst_req.w_valid = '0;
slv_resp_o.w_ready = '0;
// B Channel (No latency)
slv_resp_o.b = mst_resp.b;
// Each write transaction might trigger several B beats on the master (narrow) side.
// Only forward the last B beat of each transaction.
if (forward_b_beat_o) begin
slv_resp_o.b_valid = mst_resp.b_valid ;
mst_req.b_ready = slv_req_i.b_ready;
// Got an ack on the B channel. Pop transaction.
if (mst_req.b_ready && mst_resp.b_valid)
forward_b_beat_pop = 1'b1;
end else begin
// Otherwise, just acknowlegde the B beats
slv_resp_o.b_valid = 1'b0 ;
mst_req.b_ready = 1'b1 ;
forward_b_beat_pop = mst_resp.b_valid;
end
// Got a grant on the AW channel
if (mst_req.aw_valid & mst_resp.aw_ready) begin
w_req_d.aw_valid = 1'b0;
w_req_d.aw_throw_error = 1'b0;
end
case (w_state_q)
W_PASSTHROUGH, W_INCR_DOWNSIZE, W_SPLIT_INCR_DOWNSIZE: begin
// Request was accepted
if (!w_req_q.aw_valid)
if (slv_req_i.w_valid) begin
automatic addr_t mst_port_offset = w_req_q.aw.addr[(AxiMstPortStrbWidth == 1 ? 1 : $clog2(AxiMstPortStrbWidth)) - 1:0];
automatic addr_t slv_port_offset = w_req_q.aw.addr[(AxiSlvPortStrbWidth == 1 ? 1 : $clog2(AxiSlvPortStrbWidth)) - 1:0];
// Valid output
mst_req.w_valid = 1'b1 ;
mst_req.w.last = w_req_q.aw.len == 0;
mst_req.w.user = slv_req_i.w.user ;
// Lane steering
for (int b = 0; b < AxiSlvPortStrbWidth; b++)
if ((b >= slv_port_offset) &&
(b - slv_port_offset < (1 << w_req_q.orig_aw_size)) &&
(b + mst_port_offset - slv_port_offset < AxiMstPortStrbWidth)) begin
mst_req.w.data[8*(b + mst_port_offset - slv_port_offset) +: 8] = slv_req_i.w.data[8*b +: 8];
mst_req.w.strb[b + mst_port_offset - slv_port_offset] = slv_req_i.w.strb[b] ;
end
end
// Acknowledgment
if (mst_resp.w_ready && mst_req.w_valid) begin
w_req_d.burst_len = w_req_q.burst_len - 1;
w_req_d.aw.len = w_req_q.aw.len - 1 ;
case (w_req_d.aw.burst)
axi_pkg::BURST_INCR: begin
w_req_d.aw.addr = aligned_addr(w_req_q.aw.addr, w_req_q.aw.size) + (1 << w_req_q.aw.size);
end
axi_pkg::BURST_FIXED: begin
w_req_d.aw.addr = w_req_q.aw.addr;
end
endcase
case (w_state_q)
W_PASSTHROUGH:
slv_resp_o.w_ready = 1'b1;
W_INCR_DOWNSIZE, W_SPLIT_INCR_DOWNSIZE:
if (w_req_q.burst_len == 0 || (aligned_addr(w_req_d.aw.addr, w_req_q.orig_aw_size) != aligned_addr(w_req_q.aw.addr, w_req_q.orig_aw_size)))
slv_resp_o.w_ready = 1'b1;
endcase
// Trigger another burst request, if needed
if (w_state_q == W_SPLIT_INCR_DOWNSIZE)
// Finished current burst, but whole transaction hasn't finished
if (w_req_q.aw.len == '0 && w_req_q.burst_len != '0 && !forward_b_beat_full) begin
w_req_d.aw_valid = 1'b1;
w_req_d.aw.len = (w_req_d.burst_len <= 255) ? w_req_d.burst_len : 255;
// We will receive an extraneous B beat. Ignore it.
forward_b_beat_i = 1'b0;
forward_b_beat_push = 1'b1;
end
if (w_req_q.burst_len == 0 && !forward_b_beat_full) begin
w_state_d = W_IDLE;
forward_b_beat_push = 1'b1;
forward_b_beat_i = 1'b1;
end
end
end
endcase
// Can start a new request as soon as w_state_d is W_IDLE
if (w_state_d == W_IDLE) begin
// Reset channels
w_req_d.aw = '0 ;
w_req_d.aw_valid = 1'b0;
w_req_d.aw_throw_error = 1'b0;
if (slv_req_i.aw_valid && slv_req_i.aw.atop[5]) begin // ATOP with an R response
inject_aw_into_ar_req = 1'b1 ;
slv_resp_o.aw_ready = inject_aw_into_ar_gnt;
end else begin // Regular AW
slv_resp_o.aw_ready = 1'b1;
end
// New write request
if (slv_req_i.aw_valid && slv_resp_o.aw_ready && !forward_b_beat_full) begin
// Default state
w_state_d = W_PASSTHROUGH;
// Save beat
w_req_d.aw = slv_req_i.aw ;
w_req_d.aw_valid = 1'b1 ;
w_req_d.burst_len = slv_req_i.aw.len ;
w_req_d.orig_aw_size = slv_req_i.aw.size;
case (slv_req_i.aw.burst)
axi_pkg::BURST_INCR: begin
// Evaluate downsize ratio
automatic addr_t size_mask = (1 << slv_req_i.aw.size) - 1 ;
automatic addr_t conv_ratio = ((1 << slv_req_i.aw.size) + AxiMstPortStrbWidth - 1) / AxiMstPortStrbWidth;
// Evaluate output burst length
automatic addr_t align_adj = (slv_req_i.aw.addr & size_mask & ~MstPortByteMask) / AxiMstPortStrbWidth;
w_req_d.burst_len = (slv_req_i.aw.len + 1) * conv_ratio - align_adj - 1 ;
if (conv_ratio != 1) begin
w_req_d.aw.size = AxiMstPortMaxSize;
if (w_req_d.burst_len <= 255) begin
w_state_d = W_INCR_DOWNSIZE ;
w_req_d.aw.len = w_req_d.burst_len;
end else begin
w_state_d = W_SPLIT_INCR_DOWNSIZE;
w_req_d.aw.len = 255 - align_adj ;
end
end
end
axi_pkg::BURST_FIXED: begin
// Single transaction
if (slv_req_i.aw.len == '0) begin
// Evaluate downsize ratio
automatic addr_t size_mask = (1 << slv_req_i.aw.size) - 1 ;
automatic addr_t conv_ratio = ((1 << slv_req_i.aw.size) + AxiMstPortStrbWidth - 1) / AxiMstPortStrbWidth;
// Evaluate output burst length
automatic addr_t align_adj = (slv_req_i.aw.addr & size_mask & ~MstPortByteMask) / AxiMstPortStrbWidth;
w_req_d.burst_len = (conv_ratio >= align_adj + 1) ? (conv_ratio - align_adj - 1) : 0;
if (conv_ratio != 1) begin
w_state_d = W_INCR_DOWNSIZE ;
w_req_d.aw.len = w_req_d.burst_len ;
w_req_d.aw.size = AxiMstPortMaxSize ;
w_req_d.aw.burst = axi_pkg::BURST_INCR;
end
end else begin
// The downsizer does not support fixed bursts
w_req_d.aw_throw_error = 1'b1;
end
end
axi_pkg::BURST_WRAP: begin
// The DW converter does not support this type of burst.
w_state_d = W_PASSTHROUGH;
w_req_d.aw_throw_error = 1'b1 ;
end
endcase
end
end
end
always_ff @(posedge clk_i or negedge rst_ni) begin
if (!rst_ni) begin
w_state_q <= W_IDLE;
w_req_q <= '0 ;
end else begin
w_state_q <= w_state_d;
w_req_q <= w_req_d ;
end
end
endmodule : axi_dw_downsizer