-
Notifications
You must be signed in to change notification settings - Fork 268
/
axi_id_prepend.sv
161 lines (152 loc) · 8.29 KB
/
axi_id_prepend.sv
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
// 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