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paulrr2
fpga-network-stack
Commits
3df1b6af
Commit
3df1b6af
authored
5 years ago
by
David Sidler
Browse files
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Plain Diff
adapting udp interface for 19.1
parent
521e3a02
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hdl/common/udp_stack.sv
+65
-70
65 additions, 70 deletions
hdl/common/udp_stack.sv
with
65 additions
and
70 deletions
hdl/common/udp_stack.sv
+
65
−
70
View file @
3df1b6af
...
@@ -46,13 +46,7 @@ module udp_stack #(
...
@@ -46,13 +46,7 @@ module udp_stack #(
axis_meta
.
slave
s_axis_udp_tx_metadata
,
axis_meta
.
slave
s_axis_udp_tx_metadata
,
axi_stream
.
slave
s_axis_udp_tx_data
,
axi_stream
.
slave
s_axis_udp_tx_data
,
input
wire
[
31
:
0
]
local_ip_address
,
//Config
//axis_meta.slave s_axis_qp_interface,
//axis_meta.slave s_axis_qp_conn_interface,
input
wire
[
127
:
0
]
local_ip_address
,
input
wire
[
15
:
0
]
listen_port
input
wire
[
15
:
0
]
listen_port
);
);
...
@@ -68,80 +62,81 @@ axi_stream #(.WIDTH(WIDTH)) axis_udp_to_ip_data();
...
@@ -68,80 +62,81 @@ axi_stream #(.WIDTH(WIDTH)) axis_udp_to_ip_data();
ipv4_ip
ipv4_inst
(
ipv4_ip
ipv4_inst
(
.
local_ipv4_address_V
(
local_ip_address
[
31
:
0
]),
// input wire [31 : 0] local_ipv4_address_V
.
local_ipv4_address_V
(
local_ip_address
),
.
protocol_V
(
8'h11
),
//UDP_PROTOCOL
.
protocol_V
(
8'h11
),
//UDP_PROTOCOL
//RX
//RX
.
s_axis_rx_data_TVALID
(
axis_
udp_slice_to_udp
.
valid
),
// input wire s_axis_rx_data_TVALID
.
s_axis_rx_data_TVALID
(
s_
axis_
rx_data
.
valid
),
.
s_axis_rx_data_TREADY
(
axis_
udp_slice_to_udp
.
ready
),
// output wire s_axis_rx_data_TREADY
.
s_axis_rx_data_TREADY
(
s_
axis_
rx_data
.
ready
),
.
s_axis_rx_data_TDATA
(
axis_udp_slice_to_udp
.
data
),
// input wire [63 : 0]
s_axis_rx_data
_TDATA
.
s_axis_rx_data_TDATA
(
s_axis_rx_data
.
data
),
.
s_axis_rx_data_TKEEP
(
axis_
udp_slice_to_udp
.
keep
),
// input wire [7 : 0] s_axis_rx_data_TKEEP
.
s_axis_rx_data_TKEEP
(
s_
axis_
rx_data
.
keep
),
.
s_axis_rx_data_TLAST
(
axis_
udp_slice_to_udp
.
last
),
// input wire [0 : 0] s_axis_rx_data_TLAST
.
s_axis_rx_data_TLAST
(
s_
axis_
rx_data
.
last
),
.
m_axis_rx_meta_TVALID
(
axis_ip_to_udp_meta
.
valid
),
// output wire m_axis_rx_meta_TVALID
.
m_axis_rx_meta_
V_
TVALID
(
axis_ip_to_udp_meta
.
valid
),
.
m_axis_rx_meta_TREADY
(
axis_ip_to_udp_meta
.
ready
),
// input wire m_axis_rx_meta_TREADY
.
m_axis_rx_meta_
V_
TREADY
(
axis_ip_to_udp_meta
.
ready
),
.
m_axis_rx_meta_TDATA
(
axis_ip_to_udp_meta
.
data
),
// output wire [47 : 0] m_axis_rx_meta_TDATA
.
m_axis_rx_meta_
V_
TDATA
(
axis_ip_to_udp_meta
.
data
),
.
m_axis_rx_data_TVALID
(
axis_ip_to_udp_data
.
valid
),
// output wire m_axis_rx_data_TVALID
.
m_axis_rx_data_TVALID
(
axis_ip_to_udp_data
.
valid
),
.
m_axis_rx_data_TREADY
(
axis_ip_to_udp_data
.
ready
),
// input wire m_axis_rx_data_TREADY
.
m_axis_rx_data_TREADY
(
axis_ip_to_udp_data
.
ready
),
.
m_axis_rx_data_TDATA
(
axis_ip_to_udp_data
.
data
),
// output wire [63 : 0] m_axis_rx_data_TDATA
.
m_axis_rx_data_TDATA
(
axis_ip_to_udp_data
.
data
),
.
m_axis_rx_data_TKEEP
(
axis_ip_to_udp_data
.
keep
),
// output wire [7 : 0] m_axis_rx_data_TKEEP
.
m_axis_rx_data_TKEEP
(
axis_ip_to_udp_data
.
keep
),
.
m_axis_rx_data_TLAST
(
axis_ip_to_udp_data
.
last
),
// output wire [0 : 0] m_axis_rx_data_TLAST
.
m_axis_rx_data_TLAST
(
axis_ip_to_udp_data
.
last
),
//TX
//TX
.
s_axis_tx_meta_TVALID
(
axis_udp_to_ip_meta
.
valid
),
// input wire s_axis_tx_meta_TVALID
.
s_axis_tx_meta_
V_
TVALID
(
axis_udp_to_ip_meta
.
valid
),
.
s_axis_tx_meta_TREADY
(
axis_udp_to_ip_meta
.
ready
),
// output wire s_axis_tx_meta_TREADY
.
s_axis_tx_meta_
V_
TREADY
(
axis_udp_to_ip_meta
.
ready
),
.
s_axis_tx_meta_TDATA
(
axis_udp_to_ip_meta
.
data
),
// input wire [47 : 0] s_axis_tx_meta_TDATA
.
s_axis_tx_meta_
V_
TDATA
(
axis_udp_to_ip_meta
.
data
),
.
s_axis_tx_data_TVALID
(
axis_udp_to_ip_data
.
valid
),
// input wire s_axis_tx_data_TVALID
.
s_axis_tx_data_TVALID
(
axis_udp_to_ip_data
.
valid
),
.
s_axis_tx_data_TREADY
(
axis_udp_to_ip_data
.
ready
),
// output wire s_axis_tx_data_TREADY
.
s_axis_tx_data_TREADY
(
axis_udp_to_ip_data
.
ready
),
.
s_axis_tx_data_TDATA
(
axis_udp_to_ip_data
.
data
),
// input wire [63 : 0] s_axis_tx_data_TDATA
.
s_axis_tx_data_TDATA
(
axis_udp_to_ip_data
.
data
),
.
s_axis_tx_data_TKEEP
(
axis_udp_to_ip_data
.
keep
),
// input wire [7 : 0] s_axis_tx_data_TKEEP
.
s_axis_tx_data_TKEEP
(
axis_udp_to_ip_data
.
keep
),
.
s_axis_tx_data_TLAST
(
axis_udp_to_ip_data
.
last
),
// input wire [0 : 0] s_axis_tx_data_TLAST
.
s_axis_tx_data_TLAST
(
axis_udp_to_ip_data
.
last
),
.
m_axis_tx_data_TVALID
(
axis_
udp_to_udp_slice
.
valid
),
// output wire m_axis_tx_data_TVALID
.
m_axis_tx_data_TVALID
(
m_
axis_
tx_data
.
valid
),
.
m_axis_tx_data_TREADY
(
axis_
udp_to_udp_slice
.
ready
),
// input wire m_axis_tx_data_TREADY
.
m_axis_tx_data_TREADY
(
m_
axis_
tx_data
.
ready
),
.
m_axis_tx_data_TDATA
(
axis_
udp_to_udp_slice
.
data
),
// output wire [63 : 0] m_axis_tx_data_TDATA
.
m_axis_tx_data_TDATA
(
m_
axis_
tx_data
.
data
),
.
m_axis_tx_data_TKEEP
(
axis_
udp_to_udp_slice
.
keep
),
// output wire [7 : 0] m_axis_tx_data_TKEEP
.
m_axis_tx_data_TKEEP
(
m_
axis_
tx_data
.
keep
),
.
m_axis_tx_data_TLAST
(
axis_
udp_to_udp_slice
.
last
),
// output wire [0 : 0] m_axis_tx_data_TLAST
.
m_axis_tx_data_TLAST
(
m_
axis_
tx_data
.
last
),
.
aclk
(
net_clk
),
// input wire aclk
.
a
p_
clk
(
net_clk
),
.
a
reset
n
(
net_aresetn
)
// input wire aresetn
.
a
p_rst_
n
(
net_aresetn
)
);
);
udp_ip
udp_inst
(
udp_ip
udp_inst
(
.
reg_listen_port_V
(
listen_port
),
.
reg_listen_port_V
(
listen_port
),
.
reg_ip_address_V
(
{
local_ip_address
,
local_ip_address
,
local_ip_address
,
local_ip_address
}
),
//RX
//RX
.
s_axis_rx_meta_TVALID
(
axis_ip_to_udp_meta
.
valid
),
.
s_axis_rx_meta_
V_
TVALID
(
axis_ip_to_udp_meta
.
valid
),
.
s_axis_rx_meta_TREADY
(
axis_ip_to_udp_meta
.
ready
),
.
s_axis_rx_meta_
V_
TREADY
(
axis_ip_to_udp_meta
.
ready
),
.
s_axis_rx_meta_TDATA
(
axis_ip_to_udp_meta
.
data
),
.
s_axis_rx_meta_
V_
TDATA
(
axis_ip_to_udp_meta
.
data
),
.
s_axis_rx_data_TVALID
(
axis_ip_to_udp_data
.
valid
),
// input wire s_axis_rx_data_TVALID
.
s_axis_rx_data_TVALID
(
axis_ip_to_udp_data
.
valid
),
.
s_axis_rx_data_TREADY
(
axis_ip_to_udp_data
.
ready
),
// output wire s_axis_rx_data_TREADY
.
s_axis_rx_data_TREADY
(
axis_ip_to_udp_data
.
ready
),
.
s_axis_rx_data_TDATA
(
axis_ip_to_udp_data
.
data
),
// input wire [63 : 0] s_axis_rx_data_TDATA
.
s_axis_rx_data_TDATA
(
axis_ip_to_udp_data
.
data
),
.
s_axis_rx_data_TKEEP
(
axis_ip_to_udp_data
.
keep
),
// input wire [7 : 0] s_axis_rx_data_TKEEP
.
s_axis_rx_data_TKEEP
(
axis_ip_to_udp_data
.
keep
),
.
s_axis_rx_data_TLAST
(
axis_ip_to_udp_data
.
last
),
// input wire [0 : 0] s_axis_rx_data_TLAST
.
s_axis_rx_data_TLAST
(
axis_ip_to_udp_data
.
last
),
.
m_axis_rx_meta_TVALID
(
m_axis_udp_rx_metadata
.
valid
),
// output wire m_axis_rx_meta_TVALID
.
m_axis_rx_meta_
V_
TVALID
(
m_axis_udp_rx_metadata
.
valid
),
.
m_axis_rx_meta_TREADY
(
m_axis_udp_rx_metadata
.
ready
),
// input wire m_axis_rx_meta_TREADY
.
m_axis_rx_meta_
V_
TREADY
(
m_axis_udp_rx_metadata
.
ready
),
.
m_axis_rx_meta_TDATA
(
m_axis_udp_rx_metadata
.
data
),
// output wire [159 : 0] m_axis_rx_meta_TDATA
.
m_axis_rx_meta_
V_
TDATA
(
m_axis_udp_rx_metadata
.
data
),
.
m_axis_rx_data_TVALID
(
m_axis_udp_rx_data
.
valid
),
// output wire m_axis_rx_data_TVALID
.
m_axis_rx_data_TVALID
(
m_axis_udp_rx_data
.
valid
),
.
m_axis_rx_data_TREADY
(
m_axis_udp_rx_data
.
ready
),
// input wire m_axis_rx_data_TREADY
.
m_axis_rx_data_TREADY
(
m_axis_udp_rx_data
.
ready
),
.
m_axis_rx_data_TDATA
(
m_axis_udp_rx_data
.
data
),
// output wire [63 : 0] m_axis_rx_data_TDATA
.
m_axis_rx_data_TDATA
(
m_axis_udp_rx_data
.
data
),
.
m_axis_rx_data_TKEEP
(
m_axis_udp_rx_data
.
keep
),
// output wire [7 : 0] m_axis_rx_data_TKEEP
.
m_axis_rx_data_TKEEP
(
m_axis_udp_rx_data
.
keep
),
.
m_axis_rx_data_TLAST
(
m_axis_udp_rx_data
.
last
),
// output wire [0 : 0] m_axis_rx_data_TLAST
.
m_axis_rx_data_TLAST
(
m_axis_udp_rx_data
.
last
),
//TX
//TX
.
s_axis_tx_meta_TVALID
(
s_axis_udp_tx_metadata
.
valid
),
.
s_axis_tx_meta_
V_
TVALID
(
s_axis_udp_tx_metadata
.
valid
),
.
s_axis_tx_meta_TREADY
(
s_axis_udp_tx_metadata
.
ready
),
.
s_axis_tx_meta_
V_
TREADY
(
s_axis_udp_tx_metadata
.
ready
),
.
s_axis_tx_meta_TDATA
(
s_axis_udp_tx_metadata
.
data
),
.
s_axis_tx_meta_
V_
TDATA
(
s_axis_udp_tx_metadata
.
data
),
.
s_axis_tx_data_TVALID
(
s_axis_udp_tx_data
.
valid
),
// input wire s_axis_tx_data_TVALID
.
s_axis_tx_data_TVALID
(
s_axis_udp_tx_data
.
valid
),
.
s_axis_tx_data_TREADY
(
s_axis_udp_tx_data
.
ready
),
// output wire s_axis_tx_data_TREADY
.
s_axis_tx_data_TREADY
(
s_axis_udp_tx_data
.
ready
),
.
s_axis_tx_data_TDATA
(
s_axis_udp_tx_data
.
data
),
// input wire [63 : 0] s_axis_tx_data_TDATA
.
s_axis_tx_data_TDATA
(
s_axis_udp_tx_data
.
data
),
.
s_axis_tx_data_TKEEP
(
s_axis_udp_tx_data
.
keep
),
// input wire [7 : 0] s_axis_tx_data_TKEEP
.
s_axis_tx_data_TKEEP
(
s_axis_udp_tx_data
.
keep
),
.
s_axis_tx_data_TLAST
(
s_axis_udp_tx_data
.
last
),
// input wire [0 : 0] s_axis_tx_data_TLAST
.
s_axis_tx_data_TLAST
(
s_axis_udp_tx_data
.
last
),
.
m_axis_tx_meta_TVALID
(
axis_udp_to_ip_meta
.
valid
),
// input wire m_axis_tx_meta_TVALID
.
m_axis_tx_meta_
V_
TVALID
(
axis_udp_to_ip_meta
.
valid
),
.
m_axis_tx_meta_TREADY
(
axis_udp_to_ip_meta
.
ready
),
// output wire m_axis_tx_meta_TREADY
.
m_axis_tx_meta_
V_
TREADY
(
axis_udp_to_ip_meta
.
ready
),
.
m_axis_tx_meta_TDATA
(
axis_udp_to_ip_meta
.
data
),
// input wire [159 : 0] m_axis_tx_meta_TDATA
.
m_axis_tx_meta_
V_
TDATA
(
axis_udp_to_ip_meta
.
data
),
.
m_axis_tx_data_TVALID
(
axis_udp_to_ip_data
.
valid
),
// output wire m_axis_tx_data_TVALID
.
m_axis_tx_data_TVALID
(
axis_udp_to_ip_data
.
valid
),
.
m_axis_tx_data_TREADY
(
axis_udp_to_ip_data
.
ready
),
// input wire m_axis_tx_data_TREADY
.
m_axis_tx_data_TREADY
(
axis_udp_to_ip_data
.
ready
),
.
m_axis_tx_data_TDATA
(
axis_udp_to_ip_data
.
data
),
// output wire [63 : 0] m_axis_tx_data_TDATA
.
m_axis_tx_data_TDATA
(
axis_udp_to_ip_data
.
data
),
.
m_axis_tx_data_TKEEP
(
axis_udp_to_ip_data
.
keep
),
// output wire [7 : 0] m_axis_tx_data_TKEEP
.
m_axis_tx_data_TKEEP
(
axis_udp_to_ip_data
.
keep
),
.
m_axis_tx_data_TLAST
(
axis_udp_to_ip_data
.
last
),
// output wire [0 : 0] m_axis_tx_data_TLAST
.
m_axis_tx_data_TLAST
(
axis_udp_to_ip_data
.
last
),
.
aclk
(
net_clk
),
// input wire aclk
.
a
p_
clk
(
net_clk
),
.
a
reset
n
(
net_aresetn
)
// input wire aresetn
.
a
p_rst_
n
(
net_aresetn
)
);
);
end
end
else
begin
else
begin
...
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