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Add Level 2 ROS Service Test (AddTwoInts)

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This commit is contained in:
Greek 2022-01-25 19:04:19 +01:00
parent b5741dc9ae
commit 5894fd9121
11 changed files with 2197 additions and 9 deletions
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145
sim/L2_AddTwoInts_test1.do Normal file
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@ -0,0 +1,145 @@
onerror {resume}
radix define ROS_RETCODE {
"10#0#" "ROS_RET_OK",
"10#1#" "ROS_RET_ERROR",
"10#2#" "ROS_RET_TIMEOUT",
"10#3#" "ROS_RET_UNSUPPORTED",
-default unsigned
}
quietly WaveActivateNextPane {} 0
add wave -noupdate -divider SYSTEM
add wave -noupdate /l2_addtwoints_test1/clk
add wave -noupdate /l2_addtwoints_test1/reset
add wave -noupdate -radix unsigned /l2_addtwoints_test1/time
add wave -noupdate -divider CLIENT
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/stage
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/cnt
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/start_user
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/ack_user
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/opcode_user
add wave -noupdate -expand -group CLIENT -radix hexadecimal /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/service_info_user
add wave -noupdate -expand -group CLIENT -radix hexadecimal /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/sequence_id_user
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/data_available_user
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/taken_user
add wave -noupdate -expand -group CLIENT -radix hexadecimal /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/a
add wave -noupdate -expand -group CLIENT -radix hexadecimal /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/b
add wave -noupdate -expand -group CLIENT -radix hexadecimal /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/sum
add wave -noupdate -expand -group CLIENT /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/done_user
add wave -noupdate -expand -group CLIENT -radix ROS_RETCODE /l2_addtwoints_test1/client_inst/AddTwoInts_srv_client_inst/return_code_user
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/stage
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/cnt
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/empty
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/rd
add wave -noupdate -group DMC -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/data_in
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/last_word_in
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/full_ro
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/wr_ro
add wave -noupdate -group DMC -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/data_out_ro
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/last_word_out_ro
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/mem_op_start
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/mem_op_done
add wave -noupdate -group DMC /l2_addtwoints_test1/client_inst/rtps_discovery_module_inst/mem_opcode
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/stage
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/cnt
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/empty_meta
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/rd_user
add wave -noupdate -expand -group RQ_W -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/data_in_user
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/last_word_in_user
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/empty_meta
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/rd_meta
add wave -noupdate -expand -group RQ_W -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/data_in_meta
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/last_word_in_meta
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/full_ro
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/wr_ro
add wave -noupdate -expand -group RQ_W -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/data_out_ro
add wave -noupdate -expand -group RQ_W /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/last_word_out_ro
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/stage
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/cnt
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/empty_user
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/rd_user
add wave -noupdate -group RR_R -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/data_in_user
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/last_word_in_user
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/empty_meta
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/rd_meta
add wave -noupdate -group RR_R -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/data_in_meta
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/last_word_in_meta
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/full_ro
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/wr_ro
add wave -noupdate -group RR_R -radix hexadecimal /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/data_out_ro
add wave -noupdate -group RR_R /l2_addtwoints_test1/client_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/last_word_out_ro
add wave -noupdate -divider SERVER
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/stage
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/cnt
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/start_user
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/ack_user
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/opcode_user
add wave -noupdate -group SERVER -radix hexadecimal /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/service_info_user
add wave -noupdate -group SERVER -radix hexadecimal /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/request_id_user
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/data_available_user
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/taken_user
add wave -noupdate -group SERVER -radix hexadecimal /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/a
add wave -noupdate -group SERVER -radix hexadecimal /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/b
add wave -noupdate -group SERVER -radix hexadecimal /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/sum
add wave -noupdate -group SERVER /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/done_user
add wave -noupdate -group SERVER -radix ROS_RETCODE /l2_addtwoints_test1/server_inst/AddTwoInts_srv_server_inst/return_code_user
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/stage
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/cnt
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/empty
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/rd
add wave -noupdate -group DMS -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/data_in
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/last_word_in
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/full_ro
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/wr_ro
add wave -noupdate -group DMS -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/data_out_ro
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/last_word_out_ro
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/mem_op_start
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/mem_op_done
add wave -noupdate -group DMS /l2_addtwoints_test1/server_inst/rtps_discovery_module_inst/mem_opcode
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/stage
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/cnt
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/empty_user
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/rd_user
add wave -noupdate -group RQ_R -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/data_in_user
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/last_word_in_user
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/empty_meta
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/rd_meta
add wave -noupdate -group RQ_R -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/data_in_meta
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/last_word_in_meta
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/full_ro
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/wr_ro
add wave -noupdate -group RQ_R -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/data_out_ro
add wave -noupdate -group RQ_R /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(0)/rtps_endpoint_if/rtps_reader_inst/last_word_out_ro
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/stage
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/cnt
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/empty_user
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/rd_user
add wave -noupdate -group RR_W -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/data_in_user
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/last_word_in_user
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/empty_meta
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/rd_meta
add wave -noupdate -group RR_W -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/data_in_meta
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/last_word_in_meta
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/alive_sig
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/full_ro
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/wr_ro
add wave -noupdate -group RR_W -radix hexadecimal /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/data_out_ro
add wave -noupdate -group RR_W /l2_addtwoints_test1/server_inst/rtps_endpoint_gen(1)/rtps_endpoint_if/rtps_writer_inst/last_word_out_ro
add wave -noupdate -divider MISC
TreeUpdate [SetDefaultTree]
WaveRestoreCursors {{Cursor 1} {148360 ps} 0}
quietly wave cursor active 1
configure wave -namecolwidth 150
configure wave -valuecolwidth 100
configure wave -justifyvalue left
configure wave -signalnamewidth 1
configure wave -snapdistance 10
configure wave -datasetprefix 0
configure wave -rowmargin 4
configure wave -childrowmargin 2
configure wave -gridoffset 0
configure wave -gridperiod 1
configure wave -griddelta 40
configure wave -timeline 0
configure wave -timelineunits ns
update
WaveRestoreZoom {0 ps} {1024 ns}

2
sim/modelsim.ini
View File

@ -24,6 +24,8 @@ Testbench_Lib4 = W:/HDL-SIM/OSVVM-Scripts/../sim/VHDL_LIBS/ModelSim-2020.02/Test
Testbench_Lib5 = W:/HDL-SIM/OSVVM-Scripts/../sim/VHDL_LIBS/ModelSim-2020.02/Testbench_Lib5.lib
Testbench_Lib1 = W:/HDL-SIM/OSVVM-Scripts/../sim/VHDL_LIBS/ModelSim-2020.02/Testbench_Lib1.lib
Testbench_ROS_Lib1 = W:/HDL-SIM/OSVVM-Scripts/../sim/VHDL_LIBS/ModelSim-2020.02/Testbench_ROS_Lib1.lib
Testbench_ROS_Lib2 = W:/HDL-SIM/OSVVM-Scripts/../sim/VHDL_LIBS/ModelSim-2020.02/Testbench_ROS_Lib2.lib
Testbench_ROS_Lib3 = W:/HDL-SIM/OSVVM-Scripts/../sim/VHDL_LIBS/ModelSim-2020.02/Testbench_ROS_Lib3.lib
[vcom]
; VHDL93 variable selects language version as the default.
; Default is VHDL-2002.

8
src/Tests/testbench.pro
View File

@ -4,6 +4,7 @@ include ../OSVVM/osvvm.pro
library Testbench_Lib2
analyze ../math_pkg.vhd
analyze ../rtps_package.vhd
analyze Type1_package.vhd
analyze Level_2/L2_Testbench_Lib2_config.vhd
analyze ../rtps_config_package.vhd
analyze ../rtps_test_package.vhd
@ -28,7 +29,6 @@ analyze ../dds_reader.vhd
analyze ../key_holder.vhd
analyze ../key_hash_generator.vhd
analyze test_key_hash_generator.vhd
analyze Type1_package.vhd
analyze Type1_reader_interface.vhd
analyze Type1_writer_interface.vhd
analyze Type1_key_holder.vhd
@ -38,6 +38,7 @@ analyze Type1_cfg.vhd
library Testbench_Lib3
analyze ../math_pkg.vhd
analyze ../rtps_package.vhd
analyze Type1_package.vhd
analyze Level_2/L2_Testbench_Lib3_config.vhd
analyze ../rtps_config_package.vhd
analyze ../rtps_test_package.vhd
@ -62,7 +63,6 @@ analyze ../dds_reader.vhd
analyze ../key_holder.vhd
analyze ../key_hash_generator.vhd
analyze test_key_hash_generator.vhd
analyze Type1_package.vhd
analyze Type1_reader_interface.vhd
analyze Type1_writer_interface.vhd
analyze Type1_key_holder.vhd
@ -72,6 +72,7 @@ analyze Type1_cfg.vhd
library Testbench_Lib4
analyze ../math_pkg.vhd
analyze ../rtps_package.vhd
analyze Type1_package.vhd
analyze Level_2/L2_Testbench_Lib4_config.vhd
analyze ../rtps_config_package.vhd
analyze ../rtps_test_package.vhd
@ -96,7 +97,6 @@ analyze ../dds_reader.vhd
analyze ../key_holder.vhd
analyze ../key_hash_generator.vhd
analyze test_key_hash_generator.vhd
analyze Type1_package.vhd
analyze Type1_reader_interface.vhd
analyze Type1_writer_interface.vhd
analyze Type1_key_holder.vhd
@ -107,6 +107,7 @@ analyze Type1_cfg.vhd
library Testbench_Lib5
analyze ../math_pkg.vhd
analyze ../rtps_package.vhd
analyze Type1_package.vhd
analyze Level_2/L2_Testbench_Lib5_config.vhd
analyze ../rtps_config_package.vhd
analyze ../rtps_test_package.vhd
@ -131,7 +132,6 @@ analyze ../dds_reader.vhd
analyze ../key_holder.vhd
analyze ../key_hash_generator.vhd
analyze test_key_hash_generator.vhd
analyze Type1_package.vhd
analyze Type1_reader_interface.vhd
analyze Type1_writer_interface.vhd
analyze Type1_key_holder.vhd

121
src/ros2/Tests/AddTwoInts.vhd Normal file
View File

@ -0,0 +1,121 @@
-- altera vhdl_input_version vhdl_2008
-- XXX: QSYS Fix (https://www.intel.com/content/www/us/en/support/programmable/articles/000079458.html)
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.rtps_package.all;
use work.ros_package.all;
entity AddTwoInts is
port (
-- SYSTEM
clk : in std_logic;
reset : in std_logic;
-- SERVICE SERVER
start : out std_logic;
ack : in std_logic;
opcode : out ROS_SERVICE_OPCODE_TYPE;
service_info : in SERVICE_INFO_TYPE;
request_id : out REQUEST_ID_TYPE;
taken : in std_logic;
data_available : in std_logic;
a : in std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
b : in std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
sum : out std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
done : in std_logic;
return_code : in std_logic_vector(ROS_RETCODE_WIDTH-1 downto 0)
);
end entity;
architecture arch of AddTwoInts is
--*****TYPE DECLARATION*****
type STAGE_TYPE is (IDLE,A1,B2,C3,D4);
--*****SIGNAL DECLARATION*****
signal stage, stage_next : STAGE_TYPE;
signal sum_sig, sum_sig_next : std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
signal request_id_sig, request_id_sig_next : REQUEST_ID_TYPE;
begin
sum <= sum_sig;
request_id <= request_id_sig;
main_prc : process(all)
begin
-- DEFAULT
stage_next <= stage;
sum_sig_next <= sum_sig;
request_id_sig_next <= request_id_sig;
-- DEFAULT Unregistered
start <= '0';
opcode <= NOP;
case (stage) is
when IDLE =>
-- Reader has Available Data
if (data_available = '1') then
stage_next <= A1;
end if;
when A1 =>
start <= '1';
opcode <= TAKE_REQUEST;
if (ack = '1') then
stage_next <= B2;
end if;
when B2 =>
if (done = '1') then
case (return_code) is
when ROS_RET_OK =>
if (taken = '1') then
sum_sig_next <= std_logic_vector(unsigned(a) + unsigned(b));
request_id_sig_next <= service_info.request_id;
stage_next <= C3;
else
stage_next <= IDLE;
end if;
when others =>
report "AddTwoInts: Error taking request" severity FAILURE;
stage_next <= IDLE;
end case;
end if;
when C3 =>
start <= '1';
opcode <= SEND_RESPONSE;
if (ack = '1') then
stage_next <= D4;
end if;
when D4 =>
if (done = '1') then
case (return_code) is
when ROS_RET_OK =>
-- DONE
stage_next <= IDLE;
when others =>
report "AddTwoInts: Error sending response" severity FAILURE;
stage_next <= IDLE;
end case;
end if;
end case;
end process;
sync_prc : process(clk)
begin
if rising_edge(clk) then
if (reset = '1') then
stage <= IDLE;
request_id_sig <= EMPTY_REQUEST_ID;
sum_sig <= (others => '0');
else
stage <= stage_next;
request_id_sig <= request_id_sig_next;
sum_sig <= sum_sig_next;
end if;
end if;
end process;
end architecture;

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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library osvvm; -- Utility Library
context osvvm.OsvvmContext;
library Testbench_ROS_Lib2;
library Testbench_ROS_Lib3;
use work.rtps_package.all;
use work.ros_package.all;
use work.rtps_test_package.all;
-- This testbench test the general the general ROS Service operation by interconnecting a system with a service client, with a system with a service server.
-- Libraries are used to allow to use systems with different configurations. Testbench_ROS_Lib2 contains the ROS service server, and Testbench_ROS_Lib3
-- contains the ROS service client.
-- The ROS Service is the AddTwoInts service used in the example tutorials, with sends a request with 2 64-bit integers, and gets a response of their 64-bit
-- summation.
entity L2_AddTwoInts_test1 is
end entity;
architecture testbench of L2_AddTwoInts_test1 is
signal clk, reset : std_logic := '0';
signal time : TIME_TYPE := TIME_ZERO;
signal empty_s, empty_c, read_s, read_c, full_s, full_c, write_s, write_c : std_logic := '0';
signal data_in_s, data_in_c, data_out_s, data_out_c : std_logic_vector(WORD_WIDTH-1 downto 0) := (others => '0');
signal start_c, ack_c, taken_c, done_c, data_available_c : std_logic := '0';
signal opcode_c : ROS_SERVICE_OPCODE_TYPE := NOP;
signal service_info_c : Testbench_ROS_Lib3.ros_package.SERVICE_INFO_TYPE := Testbench_ROS_Lib3.ros_package.EMPTY_SERVICE_INFO;
signal sequence_id_c : std_logic_vector(ROS_SEQUENCE_ID_WIDTH-1 downto 0) := (others => '0');
signal a_c, b_c, sum_c : std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0) := (others => '0');
signal return_code_c : std_logic_vector(ROS_RETCODE_WIDTH-1 downto 0) := ROS_RET_ERROR;
-- HACK: For some reason (possibly Modelsim/Questasim Bug) I cannot declare the opcode signals from their respective Library sources,
-- because I cannot use a qualified expression to define an enumeration literal (and direct type casting cannot be done because
-- the types are not closely related). So I have to do define explicit type conversions between the types...
function to_Lib3(input : ROS_SERVICE_OPCODE_TYPE) return Testbench_ROS_Lib3.ros_package.ROS_SERVICE_OPCODE_TYPE is
begin
return Testbench_ROS_Lib3.ros_package.ROS_SERVICE_OPCODE_TYPE'VAL(ROS_SERVICE_OPCODE_TYPE'POS(input));
end function;
begin
server_inst : entity Testbench_ROS_Lib2.L2_Testbench_ROS_Lib2(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => Testbench_ROS_Lib2.rtps_package.TIME_TYPE(time),
-- INPUT
empty => empty_s,
read => read_s,
data_in => data_in_s,
-- OUTPUT
full => full_s,
write => write_s,
data_out => data_out_s
);
fifo_s_c_inst : configuration Testbench_ROS_Lib2.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 65536/(WORD_WIDTH/BYTE_WIDTH),
DATA_WIDTH => WORD_WIDTH
)
port map
(
reset => reset,
clk => clk,
data_in => data_out_s,
write => write_s,
read => read_c,
data_out => data_in_c,
empty => empty_c,
full => full_s,
free => open
);
fifo_c_s_inst : configuration Testbench_ROS_Lib2.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 65536/(WORD_WIDTH/BYTE_WIDTH),
DATA_WIDTH => WORD_WIDTH
)
port map
(
reset => reset,
clk => clk,
data_in => data_out_c,
write => write_c,
read => read_s,
data_out => data_in_s,
empty => empty_s,
full => full_c,
free => open
);
client_inst : entity Testbench_ROS_Lib3.L2_Testbench_ROS_Lib3(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => Testbench_ROS_Lib3.rtps_package.TIME_TYPE(time),
-- INPUT
empty => empty_c,
read => read_c,
data_in => data_in_c,
-- OUTPUT
full => full_c,
write => write_c,
data_out => data_out_c,
-- SERVICE CLIENT
start_c => start_c,
ack_c => ack_c,
opcode_c => to_Lib3(opcode_c),
service_info_c => service_info_c,
sequence_id_c => sequence_id_c,
taken_c => taken_c,
data_available_c => data_available_c,
a_c => a_c,
b_c => b_c,
sum_c => sum_c,
done_c => done_c,
return_code_c => return_code_c
);
stimulus_prc : process
variable RV : RandomPType;
variable ref : std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
variable sid : std_logic_vector(ROS_SEQUENCE_ID_WIDTH-1 downto 0);
-- Waits until signal toggles high for at least 1 ps
procedure wait_on_sig(signal sig : std_logic) is
begin
loop
if (sig /= '1') then
wait on sig until sig = '1';
end if;
-- Prevent triggering on glitches
wait for 1 ps;
if (sig = '1') then
exit;
end if;
end loop;
end procedure;
begin
SetAlertLogName("ROS Service - Level 2 - (AddTwoInts) - General");
SetAlertEnable(FAILURE, TRUE);
SetAlertEnable(ERROR, TRUE);
SetAlertEnable(WARNING, TRUE);
SetLogEnable(DEBUG, FALSE);
SetLogEnable(PASSED, FALSE);
SetLogEnable(INFO, TRUE);
RV.InitSeed(RV'instance_name);
Log("Initial Reset", INFO);
reset <= '1';
wait until rising_edge(clk);
wait until rising_edge(clk);
reset <= '0';
Log("Sent Request", INFO);
start_c <= '1';
opcode_c <= SEND_REQUEST;
a_c <= std_logic_vector(resize(unsigned(RV.RandSlv(CDR_LONG_WIDTH)),a_c'length));
b_c <= std_logic_vector(resize(unsigned(RV.RandSlv(CDR_LONG_WIDTH)),a_c'length));
wait_on_sig(ack_c);
wait until rising_edge(clk);
start_c <= '0';
wait_on_sig(done_c);
wait for 1 ps; -- Make sure all signals stable
AlertIf(return_code_c /= ROS_RET_OK, "Unexpected client response", FAILURE);
sid := sequence_id_c;
Log("Wait for Response", INFO);
wait_on_sig(data_available_c);
Log("Take & compare Response", INFO);
start_c <= '1';
opcode_c <= TAKE_RESPONSE;
wait_on_sig(ack_c);
wait until rising_edge(clk);
start_c <= '0';
wait_on_sig(done_c);
wait for 1 ps; -- Make sure all signals stable
AlertIf(return_code_c /= ROS_RET_OK, "Unexpected client response", FAILURE);
AffirmIfEqual(unsigned(sum_c), unsigned(a_c) + unsigned(b_c));
AffirmIfEqual(to_unsigned(SEQUENCENUMBER_TYPE(service_info_c.request_id.sequence_number)), unsigned(sid));
TranscriptOpen(RESULTS_FILE, APPEND_MODE);
SetTranscriptMirror;
ReportAlerts;
TranscriptClose;
std.env.stop;
wait;
end process;
clock_prc : process
begin
clk <= '0';
wait for TEST_CLOCK_PERIOD/2;
clk <= '1';
wait for TEST_CLOCK_PERIOD/2;
end process;
time_prc : process(clk)
begin
if rising_edge(clk) then
if (reset = '1') then
time <= TIME_ZERO;
else
time <= time + gen_duration(TEST_CLOCK_PERIOD);
end if;
end if;
end process;
watchdog : process
begin
wait for 1 ms;
Alert("Test timeout", FAILURE);
std.env.stop;
end process;
end architecture;

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-- altera vhdl_input_version vhdl_2008
-- XXX: QSYS Fix (https://www.intel.com/content/www/us/en/support/programmable/articles/000079458.html)
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.ros_package.all;
use work.ros_config.all;
use work.rtps_package.all;
use work.user_config.all;
use work.rtps_config_package.all;
use work.rtps_test_package.all;
entity L2_Testbench_ROS_Lib2 is
port (
-- SYSTEM
clk : in std_logic;
reset : in std_logic;
time : in TIME_TYPE;
-- INPUT
empty : in std_logic;
read : out std_logic;
data_in : in std_logic_vector(WORD_WIDTH-1 downto 0);
-- OUTPUT
full : in std_logic;
write : out std_logic;
data_out : out std_logic_vector(WORD_WIDTH-1 downto 0)
);
end entity;
architecture arch of L2_Testbench_ROS_Lib2 is
type EARRAY_DATA_TYPE is array (0 to NUM_ENDPOINTS-1) of std_logic_vector(WORD_WIDTH downto 0);
type HISTORY_CACHE_OPCODE_RARRAY_TYPE is array (0 to NUM_READERS-1) of HISTORY_CACHE_OPCODE_TYPE;
type HISTORY_CACHE_OPCODE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of HISTORY_CACHE_OPCODE_TYPE;
type HISTORY_CACHE_RESPONSE_RARRAY_TYPE is array (0 to NUM_READERS-1) of HISTORY_CACHE_RESPONSE_TYPE;
type HISTORY_CACHE_RESPONSE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of HISTORY_CACHE_RESPONSE_TYPE;
type RARRAY_DATA_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(WORD_WIDTH downto 0);
type WARRAY_DATA_TYPE is array (0 to NUM_WRITERS-1) of std_logic_vector(WORD_WIDTH downto 0);
type SEQUENCENUMBER_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of SEQUENCENUMBER_TYPE;
type INSTANCE_HANDLE_RARRAY_TYPE is array (0 to NUM_READERS-1) of INSTANCE_HANDLE_TYPE;
type INSTANCE_HANDLE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of INSTANCE_HANDLE_TYPE;
type CACHE_CHANGE_KIND_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of CACHE_CHANGE_KIND_TYPE;
type TIME_RARRAY_TYPE is array (0 to NUM_READERS-1) of TIME_TYPE;
type TIME_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of TIME_TYPE;
type DDS_READER_OPCODE_RARRAY_TYPE is array (0 to NUM_READERS-1) of DDS_READER_OPCODE_TYPE;
type DDS_WRITER_OPCODE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of DDS_WRITER_OPCODE_TYPE;
type INSTANCE_STATE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(INSTANCE_STATE_KIND_WIDTH-1 downto 0);
type VIEW_STATE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(VIEW_STATE_KIND_WIDTH-1 downto 0);
type SAMPLE_STATE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(SAMPLE_STATE_KIND_WIDTH-1 downto 0);
type MAX_SAMPLES_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(MAX_SAMPLES_WIDTH-1 downto 0);
type RETURN_CODE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(RETURN_CODE_WIDTH-1 downto 0);
type RETURN_CODE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of std_logic_vector(RETURN_CODE_WIDTH-1 downto 0);
type DISPOSED_GENERATION_COUNT_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(DISPOSED_GENERATION_COUNT_WIDTH-1 downto 0);
type NO_WRITERS_GENERATION_COUNT_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(NO_WRITERS_GENERATION_COUNT_WIDTH-1 downto 0);
type SAMPLE_RANK_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(SAMPLE_RANK_WIDTH-1 downto 0);
type GENERATION_RANK_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(GENERATION_RANK_WIDTH-1 downto 0);
type ABSOLUTE_GENERATION_RANK_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(ABSOLUTE_GENERATION_COUNT_WIDTH-1 downto 0);
type STATUS_KIND_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(STATUS_KIND_WIDTH-1 downto 0);
type STATUS_KIND_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of std_logic_vector(STATUS_KIND_WIDTH-1 downto 0);
type DURATION_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of DURATION_TYPE;
signal full_fire_rh, write_rh_fire : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_rh_fire, data_rh_fidm : std_logic_vector(WORD_WIDTH downto 0);
signal full_fidm_rh, write_rh_fidm : std_logic;
signal read_dm_fidm, empty_fidm_dm : std_logic;
signal data_fidm_dm : std_logic_vector(WORD_WIDTH downto 0);
signal read_re_fire, empty_fire_re : std_logic_vector(0 to NUM_ENDPOINTS);
signal data_fire_re : EARRAY_DATA_TYPE;
signal alive_re_dm, full_fdmre_re, write_dm_fdmre : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_dm_fdmre , data_dm_firo : std_logic_vector(WORD_WIDTH downto 0);
signal full_firo_dm, write_dm_firo : std_logic;
signal empty_fdmre_re, read_re_fdmre : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_fdmre_re : EARRAY_DATA_TYPE;
signal full_firo_re, write_re_firo : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_re_firo : EARRAY_DATA_TYPE;
signal start_rr_dr, ack_dr_rr, done_dr_rr, valid_rr_dr, ready_dr_rr : std_logic_vector(0 to NUM_READERS-1);
signal opcode_rr_dr : HISTORY_CACHE_OPCODE_RARRAY_TYPE;
signal ret_dr_rr : HISTORY_CACHE_RESPONSE_RARRAY_TYPE;
signal data_rr_dr : RARRAY_DATA_TYPE;
signal liveliness_assertion_dw_rw, data_available_dw_rw, start_rw_dw, ack_dw_rw, done_rw_dw, get_data_rw_dw, valid_dw_rw, ready_rw_dw : std_logic_vector(0 to NUM_WRITERS-1);
signal opcode_rw_dw : HISTORY_CACHE_OPCODE_WARRAY_TYPE;
signal seq_nr_rw_dw, cc_seq_nr_dw_rw : SEQUENCENUMBER_WARRAY_TYPE;
signal ret_dw_rw : HISTORY_CACHE_RESPONSE_WARRAY_TYPE;
signal data_dw_rw : WARRAY_DATA_TYPE;
signal cc_instance_handle_dw_rw : INSTANCE_HANDLE_WARRAY_TYPE;
signal cc_kind_dw_rw : CACHE_CHANGE_KIND_WARRAY_TYPE;
signal cc_source_timestamp_dw_rw : TIME_WARRAY_TYPE;
signal start_ri_dr, ack_dr_ri, get_data_ri_dr, done_dr_ri, ready_ri_dr, valid_dr_ri, si_valid_data_dr_ri, si_valid_dr_ri, si_ack_ri_dr, eoc_dr_ri : std_logic_vector(0 to NUM_READERS-1);
signal opcode_ri_dr : DDS_READER_OPCODE_RARRAY_TYPE;
signal instance_state_ri_dr, si_instance_state_dr_ri : INSTANCE_STATE_RARRAY_TYPE;
signal view_state_ri_dr, si_view_state_dr_ri : VIEW_STATE_RARRAY_TYPE;
signal sample_state_ri_dr, si_sample_state_dr_ri : SAMPLE_STATE_RARRAY_TYPE;
signal instance_handle_ri_dr, si_instance_handle_dr_ri, si_publication_handle_dr_ri : INSTANCE_HANDLE_RARRAY_TYPE;
signal max_samples_ri_dr : MAX_SAMPLES_RARRAY_TYPE;
signal return_code_dr_ri : RETURN_CODE_RARRAY_TYPE;
signal data_dr_ri : RARRAY_DATA_TYPE;
signal si_source_timestamp_dr_ri : TIME_RARRAY_TYPE;
signal si_disposed_generation_count_dr_ri : DISPOSED_GENERATION_COUNT_RARRAY_TYPE;
signal si_no_writers_generation_count_dr_ri : NO_WRITERS_GENERATION_COUNT_RARRAY_TYPE;
signal si_sample_rank_dr_ri : SAMPLE_RANK_RARRAY_TYPE;
signal si_generation_rank_dr_ri : GENERATION_RANK_RARRAY_TYPE;
signal si_absolute_generation_rank_dr_ri : ABSOLUTE_GENERATION_RANK_RARRAY_TYPE;
signal status_dr_ri : STATUS_KIND_RARRAY_TYPE;
signal start_wi_dw, ack_dw_wi, done_dw_wi, valid_wi_dw, valid_dw_wi, ready_wi_dw, ready_dw_wi : std_logic_vector(0 to NUM_WRITERS-1);
signal opcode_wi_dw : DDS_WRITER_OPCODE_WARRAY_TYPE;
signal instance_handle_wi_dw, instance_handle_dw_wi : INSTANCE_HANDLE_WARRAY_TYPE;
signal source_ts_wi_dw : TIME_WARRAY_TYPE;
signal max_wait_wi_dw : DURATION_WARRAY_TYPE;
signal return_code_dw_wi : RETURN_CODE_WARRAY_TYPE;
signal data_dw_wi, data_wi_dw : WARRAY_DATA_TYPE;
signal status_dw_wi : STATUS_KIND_WARRAY_TYPE;
signal empty_firo_ro, read_ro_firo, last_word_firo_ro : std_logic_vector(0 to NUM_ENDPOINTS);
signal data_firo_ro : RTPS_OUT_DATA_TYPE;
signal service_if : SERVICE_INTERFACE_ARRAY_TYPE(0 to NUM_SERVICES-1);
-- ###GENERATED START###
signal start_s, ack_s, taken_s, done_s, data_available_s : std_logic;
signal opcode_s : ROS_SERVICE_OPCODE_TYPE;
signal service_info_s : SERVICE_INFO_TYPE;
signal request_id_s : REQUEST_ID_TYPE;
signal a_s, b_s, sum_s : std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
signal return_code_s : std_logic_vector(ROS_RETCODE_WIDTH-1 downto 0);
-- ###GENERATED END###
begin
rtps_handler_inst : entity work.rtps_handler(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
-- INPUT
empty => empty,
rd => read,
data_in => data_in,
-- TO DISCOVERY MODULE
full_dm => full_fidm_rh,
wr_dm => write_rh_fidm,
data_out_dm => data_rh_fidm(WORD_WIDTH-1 downto 0),
last_word_out_dm => data_rh_fidm(WORD_WIDTH),
-- TO USER ENDPOINTS
full_rtps => full_fire_rh,
wr_rtps => write_rh_fire,
data_out_rtps => data_rh_fire(WORD_WIDTH-1 downto 0),
last_word_out_rtps => data_rh_fire(WORD_WIDTH)
);
fifo_in_dm_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_fidm_rh,
write => write_rh_fidm,
data_in => data_rh_fidm,
-- OUTPUT
empty => empty_fidm_dm,
read => read_dm_fidm,
data_out => data_fidm_dm,
-- MISC
free => open
);
fifo_in_re_gen : for i in 0 to NUM_ENDPOINTS-1 generate
fifo_in_re_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_fire_rh(i),
write => write_rh_fire(i),
data_in => data_rh_fire, -- Multicast
-- OUTPUT
empty => empty_fire_re(i),
read => read_re_fire(i),
data_out => data_fire_re(i),
-- MISC
free => open
);
end generate;
rtps_discovery_module_inst : entity work.rtps_discovery_module(arch)
generic map (
MAX_REMOTE_PARTICIPANTS => MAX_REMOTE_PARTICIPANTS
)
port map (
clk => clk,
reset => reset,
time => time,
-- FROM RTPS HANDLER
empty => empty_fidm_dm,
rd => read_dm_fidm,
data_in => data_fidm_dm(WORD_WIDTH-1 downto 0),
last_word_in => data_fidm_dm(WORD_WIDTH),
-- FROM RTPS ENDPOINTS
alive => alive_re_dm,
-- TO RTPS ENDPOINTS
full_rtps => full_fdmre_re,
wr_rtps => write_dm_fdmre,
data_out_rtps => data_dm_fdmre(WORD_WIDTH-1 downto 0),
last_word_out_rtps => data_dm_fdmre(WORD_WIDTH),
-- TO RTPS OUT
full_ro => full_firo_dm,
wr_ro => write_dm_firo,
data_out_ro => data_dm_firo(WORD_WIDTH-1 downto 0),
last_word_out_ro => data_dm_firo(WORD_WIDTH)
);
fifo_dm_re_gen : for i in 0 to NUM_ENDPOINTS-1 generate
fifo_dm_re_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_fdmre_re(i),
write => write_dm_fdmre(i),
data_in => data_dm_fdmre, -- Multicast
-- OUTPUT
empty => empty_fdmre_re(i),
read => read_re_fdmre(i),
data_out => data_fdmre_re(i),
-- MISC
free => open
);
end generate;
rtps_endpoint_gen : for i in 0 to NUM_ENDPOINTS-1 generate
rtps_endpoint_if : if (i < NUM_READERS) generate
rtps_reader_inst : entity work.rtps_reader(arch)
generic map (
ENTITYID => ENTITYID(i),
RELIABILITY_QOS => ENDPOINT_CONFIG(i).RELIABILITY_QOS,
LIVELINESS_QOS => ENDPOINT_CONFIG(i).LIVELINESS_QOS,
DURABILITY_QOS => ENDPOINT_CONFIG(i).DURABILITY_QOS,
HEARTBEAT_RESPONSE_DELAY => ENDPOINT_CONFIG(i).HEARTBEAT_RESPONSE_DELAY,
HEARTBEAT_SUPPRESSION_DELAY => ENDPOINT_CONFIG(i).HEARTBEAT_SUPPRESSION_DELAY,
LEASE_DURATION => ENDPOINT_CONFIG(i).LEASE_DURATION,
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
MAX_REMOTE_ENDPOINTS => MAX_REMOTE_ENDPOINTS
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- FROM RTPS_HANDLER (USER TRAFFIC)
empty_user => empty_fire_re(i),
rd_user => read_re_fire(i),
data_in_user => data_fire_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_user => data_fire_re(i)(WORD_WIDTH),
-- FROM DISCOVERY MODULE (META TRAFFIC)
empty_meta => empty_fdmre_re(i),
rd_meta => read_re_fdmre(i),
data_in_meta => data_fdmre_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_meta => data_fdmre_re(i)(WORD_WIDTH),
-- RTPS OUTPUT
full_ro => full_firo_re(i),
wr_ro => write_re_firo(i),
data_out_ro => data_re_firo(i)(WORD_WIDTH-1 downto 0),
last_word_out_ro => data_re_firo(i)(WORD_WIDTH),
-- TO HISTORY CACHE
start_hc => start_rr_dr(i),
opcode_hc => opcode_rr_dr(i),
ack_hc => ack_dr_rr(i),
done_hc => done_dr_rr(i),
ret_hc => ret_dr_rr(i),
valid_out_hc => valid_rr_dr(i),
ready_out_hc => ready_dr_rr(i),
data_out_hc => data_rr_dr(i)(WORD_WIDTH-1 downto 0),
last_word_out_hc => data_rr_dr(i)(WORD_WIDTH)
);
-- Set Alive Signals of Readers to Zero
alive_re_dm(i) <= ('0');
else generate
rtps_writer_inst : entity work.rtps_writer(arch)
generic map (
RELIABILITY_QOS => ENDPOINT_CONFIG(i).RELIABILITY_QOS,
LIVELINESS_QOS => ENDPOINT_CONFIG(i).LIVELINESS_QOS,
DURABILITY_QOS => ENDPOINT_CONFIG(i).DURABILITY_QOS,
DESTINATION_ORDER_QOS => ENDPOINT_CONFIG(i).DESTINATION_ORDER_QOS,
ACKNACK_RESPONSE_DELAY => ENDPOINT_CONFIG(i).ACKNACK_RESPONSE_DELAY,
ACKNACK_SUPPRESSION_DELAY => ENDPOINT_CONFIG(i).ACKNACK_SUPPRESSION_DELAY,
LEASE_DURATION => ENDPOINT_CONFIG(i).LEASE_DURATION,
HEARTBEAT_PERIOD => ENDPOINT_CONFIG(i).HEARTBEAT_PERIOD,
ENTITYID => ENTITYID(i),
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
PUSH_MODE => ENDPOINT_CONFIG(i).PUSH_MODE,
INLINE_QOS => gen_inline_qos(i),
MAX_REMOTE_ENDPOINTS => MAX_REMOTE_ENDPOINTS
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- FROM RTPS_HANDLER (USER TRAFFIC)
empty_user => empty_fire_re(i),
rd_user => read_re_fire(i),
data_in_user => data_fire_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_user => data_fire_re(i)(WORD_WIDTH),
-- FROM DISCOVERY MODULE (META TRAFFIC)
empty_meta => empty_fdmre_re(i),
rd_meta => read_re_fdmre(i),
data_in_meta => data_fdmre_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_meta => data_fdmre_re(i)(WORD_WIDTH),
-- TO DISCOVERY MODULE (META TRAFFIC)
alive_sig => alive_re_dm(i),
-- RTPS OUTPUT
full_ro => full_firo_re(i),
wr_ro => write_re_firo(i),
data_out_ro => data_re_firo(i)(WORD_WIDTH-1 downto 0),
last_word_out_ro => data_re_firo(i)(WORD_WIDTH),
-- FROM HC
liveliness_assertion => liveliness_assertion_dw_rw(i-NUM_READERS),
data_available => data_available_dw_rw(i-NUM_READERS),
start_hc => start_rw_dw(i-NUM_READERS),
opcode_hc => opcode_rw_dw(i-NUM_READERS),
ack_hc => ack_dw_rw(i-NUM_READERS),
seq_nr_hc => seq_nr_rw_dw(i-NUM_READERS),
done_hc => done_rw_dw(i-NUM_READERS),
ret_hc => ret_dw_rw(i-NUM_READERS),
get_data_hc => get_data_rw_dw(i-NUM_READERS),
valid_in_hc => valid_dw_rw(i-NUM_READERS),
ready_in_hc => ready_rw_dw(i-NUM_READERS),
data_in_hc => data_dw_rw(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_in_hc => data_dw_rw(i-NUM_READERS)(WORD_WIDTH),
cc_instance_handle => cc_instance_handle_dw_rw(i-NUM_READERS),
cc_kind => cc_kind_dw_rw(i-NUM_READERS),
cc_source_timestamp => cc_source_timestamp_dw_rw(i-NUM_READERS),
cc_seq_nr => cc_seq_nr_dw_rw(i-NUM_READERS)
);
end generate;
end generate;
dds_endpoint_gen : for i in 0 to NUM_ENDPOINTS-2 generate
dds_endpoint_if : if (i < NUM_READERS) generate
dds_reader_inst : entity work.dds_reader(arch)
generic map (
TIME_BASED_FILTER_QOS => ENDPOINT_CONFIG(i).TIME_BASED_FILTER_QOS,
DEADLINE_QOS => ENDPOINT_CONFIG(i).DEADLINE_QOS,
MAX_INSTANCES => ENDPOINT_CONFIG(i).MAX_INSTANCES,
MAX_SAMPLES_PER_INSTANCE => ENDPOINT_CONFIG(i).MAX_SAMPLES_PER_INSTANCE,
MAX_SAMPLES => ENDPOINT_CONFIG(i).MAX_SAMPLES,
HISTORY_QOS => ENDPOINT_CONFIG(i).HISTORY_QOS,
RELIABILITY_QOS => ENDPOINT_CONFIG(i).RELIABILITY_QOS,
PRESENTATION_QOS => ENDPOINT_CONFIG(i).PRESENTATION_QOS,
DESTINATION_ORDER_QOS => ENDPOINT_CONFIG(i).DESTINATION_ORDER_QOS,
COHERENT_ACCESS => ENDPOINT_CONFIG(i).COHERENT_ACCESS,
ORDERED_ACCESS => ENDPOINT_CONFIG(i).ORDERED_ACCESS,
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
PAYLOAD_FRAME_SIZE => ENDPOINT_CONFIG(i).MAX_PAYLOAD_SIZE,
MAX_REMOTE_ENDPOINTS => MAX_REMOTE_ENDPOINTS
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- FROM RTPS ENDPOINT
start_rtps => start_rr_dr(i),
opcode_rtps => opcode_rr_dr(i),
ack_rtps => ack_dr_rr(i),
done_rtps => done_dr_rr(i),
ret_rtps => ret_dr_rr(i),
valid_in_rtps => valid_rr_dr(i),
ready_in_rtps => ready_dr_rr(i),
data_in_rtps => data_rr_dr(i)(WORD_WIDTH-1 downto 0),
last_word_in_rtps => data_rr_dr(i)(WORD_WIDTH),
-- TO USER ENTITY
start_dds => start_ri_dr(i),
ack_dds => ack_dr_ri(i),
opcode_dds => opcode_ri_dr(i),
instance_state_dds => instance_state_ri_dr(i),
view_state_dds => view_state_ri_dr(i),
sample_state_dds => sample_state_ri_dr(i),
instance_handle_dds => instance_handle_ri_dr(i),
max_samples_dds => max_samples_ri_dr(i),
get_data_dds => get_data_ri_dr(i),
done_dds => done_dr_ri(i),
return_code_dds => return_code_dr_ri(i),
valid_out_dds => valid_dr_ri(i),
ready_out_dds => ready_ri_dr(i),
data_out_dds => data_dr_ri(i)(WORD_WIDTH-1 downto 0),
last_word_out_dds => data_dr_ri(i)(WORD_WIDTH),
-- Sample Info
si_sample_state => si_sample_state_dr_ri(i),
si_view_state => si_view_state_dr_ri(i),
si_instance_state => si_instance_state_dr_ri(i),
si_source_timestamp => si_source_timestamp_dr_ri(i),
si_instance_handle => si_instance_handle_dr_ri(i),
si_publication_handle => si_publication_handle_dr_ri(i),
si_disposed_generation_count => si_disposed_generation_count_dr_ri(i),
si_no_writers_generation_count => si_no_writers_generation_count_dr_ri(i),
si_sample_rank => si_sample_rank_dr_ri(i),
si_generation_rank => si_generation_rank_dr_ri(i),
si_absolute_generation_rank => si_absolute_generation_rank_dr_ri(i),
si_valid_data => si_valid_data_dr_ri(i),
si_valid => si_valid_dr_ri(i),
si_ack => si_ack_ri_dr(i),
eoc => eoc_dr_ri(i),
-- Communication Status
status => status_dr_ri(i)
);
else generate
dds_writer_inst : entity work.dds_writer(arch)
generic map (
HISTORY_QOS => ENDPOINT_CONFIG(i).HISTORY_QOS,
DEADLINE_QOS => ENDPOINT_CONFIG(i).DEADLINE_QOS,
LIFESPAN_QOS => ENDPOINT_CONFIG(i).LIFESPAN_QOS,
LEASE_DURATION => ENDPOINT_CONFIG(i).LEASE_DURATION,
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
MAX_SAMPLES => ENDPOINT_CONFIG(i).MAX_SAMPLES,
MAX_INSTANCES => ENDPOINT_CONFIG(i).MAX_INSTANCES,
MAX_SAMPLES_PER_INSTANCE => ENDPOINT_CONFIG(i).MAX_SAMPLES_PER_INSTANCE,
PAYLOAD_FRAME_SIZE => ENDPOINT_CONFIG(i).MAX_PAYLOAD_SIZE
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- TO/FROM RTPS ENDPOINT
start_rtps => start_rw_dw(i-NUM_READERS),
opcode_rtps => opcode_rw_dw(i-NUM_READERS),
ack_rtps => ack_dw_rw(i-NUM_READERS),
done_rtps => done_rw_dw(i-NUM_READERS),
ret_rtps => ret_dw_rw(i-NUM_READERS),
seq_nr_rtps => seq_nr_rw_dw(i-NUM_READERS),
get_data_rtps => get_data_rw_dw(i-NUM_READERS),
valid_out_rtps => valid_dw_rw(i-NUM_READERS),
ready_out_rtps => ready_rw_dw(i-NUM_READERS),
data_out_rtps => data_dw_rw(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_out_rtps => data_dw_rw(i-NUM_READERS)(WORD_WIDTH),
liveliness_assertion => liveliness_assertion_dw_rw(i-NUM_READERS),
data_available => data_available_dw_rw(i-NUM_READERS),
-- Cache Change
cc_instance_handle => cc_instance_handle_dw_rw(i-NUM_READERS),
cc_kind => cc_kind_dw_rw(i-NUM_READERS),
cc_source_timestamp => cc_source_timestamp_dw_rw(i-NUM_READERS),
cc_seq_nr => cc_seq_nr_dw_rw(i-NUM_READERS),
-- TO/FROM USER ENTITY
start_dds => start_wi_dw(i-NUM_READERS),
ack_dds => ack_dw_wi(i-NUM_READERS),
opcode_dds => opcode_wi_dw(i-NUM_READERS),
instance_handle_in_dds => instance_handle_wi_dw(i-NUM_READERS),
source_ts_dds => source_ts_wi_dw(i-NUM_READERS),
max_wait_dds => max_wait_wi_dw(i-NUM_READERS),
done_dds => done_dw_wi(i-NUM_READERS),
return_code_dds => return_code_dw_wi(i-NUM_READERS),
instance_handle_out_dds => instance_handle_dw_wi(i-NUM_READERS),
valid_in_dds => valid_wi_dw(i-NUM_READERS),
ready_in_dds => ready_dw_wi(i-NUM_READERS),
data_in_dds => data_wi_dw(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_in_dds => data_wi_dw(i-NUM_READERS)(WORD_WIDTH),
valid_out_dds => valid_dw_wi(i-NUM_READERS),
ready_out_dds => ready_wi_dw(i-NUM_READERS),
data_out_dds => data_dw_wi(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_out_dds => data_dw_wi(i-NUM_READERS)(WORD_WIDTH),
-- Communication Status
status => status_dw_wi(i-NUM_READERS)
);
end generate;
end generate;
ros_discovery_writer_inst : entity work.ros_static_discovery_writer(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
-- TO/FROM RTPS ENDPOINT
start => start_rw_dw(NUM_WRITERS-1),
opcode => opcode_rw_dw(NUM_WRITERS-1),
ack => ack_dw_rw(NUM_WRITERS-1),
done => done_rw_dw(NUM_WRITERS-1),
ret => ret_dw_rw(NUM_WRITERS-1),
seq_nr => seq_nr_rw_dw(NUM_WRITERS-1),
get_data => get_data_rw_dw(NUM_WRITERS-1),
valid_out => valid_dw_rw(NUM_WRITERS-1),
ready_out => ready_rw_dw(NUM_WRITERS-1),
data_out => data_dw_rw(NUM_WRITERS-1)(WORD_WIDTH-1 downto 0),
last_word_out => data_dw_rw(NUM_WRITERS-1)(WORD_WIDTH),
liveliness_assertion => liveliness_assertion_dw_rw(NUM_WRITERS-1),
data_available => data_available_dw_rw(NUM_WRITERS-1),
-- Cache Change
cc_instance_handle => cc_instance_handle_dw_rw(NUM_WRITERS-1),
cc_kind => cc_kind_dw_rw(NUM_WRITERS-1),
cc_source_timestamp => cc_source_timestamp_dw_rw(NUM_WRITERS-1),
cc_seq_nr => cc_seq_nr_dw_rw(NUM_WRITERS-1)
);
fifo_in_ro_gen : for i in 0 to NUM_ENDPOINTS generate
fifo_in_ro_if : if (i = NUM_ENDPOINTS) generate
fifo_in_ro_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_firo_dm,
write => write_dm_firo,
data_in => data_dm_firo,
-- OUTPUT
empty => empty_firo_ro(i),
read => read_ro_firo(i),
data_out(WORD_WIDTH) => last_word_firo_ro(i),
data_out(WORD_WIDTH-1 downto 0) => data_firo_ro(i),
-- MISC
free => open
);
else generate
fifo_in_ro_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_firo_re(i),
write => write_re_firo(i),
data_in => data_re_firo(i),
-- OUTPUT
empty => empty_firo_ro(i),
read => read_ro_firo(i),
data_out(WORD_WIDTH) => last_word_firo_ro(i),
data_out(WORD_WIDTH-1 downto 0) => data_firo_ro(i),
-- MISC
free => open
);
end generate;
end generate;
rtps_out_inst : entity work.rtps_out(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
-- INPUT
empty => empty_firo_ro,
rd => read_ro_firo,
data_in => data_firo_ro,
last_word_in => last_word_firo_ro,
-- OUTPUT
full => full,
wr => write,
data_out => data_out
);
service_if_gen : for i in 0 to NUM_SERVICES-1 generate
start_ri_dr(i) <= service_if(i).start_r;
service_if(i).ack_r <= ack_dr_ri(i);
opcode_ri_dr(i) <= service_if(i).opcode_r;
instance_state_ri_dr(i) <= service_if(i).instance_state_r;
view_state_ri_dr(i) <= service_if(i).view_state_r;
sample_state_ri_dr(i) <= service_if(i).sample_state_r;
instance_handle_ri_dr(i) <= service_if(i).instance_handle_r;
max_samples_ri_dr(i) <= service_if(i).max_samples_r;
get_data_ri_dr(i) <= service_if(i).get_data_r;
service_if(i).done_r <= done_dr_ri(i);
service_if(i).return_code_r <= return_code_dr_ri(i);
service_if(i).valid_in_r <= valid_dr_ri(i);
ready_ri_dr(i) <= service_if(i).ready_in_r;
service_if(i).data_in_r <= data_dr_ri(i)(WORD_WIDTH-1 downto 0);
service_if(i).last_word_in_r <= data_dr_ri(i)(WORD_WIDTH);
service_if(i).si_sample_state_r <= si_sample_state_dr_ri(i);
service_if(i).si_view_state_r <= si_view_state_dr_ri(i);
service_if(i).si_instance_state_r <= si_instance_state_dr_ri(i);
service_if(i).si_source_timestamp_r <= si_source_timestamp_dr_ri(i);
service_if(i).si_instance_handle_r <= si_instance_handle_dr_ri(i);
service_if(i).si_publication_handle_r <= si_publication_handle_dr_ri(i);
service_if(i).si_disposed_generation_count_r <= si_disposed_generation_count_dr_ri(i);
service_if(i).si_no_writers_generation_count_r <= si_no_writers_generation_count_dr_ri(i);
service_if(i).si_sample_rank_r <= si_sample_rank_dr_ri(i);
service_if(i).si_generation_rank_r <= si_generation_rank_dr_ri(i);
service_if(i).si_absolute_generation_rank_r <= si_absolute_generation_rank_dr_ri(i);
service_if(i).si_valid_data_r <= si_valid_data_dr_ri(i);
service_if(i).si_valid_r <= si_valid_dr_ri(i);
si_ack_ri_dr(i) <= service_if(i).si_ack_r;
service_if(i).eoc_r <= eoc_dr_ri(i);
service_if(i).status_r <= status_dr_ri(i);
start_wi_dw(i) <= service_if(i).start_w;
service_if(i).ack_w <= ack_dw_wi(i);
opcode_wi_dw(i) <= service_if(i).opcode_w;
service_if(i).instance_handle_out_w <= instance_handle_dw_wi(i);
source_ts_wi_dw(i) <= service_if(i).source_ts_w;
max_wait_wi_dw(i) <= service_if(i).max_wait_w;
service_if(i).done_w <= done_dw_wi(i);
service_if(i).return_code_w <= return_code_dw_wi(i);
instance_handle_wi_dw(i) <= service_if(i).instance_handle_in_w;
valid_wi_dw(i) <= service_if(i).valid_out_w;
service_if(i).ready_out_w <= ready_dw_wi(i);
data_wi_dw(i)(WORD_WIDTH-1 downto 0) <= service_if(i).data_out_w;
data_wi_dw(i)(WORD_WIDTH) <= service_if(i).last_word_out_w;
service_if(i).valid_in_w <= valid_dw_wi(i);
ready_wi_dw(i) <= service_if(i).ready_in_w;
service_if(i).data_in_w <= data_dw_wi(i)(WORD_WIDTH-1 downto 0);
service_if(i).last_word_in_w <= data_dw_wi(i)(WORD_WIDTH);
service_if(i).status_w <= status_dw_wi(i);
end generate;
-- ######GENERATED START######
AddTwoInts_srv_server_inst : entity work.AddTwoInts_srv_server(arch)
port map (
clk => clk,
reset => reset,
start_r => service_if(0).start_r,
ack_r => service_if(0).ack_r,
opcode_r => service_if(0).opcode_r,
instance_state_r => service_if(0).instance_state_r,
view_state_r => service_if(0).view_state_r,
sample_state_r => service_if(0).sample_state_r,
instance_handle_r => service_if(0).instance_handle_r,
max_samples_r => service_if(0).max_samples_r,
get_data_r => service_if(0).get_data_r,
done_r => service_if(0).done_r,
return_code_r => service_if(0).return_code_r,
valid_in_r => service_if(0).valid_in_r,
ready_in_r => service_if(0).ready_in_r,
data_in_r => service_if(0).data_in_r,
last_word_in_r => service_if(0).last_word_in_r,
si_sample_state_r => service_if(0).si_sample_state_r,
si_view_state_r => service_if(0).si_view_state_r,
si_instance_state_r => service_if(0).si_instance_state_r,
si_source_timestamp_r => service_if(0).si_source_timestamp_r,
si_instance_handle_r => service_if(0).si_instance_handle_r,
si_publication_handle_r => service_if(0).si_publication_handle_r,
si_disposed_generation_count_r => service_if(0).si_disposed_generation_count_r,
si_no_writers_generation_count_r => service_if(0).si_no_writers_generation_count_r,
si_sample_rank_r => service_if(0).si_sample_rank_r,
si_generation_rank_r => service_if(0).si_generation_rank_r,
si_absolute_generation_rank_r => service_if(0).si_absolute_generation_rank_r,
si_valid_data_r => service_if(0).si_valid_data_r,
si_valid_r => service_if(0).si_valid_r,
si_ack_r => service_if(0).si_ack_r,
eoc_r => service_if(0).eoc_r,
status_r => service_if(0).status_r,
start_w => service_if(0).start_w,
ack_w => service_if(0).ack_w,
opcode_w => service_if(0).opcode_w,
instance_handle_out_w => service_if(0).instance_handle_out_w,
source_ts_w => service_if(0).source_ts_w,
max_wait_w => service_if(0).max_wait_w,
done_w => service_if(0).done_w,
return_code_w => service_if(0).return_code_w,
instance_handle_in_w => service_if(0).instance_handle_in_w,
valid_out_w => service_if(0).valid_out_w,
ready_out_w => service_if(0).ready_out_w,
data_out_w => service_if(0).data_out_w,
last_word_out_w => service_if(0).last_word_out_w,
valid_in_w => service_if(0).valid_in_w,
ready_in_w => service_if(0).ready_in_w,
data_in_w => service_if(0).data_in_w,
last_word_in_w => service_if(0).last_word_in_w,
status_w => service_if(0).status_w,
start_user => start_s,
ack_user => ack_s,
opcode_user => opcode_s,
service_info_user => service_info_s,
request_id_user => request_id_s,
taken_user => taken_s,
data_available_user => data_available_s,
a => a_s,
b => b_s,
sum => sum_s,
done_user => done_s,
return_code_user => return_code_s
);
AddTwoInts_inst : entity work.AddTwoInts(arch)
port map (
clk => clk,
reset => reset,
start => start_s,
ack => ack_s,
opcode => opcode_s,
service_info => service_info_s,
request_id => request_id_s,
taken => taken_s,
data_available => data_available_s,
a => a_s,
b => b_s,
sum => sum_s,
done => done_s,
return_code => return_code_s
);
-- ######GENERATED END######
end architecture;

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-- altera vhdl_input_version vhdl_2008
-- XXX: QSYS Fix (https://www.intel.com/content/www/us/en/support/programmable/articles/000079458.html)
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.rtps_package.all;
use work.ros_package.all;
use work.AddTwoInts_package.all;
package ros_config is
-- IPv4 Address of ROS System [Default 192.168.0.129]
constant ROS_ADDRESS : std_logic_vector(IPv4_ADDRESS_WIDTH-1 downto 0) := x"C0A80081";
-- Random Key used to generate GUIDs
constant ROS_RAND_KEY : std_logic_vector(47 downto 0) := x"1D4EEC915C7C";
constant NUM_NODES : natural := 1;
constant ROS_NODES : ROS_NODE_ARRAY_TYPE(0 to NUM_NODES-1) := (
0 => (
name => gen_user_string("add_two_ints_server"),
namespace => gen_user_string(""),
domain_id => 0,
NUM_PUBS => 0,
NUM_SUBS => 0,
NUM_SERVICES => 1,
NUM_ACTIONS => 0
)
);
constant NUM_PUBS : natural := get_num_pubs(ROS_NODES);
constant NUM_SUBS : natural := get_num_subs(ROS_NODES);
constant NUM_SERVICES : natural := get_num_services(ROS_NODES);
constant NUM_ACTIONS : natural := get_num_actions(ROS_NODES);
constant ROS_PUBLICATIONS : ROS_TOPIC_ARRAY_TYPE(0 to NUM_PUBS-1) := (
others => (
node_id => 0,
TOPICNAME => gen_user_string(""),
TYPENAME => gen_user_string(""),
QOS => ROS_QOS_PROFILE_DEFAULT,
MAX_SIZE => 0
)
);
constant ROS_SUBSCRIPTIONS : ROS_TOPIC_ARRAY_TYPE(0 to NUM_SUBS-1) := (
others => (
node_id => 0,
TOPICNAME => gen_user_string(""),
TYPENAME => gen_user_string(""),
QOS => ROS_QOS_PROFILE_DEFAULT,
MAX_SIZE => 0
)
);
constant ROS_SERVICES : ROS_SERVICE_ARRAY_TYPE(0 to NUM_SERVICES-1) := (
0 => (
node_id => 0,
SERVICENAME => gen_user_string("add_two_ints"),
TYPENAME => gen_user_string("example_interfaces::srv::dds_::AddTwoInts_Request_"),
QOS => ROS_QOS_PROFILE_TRANSIENT,
MAX_RQ_SIZE => MAX_ADDTWOINTS_RQ_SIZE,
MAX_RR_SIZE => MAX_ADDTWOINTS_RR_SIZE,
is_client => FALSE
)
);
constant ROS_ACTIONS : ROS_ACTION_ARRAY_TYPE(0 to NUM_ACTIONS-1) := (
others => (
node_id => 0
)
);
-- Defines sensible RTPS timings for simulation
constant SIMULATION_TIMING : boolean := TRUE;
end package;

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-- altera vhdl_input_version vhdl_2008
-- XXX: QSYS Fix (https://www.intel.com/content/www/us/en/support/programmable/articles/000079458.html)
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.ros_package.all;
use work.ros_config.all;
use work.rtps_package.all;
use work.user_config.all;
use work.rtps_config_package.all;
use work.rtps_test_package.all;
entity L2_Testbench_ROS_Lib3 is
port (
-- SYSTEM
clk : in std_logic;
reset : in std_logic;
time : in TIME_TYPE;
-- INPUT
empty : in std_logic;
read : out std_logic;
data_in : in std_logic_vector(WORD_WIDTH-1 downto 0);
-- OUTPUT
full : in std_logic;
write : out std_logic;
data_out : out std_logic_vector(WORD_WIDTH-1 downto 0);
-- SERVICE CLIENT
start_c : in std_logic;
ack_c : out std_logic;
opcode_c : in ROS_SERVICE_OPCODE_TYPE;
service_info_c : out SERVICE_INFO_TYPE;
sequence_id_c : out std_logic_vector(ROS_SEQUENCE_ID_WIDTH-1 downto 0);
data_available_c: out std_logic;
taken_c : out std_logic;
a_c : in std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
b_c : in std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
sum_c : out std_logic_vector(CDR_LONG_LONG_WIDTH-1 downto 0);
done_c : out std_logic;
return_code_c : out std_logic_vector(ROS_RETCODE_WIDTH-1 downto 0)
);
end entity;
architecture arch of L2_Testbench_ROS_Lib3 is
type EARRAY_DATA_TYPE is array (0 to NUM_ENDPOINTS-1) of std_logic_vector(WORD_WIDTH downto 0);
type HISTORY_CACHE_OPCODE_RARRAY_TYPE is array (0 to NUM_READERS-1) of HISTORY_CACHE_OPCODE_TYPE;
type HISTORY_CACHE_OPCODE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of HISTORY_CACHE_OPCODE_TYPE;
type HISTORY_CACHE_RESPONSE_RARRAY_TYPE is array (0 to NUM_READERS-1) of HISTORY_CACHE_RESPONSE_TYPE;
type HISTORY_CACHE_RESPONSE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of HISTORY_CACHE_RESPONSE_TYPE;
type RARRAY_DATA_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(WORD_WIDTH downto 0);
type WARRAY_DATA_TYPE is array (0 to NUM_WRITERS-1) of std_logic_vector(WORD_WIDTH downto 0);
type SEQUENCENUMBER_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of SEQUENCENUMBER_TYPE;
type INSTANCE_HANDLE_RARRAY_TYPE is array (0 to NUM_READERS-1) of INSTANCE_HANDLE_TYPE;
type INSTANCE_HANDLE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of INSTANCE_HANDLE_TYPE;
type CACHE_CHANGE_KIND_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of CACHE_CHANGE_KIND_TYPE;
type TIME_RARRAY_TYPE is array (0 to NUM_READERS-1) of TIME_TYPE;
type TIME_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of TIME_TYPE;
type DDS_READER_OPCODE_RARRAY_TYPE is array (0 to NUM_READERS-1) of DDS_READER_OPCODE_TYPE;
type DDS_WRITER_OPCODE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of DDS_WRITER_OPCODE_TYPE;
type INSTANCE_STATE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(INSTANCE_STATE_KIND_WIDTH-1 downto 0);
type VIEW_STATE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(VIEW_STATE_KIND_WIDTH-1 downto 0);
type SAMPLE_STATE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(SAMPLE_STATE_KIND_WIDTH-1 downto 0);
type MAX_SAMPLES_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(MAX_SAMPLES_WIDTH-1 downto 0);
type RETURN_CODE_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(RETURN_CODE_WIDTH-1 downto 0);
type RETURN_CODE_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of std_logic_vector(RETURN_CODE_WIDTH-1 downto 0);
type DISPOSED_GENERATION_COUNT_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(DISPOSED_GENERATION_COUNT_WIDTH-1 downto 0);
type NO_WRITERS_GENERATION_COUNT_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(NO_WRITERS_GENERATION_COUNT_WIDTH-1 downto 0);
type SAMPLE_RANK_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(SAMPLE_RANK_WIDTH-1 downto 0);
type GENERATION_RANK_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(GENERATION_RANK_WIDTH-1 downto 0);
type ABSOLUTE_GENERATION_RANK_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(ABSOLUTE_GENERATION_COUNT_WIDTH-1 downto 0);
type STATUS_KIND_RARRAY_TYPE is array (0 to NUM_READERS-1) of std_logic_vector(STATUS_KIND_WIDTH-1 downto 0);
type STATUS_KIND_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of std_logic_vector(STATUS_KIND_WIDTH-1 downto 0);
type DURATION_WARRAY_TYPE is array (0 to NUM_WRITERS-1) of DURATION_TYPE;
signal full_fire_rh, write_rh_fire : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_rh_fire, data_rh_fidm : std_logic_vector(WORD_WIDTH downto 0);
signal full_fidm_rh, write_rh_fidm : std_logic;
signal read_dm_fidm, empty_fidm_dm : std_logic;
signal data_fidm_dm : std_logic_vector(WORD_WIDTH downto 0);
signal read_re_fire, empty_fire_re : std_logic_vector(0 to NUM_ENDPOINTS);
signal data_fire_re : EARRAY_DATA_TYPE;
signal alive_re_dm, full_fdmre_re, write_dm_fdmre : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_dm_fdmre , data_dm_firo : std_logic_vector(WORD_WIDTH downto 0);
signal full_firo_dm, write_dm_firo : std_logic;
signal empty_fdmre_re, read_re_fdmre : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_fdmre_re : EARRAY_DATA_TYPE;
signal full_firo_re, write_re_firo : std_logic_vector(0 to NUM_ENDPOINTS-1);
signal data_re_firo : EARRAY_DATA_TYPE;
signal start_rr_dr, ack_dr_rr, done_dr_rr, valid_rr_dr, ready_dr_rr : std_logic_vector(0 to NUM_READERS-1);
signal opcode_rr_dr : HISTORY_CACHE_OPCODE_RARRAY_TYPE;
signal ret_dr_rr : HISTORY_CACHE_RESPONSE_RARRAY_TYPE;
signal data_rr_dr : RARRAY_DATA_TYPE;
signal liveliness_assertion_dw_rw, data_available_dw_rw, start_rw_dw, ack_dw_rw, done_rw_dw, get_data_rw_dw, valid_dw_rw, ready_rw_dw : std_logic_vector(0 to NUM_WRITERS-1);
signal opcode_rw_dw : HISTORY_CACHE_OPCODE_WARRAY_TYPE;
signal seq_nr_rw_dw, cc_seq_nr_dw_rw : SEQUENCENUMBER_WARRAY_TYPE;
signal ret_dw_rw : HISTORY_CACHE_RESPONSE_WARRAY_TYPE;
signal data_dw_rw : WARRAY_DATA_TYPE;
signal cc_instance_handle_dw_rw : INSTANCE_HANDLE_WARRAY_TYPE;
signal cc_kind_dw_rw : CACHE_CHANGE_KIND_WARRAY_TYPE;
signal cc_source_timestamp_dw_rw : TIME_WARRAY_TYPE;
signal start_ri_dr, ack_dr_ri, get_data_ri_dr, done_dr_ri, ready_ri_dr, valid_dr_ri, si_valid_data_dr_ri, si_valid_dr_ri, si_ack_ri_dr, eoc_dr_ri : std_logic_vector(0 to NUM_READERS-1);
signal opcode_ri_dr : DDS_READER_OPCODE_RARRAY_TYPE;
signal instance_state_ri_dr, si_instance_state_dr_ri : INSTANCE_STATE_RARRAY_TYPE;
signal view_state_ri_dr, si_view_state_dr_ri : VIEW_STATE_RARRAY_TYPE;
signal sample_state_ri_dr, si_sample_state_dr_ri : SAMPLE_STATE_RARRAY_TYPE;
signal instance_handle_ri_dr, si_instance_handle_dr_ri, si_publication_handle_dr_ri : INSTANCE_HANDLE_RARRAY_TYPE;
signal max_samples_ri_dr : MAX_SAMPLES_RARRAY_TYPE;
signal return_code_dr_ri : RETURN_CODE_RARRAY_TYPE;
signal data_dr_ri : RARRAY_DATA_TYPE;
signal si_source_timestamp_dr_ri : TIME_RARRAY_TYPE;
signal si_disposed_generation_count_dr_ri : DISPOSED_GENERATION_COUNT_RARRAY_TYPE;
signal si_no_writers_generation_count_dr_ri : NO_WRITERS_GENERATION_COUNT_RARRAY_TYPE;
signal si_sample_rank_dr_ri : SAMPLE_RANK_RARRAY_TYPE;
signal si_generation_rank_dr_ri : GENERATION_RANK_RARRAY_TYPE;
signal si_absolute_generation_rank_dr_ri : ABSOLUTE_GENERATION_RANK_RARRAY_TYPE;
signal status_dr_ri : STATUS_KIND_RARRAY_TYPE;
signal start_wi_dw, ack_dw_wi, done_dw_wi, valid_wi_dw, valid_dw_wi, ready_wi_dw, ready_dw_wi : std_logic_vector(0 to NUM_WRITERS-1);
signal opcode_wi_dw : DDS_WRITER_OPCODE_WARRAY_TYPE;
signal instance_handle_wi_dw, instance_handle_dw_wi : INSTANCE_HANDLE_WARRAY_TYPE;
signal source_ts_wi_dw : TIME_WARRAY_TYPE;
signal max_wait_wi_dw : DURATION_WARRAY_TYPE;
signal return_code_dw_wi : RETURN_CODE_WARRAY_TYPE;
signal data_dw_wi, data_wi_dw : WARRAY_DATA_TYPE;
signal status_dw_wi : STATUS_KIND_WARRAY_TYPE;
signal empty_firo_ro, read_ro_firo, last_word_firo_ro : std_logic_vector(0 to NUM_ENDPOINTS);
signal data_firo_ro : RTPS_OUT_DATA_TYPE;
signal service_if : SERVICE_INTERFACE_ARRAY_TYPE(0 to NUM_SERVICES-1);
-- ###GENERATED START###
-- INTERFACE-USER SIGNALS
-- ###GENERATED END###
begin
rtps_handler_inst : entity work.rtps_handler(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
-- INPUT
empty => empty,
rd => read,
data_in => data_in,
-- TO DISCOVERY MODULE
full_dm => full_fidm_rh,
wr_dm => write_rh_fidm,
data_out_dm => data_rh_fidm(WORD_WIDTH-1 downto 0),
last_word_out_dm => data_rh_fidm(WORD_WIDTH),
-- TO USER ENDPOINTS
full_rtps => full_fire_rh,
wr_rtps => write_rh_fire,
data_out_rtps => data_rh_fire(WORD_WIDTH-1 downto 0),
last_word_out_rtps => data_rh_fire(WORD_WIDTH)
);
fifo_in_dm_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_fidm_rh,
write => write_rh_fidm,
data_in => data_rh_fidm,
-- OUTPUT
empty => empty_fidm_dm,
read => read_dm_fidm,
data_out => data_fidm_dm,
-- MISC
free => open
);
fifo_in_re_gen : for i in 0 to NUM_ENDPOINTS-1 generate
fifo_in_re_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_fire_rh(i),
write => write_rh_fire(i),
data_in => data_rh_fire, -- Multicast
-- OUTPUT
empty => empty_fire_re(i),
read => read_re_fire(i),
data_out => data_fire_re(i),
-- MISC
free => open
);
end generate;
rtps_discovery_module_inst : entity work.rtps_discovery_module(arch)
generic map (
MAX_REMOTE_PARTICIPANTS => MAX_REMOTE_PARTICIPANTS
)
port map (
clk => clk,
reset => reset,
time => time,
-- FROM RTPS HANDLER
empty => empty_fidm_dm,
rd => read_dm_fidm,
data_in => data_fidm_dm(WORD_WIDTH-1 downto 0),
last_word_in => data_fidm_dm(WORD_WIDTH),
-- FROM RTPS ENDPOINTS
alive => alive_re_dm,
-- TO RTPS ENDPOINTS
full_rtps => full_fdmre_re,
wr_rtps => write_dm_fdmre,
data_out_rtps => data_dm_fdmre(WORD_WIDTH-1 downto 0),
last_word_out_rtps => data_dm_fdmre(WORD_WIDTH),
-- TO RTPS OUT
full_ro => full_firo_dm,
wr_ro => write_dm_firo,
data_out_ro => data_dm_firo(WORD_WIDTH-1 downto 0),
last_word_out_ro => data_dm_firo(WORD_WIDTH)
);
fifo_dm_re_gen : for i in 0 to NUM_ENDPOINTS-1 generate
fifo_dm_re_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_fdmre_re(i),
write => write_dm_fdmre(i),
data_in => data_dm_fdmre, -- Multicast
-- OUTPUT
empty => empty_fdmre_re(i),
read => read_re_fdmre(i),
data_out => data_fdmre_re(i),
-- MISC
free => open
);
end generate;
rtps_endpoint_gen : for i in 0 to NUM_ENDPOINTS-1 generate
rtps_endpoint_if : if (i < NUM_READERS) generate
rtps_reader_inst : entity work.rtps_reader(arch)
generic map (
ENTITYID => ENTITYID(i),
RELIABILITY_QOS => ENDPOINT_CONFIG(i).RELIABILITY_QOS,
LIVELINESS_QOS => ENDPOINT_CONFIG(i).LIVELINESS_QOS,
DURABILITY_QOS => ENDPOINT_CONFIG(i).DURABILITY_QOS,
HEARTBEAT_RESPONSE_DELAY => ENDPOINT_CONFIG(i).HEARTBEAT_RESPONSE_DELAY,
HEARTBEAT_SUPPRESSION_DELAY => ENDPOINT_CONFIG(i).HEARTBEAT_SUPPRESSION_DELAY,
LEASE_DURATION => ENDPOINT_CONFIG(i).LEASE_DURATION,
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
MAX_REMOTE_ENDPOINTS => MAX_REMOTE_ENDPOINTS
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- FROM RTPS_HANDLER (USER TRAFFIC)
empty_user => empty_fire_re(i),
rd_user => read_re_fire(i),
data_in_user => data_fire_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_user => data_fire_re(i)(WORD_WIDTH),
-- FROM DISCOVERY MODULE (META TRAFFIC)
empty_meta => empty_fdmre_re(i),
rd_meta => read_re_fdmre(i),
data_in_meta => data_fdmre_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_meta => data_fdmre_re(i)(WORD_WIDTH),
-- RTPS OUTPUT
full_ro => full_firo_re(i),
wr_ro => write_re_firo(i),
data_out_ro => data_re_firo(i)(WORD_WIDTH-1 downto 0),
last_word_out_ro => data_re_firo(i)(WORD_WIDTH),
-- TO HISTORY CACHE
start_hc => start_rr_dr(i),
opcode_hc => opcode_rr_dr(i),
ack_hc => ack_dr_rr(i),
done_hc => done_dr_rr(i),
ret_hc => ret_dr_rr(i),
valid_out_hc => valid_rr_dr(i),
ready_out_hc => ready_dr_rr(i),
data_out_hc => data_rr_dr(i)(WORD_WIDTH-1 downto 0),
last_word_out_hc => data_rr_dr(i)(WORD_WIDTH)
);
-- Set Alive Signals of Readers to Zero
alive_re_dm(i) <= ('0');
else generate
rtps_writer_inst : entity work.rtps_writer(arch)
generic map (
RELIABILITY_QOS => ENDPOINT_CONFIG(i).RELIABILITY_QOS,
LIVELINESS_QOS => ENDPOINT_CONFIG(i).LIVELINESS_QOS,
DURABILITY_QOS => ENDPOINT_CONFIG(i).DURABILITY_QOS,
DESTINATION_ORDER_QOS => ENDPOINT_CONFIG(i).DESTINATION_ORDER_QOS,
ACKNACK_RESPONSE_DELAY => ENDPOINT_CONFIG(i).ACKNACK_RESPONSE_DELAY,
ACKNACK_SUPPRESSION_DELAY => ENDPOINT_CONFIG(i).ACKNACK_SUPPRESSION_DELAY,
LEASE_DURATION => ENDPOINT_CONFIG(i).LEASE_DURATION,
HEARTBEAT_PERIOD => ENDPOINT_CONFIG(i).HEARTBEAT_PERIOD,
ENTITYID => ENTITYID(i),
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
PUSH_MODE => ENDPOINT_CONFIG(i).PUSH_MODE,
INLINE_QOS => gen_inline_qos(i),
MAX_REMOTE_ENDPOINTS => MAX_REMOTE_ENDPOINTS
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- FROM RTPS_HANDLER (USER TRAFFIC)
empty_user => empty_fire_re(i),
rd_user => read_re_fire(i),
data_in_user => data_fire_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_user => data_fire_re(i)(WORD_WIDTH),
-- FROM DISCOVERY MODULE (META TRAFFIC)
empty_meta => empty_fdmre_re(i),
rd_meta => read_re_fdmre(i),
data_in_meta => data_fdmre_re(i)(WORD_WIDTH-1 downto 0),
last_word_in_meta => data_fdmre_re(i)(WORD_WIDTH),
-- TO DISCOVERY MODULE (META TRAFFIC)
alive_sig => alive_re_dm(i),
-- RTPS OUTPUT
full_ro => full_firo_re(i),
wr_ro => write_re_firo(i),
data_out_ro => data_re_firo(i)(WORD_WIDTH-1 downto 0),
last_word_out_ro => data_re_firo(i)(WORD_WIDTH),
-- FROM HC
liveliness_assertion => liveliness_assertion_dw_rw(i-NUM_READERS),
data_available => data_available_dw_rw(i-NUM_READERS),
start_hc => start_rw_dw(i-NUM_READERS),
opcode_hc => opcode_rw_dw(i-NUM_READERS),
ack_hc => ack_dw_rw(i-NUM_READERS),
seq_nr_hc => seq_nr_rw_dw(i-NUM_READERS),
done_hc => done_rw_dw(i-NUM_READERS),
ret_hc => ret_dw_rw(i-NUM_READERS),
get_data_hc => get_data_rw_dw(i-NUM_READERS),
valid_in_hc => valid_dw_rw(i-NUM_READERS),
ready_in_hc => ready_rw_dw(i-NUM_READERS),
data_in_hc => data_dw_rw(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_in_hc => data_dw_rw(i-NUM_READERS)(WORD_WIDTH),
cc_instance_handle => cc_instance_handle_dw_rw(i-NUM_READERS),
cc_kind => cc_kind_dw_rw(i-NUM_READERS),
cc_source_timestamp => cc_source_timestamp_dw_rw(i-NUM_READERS),
cc_seq_nr => cc_seq_nr_dw_rw(i-NUM_READERS)
);
end generate;
end generate;
dds_endpoint_gen : for i in 0 to NUM_ENDPOINTS-2 generate
dds_endpoint_if : if (i < NUM_READERS) generate
dds_reader_inst : entity work.dds_reader(arch)
generic map (
TIME_BASED_FILTER_QOS => ENDPOINT_CONFIG(i).TIME_BASED_FILTER_QOS,
DEADLINE_QOS => ENDPOINT_CONFIG(i).DEADLINE_QOS,
MAX_INSTANCES => ENDPOINT_CONFIG(i).MAX_INSTANCES,
MAX_SAMPLES_PER_INSTANCE => ENDPOINT_CONFIG(i).MAX_SAMPLES_PER_INSTANCE,
MAX_SAMPLES => ENDPOINT_CONFIG(i).MAX_SAMPLES,
HISTORY_QOS => ENDPOINT_CONFIG(i).HISTORY_QOS,
RELIABILITY_QOS => ENDPOINT_CONFIG(i).RELIABILITY_QOS,
PRESENTATION_QOS => ENDPOINT_CONFIG(i).PRESENTATION_QOS,
DESTINATION_ORDER_QOS => ENDPOINT_CONFIG(i).DESTINATION_ORDER_QOS,
COHERENT_ACCESS => ENDPOINT_CONFIG(i).COHERENT_ACCESS,
ORDERED_ACCESS => ENDPOINT_CONFIG(i).ORDERED_ACCESS,
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
PAYLOAD_FRAME_SIZE => ENDPOINT_CONFIG(i).MAX_PAYLOAD_SIZE,
MAX_REMOTE_ENDPOINTS => MAX_REMOTE_ENDPOINTS
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- FROM RTPS ENDPOINT
start_rtps => start_rr_dr(i),
opcode_rtps => opcode_rr_dr(i),
ack_rtps => ack_dr_rr(i),
done_rtps => done_dr_rr(i),
ret_rtps => ret_dr_rr(i),
valid_in_rtps => valid_rr_dr(i),
ready_in_rtps => ready_dr_rr(i),
data_in_rtps => data_rr_dr(i)(WORD_WIDTH-1 downto 0),
last_word_in_rtps => data_rr_dr(i)(WORD_WIDTH),
-- TO USER ENTITY
start_dds => start_ri_dr(i),
ack_dds => ack_dr_ri(i),
opcode_dds => opcode_ri_dr(i),
instance_state_dds => instance_state_ri_dr(i),
view_state_dds => view_state_ri_dr(i),
sample_state_dds => sample_state_ri_dr(i),
instance_handle_dds => instance_handle_ri_dr(i),
max_samples_dds => max_samples_ri_dr(i),
get_data_dds => get_data_ri_dr(i),
done_dds => done_dr_ri(i),
return_code_dds => return_code_dr_ri(i),
valid_out_dds => valid_dr_ri(i),
ready_out_dds => ready_ri_dr(i),
data_out_dds => data_dr_ri(i)(WORD_WIDTH-1 downto 0),
last_word_out_dds => data_dr_ri(i)(WORD_WIDTH),
-- Sample Info
si_sample_state => si_sample_state_dr_ri(i),
si_view_state => si_view_state_dr_ri(i),
si_instance_state => si_instance_state_dr_ri(i),
si_source_timestamp => si_source_timestamp_dr_ri(i),
si_instance_handle => si_instance_handle_dr_ri(i),
si_publication_handle => si_publication_handle_dr_ri(i),
si_disposed_generation_count => si_disposed_generation_count_dr_ri(i),
si_no_writers_generation_count => si_no_writers_generation_count_dr_ri(i),
si_sample_rank => si_sample_rank_dr_ri(i),
si_generation_rank => si_generation_rank_dr_ri(i),
si_absolute_generation_rank => si_absolute_generation_rank_dr_ri(i),
si_valid_data => si_valid_data_dr_ri(i),
si_valid => si_valid_dr_ri(i),
si_ack => si_ack_ri_dr(i),
eoc => eoc_dr_ri(i),
-- Communication Status
status => status_dr_ri(i)
);
else generate
dds_writer_inst : entity work.dds_writer(arch)
generic map (
HISTORY_QOS => ENDPOINT_CONFIG(i).HISTORY_QOS,
DEADLINE_QOS => ENDPOINT_CONFIG(i).DEADLINE_QOS,
LIFESPAN_QOS => ENDPOINT_CONFIG(i).LIFESPAN_QOS,
LEASE_DURATION => ENDPOINT_CONFIG(i).LEASE_DURATION,
WITH_KEY => ENDPOINT_CONFIG(i).WITH_KEY,
MAX_SAMPLES => ENDPOINT_CONFIG(i).MAX_SAMPLES,
MAX_INSTANCES => ENDPOINT_CONFIG(i).MAX_INSTANCES,
MAX_SAMPLES_PER_INSTANCE => ENDPOINT_CONFIG(i).MAX_SAMPLES_PER_INSTANCE,
PAYLOAD_FRAME_SIZE => ENDPOINT_CONFIG(i).MAX_PAYLOAD_SIZE
)
port map (
-- SYSTEM
clk => clk,
reset => reset,
time => time,
-- TO/FROM RTPS ENDPOINT
start_rtps => start_rw_dw(i-NUM_READERS),
opcode_rtps => opcode_rw_dw(i-NUM_READERS),
ack_rtps => ack_dw_rw(i-NUM_READERS),
done_rtps => done_rw_dw(i-NUM_READERS),
ret_rtps => ret_dw_rw(i-NUM_READERS),
seq_nr_rtps => seq_nr_rw_dw(i-NUM_READERS),
get_data_rtps => get_data_rw_dw(i-NUM_READERS),
valid_out_rtps => valid_dw_rw(i-NUM_READERS),
ready_out_rtps => ready_rw_dw(i-NUM_READERS),
data_out_rtps => data_dw_rw(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_out_rtps => data_dw_rw(i-NUM_READERS)(WORD_WIDTH),
liveliness_assertion => liveliness_assertion_dw_rw(i-NUM_READERS),
data_available => data_available_dw_rw(i-NUM_READERS),
-- Cache Change
cc_instance_handle => cc_instance_handle_dw_rw(i-NUM_READERS),
cc_kind => cc_kind_dw_rw(i-NUM_READERS),
cc_source_timestamp => cc_source_timestamp_dw_rw(i-NUM_READERS),
cc_seq_nr => cc_seq_nr_dw_rw(i-NUM_READERS),
-- TO/FROM USER ENTITY
start_dds => start_wi_dw(i-NUM_READERS),
ack_dds => ack_dw_wi(i-NUM_READERS),
opcode_dds => opcode_wi_dw(i-NUM_READERS),
instance_handle_in_dds => instance_handle_wi_dw(i-NUM_READERS),
source_ts_dds => source_ts_wi_dw(i-NUM_READERS),
max_wait_dds => max_wait_wi_dw(i-NUM_READERS),
done_dds => done_dw_wi(i-NUM_READERS),
return_code_dds => return_code_dw_wi(i-NUM_READERS),
instance_handle_out_dds => instance_handle_dw_wi(i-NUM_READERS),
valid_in_dds => valid_wi_dw(i-NUM_READERS),
ready_in_dds => ready_dw_wi(i-NUM_READERS),
data_in_dds => data_wi_dw(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_in_dds => data_wi_dw(i-NUM_READERS)(WORD_WIDTH),
valid_out_dds => valid_dw_wi(i-NUM_READERS),
ready_out_dds => ready_wi_dw(i-NUM_READERS),
data_out_dds => data_dw_wi(i-NUM_READERS)(WORD_WIDTH-1 downto 0),
last_word_out_dds => data_dw_wi(i-NUM_READERS)(WORD_WIDTH),
-- Communication Status
status => status_dw_wi(i-NUM_READERS)
);
end generate;
end generate;
ros_discovery_writer_inst : entity work.ros_static_discovery_writer(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
-- TO/FROM RTPS ENDPOINT
start => start_rw_dw(NUM_WRITERS-1),
opcode => opcode_rw_dw(NUM_WRITERS-1),
ack => ack_dw_rw(NUM_WRITERS-1),
done => done_rw_dw(NUM_WRITERS-1),
ret => ret_dw_rw(NUM_WRITERS-1),
seq_nr => seq_nr_rw_dw(NUM_WRITERS-1),
get_data => get_data_rw_dw(NUM_WRITERS-1),
valid_out => valid_dw_rw(NUM_WRITERS-1),
ready_out => ready_rw_dw(NUM_WRITERS-1),
data_out => data_dw_rw(NUM_WRITERS-1)(WORD_WIDTH-1 downto 0),
last_word_out => data_dw_rw(NUM_WRITERS-1)(WORD_WIDTH),
liveliness_assertion => liveliness_assertion_dw_rw(NUM_WRITERS-1),
data_available => data_available_dw_rw(NUM_WRITERS-1),
-- Cache Change
cc_instance_handle => cc_instance_handle_dw_rw(NUM_WRITERS-1),
cc_kind => cc_kind_dw_rw(NUM_WRITERS-1),
cc_source_timestamp => cc_source_timestamp_dw_rw(NUM_WRITERS-1),
cc_seq_nr => cc_seq_nr_dw_rw(NUM_WRITERS-1)
);
fifo_in_ro_gen : for i in 0 to NUM_ENDPOINTS generate
fifo_in_ro_if : if (i = NUM_ENDPOINTS) generate
fifo_in_ro_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_firo_dm,
write => write_dm_firo,
data_in => data_dm_firo,
-- OUTPUT
empty => empty_firo_ro(i),
read => read_ro_firo(i),
data_out(WORD_WIDTH) => last_word_firo_ro(i),
data_out(WORD_WIDTH-1 downto 0) => data_firo_ro(i),
-- MISC
free => open
);
else generate
fifo_in_ro_inst : configuration work.FWFT_FIFO_cfg
generic map (
FIFO_DEPTH => 2,
DATA_WIDTH => WORD_WIDTH+1
)
port map (
-- SYSTEM
reset => reset,
clk => clk,
-- INPUT
full => full_firo_re(i),
write => write_re_firo(i),
data_in => data_re_firo(i),
-- OUTPUT
empty => empty_firo_ro(i),
read => read_ro_firo(i),
data_out(WORD_WIDTH) => last_word_firo_ro(i),
data_out(WORD_WIDTH-1 downto 0) => data_firo_ro(i),
-- MISC
free => open
);
end generate;
end generate;
rtps_out_inst : entity work.rtps_out(arch)
port map (
-- SYSTEM
clk => clk,
reset => reset,
-- INPUT
empty => empty_firo_ro,
rd => read_ro_firo,
data_in => data_firo_ro,
last_word_in => last_word_firo_ro,
-- OUTPUT
full => full,
wr => write,
data_out => data_out
);
service_if_gen : for i in 0 to NUM_SERVICES-1 generate
start_ri_dr(i) <= service_if(i).start_r;
service_if(i).ack_r <= ack_dr_ri(i);
opcode_ri_dr(i) <= service_if(i).opcode_r;
instance_state_ri_dr(i) <= service_if(i).instance_state_r;
view_state_ri_dr(i) <= service_if(i).view_state_r;
sample_state_ri_dr(i) <= service_if(i).sample_state_r;
instance_handle_ri_dr(i) <= service_if(i).instance_handle_r;
max_samples_ri_dr(i) <= service_if(i).max_samples_r;
get_data_ri_dr(i) <= service_if(i).get_data_r;
service_if(i).done_r <= done_dr_ri(i);
service_if(i).return_code_r <= return_code_dr_ri(i);
service_if(i).valid_in_r <= valid_dr_ri(i);
ready_ri_dr(i) <= service_if(i).ready_in_r;
service_if(i).data_in_r <= data_dr_ri(i)(WORD_WIDTH-1 downto 0);
service_if(i).last_word_in_r <= data_dr_ri(i)(WORD_WIDTH);
service_if(i).si_sample_state_r <= si_sample_state_dr_ri(i);
service_if(i).si_view_state_r <= si_view_state_dr_ri(i);
service_if(i).si_instance_state_r <= si_instance_state_dr_ri(i);
service_if(i).si_source_timestamp_r <= si_source_timestamp_dr_ri(i);
service_if(i).si_instance_handle_r <= si_instance_handle_dr_ri(i);
service_if(i).si_publication_handle_r <= si_publication_handle_dr_ri(i);
service_if(i).si_disposed_generation_count_r <= si_disposed_generation_count_dr_ri(i);
service_if(i).si_no_writers_generation_count_r <= si_no_writers_generation_count_dr_ri(i);
service_if(i).si_sample_rank_r <= si_sample_rank_dr_ri(i);
service_if(i).si_generation_rank_r <= si_generation_rank_dr_ri(i);
service_if(i).si_absolute_generation_rank_r <= si_absolute_generation_rank_dr_ri(i);
service_if(i).si_valid_data_r <= si_valid_data_dr_ri(i);
service_if(i).si_valid_r <= si_valid_dr_ri(i);
si_ack_ri_dr(i) <= service_if(i).si_ack_r;
service_if(i).eoc_r <= eoc_dr_ri(i);
service_if(i).status_r <= status_dr_ri(i);
start_wi_dw(i) <= service_if(i).start_w;
service_if(i).ack_w <= ack_dw_wi(i);
opcode_wi_dw(i) <= service_if(i).opcode_w;
service_if(i).instance_handle_out_w <= instance_handle_dw_wi(i);
source_ts_wi_dw(i) <= service_if(i).source_ts_w;
max_wait_wi_dw(i) <= service_if(i).max_wait_w;
service_if(i).done_w <= done_dw_wi(i);
service_if(i).return_code_w <= return_code_dw_wi(i);
instance_handle_wi_dw(i) <= service_if(i).instance_handle_in_w;
valid_wi_dw(i) <= service_if(i).valid_out_w;
service_if(i).ready_out_w <= ready_dw_wi(i);
data_wi_dw(i)(WORD_WIDTH-1 downto 0) <= service_if(i).data_out_w;
data_wi_dw(i)(WORD_WIDTH) <= service_if(i).last_word_out_w;
service_if(i).valid_in_w <= valid_dw_wi(i);
ready_wi_dw(i) <= service_if(i).ready_in_w;
service_if(i).data_in_w <= data_dw_wi(i)(WORD_WIDTH-1 downto 0);
service_if(i).last_word_in_w <= data_dw_wi(i)(WORD_WIDTH);
service_if(i).status_w <= status_dw_wi(i);
end generate;
-- ######GENERATED START######
AddTwoInts_srv_client_inst : entity work.AddTwoInts_srv_client(arch)
port map (
clk => clk,
reset => reset,
start_r => service_if(0).start_r,
ack_r => service_if(0).ack_r,
opcode_r => service_if(0).opcode_r,
instance_state_r => service_if(0).instance_state_r,
view_state_r => service_if(0).view_state_r,
sample_state_r => service_if(0).sample_state_r,
instance_handle_r => service_if(0).instance_handle_r,
max_samples_r => service_if(0).max_samples_r,
get_data_r => service_if(0).get_data_r,
done_r => service_if(0).done_r,
return_code_r => service_if(0).return_code_r,
valid_in_r => service_if(0).valid_in_r,
ready_in_r => service_if(0).ready_in_r,
data_in_r => service_if(0).data_in_r,
last_word_in_r => service_if(0).last_word_in_r,
si_sample_state_r => service_if(0).si_sample_state_r,
si_view_state_r => service_if(0).si_view_state_r,
si_instance_state_r => service_if(0).si_instance_state_r,
si_source_timestamp_r => service_if(0).si_source_timestamp_r,
si_instance_handle_r => service_if(0).si_instance_handle_r,
si_publication_handle_r => service_if(0).si_publication_handle_r,
si_disposed_generation_count_r => service_if(0).si_disposed_generation_count_r,
si_no_writers_generation_count_r => service_if(0).si_no_writers_generation_count_r,
si_sample_rank_r => service_if(0).si_sample_rank_r,
si_generation_rank_r => service_if(0).si_generation_rank_r,
si_absolute_generation_rank_r => service_if(0).si_absolute_generation_rank_r,
si_valid_data_r => service_if(0).si_valid_data_r,
si_valid_r => service_if(0).si_valid_r,
si_ack_r => service_if(0).si_ack_r,
eoc_r => service_if(0).eoc_r,
status_r => service_if(0).status_r,
start_w => service_if(0).start_w,
ack_w => service_if(0).ack_w,
opcode_w => service_if(0).opcode_w,
instance_handle_out_w => service_if(0).instance_handle_out_w,
source_ts_w => service_if(0).source_ts_w,
max_wait_w => service_if(0).max_wait_w,
done_w => service_if(0).done_w,
return_code_w => service_if(0).return_code_w,
instance_handle_in_w => service_if(0).instance_handle_in_w,
valid_out_w => service_if(0).valid_out_w,
ready_out_w => service_if(0).ready_out_w,
data_out_w => service_if(0).data_out_w,
last_word_out_w => service_if(0).last_word_out_w,
valid_in_w => service_if(0).valid_in_w,
ready_in_w => service_if(0).ready_in_w,
data_in_w => service_if(0).data_in_w,
last_word_in_w => service_if(0).last_word_in_w,
status_w => service_if(0).status_w,
start_user => start_c,
ack_user => ack_c,
opcode_user => opcode_c,
service_info_user => service_info_c,
sequence_id_user => sequence_id_c,
taken_user => taken_c,
data_available_user => data_available_c,
a => a_c,
b => b_c,
sum => sum_c,
done_user => done_c,
return_code_user => return_code_c
);
-- ######GENERATED END######
end architecture;

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@ -0,0 +1,78 @@
-- altera vhdl_input_version vhdl_2008
-- XXX: QSYS Fix (https://www.intel.com/content/www/us/en/support/programmable/articles/000079458.html)
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.rtps_package.all;
use work.ros_package.all;
use work.AddTwoInts_package.all;
package ros_config is
-- IPv4 Address of ROS System [Default 192.168.0.130]
constant ROS_ADDRESS : std_logic_vector(IPv4_ADDRESS_WIDTH-1 downto 0) := x"C0A80082";
-- Random Key used to generate GUIDs
constant ROS_RAND_KEY : std_logic_vector(47 downto 0) := x"6E6592234DB4";
constant NUM_NODES : natural := 1;
constant ROS_NODES : ROS_NODE_ARRAY_TYPE(0 to NUM_NODES-1) := (
0 => (
name => gen_user_string("add_two_ints_client"),
namespace => gen_user_string(""),
domain_id => 0,
NUM_PUBS => 0,
NUM_SUBS => 0,
NUM_SERVICES => 1,
NUM_ACTIONS => 0
)
);
constant NUM_PUBS : natural := get_num_pubs(ROS_NODES);
constant NUM_SUBS : natural := get_num_subs(ROS_NODES);
constant NUM_SERVICES : natural := get_num_services(ROS_NODES);
constant NUM_ACTIONS : natural := get_num_actions(ROS_NODES);
constant ROS_PUBLICATIONS : ROS_TOPIC_ARRAY_TYPE(0 to NUM_PUBS-1) := (
others => (
node_id => 0,
TOPICNAME => gen_user_string(""),
TYPENAME => gen_user_string(""),
QOS => ROS_QOS_PROFILE_DEFAULT,
MAX_SIZE => 0
)
);
constant ROS_SUBSCRIPTIONS : ROS_TOPIC_ARRAY_TYPE(0 to NUM_SUBS-1) := (
others => (
node_id => 0,
TOPICNAME => gen_user_string(""),
TYPENAME => gen_user_string(""),
QOS => ROS_QOS_PROFILE_DEFAULT,
MAX_SIZE => 0
)
);
constant ROS_SERVICES : ROS_SERVICE_ARRAY_TYPE(0 to NUM_SERVICES-1) := (
0 => (
node_id => 0,
SERVICENAME => gen_user_string("add_two_ints"),
TYPENAME => gen_user_string("example_interfaces::srv::dds_::AddTwoInts_Request_"),
QOS => ROS_QOS_PROFILE_TRANSIENT,
MAX_RQ_SIZE => MAX_ADDTWOINTS_RQ_SIZE,
MAX_RR_SIZE => MAX_ADDTWOINTS_RR_SIZE,
is_client => TRUE
)
);
constant ROS_ACTIONS : ROS_ACTION_ARRAY_TYPE(0 to NUM_ACTIONS-1) := (
others => (
node_id => 0
)
);
-- Defines sensible RTPS timings for simulation
constant SIMULATION_TIMING : boolean := TRUE;
end package;

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@ -1,7 +1,81 @@
# Compile OSVVM Library
include ../OSVVM/osvvm.pro
include ../../OSVVM/osvvm.pro
library Testbench_ROS_Lib2
analyze ../../math_pkg.vhd
analyze ../../rtps_package.vhd
analyze ../ros_package.vhd
analyze ../example_interfaces/AddTwoInts_package.vhd
analyze Level_2/L2_Testbench_ROS_Lib2_config.vhd
analyze ../dds_user_config.vhd
analyze ../../rtps_config_package.vhd
analyze ../../rtps_test_package.vhd
analyze ../ros_config_package.vhd
analyze ../../single_port_ram.vhd
analyze ../../single_port_ram_Altera.vhd
analyze ../../single_port_ram_cfg.vhd
analyze ../../dual_port_ram.vhd
analyze ../../dual_port_ram_Altera.vhd
analyze ../../dual_port_ram_cfg.vhd
analyze ../../FWFT_FIFO.vhd
analyze ../../FWFT_FIFO_Altera.vhd
analyze ../../FWFT_FIFO_cfg.vhd
analyze ../../mem_ctrl.vhd
analyze ../../dp_mem_ctrl.vhd
analyze ../../rtps_handler.vhd
analyze ../../rtps_discovery_module.vhd
analyze ../../rtps_out.vhd
analyze ../../rtps_reader.vhd
analyze ../../rtps_writer.vhd
analyze ../../dds_writer.vhd
analyze ../../dds_reader.vhd
analyze ../../key_holder.vhd
analyze ../../key_hash_generator.vhd
analyze ../../Tests/test_key_holder.vhd
analyze ../../Tests/test_key_hash_generator.vhd
analyze ../ros_static_discovery_writer.vhd
analyze ../example_interfaces/AddTwoInts_srv_client.vhd
analyze ../example_interfaces/AddTwoInts_srv_server.vhd
analyze AddTwoInts.vhd
analyze Level_2/L2_Testbench_ROS_Lib2.vhd
library Testbench_ROS_Lib3
analyze ../../math_pkg.vhd
analyze ../../rtps_package.vhd
analyze ../ros_package.vhd
analyze ../example_interfaces/AddTwoInts_package.vhd
analyze Level_2/L2_Testbench_ROS_Lib3_config.vhd
analyze ../dds_user_config.vhd
analyze ../../rtps_config_package.vhd
analyze ../../rtps_test_package.vhd
analyze ../ros_config_package.vhd
analyze ../../single_port_ram.vhd
analyze ../../single_port_ram_Altera.vhd
analyze ../../single_port_ram_cfg.vhd
analyze ../../dual_port_ram.vhd
analyze ../../dual_port_ram_Altera.vhd
analyze ../../dual_port_ram_cfg.vhd
analyze ../../FWFT_FIFO.vhd
analyze ../../FWFT_FIFO_Altera.vhd
analyze ../../FWFT_FIFO_cfg.vhd
analyze ../../mem_ctrl.vhd
analyze ../../dp_mem_ctrl.vhd
analyze ../../rtps_handler.vhd
analyze ../../rtps_discovery_module.vhd
analyze ../../rtps_out.vhd
analyze ../../rtps_reader.vhd
analyze ../../rtps_writer.vhd
analyze ../../dds_writer.vhd
analyze ../../dds_reader.vhd
analyze ../../key_holder.vhd
analyze ../../key_hash_generator.vhd
analyze ../../Tests/test_key_holder.vhd
analyze ../../Tests/test_key_hash_generator.vhd
analyze ../ros_static_discovery_writer.vhd
analyze ../example_interfaces/AddTwoInts_srv_client.vhd
analyze ../example_interfaces/AddTwoInts_srv_server.vhd
analyze Level_2/L2_Testbench_ROS_Lib3.vhd
# Compile
library Testbench_ROS_Lib1
analyze ../../math_pkg.vhd
analyze ../../rtps_package.vhd
@ -13,7 +87,8 @@ analyze ../example_interfaces/AddTwoInts_srv_client.vhd
analyze ../example_interfaces/AddTwoInts_srv_server.vhd
analyze Level_1/L1_AddTwoInts_srv_test1.vhd
analyze Level_1/L1_AddTwoInts_srv_test2.vhd
analyze Level_2/L2_AddTwoInts_test1.vhd
# Simulate
simulate L1_AddTwoInts_srv_test1
simulate L1_AddTwoInts_srv_test2
#simulate L1_AddTwoInts_srv_test1
#simulate L1_AddTwoInts_srv_test2
simulate L2_AddTwoInts_test1

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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.math_pkg.all;
use work.ros_package.all;
package AddTwoInts_package is
-- REQUEST
constant MAX_RQ_A_SIZE : natural := 8;
constant MAX_RQ_B_SIZE : natural := 8; -- 16
constant MAX_ADDTWOINTS_RQ_SIZE : natural := 16 + SERVICE_OVERHEAD_BYTES;
-- RESPONSE
constant MAX_RR_SUM_SIZE : natural := 8;
constant MAX_ADDTWOINTS_RR_SIZE : natural := 8 + SERVICE_OVERHEAD_BYTES;
end package;