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aaron:v1.2.1 aaron:v1.2 aaron:v1.1 aaron:v1.0

1 Commits
be4fbf124d ... gazebo-doc

Author SHA1 Message Date
Aaron
4d84b5f8cc added docker compose 2026-01-07 20:01:39 -06:00
35 changed files with 1444 additions and 2359 deletions
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89
README.md
View File

@@ -16,9 +16,6 @@ You will use these packages to launch all rover-side ROS2 nodes.
- [Connecting the GuliKit Controller](#connecting-the-gulikit-controller) - [Connecting the GuliKit Controller](#connecting-the-gulikit-controller)
- [Common Problems/Toubleshooting](#common-problemstroubleshooting) - [Common Problems/Toubleshooting](#common-problemstroubleshooting)
- [Packages](#packages) - [Packages](#packages)
- [Graphs](#graphs)
- [Full System](#full-system)
- [Individual Nodes](#individual-nodes)
- [Maintainers](#maintainers) - [Maintainers](#maintainers)
## Software Prerequisites ## Software Prerequisites
@@ -60,33 +57,6 @@ $ ros2 launch anchor_pkg rover.launch.py # Must be run on a computer connected
$ ros2 run headless_pkg headless_full # Optionally run in a separate shell on the same or different computer. $ ros2 run headless_pkg headless_full # Optionally run in a separate shell on the same or different computer.
``` ```
### Using the Mock Connector
Anchor provides a mock connector meant for testing and scripting purposes. You can select the mock connector by running anchor with this command:
```bash
$ ros2 launch anchor_pkg rover.launch.py connector:="mock"
```
To see all data that would be sent over the CAN network (and thus to the microcontrollers), use this command:
```bash
$ ros2 topic echo /anchor/to_vic/debug
```
To send data to the mock connector (as if you were a ROS2 node), use the normal relay topic:
```bash
$ ros2 topic pub /anchor/to_vic/relay astra_msgs/msg/VicCAN '{mcu_name: "core", command_id: 50, data: [0.0, 2.0, 0.0, 1.0]}'
```
To send data to the mock connector (as if you were a microcontroller), publish to the dedicated topic:
```bash
$ ros2 topic pub /anchor/from_vic/mock_mcu astra_msgs/msg/VicCAN '{mcu_name: "arm", command_id: 55, data: [0.0, 450.0, 900.0, 0.0]}'
```
### Testing Serial ### Testing Serial
You can fake the presence of a Serial device (i.e., MCU) by using the following command: You can fake the presence of a Serial device (i.e., MCU) by using the following command:
@@ -95,31 +65,10 @@ You can fake the presence of a Serial device (i.e., MCU) by using the following
$ socat -dd -v pty,rawer,crnl,link=/tmp/ttyACM9 pty,rawer,crnl,link=/tmp/ttyOUT $ socat -dd -v pty,rawer,crnl,link=/tmp/ttyACM9 pty,rawer,crnl,link=/tmp/ttyOUT
``` ```
When you go to run anchor, use the `serial_override` ROS2 parameter to point it to the fake serial port, like so: When you go to run anchor, use the `PORT_OVERRIDE` environment variable to point it to the fake serial port, like so:
```bash ```bash
$ ros2 launch anchor_pkg rover.launch.py connector:=serial serial_override:=/tmp/ttyACM9 $ PORT_OVERRIDE=/tmp/ttyACM9 ros2 launch anchor_pkg rover.launch.py
```
### Testing CAN
You can create a virtual CAN network by using the following commands to create and then enable it:
```bash
sudo ip link add dev vcan0 type vcan
sudo ip link set vcan0 up
```
When you go to run anchor, use the `can_override` ROS2 parameter to point it to the virtual CAN network, like so:
```bash
$ ros2 launch anchor_pkg rover.launch.py connector:=can can_override:=vcan0
```
Once you're done, you should delete the virtual network so that anchor doesn't get confused if you plug in a real CAN adapter:
```bash
$ sudo ip link delete vcan0
``` ```
### Connecting the GuliKit Controller ### Connecting the GuliKit Controller
@@ -191,40 +140,6 @@ A: To find a microcontroller to talk to, Anchor sends a ping to every Serial por
- [ros2\_interfaces\_pkg](./src/ros2_interfaces_pkg) - Contains custom message types for communication between basestation and the rover over ROS2. (being renamed to `astra_msgs`). - [ros2\_interfaces\_pkg](./src/ros2_interfaces_pkg) - Contains custom message types for communication between basestation and the rover over ROS2. (being renamed to `astra_msgs`).
- [servo\_arm\_twist\_pkg](./src/servo_arm_twist_pkg) - A temporary node to translate controller state from `ros2_joy` to `Twist` messages to control the Arm via IK. - [servo\_arm\_twist\_pkg](./src/servo_arm_twist_pkg) - A temporary node to translate controller state from `ros2_joy` to `Twist` messages to control the Arm via IK.
## Graphs
### Full System
> **Anchor stand-alone** (`ros2 launch anchor_pkg rover.launch.py`)
>
> ![rqt_graph of Anchor by itself, ran with command: ros2 launch anchor_pkg rover.launch.py](./docs-resources/graph-anchor-standalone.png)
> **Anchor with [basestation-classic](https://github.com/SHC-ASTRA/basestation-classic)**
>
> ![rqt_graph of Anchor ran with the same command as above, talking to basestation-classic](./docs-resources/graph-anchor-w-basestation-classic.png)
> **Anchor with Headless** (`ros2 run headless_pkg headless_full`)
>
> ![rqt_graph of Anchor ran with Headless](./docs-resources/graph-anchor-w-headless.png)
### Individual Nodes
> **Anchor** (`ros2 run anchor_pkg anchor`)
>
> ![rqt_graph of Anchor node running by itself](./docs-resources/graph-anchor-anchor-standalone.png)
> **Core** (`ros2 run core_pkg core --ros-args -p launch_mode:=anchor`)
>
> ![rqt_graph of Core node running by itself](./docs-resources/graph-anchor-core-standalone.png)
> **Arm** (`ros2 run arm_pkg arm --ros-args -p launch_mode:=anchor`)
>
> ![rqt_graph of Arm node running by itself](./docs-resources/graph-anchor-arm-standalone.png)
> **Bio** (`ros2 run bio_pkg bio --ros-args -p launch_mode:=anchor`)
>
> ![rqt_graph of Bio node running by itself](./docs-resources/graph-anchor-bio-standalone.png)
## Maintainers ## Maintainers
| Name | Email | Discord | | Name | Email | Discord |

12
auto_start/auto_start_anchor.sh
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@@ -1,12 +1,12 @@
#!/usr/bin/env bash #!/usr/bin/env bash
set -e set -e
SCRIPT_DIR=$(cd -- "$(dirname -- "${BASH_SOURCE[0]}")" &>/dev/null && pwd) SCRIPT_DIR=$( cd -- "$( dirname -- "${BASH_SOURCE[0]}" )" &> /dev/null && pwd )
# Wait for a network interface to be up (not necessarily online) # Wait for a network interface to be up (not necessarily online)
while ! ip link show | grep -q "state UP"; do while ! ip link show | grep -q "state UP"; do
echo "[INFO] Waiting for active network interface..." echo "[INFO] Waiting for active network interface..."
sleep 1 sleep 1
done done
echo "[INFO] Network interface is up!" echo "[INFO] Network interface is up!"
@@ -15,11 +15,7 @@ echo "[INFO] Network interface is up!"
echo "[INFO] Starting ROS node..." echo "[INFO] Starting ROS node..."
# Source ROS 2 Humble setup script # Source ROS 2 Humble setup script
if command -v nixos-rebuild; then source /opt/ros/humble/setup.bash
echo "[INFO] running on NixOS"
else
source /opt/ros/humble/setup.bash
fi
# Source your workspace setup script # Source your workspace setup script
source $SCRIPT_DIR/../install/setup.bash source $SCRIPT_DIR/../install/setup.bash

13
auto_start/auto_start_headless_full.sh
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@@ -1,12 +1,12 @@
#!/usr/bin/env bash #!/usr/bin/env bash
set -e set -e
SCRIPT_DIR=$(cd -- "$(dirname -- "${BASH_SOURCE[0]}")" &>/dev/null && pwd) SCRIPT_DIR=$( cd -- "$( dirname -- "${BASH_SOURCE[0]}" )" &> /dev/null && pwd )
# Wait for a network interface to be up (not necessarily online) # Wait for a network interface to be up (not necessarily online)
while ! ip link show | grep -q "state UP"; do while ! ip link show | grep -q "state UP"; do
echo "[INFO] Waiting for active network interface..." echo "[INFO] Waiting for active network interface..."
sleep 1 sleep 1
done done
echo "[INFO] Network interface is up!" echo "[INFO] Network interface is up!"
@@ -15,14 +15,11 @@ echo "[INFO] Network interface is up!"
echo "[INFO] Starting ROS node..." echo "[INFO] Starting ROS node..."
# Source ROS 2 Humble setup script # Source ROS 2 Humble setup script
if command -v nixos-rebuild; then source /opt/ros/humble/setup.bash
echo "[INFO] running on NixOS"
else
source /opt/ros/humble/setup.bash
fi
# Source your workspace setup script # Source your workspace setup script
source $SCRIPT_DIR/../install/setup.bash source $SCRIPT_DIR/../install/setup.bash
# Launch the ROS 2 node # Launch the ROS 2 node
ros2 run headless_pkg headless_full ros2 run headless_pkg headless_full

19
auto_start/start_rosbag.sh
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@@ -1,26 +1,23 @@
#!/usr/bin/env bash #!/usr/bin/env bash
set -e set -e
SCRIPT_DIR=$(cd -- "$(dirname -- "${BASH_SOURCE[0]}")" &>/dev/null && pwd) SCRIPT_DIR=$( cd -- "$( dirname -- "${BASH_SOURCE[0]}" )" &> /dev/null && pwd )
[[ -z $ANCHOR_WS ]] && ANCHOR_WS="$SCRIPT_DIR/.." [[ -z "$ANCHOR_WS" ]] && ANCHOR_WS="$SCRIPT_DIR/.."
[[ -z $AUTONOMY_WS ]] && AUTONOMY_WS="$HOME/rover-Autonomy" [[ -z "$AUTONOMY_WS" ]] && AUTONOMY_WS="$HOME/rover-Autonomy"
BAG_LOCATION="$HOME/bags/autostart" BAG_LOCATION="$HOME/bags/autostart"
[[ ! -d $BAG_LOCATION ]] && mkdir -p "$BAG_LOCATION" [[ ! -d "$BAG_LOCATION" ]] && mkdir -p "$BAG_LOCATION"
# Wait for a network interface to be up (not necessarily online) # Wait for a network interface to be up (not necessarily online)
while ! ip link show | grep -q "state UP"; do while ! ip link show | grep -q "state UP"; do
echo "[INFO] Waiting for active network interface..." echo "[INFO] Waiting for active network interface..."
sleep 1 sleep 1
done done
echo "[INFO] Network interface is up!" echo "[INFO] Network interface is up!"
if command -v nixos-rebuild; then
echo "[INFO] running on NixOS" source /opt/ros/humble/setup.bash
else
source /opt/ros/humble/setup.bash
fi
source $ANCHOR_WS/install/setup.bash source $ANCHOR_WS/install/setup.bash
[[ -f $AUTONOMY_WS/install/setup.bash ]] && source $AUTONOMY_WS/install/setup.bash [[ -f $AUTONOMY_WS/install/setup.bash ]] && source $AUTONOMY_WS/install/setup.bash

18
docker-compose.yml Normal file
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@@ -0,0 +1,18 @@
services:
ros2:
image: osrf/ros:jazzy-desktop-full
container_name: ros2_jazzy_gui
network_mode: host
environment:
- DISPLAY=${DISPLAY}
- QT_X11_NO_MITSHM=1
- XAUTHORITY=/tmp/.docker.xauth
- NVIDIA_VISIBLE_DEVICES=all
- NVIDIA_DRIVER_CAPABILITIES=all
volumes:
- /tmp/.X11-unix:/tmp/.X11-unix:rw
- ./ros_ws:/ros_ws
stdin_open: true
tty: true
privileged: true

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37
flake.lock generated
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@@ -24,11 +24,11 @@
"nixpkgs": "nixpkgs" "nixpkgs": "nixpkgs"
}, },
"locked": { "locked": {
"lastModified": 1775216071, "lastModified": 1761810010,
"narHash": "sha256-PrPW70Fh1uLx3JxNV/NLeXjUhgfrZmi7ac8LJOlS0q4=", "narHash": "sha256-o0wJKW603SiOO373BTgeZaF6nDxegMA/cRrzSC2Cscg=",
"owner": "lopsided98", "owner": "lopsided98",
"repo": "nix-ros-overlay", "repo": "nix-ros-overlay",
"rev": "197a2b55c4ed24f8b885a5b20b65f426fb6d57ca", "rev": "e277df39e3bc6b372a5138c0bcf10198857c55ab",
"type": "github" "type": "github"
}, },
"original": { "original": {
@@ -40,11 +40,11 @@
}, },
"nixpkgs": { "nixpkgs": {
"locked": { "locked": {
"lastModified": 1759381078, "lastModified": 1744849697,
"narHash": "sha256-gTrEEp5gEspIcCOx9PD8kMaF1iEmfBcTbO0Jag2QhQs=", "narHash": "sha256-S9hqvanPSeRu6R4cw0OhvH1rJ+4/s9xIban9C4ocM/0=",
"owner": "NixOS", "owner": "lopsided98",
"repo": "nixpkgs", "repo": "nixpkgs",
"rev": "7df7ff7d8e00218376575f0acdcc5d66741351ee", "rev": "6318f538166fef9f5118d8d78b9b43a04bb049e4",
"type": "github" "type": "github"
}, },
"original": { "original": {
@@ -60,8 +60,7 @@
"nixpkgs": [ "nixpkgs": [
"nix-ros-overlay", "nix-ros-overlay",
"nixpkgs" "nixpkgs"
], ]
"treefmt-nix": "treefmt-nix"
} }
}, },
"systems": { "systems": {
@@ -78,26 +77,6 @@
"repo": "default", "repo": "default",
"type": "github" "type": "github"
} }
},
"treefmt-nix": {
"inputs": {
"nixpkgs": [
"nixpkgs"
]
},
"locked": {
"lastModified": 1773297127,
"narHash": "sha256-6E/yhXP7Oy/NbXtf1ktzmU8SdVqJQ09HC/48ebEGBpk=",
"owner": "numtide",
"repo": "treefmt-nix",
"rev": "71b125cd05fbfd78cab3e070b73544abe24c5016",
"type": "github"
},
"original": {
"owner": "numtide",
"repo": "treefmt-nix",
"type": "github"
}
} }
}, },
"root": "root", "root": "root",

26
flake.nix
View File

@@ -4,11 +4,6 @@
inputs = { inputs = {
nix-ros-overlay.url = "github:lopsided98/nix-ros-overlay/master"; nix-ros-overlay.url = "github:lopsided98/nix-ros-overlay/master";
nixpkgs.follows = "nix-ros-overlay/nixpkgs"; # IMPORTANT!!! nixpkgs.follows = "nix-ros-overlay/nixpkgs"; # IMPORTANT!!!
treefmt-nix = {
url = "github:numtide/treefmt-nix";
inputs.nixpkgs.follows = "nixpkgs";
};
}; };
outputs = outputs =
@@ -16,8 +11,7 @@
self, self,
nix-ros-overlay, nix-ros-overlay,
nixpkgs, nixpkgs,
... }:
}@inputs:
nix-ros-overlay.inputs.flake-utils.lib.eachDefaultSystem ( nix-ros-overlay.inputs.flake-utils.lib.eachDefaultSystem (
system: system:
let let
@@ -31,12 +25,9 @@
name = "ASTRA Anchor"; name = "ASTRA Anchor";
packages = with pkgs; [ packages = with pkgs; [
colcon colcon
socat (python312.withPackages (
can-utils
(python313.withPackages (
p: with p; [ p: with p; [
pyserial pyserial
python-can
pygame pygame
scipy scipy
crccheck crccheck
@@ -65,12 +56,10 @@
control-msgs control-msgs
control-toolbox control-toolbox
moveit-core moveit-core
moveit-planners
moveit-common moveit-common
moveit-msgs moveit-msgs
moveit-ros-planning moveit-ros-planning
moveit-ros-planning-interface moveit-ros-planning-interface
moveit-ros-visualization
moveit-configs-utils moveit-configs-utils
moveit-ros-move-group moveit-ros-move-group
moveit-servo moveit-servo
@@ -79,9 +68,9 @@
pilz-industrial-motion-planner pilz-industrial-motion-planner
pick-ik pick-ik
ompl ompl
joy
ros2-controllers
chomp-motion-planner chomp-motion-planner
joy
# ros2-controllers nixpkg does not build :(
]; ];
} }
) )
@@ -92,14 +81,11 @@
export QT_X11_NO_MITSHM=1 export QT_X11_NO_MITSHM=1
''; '';
}; };
formatter = (inputs.treefmt-nix.lib.evalModule pkgs ./treefmt.nix).config.build.wrapper;
} }
); );
nixConfig = { nixConfig = {
# Cache to pull ros packages from extra-substituters = [ "https://ros.cachix.org" ];
extra-substituters = [ "https://ros.cachix.org" "https://attic.iid.ciirc.cvut.cz/ros" ]; extra-trusted-public-keys = [ "ros.cachix.org-1:dSyZxI8geDCJrwgvCOHDoAfOm5sV1wCPjBkKL+38Rvo=" ];
extra-trusted-public-keys = [ "ros.cachix.org-1:dSyZxI8geDCJrwgvCOHDoAfOm5sV1wCPjBkKL+38Rvo=" "ros:JR95vUYsShSqfA1VTYoFt1Nz6uXasm5QrcOsGry9f6Q=" ];
}; };
} }

38
scripts/reset-repo.bash
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@@ -1,38 +0,0 @@
#!/usr/bin/env bash
repo_root="$(git rev-parse --show-toplevel)"
if [[ -z $repo_root ]]; then
echo "script must be run from within the rover-ros2 repo" >&2
exit 1
fi
cd $repo_root
echo "this will nuke all of your current un-commited git changes, including any changes to submodules and any gitignored files. is this okay? (y/N)"
read okay
if [[ $okay != "y" ]]; then
echo "you didn't say exactly 'y'. aborting." >&2
exit 2
fi
echo
echo "ok say goodbye to everything in this repo"
git submodule deinit --all -f && echo "- submodules gone"
git clean -fdx && echo "- gitignored changes gone"
git add -A
git reset HEAD --hard && echo "- everything else gone"
git submodule update --init --recursive && echo "- brought the submodules back"
echo
echo "in theory that should've done it. let's make sure"
status=$(git status --porcelain)
echo $status
if [[ -z $status ]]; then
echo "nice, all clean!"
else
echo "uhh that's not supposed to be there. this is probably a bug in this script. good luck!" >&2
exit 3
fi

463
scripts/test-connectors.bash
View File

@@ -1,463 +0,0 @@
#!/usr/bin/env bash
# test script for anchor connectors (mock, serial, CAN)
set -o pipefail
repo_root="$(git rev-parse --show-toplevel)"
if [[ -z $repo_root ]]; then
echo "script must be run from within the rover-ros2 repo" >&2
exit 1
fi
cd "$repo_root"
# colors
BOLD='\033[1m'
RED='\033[1;31m'
GREEN='\033[1;32m'
YELLOW='\033[1;33m'
NC='\033[0m'
TESTS_PASSED=0
TESTS_FAILED=0
log() {
echo -e "${BOLD}${YELLOW}info:${NC} ${1}"
}
pass() {
echo -e "${BOLD}${GREEN}pass:${NC} ${1}"
TESTS_PASSED=$((TESTS_PASSED + 1))
}
fail() {
echo -e "${BOLD}${RED}fail:${NC} ${1}"
TESTS_FAILED=$((TESTS_FAILED + 1))
}
cleanup() {
log "cleaning up"
if [[ -n $ANCHOR_PID ]]; then
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
wait "$ANCHOR_PID" 2>/dev/null || true
fi
if [[ -n $SOCAT_PID ]]; then
kill -INT "$SOCAT_PID" 2>/dev/null || true
wait "$SOCAT_PID" 2>/dev/null || true
fi
rm -f /tmp/ttyACM9 /tmp/ttyOUT 2>/dev/null || true
}
trap cleanup EXIT
source_ros2() {
source install/setup.bash
}
wait_for_topic() {
local topic="$1"
local timeout="${2:-5}"
local count=0
while ! ros2 topic list 2>/dev/null | grep -q "^${topic}$"; do
sleep 0.5
count=$((count + 1))
if [[ $count -ge $((timeout * 2)) ]]; then
return 1
fi
done
return 0
}
# run a ROS pub/echo test
# usage: ros_pubsub_test <echo_topic> <pub_topic> <msg_type> <msg_data>
# returns the echo output via stdout
ros_pubsub_test() {
local echo_topic="$1"
local pub_topic="$2"
local msg_type="$3"
local msg_data="$4"
timeout 5 bash -c "
ros2 topic echo --once $echo_topic &
ECHO_PID=\$!
sleep 0.5
ros2 topic pub --once $pub_topic $msg_type \"$msg_data\" >/dev/null 2>&1
wait \$ECHO_PID
" 2>/dev/null || true
}
test_mock_connector() {
log "testing mock connector"
log "starting anchor with mock connector"
setsid ros2 run anchor_pkg anchor --ros-args -p connector:=mock &
ANCHOR_PID=$!
sleep 2
if ! kill -0 "$ANCHOR_PID" 2>/dev/null; then
fail "mock connector: anchor failed to start"
return 1
fi
if ! wait_for_topic "/anchor/to_vic/relay" 10; then
fail "mock connector: topics not available"
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
return 1
fi
log "anchor started successfully"
# test: relay -> debug
log "testing relay -> debug"
local output
output=$(ros_pubsub_test "/anchor/to_vic/debug" "/anchor/to_vic/relay" \
"astra_msgs/msg/VicCAN" '{mcu_name: \"core\", command_id: 50, data: [1.0, 2.0, 3.0, 4.0]}')
if [[ -n $output ]] && echo "$output" | grep -q "can_relay_tovic,core,50"; then
pass "mock connector: relay -> debug"
else
fail "mock connector: relay -> debug"
fi
# test: mock_mcu -> from_vic/core
log "testing mock_mcu (core) -> from_vic/core"
output=$(ros_pubsub_test "/anchor/from_vic/core" "/anchor/from_vic/mock_mcu" \
"astra_msgs/msg/VicCAN" '{mcu_name: \"core\", command_id: 10, data: [100.0, 200.0]}')
if [[ -n $output ]] && echo "$output" | grep -q "mcu_name: core" && echo "$output" | grep -q "command_id: 10"; then
pass "mock connector: mock_mcu -> from_vic/core"
else
fail "mock connector: mock_mcu -> from_vic/core"
fi
# test: mock_mcu -> from_vic/arm
log "testing mock_mcu (arm) -> from_vic/arm"
output=$(ros_pubsub_test "/anchor/from_vic/arm" "/anchor/from_vic/mock_mcu" \
"astra_msgs/msg/VicCAN" '{mcu_name: \"arm\", command_id: 55, data: [0.0, 450.0, 900.0, 0.0]}')
if [[ -n $output ]] && echo "$output" | grep -q "mcu_name: arm" && echo "$output" | grep -q "command_id: 55"; then
pass "mock connector: mock_mcu -> from_vic/arm"
else
fail "mock connector: mock_mcu -> from_vic/arm"
fi
# test: mock_mcu -> from_vic/bio
log "testing mock_mcu (citadel) -> from_vic/bio"
output=$(ros_pubsub_test "/anchor/from_vic/bio" "/anchor/from_vic/mock_mcu" \
"astra_msgs/msg/VicCAN" '{mcu_name: \"citadel\", command_id: 20, data: [5.0]}')
if echo "$output" | grep -q "mcu_name: citadel" && echo "$output" | grep -q "command_id: 20"; then
pass "mock connector: mock_mcu -> from_vic/bio"
else
fail "mock connector: mock_mcu -> from_vic/bio"
fi
# test: relay_string -> debug
log "testing relay_string -> debug"
output=$(ros_pubsub_test "/anchor/to_vic/debug" "/anchor/to_vic/relay_string" \
"std_msgs/msg/String" '{data: \"test_raw_string_data\"}')
if [[ -n $output ]] && echo "$output" | grep -q "test_raw_string_data"; then
pass "mock connector: relay_string -> debug"
else
fail "mock connector: relay_string -> debug"
fi
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
wait "$ANCHOR_PID" 2>/dev/null || true
ANCHOR_PID=""
}
test_serial_connector() {
log "testing serial connector"
log "creating virtual serial ports with socat"
socat pty,raw,echo=0,link=/tmp/ttyACM9 pty,raw,echo=0,link=/tmp/ttyOUT 2>/dev/null &
SOCAT_PID=$!
sleep 2
if ! kill -0 "$SOCAT_PID" 2>/dev/null; then
fail "serial connector: failed to create virtual serial ports"
return 1
fi
log "starting anchor with serial connector (override: /tmp/ttyACM9)"
setsid ros2 run anchor_pkg anchor --ros-args -p connector:=serial -p serial_override:=/tmp/ttyACM9 &
ANCHOR_PID=$!
sleep 2
if ! kill -0 "$ANCHOR_PID" 2>/dev/null; then
fail "serial connector: anchor failed to start"
kill -INT "$SOCAT_PID" 2>/dev/null || true
return 1
fi
if ! wait_for_topic "/anchor/to_vic/relay" 10; then
fail "serial connector: topics not available"
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
kill -INT "$SOCAT_PID" 2>/dev/null || true
return 1
fi
pass "serial connector: anchor starts with virtual serial"
# test: relay -> serial output (VicCAN encoding)
log "testing relay -> serial output"
local serial_out_file
serial_out_file=$(mktemp)
# Start head first (blocks waiting for input), then publish
timeout 5 head -n1 /tmp/ttyOUT >"$serial_out_file" &
local head_pid=$!
sleep 0.3
ros2 topic pub --once /anchor/to_vic/relay astra_msgs/msg/VicCAN \
'{mcu_name: "core", command_id: 30, data: [1.0, 2.0, 3.0, 4.0]}' >/dev/null 2>&1
wait $head_pid 2>/dev/null || true
local serial_out
serial_out=$(cat "$serial_out_file")
rm -f "$serial_out_file"
if [[ -n $serial_out ]] && echo "$serial_out" | grep -q "can_relay_tovic,core,30"; then
pass "serial connector: relay -> serial output"
else
fail "serial connector: relay -> serial output (got: $serial_out)"
fi
# test: serial input -> from_vic/core
log "testing serial input -> from_vic/core"
local output
output=$(timeout 5 bash -c '
ros2 topic echo --once /anchor/from_vic/core &
ECHO_PID=$!
sleep 0.5
echo "can_relay_fromvic,core,15,10.0,20.0,30.0,40.0" > /tmp/ttyOUT
sleep 0.5
echo "can_relay_fromvic,core,15,10.0,20.0,30.0,40.0" > /tmp/ttyOUT
wait $ECHO_PID
' 2>/dev/null) || true
if echo "$output" | grep -q "mcu_name: core" && echo "$output" | grep -q "command_id: 15"; then
pass "serial connector: serial input -> from_vic/core"
else
fail "serial connector: serial input -> from_vic/core (got: $output)"
fi
# test: relay_string -> debug
log "testing relay_string -> debug"
output=$(ros_pubsub_test "/anchor/to_vic/debug" "/anchor/to_vic/relay_string" \
"std_msgs/msg/String" '{data: \"serial_test_string\"}')
if [[ -n $output ]] && echo "$output" | grep -q "serial_test_string"; then
pass "serial connector: relay_string -> debug"
else
fail "serial connector: relay_string -> debug"
fi
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
wait "$ANCHOR_PID" 2>/dev/null || true
ANCHOR_PID=""
kill -INT "$SOCAT_PID" 2>/dev/null || true
wait "$SOCAT_PID" 2>/dev/null || true
SOCAT_PID=""
}
test_can_connector() {
log "testing CAN connector"
log "starting anchor with CAN connector (override: vcan0)"
setsid ros2 run anchor_pkg anchor --ros-args -p connector:=can -p can_override:=vcan0 &
ANCHOR_PID=$!
sleep 2
if ! kill -0 "$ANCHOR_PID" 2>/dev/null; then
fail "CAN connector: anchor failed to start"
return 1
fi
if ! wait_for_topic "/anchor/to_vic/relay" 10; then
fail "CAN connector: topics not available"
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
return 1
fi
log "anchor started successfully"
sleep 1
# test: relay -> CAN bus
# core=1, int16x4=2, cmd=30 -> id = (1<<8)|(2<<6)|30 = 0x19E
log "testing relay -> CAN bus"
local output
output=$(timeout 8 bash -c '
candump -n 1 vcan0 &
DUMP_PID=$!
sleep 1
ros2 topic pub --once /anchor/to_vic/relay astra_msgs/msg/VicCAN "{mcu_name: \"core\", command_id: 30, data: [1, 2, 3, 4]}" >/dev/null 2>&1
sleep 0.5
ros2 topic pub --once /anchor/to_vic/relay astra_msgs/msg/VicCAN "{mcu_name: \"core\", command_id: 30, data: [1, 2, 3, 4]}" >/dev/null 2>&1
wait $DUMP_PID
' 2>/dev/null) || true
if echo "$output" | grep -qi "19E"; then
pass "CAN connector: relay -> CAN bus"
else
fail "CAN connector: relay -> CAN bus (got: $output)"
fi
# test: CAN -> from_vic/core
log "testing CAN bus -> from_vic/core"
output=$(timeout 5 bash -c '
ros2 topic echo --once /anchor/from_vic/core &
ECHO_PID=$!
sleep 1
cansend vcan0 18F#000A0014001E0028
sleep 0.5
cansend vcan0 18F#000A0014001E0028
wait $ECHO_PID
' 2>/dev/null) || true
if echo "$output" | grep -q "mcu_name: core" && echo "$output" | grep -q "command_id: 15"; then
pass "CAN connector: CAN -> from_vic/core"
else
fail "CAN connector: CAN -> from_vic/core"
fi
# test: CAN -> from_vic/arm
log "testing CAN bus -> from_vic/arm"
output=$(timeout 5 bash -c '
ros2 topic echo --once /anchor/from_vic/arm &
ECHO_PID=$!
sleep 1
cansend vcan0 294#00640096012C01F4
sleep 0.5
cansend vcan0 294#00640096012C01F4
wait $ECHO_PID
' 2>/dev/null) || true
if echo "$output" | grep -q "mcu_name: arm" && echo "$output" | grep -q "command_id: 20"; then
pass "CAN connector: CAN -> from_vic/arm"
else
fail "CAN connector: CAN -> from_vic/arm"
fi
# test: CAN double data type (data_type_key=0)
log "testing CAN double data type"
output=$(timeout 8 bash -c '
ros2 topic echo --once /anchor/from_vic/core &
ECHO_PID=$!
sleep 1
cansend vcan0 105#3FF0000000000000
sleep 0.5
cansend vcan0 105#3FF0000000000000
sleep 0.5
cansend vcan0 105#3FF0000000000000
wait $ECHO_PID
' 2>/dev/null) || true
if echo "$output" | grep -q "mcu_name: core" && echo "$output" | grep -q "command_id: 5"; then
pass "CAN connector: double data type"
else
fail "CAN connector: double data type"
fi
# test: CAN float32x2 data type (data_type_key=1)
log "testing CAN float32x2 data type"
output=$(timeout 8 bash -c '
ros2 topic echo --once /anchor/from_vic/core &
ECHO_PID=$!
sleep 1
cansend vcan0 14A#3F80000040000000
sleep 0.5
cansend vcan0 14A#3F80000040000000
sleep 0.5
cansend vcan0 14A#3F80000040000000
wait $ECHO_PID
' 2>/dev/null) || true
if echo "$output" | grep -q "mcu_name: core" && echo "$output" | grep -q "command_id: 10"; then
pass "CAN connector: float32x2 data type"
else
fail "CAN connector: float32x2 data type"
fi
kill -INT -- -"$ANCHOR_PID" 2>/dev/null || true
wait "$ANCHOR_PID" 2>/dev/null || true
ANCHOR_PID=""
}
check_prerequisites() {
log "checking prerequisites"
local missing=0
if [[ ! -f install/setup.bash ]]; then
fail "install/setup.bash not found; run 'colcon build --symlink-install' first"
missing=1
fi
if ! command -v socat &>/dev/null; then
fail "socat not found; install it or use 'nix develop'"
missing=1
fi
if ! command -v cansend &>/dev/null || ! command -v candump &>/dev/null; then
fail "can-utils (cansend/candump) not found; install it or use 'nix develop'"
missing=1
fi
if ! ip link show vcan0 &>/dev/null; then
fail "vcan0 interface not found"
log " create it with:"
log " sudo ip link add dev vcan0 type vcan"
log " sudo ip link set vcan0 up"
missing=1
elif ! ip link show vcan0 | grep -q ",UP"; then
fail "vcan0 exists but is not UP"
log " enable it with: sudo ip link set vcan0 up"
missing=1
fi
if [[ $missing -eq 1 ]]; then
echo ""
log "prerequisites not met"
exit 1
fi
log "all prerequisites met"
}
main() {
echo ""
log "anchor connector test suite"
echo ""
check_prerequisites
log "sourcing ROS2 workspace"
source_ros2
test_mock_connector
test_serial_connector
test_can_connector
echo ""
log "test summary"
echo -e "${BOLD}${GREEN}passed:${NC} $TESTS_PASSED"
echo -e "${BOLD}${RED}failed:${NC} $TESTS_FAILED"
echo ""
if [[ $TESTS_FAILED -gt 0 ]]; then
exit 1
fi
exit 0
}
main "$@"

455
src/anchor_pkg/anchor_pkg/anchor_node.py
View File

@@ -1,255 +1,282 @@
from warnings import deprecated
import rclpy import rclpy
from rclpy.node import Node from rclpy.node import Node
from rclpy.executors import ExternalShutdownException, SingleThreadedExecutor from std_srvs.srv import Empty
from rcl_interfaces.msg import ParameterDescriptor, ParameterType
from .connector import ( import signal
Connector, import time
MockConnector, import atexit
SerialConnector,
CANConnector,
NoValidDeviceException,
NoWorkingDeviceException,
)
from .convert import string_to_viccan, viccan_to_string
import serial
import os
import sys
import threading
import glob
from std_msgs.msg import String, Header
from astra_msgs.msg import VicCAN from astra_msgs.msg import VicCAN
from std_msgs.msg import String
serial_pub = None
thread = None
class Anchor(Node): """
""" Publishers:
Publishers: * /anchor/from_vic/debug
* /anchor/from_vic/debug - Every string received from the MCU is published here for debugging
- Every string received from the MCU is published here for debugging * /anchor/from_vic/core
* /anchor/from_vic/core - VicCAN messages for Core node
- VicCAN messages for Core node * /anchor/from_vic/arm
* /anchor/from_vic/arm - VicCAN messages for Arm node
- VicCAN messages for Arm node * /anchor/from_vic/bio
* /anchor/from_vic/bio - VicCAN messages for Bio node
- VicCAN messages for Bio node
* /anchor/to_vic/debug
- A string copy of the messages published to ./relay are published here
Subscribers: Subscribers:
* /anchor/from_vic/mock_mcu * /anchor/from_vic/mock_mcu
- For testing without an actual MCU, publish VicCAN messages here as if they came from an MCU - For testing without an actual MCU, publish strings here as if they came from an MCU
* /anchor/to_vic/relay * /anchor/to_vic/relay
- Core, Arm, and Bio publish VicCAN messages to this topic to send to the MCU - Core, Arm, and Bio publish VicCAN messages to this topic to send to the MCU
* /anchor/to_vic/relay_string * /anchor/to_vic/relay_string
- Send raw strings to connectors. Does not work for connectors that require conversion (like CANConnector) - Publish raw strings to this topic to send directly to the MCU for debugging
* /anchor/relay """
- Legacy method for talking to connectors. Takes String as input, but does not send the raw strings to connectors.
Instead, it converts them to VicCAN messages first.
"""
connector: Connector
class SerialRelay(Node):
def __init__(self): def __init__(self):
super().__init__("anchor_node") # Initalize node with name
super().__init__("anchor_node") # previously 'serial_publisher'
logger = self.get_logger() # Loop through all serial devices on the computer to check for the MCU
self.port = None
# ROS2 Parameter Setup if port_override := os.getenv("PORT_OVERRIDE"):
self.port = port_override
self.declare_parameter( ports = SerialRelay.list_serial_ports()
"connector", for i in range(4):
"auto", if self.port is not None:
ParameterDescriptor( break
name="connector", for port in ports:
description="Declares which MCU connector should be used. Defaults to 'auto'.",
type=ParameterType.PARAMETER_STRING,
additional_constraints="Must be 'serial', 'can', 'mock', or 'auto'.",
),
)
self.declare_parameter(
"can_override",
"",
ParameterDescriptor(
name="can_override",
description="Overrides which CAN channel will be used. Defaults to ''.",
type=ParameterType.PARAMETER_STRING,
additional_constraints="Must be a valid CAN network that shows up in `ip link show`.",
),
)
self.declare_parameter(
"serial_override",
"",
ParameterDescriptor(
name="serial_override",
description="Overrides which serial port will be used. Defaults to ''.",
type=ParameterType.PARAMETER_STRING,
additional_constraints="Must be a valid path to a serial device file that shows up in `ls /dev/tty*`.",
),
)
# Determine which connector to use. Options are Mock, Serial, and CAN
connector_select = (
self.get_parameter("connector").get_parameter_value().string_value
)
can_override = (
self.get_parameter("can_override").get_parameter_value().string_value
)
serial_override = (
self.get_parameter("serial_override").get_parameter_value().string_value
)
match connector_select:
case "serial":
logger.info("using serial connector")
self.connector = SerialConnector(
logger, self.get_clock(), serial_override
)
case "can":
logger.info("using CAN connector")
self.connector = CANConnector(logger, self.get_clock(), can_override)
case "mock":
logger.info("using mock connector")
self.connector = MockConnector(logger, self.get_clock())
case "auto":
logger.info("automatically determining connector")
try: try:
logger.info("trying CAN connector") # connect and send a ping command
self.connector = CANConnector( ser = serial.Serial(port, 115200, timeout=1)
logger, self.get_clock(), can_override # (f"Checking port {port}...")
) ser.write(b"ping\n")
except (NoValidDeviceException, NoWorkingDeviceException, TypeError): response = ser.read_until(bytes("\n", "utf8"))
logger.info("CAN connector failed, trying serial connector")
self.connector = SerialConnector(
logger, self.get_clock(), serial_override
)
case _:
logger.fatal(
f"invalid value for connector parameter: {connector_select}"
)
exit(1)
# ROS2 Topic Setup # if pong is in response, then we are talking with the MCU
if b"pong" in response:
self.port = port
self.get_logger().info(f"Found MCU at {self.port}!")
break
except:
pass
# Publishers if self.port is None:
self.fromvic_debug_pub_ = self.create_publisher( # only used by serial self.get_logger().info("Unable to find MCU...")
String, time.sleep(1)
"/anchor/from_vic/debug", sys.exit(1)
20,
self.ser = serial.Serial(self.port, 115200)
self.get_logger().info(f"Enabling Relay Mode")
self.ser.write(b"can_relay_mode,on\n")
atexit.register(self.cleanup)
# New pub/sub with VicCAN
self.fromvic_debug_pub_ = self.create_publisher(
String, "/anchor/from_vic/debug", 20
) )
self.fromvic_core_pub_ = self.create_publisher( self.fromvic_core_pub_ = self.create_publisher(
VicCAN, VicCAN, "/anchor/from_vic/core", 20
"/anchor/from_vic/core",
20,
) )
self.fromvic_arm_pub_ = self.create_publisher( self.fromvic_arm_pub_ = self.create_publisher(
VicCAN, VicCAN, "/anchor/from_vic/arm", 20
"/anchor/from_vic/arm",
20,
) )
self.fromvic_bio_pub_ = self.create_publisher( self.fromvic_bio_pub_ = self.create_publisher(
VicCAN, VicCAN, "/anchor/from_vic/bio", 20
"/anchor/from_vic/bio",
20,
)
# Debug publisher
self.tovic_debug_pub_ = self.create_publisher(
String,
"/anchor/to_vic/debug",
20,
) )
# Subscribers
self.tovic_sub_ = self.create_subscription(
VicCAN,
"/anchor/to_vic/relay",
self.write_connector,
20,
)
self.tovic_sub_legacy_ = self.create_subscription(
String,
"/anchor/relay",
self.write_connector_legacy,
20,
)
self.mock_mcu_sub_ = self.create_subscription( self.mock_mcu_sub_ = self.create_subscription(
VicCAN, String, "/anchor/from_vic/mock_mcu", self.on_mock_fromvic, 20
"/anchor/from_vic/mock_mcu",
self.relay_fromvic,
20,
) )
self.tovic_string_sub_ = self.create_subscription( self.tovic_sub_ = self.create_subscription(
String, VicCAN, "/anchor/to_vic/relay", self.on_relay_tovic_viccan, 20
"/anchor/to_vic/relay_string", )
self.write_connector_raw, self.tovic_debug_sub_ = self.create_subscription(
20, String, "/anchor/to_vic/relay_string", self.on_relay_tovic_string, 20
) )
# poll at 100Hz for incoming data # Create publishers
self.read_timer_ = self.create_timer(0.01, self.read_connector) self.arm_pub = self.create_publisher(String, "/anchor/arm/feedback", 10)
self.core_pub = self.create_publisher(String, "/anchor/core/feedback", 10)
self.bio_pub = self.create_publisher(String, "/anchor/bio/feedback", 10)
def destroy_node(self): self.debug_pub = self.create_publisher(String, "/anchor/debug", 10)
self.get_logger().info("closing connector")
self.connector.cleanup()
super().destroy_node()
def read_connector(self): # Create a subscriber
"""Check the connector for new data from the MCU, and publish string to appropriate topics""" self.relay_sub = self.create_subscription(
viccan, raw = self.connector.read() String, "/anchor/relay", self.on_relay_tovic_string, 10
)
if raw: def run(self):
self.fromvic_debug_pub_.publish(String(data=raw)) # This thread makes all the update processes run in the background
global thread
thread = threading.Thread(target=rclpy.spin, args={self}, daemon=True)
thread.start()
if viccan: try:
self.relay_fromvic(viccan) while rclpy.ok():
self.read_MCU() # Check the MCU for updates
except KeyboardInterrupt:
sys.exit(0)
def write_connector(self, msg: VicCAN): def read_MCU(self):
"""Write to the connector and send a copy to /anchor/to_vic/debug""" """Check the USB serial port for new data from the MCU, and publish string to appropriate topics"""
self.connector.write(msg) try:
self.tovic_debug_pub_.publish(String(data=viccan_to_string(msg))) output = str(self.ser.readline(), "utf8")
def write_connector_raw(self, msg: String): if output:
"""Write raw string to the connector and send a copy to /anchor/to_vic/debug""" self.relay_fromvic(output)
self.connector.write_raw(msg) # All output over debug temporarily
self.tovic_debug_pub_.publish(msg) # self.get_logger().info(f"[MCU] {output}")
msg = String()
msg.data = output
self.debug_pub.publish(msg)
if output.startswith("can_relay_fromvic,core"):
self.core_pub.publish(msg)
elif output.startswith("can_relay_fromvic,arm") or output.startswith(
"can_relay_fromvic,digit"
): # digit for voltage readings
self.arm_pub.publish(msg)
if output.startswith("can_relay_fromvic,citadel") or output.startswith(
"can_relay_fromvic,digit"
): # digit for SHT sensor
self.bio_pub.publish(msg)
# msg = String()
# msg.data = output
# self.debug_pub.publish(msg)
return
except serial.SerialException as e:
print(f"SerialException: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
exit(1)
except TypeError as e:
print(f"TypeError: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
exit(1)
except Exception as e:
print(f"Exception: {e}")
# print("Closing serial port.")
# if self.ser.is_open:
# self.ser.close()
# exit(1)
@deprecated( def on_mock_fromvic(self, msg: String):
"Use /anchor/to_vic/relay or /anchor/to_vic/relay_string instead of /anchor/relay" """For testing without an actual MCU, publish strings here as if they came from an MCU"""
) # self.get_logger().info(f"Got command from mock MCU: {msg}")
def write_connector_legacy(self, msg: String): self.relay_fromvic(msg.data)
"""Write to the connector by first attempting to convert String to VicCAN"""
# please do not reference this code. ~riley def on_relay_tovic_viccan(self, msg: VicCAN):
for cmd in msg.data.split("\n"): """Relay a VicCAN message to the MCU"""
viccan = string_to_viccan( output: str = f"can_relay_tovic,{msg.mcu_name},{msg.command_id}"
cmd, for num in msg.data:
"anchor", output += f",{round(num, 7)}" # limit to 7 decimal places
self.get_logger(), output += "\n"
self.get_clock().now().to_msg(), # self.get_logger().info(f"VicCAN relay to MCU: {output}")
self.ser.write(bytes(output, "utf8"))
def relay_fromvic(self, msg: str):
"""Relay a string message from the MCU to the appropriate VicCAN topic"""
self.fromvic_debug_pub_.publish(String(data=msg))
parts = msg.strip().split(",")
if len(parts) > 0 and parts[0] != "can_relay_fromvic":
self.get_logger().debug(f"Ignoring non-VicCAN message: '{msg.strip()}'")
return
# String validation
malformed: bool = False
malformed_reason: str = ""
if len(parts) < 3 or len(parts) > 7:
malformed = True
malformed_reason = (
f"invalid argument count (expected [3,7], got {len(parts)})"
) )
if viccan: elif parts[1] not in ["core", "arm", "digit", "citadel", "broadcast"]:
self.write_connector(viccan) malformed = True
malformed_reason = f"invalid mcu_name '{parts[1]}'"
elif not (parts[2].isnumeric()) or int(parts[2]) < 0:
malformed = True
malformed_reason = f"command_id '{parts[2]}' is not a non-negative integer"
else:
for x in parts[3:]:
try:
float(x)
except ValueError:
malformed = True
malformed_reason = f"data '{x}' is not a float"
break
def relay_fromvic(self, msg: VicCAN): if malformed:
"""Relay a message from the MCU to the appropriate VicCAN topic""" self.get_logger().warning(
if msg.mcu_name == "core": f"Ignoring malformed from_vic message: '{msg.strip()}'; reason: {malformed_reason}"
self.fromvic_core_pub_.publish(msg) )
if msg.mcu_name == "arm" or msg.mcu_name == "digit": return
self.fromvic_arm_pub_.publish(msg)
if msg.mcu_name == "citadel" or msg.mcu_name == "digit": # Have valid VicCAN message
self.fromvic_bio_pub_.publish(msg)
output = VicCAN()
output.mcu_name = parts[1]
output.command_id = int(parts[2])
if len(parts) > 3:
output.data = [float(x) for x in parts[3:]]
output.header = Header(
stamp=self.get_clock().now().to_msg(), frame_id="from_vic"
)
# self.get_logger().info(f"Relaying from MCU: {output}")
if output.mcu_name == "core":
self.fromvic_core_pub_.publish(output)
elif output.mcu_name == "arm" or output.mcu_name == "digit":
self.fromvic_arm_pub_.publish(output)
elif output.mcu_name == "citadel" or output.mcu_name == "digit":
self.fromvic_bio_pub_.publish(output)
def on_relay_tovic_string(self, msg: String):
"""Relay a raw string message to the MCU for debugging"""
message = msg.data
# self.get_logger().info(f"Sending command to MCU: {msg}")
self.ser.write(bytes(message, "utf8"))
@staticmethod
def list_serial_ports():
return glob.glob("/dev/ttyUSB*") + glob.glob("/dev/ttyACM*")
def cleanup(self):
print("Cleaning up before terminating...")
if self.ser.is_open:
self.ser.close()
def myexcepthook(type, value, tb):
print("Uncaught exception:", type, value)
if serial_pub:
serial_pub.cleanup()
def main(args=None): def main(args=None):
rclpy.init(args=args) rclpy.init(args=args)
anchor_node = Anchor() sys.excepthook = myexcepthook
executor = SingleThreadedExecutor()
executor.add_node(anchor_node)
try: global serial_pub
executor.spin()
except (KeyboardInterrupt, ExternalShutdownException): serial_pub = SerialRelay()
pass serial_pub.run()
finally:
# don't accept any more jobs
executor.shutdown() if __name__ == "__main__":
# make the node quit processing things # signal.signal(signal.SIGTSTP, lambda signum, frame: sys.exit(0)) # Catch Ctrl+Z and exit cleanly
anchor_node.destroy_node() signal.signal(
# shut down everything else signal.SIGTERM, lambda signum, frame: sys.exit(0)
rclpy.try_shutdown() ) # Catch termination signals and exit cleanly
main()

441
src/anchor_pkg/anchor_pkg/connector.py
View File

@@ -1,441 +0,0 @@
from abc import ABC, abstractmethod
from astra_msgs.msg import VicCAN
from std_msgs.msg import String
from rclpy.clock import Clock
from rclpy.impl.rcutils_logger import RcutilsLogger
from .convert import string_to_viccan as _string_to_viccan, viccan_to_string
# CAN
import can
import can.interfaces.socketcan
import struct
# Serial
import serial
import serial.tools.list_ports
KNOWN_USBS = [
(0x2E8A, 0x00C0), # Raspberry Pi Pico
(0x1A86, 0x55D4), # Adafruit Feather ESP32 V2
(0x10C4, 0xEA60), # DOIT ESP32 Devkit V1
(0x1A86, 0x55D3), # ESP32 S3 Development Board
]
BAUD_RATE = 115200
MCU_IDS = [
"broadcast",
"core",
"arm",
"digit",
"faerie",
"citadel",
"libs",
]
class NoValidDeviceException(Exception):
pass
class NoWorkingDeviceException(Exception):
pass
class MultipleValidDevicesException(Exception):
pass
class DeviceClosedException(Exception):
pass
class Connector(ABC):
logger: RcutilsLogger
clock: Clock
def string_to_viccan(self, msg: str, mcu_name: str):
"""function currying so that we do not need to pass logger and clock every time"""
return _string_to_viccan(
msg,
mcu_name,
self.logger,
self.clock.now().to_msg(),
)
def __init__(self, logger: RcutilsLogger, clock: Clock):
self.logger = logger
self.clock = clock
@abstractmethod
def read(self) -> tuple[VicCAN | None, str | None]:
"""
Must return a tuple of (VicCAN, debug message or string repr of VicCAN)
"""
pass
@abstractmethod
def write(self, msg: VicCAN):
pass
@abstractmethod
def write_raw(self, msg: String):
pass
def cleanup(self):
pass
class SerialConnector(Connector):
port: str
mcu_name: str
serial_interface: serial.Serial
def __init__(self, logger: RcutilsLogger, clock: Clock, serial_override: str = ""):
super().__init__(logger, clock)
ports = self._find_ports()
mcu_name: str | None = None
if serial_override:
logger.warn(
f"using serial_override: `{serial_override}`! this will bypass several checks."
)
ports = [serial_override]
mcu_name = "override"
if len(ports) <= 0:
raise NoValidDeviceException("no valid serial device found")
if (l := len(ports)) > 1:
raise MultipleValidDevicesException(
f"too many ({l}) valid serial devices found"
)
# check each of our ports to make sure one of them is responding
port = ports[0]
# we might already have a name by now if we overrode earlier
mcu_name = mcu_name or self._get_name(port)
if not mcu_name:
raise NoWorkingDeviceException(
f"found {port}, but it did not respond with its name"
)
self.port = port
self.mcu_name = mcu_name
# if we fail at this point, it should crash because we've already tested the port
self.serial_interface = serial.Serial(self.port, BAUD_RATE, timeout=1)
def _find_ports(self) -> list[str]:
"""
Finds all valid ports but does not test them
returns: all valid ports
"""
comports = serial.tools.list_ports.comports()
valid_ports = list(
map( # get just device strings
lambda p: p.device,
filter( # make sure we have a known device
lambda p: (p.vid, p.pid) in KNOWN_USBS and p.device is not None,
comports,
),
)
)
self.logger.info(f"found valid MCU ports: [ {', '.join(valid_ports)} ]")
return valid_ports
def _get_name(self, port: str) -> str | None:
"""
Get the name of the MCU (if it works)
returns: str name of the MCU, None if it doesn't work
"""
# attempt to open the serial port
serial_interface: serial.Serial
try:
self.logger.info(f"asking {port} for its name")
serial_interface = serial.Serial(port, BAUD_RATE, timeout=1)
serial_interface.write(b"can_relay_mode,on\n")
for i in range(4):
self.logger.debug(f"attempt {i + 1} of 4 asking {port} for its name")
response = serial_interface.read_until(bytes("\n", "utf8"))
try:
if b"can_relay_ready" in response:
args: list[str] = response.decode("utf8").strip().split(",")
if len(args) == 2:
self.logger.info(f"we are talking to {args[1]}")
return args[1]
break
except UnicodeDecodeError as e:
self.logger.info(
f"ignoring UnicodeDecodeError when asking for MCU name: {e}"
)
if serial_interface.is_open:
# turn relay mode off if it failed to respond with its name
serial_interface.write(b"can_relay_mode,off\n")
serial_interface.close()
except serial.SerialException as e:
self.logger.error(f"SerialException when asking for MCU name: {e}")
return None
def read(self) -> tuple[VicCAN | None, str | None]:
try:
raw = str(self.serial_interface.readline(), "utf8")
if not raw:
return (None, None)
return (
self.string_to_viccan(raw, self.mcu_name),
raw,
)
except serial.SerialException as e:
self.logger.error(f"SerialException: {e}")
raise DeviceClosedException(f"serial port {self.port} closed unexpectedly")
except Exception:
return (None, None) # pretty much no other error matters
def write(self, msg: VicCAN):
self.write_raw(String(data=viccan_to_string(msg)))
def write_raw(self, msg: String):
self.serial_interface.write(bytes(msg.data, "utf8"))
def cleanup(self):
self.logger.info(f"closing serial port if open {self.port}")
try:
if self.serial_interface.is_open:
self.serial_interface.close()
except Exception as e:
self.logger.error(e)
class CANConnector(Connector):
def __init__(self, logger: RcutilsLogger, clock: Clock, can_override: str):
super().__init__(logger, clock)
self.can_channel: str | None = None
self.can_bus: can.BusABC | None = None
avail = can.interfaces.socketcan.SocketcanBus._detect_available_configs()
if len(avail) == 0:
raise NoValidDeviceException("no CAN interfaces found")
# filter to busses whose channel matches the can_override
if can_override:
self.logger.info(f"overrode can interface with {can_override}")
avail = list(
filter(
lambda b: b.get("channel") == can_override,
avail,
)
)
if (l := len(avail)) > 1:
channels = ", ".join(str(b.get("channel")) for b in avail)
raise MultipleValidDevicesException(
f"too many ({l}) CAN interfaces found: [{channels}]"
)
bus = avail[0]
self.can_channel = str(bus.get("channel"))
self.logger.info(f"found CAN interface '{self.can_channel}'")
try:
self.can_bus = can.Bus(
interface="socketcan",
channel=self.can_channel,
bitrate=1_000_000,
)
except can.CanError as e:
raise NoWorkingDeviceException(
f"could not open CAN channel '{self.can_channel}': {e}"
)
if self.can_channel and self.can_channel.startswith("v"):
self.logger.warn("CAN interface is likely virtual")
def read(self) -> tuple[VicCAN | None, str | None]:
if not self.can_bus:
raise DeviceClosedException("CAN bus not initialized")
try:
message = self.can_bus.recv(timeout=0.0)
except can.CanError as e:
self.logger.error(f"CAN error while receiving: {e}")
raise DeviceClosedException("CAN bus closed unexpectedly")
if message is None:
return (None, None)
arbitration_id = message.arbitration_id & 0x7FF
data_bytes = bytes(message.data)
mcu_key = (arbitration_id >> 8) & 0b111
data_type_key = (arbitration_id >> 6) & 0b11
command = arbitration_id & 0x3F
try:
mcu_name = MCU_IDS[mcu_key]
except IndexError:
self.logger.warn(
f"received CAN frame with unknown MCU key {mcu_key}; id=0x{arbitration_id:X}"
)
return (None, None)
data: list[float] = []
try:
if data_type_key == 3:
data = []
elif data_type_key == 0:
if len(data_bytes) < 8:
self.logger.warn(
f"received double payload with insufficient length {len(data_bytes)}; dropping frame"
)
return (None, None)
(value,) = struct.unpack(">d", data_bytes[:8])
data = [float(value)]
elif data_type_key == 1:
if len(data_bytes) < 8:
self.logger.warn(
f"received float32x2 payload with insufficient length {len(data_bytes)}; dropping frame"
)
return (None, None)
v1, v2 = struct.unpack(">ff", data_bytes[:8])
data = [float(v1), float(v2)]
elif data_type_key == 2:
if len(data_bytes) < 8:
self.logger.warn(
f"received int16x4 payload with insufficient length {len(data_bytes)}; dropping frame"
)
return (None, None)
i1, i2, i3, i4 = struct.unpack(">hhhh", data_bytes[:8])
data = [float(i1), float(i2), float(i3), float(i4)]
else:
self.logger.warn(
f"received CAN frame with unknown data_type_key {data_type_key}; id=0x{arbitration_id:X}"
)
return (None, None)
except struct.error as e:
self.logger.error(f"error unpacking CAN payload: {e}")
return (None, None)
viccan = VicCAN(
mcu_name=mcu_name,
command_id=int(command),
data=data,
)
self.logger.debug(
f"received CAN frame id=0x{message.arbitration_id:X}, "
f"decoded as VicCAN(mcu_name={viccan.mcu_name}, command_id={viccan.command_id}, data={viccan.data})"
)
return (
viccan,
f"{viccan.mcu_name},{viccan.command_id},"
+ ",".join(map(str, list(viccan.data))),
)
def write(self, msg: VicCAN):
if not self.can_bus:
raise DeviceClosedException("CAN bus not initialized")
# build 11-bit arbitration ID according to VicCAN spec:
# bits 10..8: targeted MCU key
# bits 7..6: data type key
# bits 5..0: command
# map MCU name to 3-bit key.
try:
mcu_id = MCU_IDS.index((msg.mcu_name or "").lower())
except ValueError:
self.logger.error(
f"unknown VicCAN mcu_name '{msg.mcu_name}' for CAN frame; dropping message"
)
return
# determine data type from length:
# 0: double x1, 1: float32 x2, 2: int16 x4, 3: empty
match data_len := len(msg.data):
case 0:
data_type = 3
data = bytes()
case 1:
data_type = 0
data = struct.pack(">d", *msg.data)
case 2:
data_type = 1
data = struct.pack(">ff", *msg.data)
case 3 | 4: # 3 gets treated as 4
data_type = 2
if data_len == 3:
msg.data.append(0)
data = struct.pack(">hhhh", *[int(x) for x in msg.data])
case _:
self.logger.error(
f"unexpected VicCAN data length: {data_len}; dropping message"
)
return
# command is limited to 6 bits.
command = int(msg.command_id)
if command < 0 or command > 0x3F:
self.logger.error(
f"invalid command_id for CAN frame: {command}; dropping message"
)
return
try:
can_message = can.Message(
arbitration_id=(mcu_id << 8) | (data_type << 6) | command,
data=data,
is_extended_id=False,
)
except Exception as e:
self.logger.error(f"failed to construct CAN message: {e}")
return
try:
self.can_bus.send(can_message)
self.logger.debug(
f"sent CAN frame id=0x{can_message.arbitration_id:X}, "
f"data={list(can_message.data)}"
)
except can.CanError as e:
self.logger.error(f"CAN error while sending: {e}")
raise DeviceClosedException("CAN bus closed unexpectedly")
def write_raw(self, msg: String):
self.logger.warn(
f"write_raw is not supported for CANConnector. msg: {msg.data}"
)
def cleanup(self):
try:
if self.can_bus is not None:
self.logger.info("shutting down CAN bus")
self.can_bus.shutdown()
except Exception as e:
self.logger.error(e)
class MockConnector(Connector):
def __init__(self, logger: RcutilsLogger, clock: Clock):
super().__init__(logger, clock)
# No hardware interface for MockConnector. Publish to `/anchor/from_vic/mock_mcu` instead.
def read(self) -> tuple[VicCAN | None, str | None]:
return (None, None)
def write(self, msg: VicCAN):
pass
def write_raw(self, msg: String):
pass

65
src/anchor_pkg/anchor_pkg/convert.py
View File

@@ -1,65 +0,0 @@
from astra_msgs.msg import VicCAN
from std_msgs.msg import Header
from builtin_interfaces.msg import Time
from rclpy.impl.rcutils_logger import RcutilsLogger
def string_to_viccan(
msg: str, mcu_name: str, logger: RcutilsLogger, time: Time
) -> VicCAN | None:
"""
Converts the serial string VicCAN format to a ROS2 VicCAN message.
Does not fill out the Header of the message.
On a failure, it will log at a debug level why it failed and return None.
"""
parts: list[str] = msg.strip().split(",")
# don't need an extra check because len of .split output is always >= 1
if not parts[0].startswith("can_relay_"):
logger.debug(f"got non-CAN data from {mcu_name}: {msg}")
return None
elif len(parts) < 3:
logger.debug(f"got garbage (not enough parts) CAN data from {mcu_name}: {msg}")
return None
elif len(parts) > 7:
logger.debug(f"got garbage (too many parts) CAN data from {mcu_name}: {msg}")
return None
try:
command_id = int(parts[2])
except ValueError:
logger.debug(
f"got garbage (non-integer command id) CAN data from {mcu_name}: {msg}"
)
return None
if command_id not in range(64):
logger.debug(
f"got garbage (wrong command id {command_id}) CAN data from {mcu_name}: {msg}"
)
return None
try:
return VicCAN(
header=Header(
stamp=time,
frame_id="from_vic",
),
mcu_name=parts[1],
command_id=command_id,
data=[float(x) for x in parts[3:]],
)
except ValueError:
logger.debug(f"got garbage (non-numerical) CAN data from {mcu_name}: {msg}")
return None
def viccan_to_string(viccan: VicCAN) -> str:
"""Converts a ROS2 VicCAN message to the serial string VicCAN format."""
# make sure we accept 3 digits and treat it as 4
if len(viccan.data) == 3:
viccan.data.append(0)
# go from [ w, x, y, z ] -> ",w,x,y,z" & round to 7 digits max
data = "".join([f",{round(val,7)}" for val in viccan.data])
return f"can_relay_tovic,{viccan.mcu_name},{viccan.command_id}{data}\n"

233
src/anchor_pkg/launch/rover.launch.py
View File

@@ -1,111 +1,136 @@
#!/usr/bin/env python3
from launch import LaunchDescription from launch import LaunchDescription
from launch.actions import DeclareLaunchArgument, Shutdown from launch.actions import DeclareLaunchArgument, OpaqueFunction, Shutdown
from launch.conditions import IfCondition from launch.substitutions import (
from launch.substitutions import LaunchConfiguration LaunchConfiguration,
ThisLaunchFileDir,
PathJoinSubstitution,
)
from launch_ros.actions import Node from launch_ros.actions import Node
# Prevent making __pycache__ directories
from sys import dont_write_bytecode
dont_write_bytecode = True
def launch_setup(context, *args, **kwargs):
# Retrieve the resolved value of the launch argument 'mode'
mode = LaunchConfiguration("mode").perform(context)
nodes = []
if mode == "anchor":
# Launch every node and pass "anchor" as the parameter
nodes.append(
Node(
package="arm_pkg",
executable="arm", # change as needed
name="arm",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
nodes.append(
Node(
package="core_pkg",
executable="core", # change as needed
name="core",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
nodes.append(
Node(
package="core_pkg",
executable="ptz", # change as needed
name="ptz",
output="both",
# Currently don't shutdown all nodes if the PTZ node fails, as it is not critical
# on_exit=Shutdown() # Uncomment if you want to shutdown on PTZ failure
)
)
nodes.append(
Node(
package="bio_pkg",
executable="bio", # change as needed
name="bio",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
nodes.append(
Node(
package="anchor_pkg",
executable="anchor", # change as needed
name="anchor",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
elif mode in ["arm", "core", "bio", "ptz"]:
# Only launch the node corresponding to the provided mode.
if mode == "arm":
nodes.append(
Node(
package="arm_pkg",
executable="arm",
name="arm",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
elif mode == "core":
nodes.append(
Node(
package="core_pkg",
executable="core",
name="core",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
elif mode == "bio":
nodes.append(
Node(
package="bio_pkg",
executable="bio",
name="bio",
output="both",
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
elif mode == "ptz":
nodes.append(
Node(
package="core_pkg",
executable="ptz",
name="ptz",
output="both",
on_exit=Shutdown(), # on fail, shutdown if this was the only node to be launched
)
)
else:
# If an invalid mode is provided, print an error.
print("Invalid mode provided. Choose one of: arm, core, bio, anchor, ptz.")
return nodes
def generate_launch_description(): def generate_launch_description():
connector = LaunchConfiguration("connector") declare_arg = DeclareLaunchArgument(
serial_override = LaunchConfiguration("serial_override") "mode",
can_override = LaunchConfiguration("can_override") default_value="anchor",
use_ptz = LaunchConfiguration("use_ptz") description="Launch mode: arm, core, bio, anchor, or ptz",
ld = LaunchDescription()
# arguments
ld.add_action(
DeclareLaunchArgument(
"connector",
default_value="auto",
description="Connector parameter for anchor node (default: 'auto')",
)
) )
ld.add_action( return LaunchDescription([declare_arg, OpaqueFunction(function=launch_setup)])
DeclareLaunchArgument(
"serial_override",
default_value="",
description="Serial port override parameter for anchor node (default: '')",
)
)
ld.add_action(
DeclareLaunchArgument(
"can_override",
default_value="",
description="CAN network override parameter for anchor node (default: '')",
)
)
ld.add_action(
DeclareLaunchArgument(
"use_ptz",
default_value="true", # must be string for launch system
description="Whether to launch PTZ node (default: true)",
)
)
# nodes
ld.add_action(
Node(
package="arm_pkg",
executable="arm",
name="arm",
output="both",
parameters=[{"launch_mode": "anchor"}],
on_exit=Shutdown(),
)
)
ld.add_action(
Node(
package="core_pkg",
executable="core",
name="core",
output="both",
parameters=[{"launch_mode": "anchor"}],
on_exit=Shutdown(),
)
)
ld.add_action(
Node(
package="core_pkg",
executable="ptz",
name="ptz",
output="both",
condition=IfCondition(use_ptz),
)
)
ld.add_action(
Node(
package="bio_pkg",
executable="bio",
name="bio",
output="both",
parameters=[{"launch_mode": "anchor"}],
on_exit=Shutdown(),
)
)
ld.add_action(
Node(
package="anchor_pkg",
executable="anchor",
name="anchor",
output="both",
parameters=[
{
"launch_mode": "anchor",
"connector": connector,
"serial_override": serial_override,
"can_override": can_override,
}
],
on_exit=Shutdown(),
)
)
return ld

5
src/anchor_pkg/package.xml
View File

@@ -3,14 +3,13 @@
<package format="3"> <package format="3">
<name>anchor_pkg</name> <name>anchor_pkg</name>
<version>0.0.0</version> <version>0.0.0</version>
<description>Anchor -- ROS and CAN relay node</description> <description>TODO: Package description</description>
<maintainer email="rjm0037@uah.edu">Riley</maintainer> <maintainer email="tristanmcginnis26@gmail.com">tristan</maintainer>
<license>AGPL-3.0-only</license> <license>AGPL-3.0-only</license>
<depend>rclpy</depend> <depend>rclpy</depend>
<depend>common_interfaces</depend> <depend>common_interfaces</depend>
<depend>python3-serial</depend> <depend>python3-serial</depend>
<depend>python3-can</depend>
<build_depend>black</build_depend> <build_depend>black</build_depend>

279
src/arm_pkg/arm_pkg/arm_headless.py Executable file
View File

@@ -0,0 +1,279 @@
import rclpy
from rclpy.node import Node
import pygame
import time
import serial
import sys
import threading
import glob
import os
from std_msgs.msg import String
from astra_msgs.msg import ControllerState
from astra_msgs.msg import ArmManual
from astra_msgs.msg import ArmIK
os.environ["SDL_AUDIODRIVER"] = (
"dummy" # Force pygame to use a dummy audio driver before pygame.init()
)
os.environ["SDL_VIDEODRIVER"] = "dummy" # Prevents pygame from trying to open a display
class Headless(Node):
def __init__(self):
# Initalize node with name
super().__init__("arm_headless")
# Depricated, kept temporarily for reference
# self.create_timer(0.20, self.send_controls)#read and send controls
self.create_timer(0.1, self.send_manual)
# Create a publisher to publish any output the pico sends
# Depricated, kept temporarily for reference
# self.publisher = self.create_publisher(ControllerState, '/astra/arm/control', 10)
self.manual_pub = self.create_publisher(ArmManual, "/arm/control/manual", 10)
# Create a subscriber to listen to any commands sent for the pico
# Depricated, kept temporarily for reference
# self.subscriber = self.create_subscription(String, '/astra/arm/feedback', self.read_feedback, 10)
# self.debug_sub = self.create_subscription(String, '/arm/feedback/debug', self.read_feedback, 10)
self.laser_status = 0
# Initialize pygame
pygame.init()
# Initialize the gamepad module
pygame.joystick.init()
# Check if any gamepad is connected
if pygame.joystick.get_count() == 0:
print("No gamepad found.")
pygame.quit()
exit()
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
exit()
# Initialize the first gamepad, print name to terminal
self.gamepad = pygame.joystick.Joystick(0)
self.gamepad.init()
print(f"Gamepad Found: {self.gamepad.get_name()}")
#
#
def run(self):
# This thread makes all the update processes run in the background
thread = threading.Thread(target=rclpy.spin, args={self}, daemon=True)
thread.start()
try:
while rclpy.ok():
# Check the pico for updates
# self.read_feedback()
if (
pygame.joystick.get_count() == 0
): # if controller disconnected, wait for it to be reconnected
print(f"Gamepad disconnected: {self.gamepad.get_name()}")
while pygame.joystick.get_count() == 0:
# self.send_controls() #depricated, kept for reference temporarily
self.send_manual()
# self.read_feedback()
self.gamepad = pygame.joystick.Joystick(0)
self.gamepad.init() # re-initialized gamepad
print(f"Gamepad reconnected: {self.gamepad.get_name()}")
except KeyboardInterrupt:
sys.exit(0)
def send_manual(self):
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
exit()
input = ArmManual()
# Triggers for gripper control
if self.gamepad.get_axis(2) > 0: # left trigger
input.gripper = -1
elif self.gamepad.get_axis(5) > 0: # right trigger
input.gripper = 1
# Toggle Laser
if self.gamepad.get_button(7): # Start
self.laser_status = 1
elif self.gamepad.get_button(6): # Back
self.laser_status = 0
input.laser = self.laser_status
if self.gamepad.get_button(5): # right bumper, control effector
# Left stick X-axis for effector yaw
if self.gamepad.get_axis(0) > 0:
input.effector_yaw = 1
elif self.gamepad.get_axis(0) < 0:
input.effector_yaw = -1
# Right stick X-axis for effector roll
if self.gamepad.get_axis(3) > 0:
input.effector_roll = 1
elif self.gamepad.get_axis(3) < 0:
input.effector_roll = -1
else: # Control arm axis
dpad_input = self.gamepad.get_hat(0)
input.axis0 = 0
if dpad_input[0] == 1:
input.axis0 = 1
elif dpad_input[0] == -1:
input.axis0 = -1
if self.gamepad.get_axis(0) > 0.15 or self.gamepad.get_axis(0) < -0.15:
input.axis1 = round(self.gamepad.get_axis(0))
if self.gamepad.get_axis(1) > 0.15 or self.gamepad.get_axis(1) < -0.15:
input.axis2 = -1 * round(self.gamepad.get_axis(1))
if self.gamepad.get_axis(4) > 0.15 or self.gamepad.get_axis(4) < -0.15:
input.axis3 = -1 * round(self.gamepad.get_axis(4))
# input.axis1 = -1 * round(self.gamepad.get_axis(0))#left x-axis
# input.axis2 = -1 * round(self.gamepad.get_axis(1))#left y-axis
# input.axis3 = -1 * round(self.gamepad.get_axis(4))#right y-axis
# Button Mappings
# axis2 -> LT
# axis5 -> RT
# Buttons0 -> A
# Buttons1 -> B
# Buttons2 -> X
# Buttons3 -> Y
# Buttons4 -> LB
# Buttons5 -> RB
# Buttons6 -> Back
# Buttons7 -> Start
input.linear_actuator = 0
if pygame.joystick.get_count() != 0:
self.get_logger().info(
f"[Ctrl] {input.axis0}, {input.axis1}, {input.axis2}, {input.axis3}\n"
)
self.manual_pub.publish(input)
else:
pass
pass
# Depricated, kept temporarily for reference
# def send_controls(self):
# for event in pygame.event.get():
# if event.type == pygame.QUIT:
# pygame.quit()
# exit()
# input = ControllerState()
# input.lt = self.gamepad.get_axis(2)#left trigger
# input.rt = self.gamepad.get_axis(5)#right trigger
# #input.lb = self.gamepad.get_button(9)#Value must be converted to bool
# if(self.gamepad.get_button(4)):#left bumper
# input.lb = True
# else:
# input.lb = False
# #input.rb = self.gamepad.get_button(10)#Value must be converted to bool
# if(self.gamepad.get_button(5)):#right bumper
# input.rb = True
# else:
# input.rb = False
# #input.plus = self.gamepad.get_button(6)#plus button
# if(self.gamepad.get_button(7)):#plus button
# input.plus = True
# else:
# input.plus = False
# #input.minus = self.gamepad.get_button(4)#minus button
# if(self.gamepad.get_button(6)):#minus button
# input.minus = True
# else:
# input.minus = False
# input.ls_x = round(self.gamepad.get_axis(0),2)#left x-axis
# input.ls_y = round(self.gamepad.get_axis(1),2)#left y-axis
# input.rs_x = round(self.gamepad.get_axis(3),2)#right x-axis
# input.rs_y = round(self.gamepad.get_axis(4),2)#right y-axis
# #input.a = self.gamepad.get_button(1)#A button
# if(self.gamepad.get_button(0)):#A button
# input.a = True
# else:
# input.a = False
# #input.b = self.gamepad.get_button(0)#B button
# if(self.gamepad.get_button(1)):#B button
# input.b = True
# else:
# input.b = False
# #input.x = self.gamepad.get_button(3)#X button
# if(self.gamepad.get_button(2)):#X button
# input.x = True
# else:
# input.x = False
# #input.y = self.gamepad.get_button(2)#Y button
# if(self.gamepad.get_button(3)):#Y button
# input.y = True
# else:
# input.y = False
# dpad_input = self.gamepad.get_hat(0)#D-pad input
# #not using up/down on DPad
# input.d_up = False
# input.d_down = False
# if(dpad_input[0] == 1):#D-pad right
# input.d_right = True
# else:
# input.d_right = False
# if(dpad_input[0] == -1):#D-pad left
# input.d_left = True
# else:
# input.d_left = False
# if pygame.joystick.get_count() != 0:
# self.get_logger().info(f"[Ctrl] Updated Controller State\n")
# self.publisher.publish(input)
# else:
# pass
def main(args=None):
rclpy.init(args=args)
node = Headless()
rclpy.spin(node)
rclpy.shutdown()
# tb_bs = BaseStation()
# node.run()
if __name__ == "__main__":
main()

525
src/arm_pkg/arm_pkg/arm_node.py
View File

@@ -1,221 +1,181 @@
import sys
import threading
import signal
import math
from warnings import deprecated
import rclpy import rclpy
from rclpy.node import Node from rclpy.node import Node
from rclpy.executors import ExternalShutdownException import serial
from rclpy import qos import sys
import threading
from std_msgs.msg import String, Header import glob
import time
import atexit
import signal
from std_msgs.msg import String
from astra_msgs.msg import ArmManual
from astra_msgs.msg import SocketFeedback
from astra_msgs.msg import DigitFeedback
from sensor_msgs.msg import JointState from sensor_msgs.msg import JointState
from control_msgs.msg import JointJog import math
from astra_msgs.msg import SocketFeedback, DigitFeedback, ArmManual # TODO: Old topics
from astra_msgs.msg import ArmFeedback, VicCAN, RevMotorState
control_qos = qos.QoSProfile( # control_qos = qos.QoSProfile(
history=qos.QoSHistoryPolicy.KEEP_LAST, # history=qos.QoSHistoryPolicy.KEEP_LAST,
depth=2, # depth=1,
reliability=qos.QoSReliabilityPolicy.BEST_EFFORT, # Best Effort subscribers are still compatible with Reliable publishers # reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
durability=qos.QoSDurabilityPolicy.VOLATILE, # durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=Duration(seconds=1), # deadline=1000,
# lifespan=Duration(nanoseconds=500_000_000), # 500ms # lifespan=500,
# liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT, # liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT,
# liveliness_lease_duration=Duration(seconds=5), # liveliness_lease_duration=5000
) # )
serial_pub = None
thread = None thread = None
class ArmNode(Node): class SerialRelay(Node):
"""Relay between Anchor and Basestation/Headless/Moveit2 for Arm related topics."""
# Every non-fixed joint defined in Arm's URDF
# Used for JointState and JointJog messsages
all_joint_names = [
"axis_0_joint",
"axis_1_joint",
"axis_2_joint",
"axis_3_joint",
"wrist_yaw_joint",
"wrist_roll_joint",
"ef_gripper_left_joint",
]
# Used to verify the length of an incoming VicCAN feedback message
# Key is VicCAN command_id, value is expected length of data list
viccan_socket_msg_len_dict = {
53: 4,
54: 4,
55: 4,
58: 4,
59: 4,
}
viccan_digit_msg_len_dict = {
54: 4,
55: 2,
59: 2,
}
def __init__(self): def __init__(self):
# Initialize node
super().__init__("arm_node") super().__init__("arm_node")
self.get_logger().info(f"arm launch_mode is: anchor") # Hey I like the output # Get launch mode parameter
self.declare_parameter("launch_mode", "arm")
self.launch_mode = self.get_parameter("launch_mode").value
self.get_logger().info(f"arm launch_mode is: {self.launch_mode}")
################################################## # Create publishers
# Parameters self.debug_pub = self.create_publisher(String, "/arm/feedback/debug", 10)
self.socket_pub = self.create_publisher(
SocketFeedback, "/arm/feedback/socket", 10
)
self.digit_pub = self.create_publisher(DigitFeedback, "/arm/feedback/digit", 10)
self.feedback_timer = self.create_timer(0.25, self.publish_feedback)
self.declare_parameter("use_old_topics", True) # Create subscribers
self.use_old_topics = ( self.man_sub = self.create_subscription(
self.get_parameter("use_old_topics").get_parameter_value().bool_value ArmManual, "/arm/control/manual", self.send_manual, 10
) )
################################################## # New messages
# Old topics self.joint_state_pub = self.create_publisher(JointState, "joint_states", 10)
self.joint_state = JointState()
self.joint_state.name = [
"Axis_0_Joint",
"Axis_1_Joint",
"Axis_2_Joint",
"Axis_3_Joint",
"Wrist_Differential_Joint",
"Wrist-EF_Roll_Joint",
"Gripper_Slider_Left",
]
self.joint_state.position = [0.0] * len(
self.joint_state.name
) # Initialize with zeros
if self.use_old_topics: self.joint_command_sub = self.create_subscription(
# Anchor topics JointState, "/joint_commands", self.joint_command_callback, 10
)
# Topics used in anchor mode
if self.launch_mode == "anchor":
self.anchor_sub = self.create_subscription( self.anchor_sub = self.create_subscription(
String, "/anchor/arm/feedback", self.anchor_feedback, 10 String, "/anchor/arm/feedback", self.anchor_feedback, 10
) )
self.anchor_pub = self.create_publisher(String, "/anchor/relay", 10) self.anchor_pub = self.create_publisher(String, "/anchor/relay", 10)
# Create publishers self.arm_feedback = SocketFeedback()
self.socket_pub = self.create_publisher( self.digit_feedback = DigitFeedback()
SocketFeedback, "/arm/feedback/socket", 10
)
self.arm_feedback = SocketFeedback()
self.digit_pub = self.create_publisher(
DigitFeedback, "/arm/feedback/digit", 10
)
self.digit_feedback = DigitFeedback()
self.feedback_timer = self.create_timer(0.25, self.publish_feedback)
# Create subscribers # Search for ports IF in 'arm' (standalone) and not 'anchor' mode
self.man_sub = self.create_subscription( if self.launch_mode == "arm":
ArmManual, "/arm/control/manual", self.send_manual, 10 # Loop through all serial devices on the computer to check for the MCU
) self.port = None
ports = SerialRelay.list_serial_ports()
for _ in range(4):
for port in ports:
try:
# connect and send a ping command
ser = serial.Serial(port, 115200, timeout=1)
# print(f"Checking port {port}...")
ser.write(b"ping\n")
response = ser.read_until("\n") # type: ignore
################################################### # if pong is in response, then we are talking with the MCU
# New topics if b"pong" in response:
self.port = port
self.get_logger().info(f"Found MCU at {self.port}!")
break
except:
pass
if self.port is not None:
break
# Anchor topics if self.port is None:
self.get_logger().info(
"Unable to find MCU... please make sure it is connected."
)
time.sleep(1)
sys.exit(1)
# from_vic self.ser = serial.Serial(self.port, 115200)
self.anchor_fromvic_sub_ = self.create_subscription( atexit.register(self.cleanup)
VicCAN, "/anchor/from_vic/arm", self.relay_fromvic, 20
)
# to_vic
self.anchor_tovic_pub_ = self.create_publisher(
VicCAN, "/anchor/to_vic/relay", 20
)
# Control def run(self):
global thread
thread = threading.Thread(target=rclpy.spin, args=(self,), daemon=True)
thread.start()
# Manual: /arm/manual/joint_jog is published by Basestation or Headless # if in arm mode, will need to read from the MCU
self.man_jointjog_sub_ = self.create_subscription(
JointJog,
"/arm/manual/joint_jog",
self.jointjog_callback,
qos_profile=control_qos,
)
# IK: /joint_commands is published by JointTrajectoryController via topic_based_control
self.joint_command_sub_ = self.create_subscription(
JointState,
"/joint_commands",
self.joint_command_callback,
qos_profile=control_qos,
)
# Feedback try:
while rclpy.ok():
if self.launch_mode == "arm":
if self.ser.in_waiting:
self.read_mcu()
else:
time.sleep(0.1)
except KeyboardInterrupt:
pass
finally:
self.cleanup()
# Combined Socket and Digit feedback # Currently will just spit out all values over the /arm/feedback/debug topic as strings
self.arm_feedback_pub_ = self.create_publisher( def read_mcu(self):
ArmFeedback, try:
"/arm/feedback", output = str(self.ser.readline(), "utf8")
qos_profile=qos.qos_profile_sensor_data, if output:
) # self.get_logger().info(f"[MCU] {output}")
# IK arm pose: /joint_states is published from here to topic_based_control msg = String()
self.joint_state_pub_ = self.create_publisher( msg.data = output
JointState, "/joint_states", qos_profile=qos.qos_profile_sensor_data self.debug_pub.publish(msg)
) except serial.SerialException:
self.get_logger().info("SerialException caught... closing serial port.")
################################################### if self.ser.is_open:
# Saved state self.ser.close()
pass
# Combined Socket and Digit feedback except TypeError as e:
self.arm_feedback_new = ArmFeedback() self.get_logger().info(f"TypeError: {e}")
print("Closing serial port.")
# IK Arm pose if self.ser.is_open:
self.saved_joint_state = JointState() self.ser.close()
self.saved_joint_state.name = self.all_joint_names pass
# ... initialize with zeros except Exception as e:
self.saved_joint_state.position = [0.0] * len(self.saved_joint_state.name) print(f"Exception: {e}")
self.saved_joint_state.velocity = [0.0] * len(self.saved_joint_state.name) print("Closing serial port.")
if self.ser.is_open:
def jointjog_callback(self, msg: JointJog): self.ser.close()
if len(msg.joint_names) != len(msg.velocities): pass
self.get_logger().debug("Ignoring malformed /arm/manual/joint_jog message.")
return
# Grab velocities from message
velocities = [
(
msg.velocities[msg.joint_names.index(joint_name)] # type: ignore
if joint_name in msg.joint_names
else 0.0
)
for joint_name in self.all_joint_names
]
# Deadzone
velocities = [vel if abs(vel) > 0.05 else 0.0 for vel in velocities]
self.send_velocities(velocities, msg.header)
# TODO: use msg.duration
def joint_command_callback(self, msg: JointState): def joint_command_callback(self, msg: JointState):
if len(msg.position) < 7 and len(msg.velocity) < 7: # Embedded takes deg*10, ROS2 uses Radians
self.get_logger().debug("Ignoring malformed /joint_command message.") positions = [math.degrees(pos) * 10 for pos in msg.position]
return # command needs either position or velocity for all 7 joints # Axis 2 & 3 URDF direction is inverted
positions[2] = -positions[2]
positions[3] = -positions[3]
# Grab velocities from message # Set target angles for each arm axis for embedded IK PID to handle
velocities = [ command = f"can_relay_tovic,arm,32,{positions[0]},{positions[1]},{positions[2]},{positions[3]}\n"
( # Wrist yaw and roll
msg.velocity[msg.name.index(joint_name)] # type: ignore command += f"can_relay_tovic,digit,32,{positions[4]},{positions[5]}\n"
if joint_name in msg.name # Gripper IK does not have adequate hardware yet
else 0.0 self.send_cmd(command)
)
for joint_name in self.all_joint_names
]
self.send_velocities(velocities, msg.header)
def send_velocities(self, velocities: list[float], header: Header):
# ROS2's rad/s to VicCAN's deg/s*10; don't convert gripper's m/s
velocities = [
math.degrees(vel) * 10 if i < 6 else vel for i, vel in enumerate(velocities)
]
# Send Axis 0-3
self.anchor_tovic_pub_.publish(
VicCAN(mcu_name="arm", command_id=43, data=velocities[0:3], header=header)
)
# Send Wrist yaw and roll
# TODO: Verify embedded
self.anchor_tovic_pub_.publish(
VicCAN(mcu_name="digit", command_id=43, data=velocities[4:5], header=header)
)
# Send End Effector Gripper
# TODO: Verify m/s received correctly by embedded
self.anchor_tovic_pub_.publish(
VicCAN(mcu_name="digit", command_id=26, data=[velocities[6]], header=header)
)
@deprecated("Uses an old message type. Will be removed at some point.")
def send_manual(self, msg: ArmManual): def send_manual(self, msg: ArmManual):
axis0 = msg.axis0 axis0 = msg.axis0
axis1 = -1 * msg.axis1 axis1 = -1 * msg.axis1
@@ -230,7 +190,7 @@ class ArmNode(Node):
command += f"can_relay_tovic,digit,39,{msg.effector_yaw},{msg.effector_roll}\n" command += f"can_relay_tovic,digit,39,{msg.effector_yaw},{msg.effector_roll}\n"
command += f"can_relay_tovic,digit,26,{msg.gripper}\n" # no hardware rn # command += f"can_relay_tovic,digit,26,{msg.gripper}\n" # no hardware rn
command += f"can_relay_tovic,digit,28,{msg.laser}\n" command += f"can_relay_tovic,digit,28,{msg.laser}\n"
@@ -240,17 +200,24 @@ class ArmNode(Node):
return return
@deprecated("Uses an old message type. Will be removed at some point.")
def send_cmd(self, msg: str): def send_cmd(self, msg: str):
output = String(data=msg) if (
self.anchor_pub.publish(output) self.launch_mode == "anchor"
): # if in anchor mode, send to anchor node to relay
output = String()
output.data = msg
self.anchor_pub.publish(output)
elif self.launch_mode == "arm": # if in standalone mode, send to MCU directly
self.get_logger().info(f"[Arm to MCU] {msg}")
self.ser.write(bytes(msg, "utf8"))
@deprecated("Uses an old message type. Will be removed at some point.")
def anchor_feedback(self, msg: String): def anchor_feedback(self, msg: String):
output = msg.data output = msg.data
if output.startswith("can_relay_fromvic,arm,55"): if output.startswith("can_relay_fromvic,arm,55"):
# pass
self.updateAngleFeedback(output) self.updateAngleFeedback(output)
elif output.startswith("can_relay_fromvic,arm,54"): elif output.startswith("can_relay_fromvic,arm,54"):
# pass
self.updateBusVoltage(output) self.updateBusVoltage(output)
elif output.startswith("can_relay_fromvic,arm,53"): elif output.startswith("can_relay_fromvic,arm,53"):
self.updateMotorFeedback(output) self.updateMotorFeedback(output)
@@ -268,133 +235,19 @@ class ArmNode(Node):
if len(parts) >= 4: if len(parts) >= 4:
self.digit_feedback.wrist_angle = float(parts[3]) self.digit_feedback.wrist_angle = float(parts[3])
# self.digit_feedback.wrist_roll = float(parts[4]) # self.digit_feedback.wrist_roll = float(parts[4])
self.joint_state.position[4] = math.radians(
float(parts[4])
) # Wrist roll
self.joint_state.position[5] = math.radians(
float(parts[3])
) # Wrist yaw
else: else:
return return
def relay_fromvic(self, msg: VicCAN):
# Code for socket and digit are broken out for cleaner code
if msg.mcu_name == "arm":
self.process_fromvic_arm(msg)
elif msg.mcu_name == "digit":
self.process_fromvic_digit(msg)
def process_fromvic_arm(self, msg: VicCAN):
assert msg.mcu_name == "arm"
# Check message len to prevent crashing on bad data
if msg.command_id in self.viccan_socket_msg_len_dict:
expected_len = self.viccan_socket_msg_len_dict[msg.command_id]
if len(msg.data) != expected_len:
self.get_logger().warning(
f"Ignoring VicCAN message with id {msg.command_id} due to unexpected data length (expected {expected_len}, got {len(msg.data)})"
)
return
match msg.command_id:
case 53: # REV SPARK MAX feedback
motorId = round(msg.data[0])
motor: RevMotorState | None = None
match motorId:
case 1:
motor = self.arm_feedback_new.axis1_motor
case 2:
motor = self.arm_feedback_new.axis2_motor
case 3:
motor = self.arm_feedback_new.axis3_motor
case 4:
motor = self.arm_feedback_new.axis0_motor
if motor:
motor.temperature = float(msg.data[1]) / 10.0
motor.voltage = float(msg.data[2]) / 10.0
motor.current = float(msg.data[3]) / 10.0
motor.header.stamp = msg.header.stamp
self.arm_feedback_pub_.publish(self.arm_feedback_new)
case 54: # Board voltages
self.arm_feedback_new.socket_voltage.vbatt = float(msg.data[0]) / 100.0
self.arm_feedback_new.socket_voltage.v12 = float(msg.data[1]) / 100.0
self.arm_feedback_new.socket_voltage.v5 = float(msg.data[2]) / 100.0
self.arm_feedback_new.socket_voltage.v3 = float(msg.data[3]) / 100.0
self.arm_feedback_new.socket_voltage.header.stamp = msg.header.stamp
case 55: # Arm joint positions
angles = [angle / 10.0 for angle in msg.data] # VicCAN sends deg*10
# Joint state publisher for URDF visualization
self.saved_joint_state.position[0] = math.radians(angles[0]) # Axis 0
self.saved_joint_state.position[1] = math.radians(angles[1]) # Axis 1
self.saved_joint_state.position[2] = math.radians(angles[2]) # Axis 2
self.saved_joint_state.position[3] = math.radians(angles[3]) # Axis 3
# Wrist is handled by digit feedback
self.saved_joint_state.header.stamp = msg.header.stamp
self.joint_state_pub_.publish(self.saved_joint_state)
case 58: # REV SPARK MAX position and velocity feedback
motorId = round(msg.data[0])
motor: RevMotorState | None = None
match motorId:
case 1:
motor = self.arm_feedback_new.axis1_motor
case 2:
motor = self.arm_feedback_new.axis2_motor
case 3:
motor = self.arm_feedback_new.axis3_motor
case 4:
motor = self.arm_feedback_new.axis0_motor
if motor:
motor.position = float(msg.data[1])
motor.velocity = float(msg.data[2])
motor.header.stamp = msg.header.stamp
self.arm_feedback_pub_.publish(self.arm_feedback_new)
case 59: # Arm joint velocities
velocities = [vel / 100.0 for vel in msg.data] # VicCAN sends deg/s*100
self.saved_joint_state.velocity[0] = math.radians(
velocities[0]
) # Axis 0
self.saved_joint_state.velocity[1] = math.radians(
velocities[1]
) # Axis 1
self.saved_joint_state.velocity[2] = math.radians(
velocities[2]
) # Axis 2
self.saved_joint_state.velocity[3] = math.radians(
velocities[3]
) # Axis 3
# Wrist is handled by digit feedback
self.saved_joint_state.header.stamp = msg.header.stamp
self.joint_state_pub_.publish(self.saved_joint_state)
def process_fromvic_digit(self, msg: VicCAN):
assert msg.mcu_name == "digit"
# Check message len to prevent crashing on bad data
if msg.command_id in self.viccan_digit_msg_len_dict:
expected_len = self.viccan_digit_msg_len_dict[msg.command_id]
if len(msg.data) != expected_len:
self.get_logger().warning(
f"Ignoring VicCAN message with id {msg.command_id} due to unexpected data length (expected {expected_len}, got {len(msg.data)})"
)
return
match msg.command_id:
case 54: # Board voltages
self.arm_feedback_new.digit_voltage.vbatt = float(msg.data[0]) / 100.0
self.arm_feedback_new.digit_voltage.v12 = float(msg.data[1]) / 100.0
self.arm_feedback_new.digit_voltage.v5 = float(msg.data[2]) / 100.0
case 55: # Arm joint positions
self.saved_joint_state.position[4] = math.radians(
msg.data[0]
) # Wrist roll
self.saved_joint_state.position[5] = math.radians(
msg.data[1]
) # Wrist yaw
@deprecated("Uses an old message type. Will be removed at some point.")
def publish_feedback(self): def publish_feedback(self):
self.socket_pub.publish(self.arm_feedback) self.socket_pub.publish(self.arm_feedback)
self.digit_pub.publish(self.digit_feedback) self.digit_pub.publish(self.digit_feedback)
@deprecated("Uses an old message type. Will be removed at some point.")
def updateAngleFeedback(self, msg: str): def updateAngleFeedback(self, msg: str):
# Angle feedbacks, # Angle feedbacks,
# split the msg.data by commas # split the msg.data by commas
@@ -410,10 +263,19 @@ class ArmNode(Node):
self.arm_feedback.axis1_angle = angles[1] self.arm_feedback.axis1_angle = angles[1]
self.arm_feedback.axis2_angle = angles[2] self.arm_feedback.axis2_angle = angles[2]
self.arm_feedback.axis3_angle = angles[3] self.arm_feedback.axis3_angle = angles[3]
# Joint state publisher for URDF visualization
self.joint_state.position[0] = math.radians(angles[0]) # Axis 0
self.joint_state.position[1] = math.radians(angles[1]) # Axis 1
self.joint_state.position[2] = math.radians(-angles[2]) # Axis 2 (inverted)
self.joint_state.position[3] = math.radians(-angles[3]) # Axis 3 (inverted)
# Wrist is handled by digit feedback
self.joint_state.header.stamp = self.get_clock().now().to_msg()
self.joint_state_pub.publish(self.joint_state)
else: else:
self.get_logger().info("Invalid angle feedback input format") self.get_logger().info("Invalid angle feedback input format")
@deprecated("Uses an old message type. Will be removed at some point.")
def updateBusVoltage(self, msg: str): def updateBusVoltage(self, msg: str):
# Bus Voltage feedbacks # Bus Voltage feedbacks
parts = msg.split(",") parts = msg.split(",")
@@ -428,7 +290,6 @@ class ArmNode(Node):
else: else:
self.get_logger().info("Invalid voltage feedback input format") self.get_logger().info("Invalid voltage feedback input format")
@deprecated("Uses an old message type. Will be removed at some point.")
def updateMotorFeedback(self, msg: str): def updateMotorFeedback(self, msg: str):
parts = str(msg.strip()).split(",") parts = str(msg.strip()).split(",")
motorId = round(float(parts[3])) motorId = round(float(parts[3]))
@@ -452,28 +313,38 @@ class ArmNode(Node):
self.arm_feedback.axis0_voltage = voltage self.arm_feedback.axis0_voltage = voltage
self.arm_feedback.axis0_current = current self.arm_feedback.axis0_current = current
@staticmethod
def list_serial_ports():
return glob.glob("/dev/ttyUSB*") + glob.glob("/dev/ttyACM*")
# return glob.glob("/dev/tty[A-Za-z]*")
def exit_handler(signum, frame): def cleanup(self):
print("Caught SIGTERM. Exiting...") print("Cleaning up...")
rclpy.try_shutdown() try:
sys.exit(0) if self.ser.is_open:
self.ser.close()
except Exception as e:
exit(0)
def myexcepthook(type, value, tb):
print("Uncaught exception:", type, value)
if serial_pub:
serial_pub.cleanup()
def main(args=None): def main(args=None):
rclpy.init(args=args) rclpy.init(args=args)
sys.excepthook = myexcepthook
# Catch termination signals and exit cleanly global serial_pub
signal.signal(signal.SIGTERM, exit_handler) serial_pub = SerialRelay()
serial_pub.run()
arm_node = ArmNode()
try:
rclpy.spin(arm_node)
except (KeyboardInterrupt, ExternalShutdownException):
pass
finally:
rclpy.try_shutdown()
if __name__ == "__main__": if __name__ == "__main__":
# signal.signal(signal.SIGTSTP, lambda signum, frame: sys.exit(0)) # Catch Ctrl+Z and exit cleanly
signal.signal(
signal.SIGTERM, lambda signum, frame: sys.exit(0)
) # Catch termination signals and exit cleanly
main() main()

19
src/arm_pkg/setup.py
View File

@@ -1,22 +1,27 @@
from setuptools import setup from setuptools import find_packages, setup
import os
from glob import glob
package_name = "arm_pkg" package_name = "arm_pkg"
setup( setup(
name=package_name, name=package_name,
version="1.0.0", version="1.0.0",
packages=[package_name], packages=find_packages(exclude=["test"]),
data_files=[ data_files=[
("share/ament_index/resource_index/packages", ["resource/" + package_name]), ("share/ament_index/resource_index/packages", ["resource/" + package_name]),
("share/" + package_name, ["package.xml"]), ("share/" + package_name, ["package.xml"]),
], ],
install_requires=["setuptools"], install_requires=["setuptools"],
zip_safe=True, zip_safe=True,
maintainer="David", maintainer="tristan",
maintainer_email="ds0196@uah.edu", maintainer_email="tristanmcginnis26@gmail.com",
description="Relays topics related to the arm between VicCAN (through Anchor) and basestation.", description="TODO: Package description",
license="AGPL-3.0-only", license="All Rights Reserved",
entry_points={ entry_points={
"console_scripts": ["arm = arm_pkg.arm_node:main"], "console_scripts": [
"arm = arm_pkg.arm_node:main",
"headless = arm_pkg.arm_headless:main",
],
}, },
) )

2
src/astra_descriptions

Submodule src/astra_descriptions updated: c36bd8233d...4ab41e9c82

2
src/astra_msgs

Submodule src/astra_msgs updated: 2264a2cb67...6a57072723

10
src/core_pkg/core_pkg/core_node.py
View File

@@ -33,12 +33,12 @@ CORE_GEAR_RATIO = 100.0 # Clucky: 100:1, Testbed: 64:1
control_qos = qos.QoSProfile( control_qos = qos.QoSProfile(
history=qos.QoSHistoryPolicy.KEEP_LAST, history=qos.QoSHistoryPolicy.KEEP_LAST,
depth=2, depth=2,
reliability=qos.QoSReliabilityPolicy.BEST_EFFORT, # Best Effort subscribers are still compatible with Reliable publishers reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
durability=qos.QoSDurabilityPolicy.VOLATILE, durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=Duration(seconds=1), deadline=Duration(seconds=1),
# lifespan=Duration(nanoseconds=500_000_000), # 500ms lifespan=Duration(nanoseconds=500_000_000), # 500ms
# liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT, liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT,
# liveliness_lease_duration=Duration(seconds=5), liveliness_lease_duration=Duration(seconds=5),
) )
# Used to verify the length of an incoming VicCAN feedback message # Used to verify the length of an incoming VicCAN feedback message

2
src/core_pkg/core_pkg/core_ptz.py
View File

@@ -262,7 +262,7 @@ class PtzNode(Node):
f"[{self.get_clock().now().nanoseconds / 1e9:.2f}] PTZ Node: {message_text}" f"[{self.get_clock().now().nanoseconds / 1e9:.2f}] PTZ Node: {message_text}"
) )
self.debug_pub.publish(msg) self.debug_pub.publish(msg)
self.get_logger().debug(message_text) self.get_logger().info(message_text)
def run_async_func(self, coro): def run_async_func(self, coro):
"""Run an async function in the event loop.""" """Run an async function in the event loop."""

625
src/headless_pkg/src/headless_node.py
View File

@@ -1,33 +1,23 @@
import rclpy import rclpy
from rclpy.node import Node from rclpy.node import Node
from rclpy.executors import ExternalShutdownException
from rclpy import qos from rclpy import qos
from rclpy.duration import Duration from rclpy.duration import Duration
import signal import signal
import time import time
import atexit
import os import os
import sys import sys
import pwd import threading
import grp import glob
from math import copysign from math import copysign
from std_srvs.srv import Trigger from std_msgs.msg import String
from std_msgs.msg import Header from geometry_msgs.msg import Twist
from geometry_msgs.msg import Twist, TwistStamped
from control_msgs.msg import JointJog
from astra_msgs.msg import CoreControl, ArmManual, BioControl from astra_msgs.msg import CoreControl, ArmManual, BioControl
from astra_msgs.msg import CoreCtrlState from astra_msgs.msg import CoreCtrlState
import warnings
# Literally headless
warnings.filterwarnings(
"ignore",
message="Your system is avx2 capable but pygame was not built with support for it.",
)
import pygame import pygame
os.environ["SDL_VIDEODRIVER"] = "dummy" # Prevents pygame from trying to open a display os.environ["SDL_VIDEODRIVER"] = "dummy" # Prevents pygame from trying to open a display
@@ -41,44 +31,26 @@ CORE_STOP_TWIST_MSG = Twist() # "
ARM_STOP_MSG = ArmManual() # " ARM_STOP_MSG = ArmManual() # "
BIO_STOP_MSG = BioControl() # " BIO_STOP_MSG = BioControl() # "
control_qos = qos.QoSProfile( control_qos = qos.QoSProfile(
history=qos.QoSHistoryPolicy.KEEP_LAST, history=qos.QoSHistoryPolicy.KEEP_LAST,
depth=2, depth=2,
reliability=qos.QoSReliabilityPolicy.BEST_EFFORT, reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
durability=qos.QoSDurabilityPolicy.VOLATILE, durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=Duration(seconds=1), deadline=Duration(seconds=1),
# lifespan=Duration(nanoseconds=500_000_000), # 500ms lifespan=Duration(nanoseconds=500_000_000), # 500ms
# liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT, liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT,
# liveliness_lease_duration=Duration(seconds=5), liveliness_lease_duration=Duration(seconds=5),
) )
CORE_MODE = "twist" # "twist" or "duty"
STICK_DEADZONE = float(os.getenv("STICK_DEADZONE", "0.05"))
ARM_DEADZONE = float(os.getenv("ARM_DEADZONE", "0.2"))
class Headless(Node): class Headless(Node):
# Every non-fixed joint defined in Arm's URDF
# Used for JointState and JointJog messsages
all_joint_names = [
"axis_0_joint",
"axis_1_joint",
"axis_2_joint",
"axis_3_joint",
"wrist_yaw_joint",
"wrist_roll_joint",
"ef_gripper_left_joint",
]
def __init__(self): def __init__(self):
# Initialize pygame first # Initialize pygame first
pygame.init() pygame.init()
pygame.joystick.init() pygame.joystick.init()
super().__init__("headless_node") super().__init__("headless")
##################################################
# Preamble
# Wait for anchor to start # Wait for anchor to start
pub_info = self.get_publishers_info_by_topic("/anchor/from_vic/debug") pub_info = self.get_publishers_info_by_topic("/anchor/from_vic/debug")
@@ -99,150 +71,41 @@ class Headless(Node):
print("No gamepad found. Waiting...") print("No gamepad found. Waiting...")
# Initialize the gamepad # Initialize the gamepad
id = 0 self.gamepad = pygame.joystick.Joystick(0)
while True: self.gamepad.init()
self.num_gamepads = pygame.joystick.get_count() print(f"Gamepad Found: {self.gamepad.get_name()}")
if id >= self.num_gamepads:
self.get_logger().fatal("Ran out of controllers to try")
sys.exit(1)
try: self.create_timer(0.15, self.send_controls)
self.gamepad = pygame.joystick.Joystick(id)
self.gamepad.init()
except Exception as e:
self.get_logger().error("Error when initializing gamepad")
self.get_logger().error(e)
id += 1
continue
print(f"Gamepad Found: {self.gamepad.get_name()}")
if self.gamepad.get_numhats() == 0 or self.gamepad.get_numaxes() < 5: self.core_publisher = self.create_publisher(CoreControl, "/core/control", 2)
self.get_logger().error("Controller not correctly initialized.") self.arm_publisher = self.create_publisher(ArmManual, "/arm/control/manual", 2)
if not is_user_in_group("input"): self.bio_publisher = self.create_publisher(BioControl, "/bio/control", 2)
self.get_logger().warning(
"If using NixOS, you may need to add yourself to the 'input' group."
)
if is_user_in_group("plugdev"):
self.get_logger().warning(
"If using NixOS, you may need to remove yourself from the 'plugdev' group."
)
else:
break
id += 1
################################################## self.core_twist_pub_ = self.create_publisher(
# Parameters Twist, "/core/twist", qos_profile=control_qos
self.declare_parameter("use_old_topics", True)
self.use_old_topics = (
self.get_parameter("use_old_topics").get_parameter_value().bool_value
) )
self.core_state_pub_ = self.create_publisher(
self.declare_parameter("use_bio", False) CoreCtrlState, "/core/control/state", qos_profile=control_qos
self.use_bio = self.get_parameter("use_bio").get_parameter_value().bool_value
self.declare_parameter("use_arm_ik", False)
self.use_arm_ik = (
self.get_parameter("use_arm_ik").get_parameter_value().bool_value
) )
# NOTE: only applicable if use_old_topics == True
self.declare_parameter("use_new_arm_manual_scheme", True)
self.use_new_arm_manual_scheme = (
self.get_parameter("use_new_arm_manual_scheme")
.get_parameter_value()
.bool_value
)
# Check parameter validity
if self.use_arm_ik and self.use_old_topics:
self.get_logger().fatal("Old topics do not support arm IK control.")
sys.exit(1)
if not self.use_new_arm_manual_scheme and not self.use_old_topics:
self.get_logger().warn(
f"New arm manual does not support old control scheme. Defaulting to new scheme."
)
self.ctrl_mode = "core" # Start in core mode self.ctrl_mode = "core" # Start in core mode
self.core_brake_mode = False self.core_brake_mode = False
self.core_max_duty = 0.5 # Default max duty cycle (walking speed) self.core_max_duty = 0.5 # Default max duty cycle (walking speed)
##################################################
# Old Topics
if self.use_old_topics:
self.core_publisher = self.create_publisher(CoreControl, "/core/control", 2)
self.arm_publisher = self.create_publisher(
ArmManual, "/arm/control/manual", 2
)
self.bio_publisher = self.create_publisher(BioControl, "/bio/control", 2)
##################################################
# New Topics
if not self.use_old_topics:
self.core_twist_pub_ = self.create_publisher(
Twist, "/core/twist", qos_profile=control_qos
)
self.core_state_pub_ = self.create_publisher(
CoreCtrlState, "/core/control/state", qos_profile=control_qos
)
self.arm_manual_pub_ = self.create_publisher(
JointJog, "/arm/manual_new", qos_profile=control_qos
)
self.arm_ik_twist_publisher = self.create_publisher(
TwistStamped, "/servo_node/delta_twist_cmds", qos_profile=control_qos
)
self.arm_ik_jointjog_publisher = self.create_publisher(
JointJog, "/servo_node/delta_joint_cmds", qos_profile=control_qos
)
# TODO: add new bio topics
##################################################
# Timers
self.create_timer(0.1, self.send_controls)
##################################################
# Services
# If using IK control, we have to "start" the servo node to enable it to accept commands
self.servo_start_client = None
if self.use_arm_ik:
self.get_logger().info("Starting servo node for IK control...")
self.servo_start_client = self.create_client(
Trigger, "/servo_node/start_servo"
)
timeout_counter = 0
while not self.servo_start_client.wait_for_service(timeout_sec=1.0):
self.get_logger().info("Waiting for servo_node/start_servo service...")
timeout_counter += 1
if timeout_counter >= 10:
self.get_logger().error(
"Servo's start service not available. IK control will not work."
)
break
if self.servo_start_client.service_is_ready():
self.servo_start_client.call_async(Trigger.Request())
# Rumble when node is ready (returns False if rumble not supported) # Rumble when node is ready (returns False if rumble not supported)
self.gamepad.rumble(0.7, 0.8, 150) self.gamepad.rumble(0.7, 0.8, 150)
def stop_all(self): def run(self):
if self.use_old_topics: # This thread makes all the update processes run in the background
self.core_publisher.publish(CORE_STOP_MSG) thread = threading.Thread(target=rclpy.spin, args={self}, daemon=True)
self.arm_publisher.publish(ARM_STOP_MSG) thread.start()
self.bio_publisher.publish(BIO_STOP_MSG)
else: try:
self.core_twist_pub_.publish(CORE_STOP_TWIST_MSG) while rclpy.ok():
if self.use_arm_ik: self.send_controls()
self.arm_ik_twist_publisher.publish(self.arm_ik_twist_stop_msg()) time.sleep(0.1) # Small delay to avoid CPU hogging
else: except KeyboardInterrupt:
self.arm_manual_pub_.publish(self.arm_manual_stop_msg()) sys.exit(0)
# TODO: add bio here after implementing new topics
def send_controls(self): def send_controls(self):
"""Read the gamepad state and publish control messages""" """Read the gamepad state and publish control messages"""
@@ -252,10 +115,12 @@ class Headless(Node):
sys.exit(0) sys.exit(0)
# Check if controller is still connected # Check if controller is still connected
if pygame.joystick.get_count() != self.num_gamepads: if pygame.joystick.get_count() == 0:
print("Gamepad disconnected. Exiting...") print("Gamepad disconnected. Exiting...")
# Stop the rover if controller disconnected # Send one last zero control message
self.stop_all() self.core_publisher.publish(CORE_STOP_MSG)
self.arm_publisher.publish(ARM_STOP_MSG)
self.bio_publisher.publish(BIO_STOP_MSG)
self.get_logger().info("Final stop commands sent. Shutting down.") self.get_logger().info("Final stop commands sent. Shutting down.")
# Clean up # Clean up
pygame.quit() pygame.quit()
@@ -271,51 +136,20 @@ class Headless(Node):
new_ctrl_mode = "core" new_ctrl_mode = "core"
if new_ctrl_mode != self.ctrl_mode: if new_ctrl_mode != self.ctrl_mode:
self.stop_all()
self.gamepad.rumble(0.6, 0.7, 75) self.gamepad.rumble(0.6, 0.7, 75)
self.ctrl_mode = new_ctrl_mode self.ctrl_mode = new_ctrl_mode
self.get_logger().info(f"Switched to {self.ctrl_mode} control mode") self.get_logger().info(f"Switched to {self.ctrl_mode} control mode")
if self.ctrl_mode == "arm" and self.use_bio:
self.get_logger().warning("NOTE: Using bio instead of arm.")
# Actually send the controls # CORE
if self.ctrl_mode == "core": if self.ctrl_mode == "core" and CORE_MODE == "duty":
self.send_core()
if self.use_old_topics:
if self.use_bio:
self.bio_publisher.publish(BIO_STOP_MSG)
else:
self.arm_publisher.publish(ARM_STOP_MSG)
# New topics shouldn't need to constantly send zeroes imo
else:
if self.use_bio:
self.send_bio()
else:
self.send_arm()
if self.use_old_topics:
self.core_publisher.publish(CORE_STOP_MSG)
# Ditto
def send_core(self):
# Collect controller state
left_stick_x = stick_deadzone(self.gamepad.get_axis(0))
left_stick_y = stick_deadzone(self.gamepad.get_axis(1))
left_trigger = stick_deadzone(self.gamepad.get_axis(2))
right_stick_x = stick_deadzone(self.gamepad.get_axis(3))
right_stick_y = stick_deadzone(self.gamepad.get_axis(4))
right_trigger = stick_deadzone(self.gamepad.get_axis(5))
button_a = self.gamepad.get_button(0)
button_b = self.gamepad.get_button(1)
button_x = self.gamepad.get_button(2)
button_y = self.gamepad.get_button(3)
left_bumper = self.gamepad.get_button(4)
right_bumper = self.gamepad.get_button(5)
dpad_input = self.gamepad.get_hat(0)
if self.use_old_topics:
input = CoreControl() input = CoreControl()
input.max_speed = 90 input.max_speed = 90
# Collect controller state
left_stick_y = deadzone(self.gamepad.get_axis(1))
right_stick_y = deadzone(self.gamepad.get_axis(4))
right_trigger = deadzone(self.gamepad.get_axis(5))
# Right wheels # Right wheels
input.right_stick = float(round(-1 * right_stick_y, 2)) input.right_stick = float(round(-1 * right_stick_y, 2))
@@ -330,10 +164,19 @@ class Headless(Node):
self.get_logger().info(f"[Ctrl] {output}") self.get_logger().info(f"[Ctrl] {output}")
self.core_publisher.publish(input) self.core_publisher.publish(input)
self.arm_publisher.publish(ARM_STOP_MSG)
# self.bio_publisher.publish(BIO_STOP_MSG)
else: # New topics elif self.ctrl_mode == "core" and CORE_MODE == "twist":
input = Twist() input = Twist()
# Collect controller state
left_stick_y = deadzone(self.gamepad.get_axis(1))
right_stick_x = deadzone(self.gamepad.get_axis(3))
button_a = self.gamepad.get_button(0)
left_bumper = self.gamepad.get_button(4)
right_bumper = self.gamepad.get_button(5)
# Forward/back and Turn # Forward/back and Turn
input.linear.x = -1.0 * left_stick_y input.linear.x = -1.0 * left_stick_y
input.angular.z = -1.0 * copysign( input.angular.z = -1.0 * copysign(
@@ -342,6 +185,8 @@ class Headless(Node):
# Publish # Publish
self.core_twist_pub_.publish(input) self.core_twist_pub_.publish(input)
self.arm_publisher.publish(ARM_STOP_MSG)
# self.bio_publisher.publish(BIO_STOP_MSG)
self.get_logger().info( self.get_logger().info(
f"[Core Ctrl] Linear: {round(input.linear.x, 2)}, Angular: {round(input.angular.z, 2)}" f"[Core Ctrl] Linear: {round(input.linear.x, 2)}, Angular: {round(input.angular.z, 2)}"
) )
@@ -366,348 +211,100 @@ class Headless(Node):
state_msg = CoreCtrlState() state_msg = CoreCtrlState()
state_msg.brake_mode = bool(self.core_brake_mode) state_msg.brake_mode = bool(self.core_brake_mode)
state_msg.max_duty = float(self.core_max_duty) state_msg.max_duty = float(self.core_max_duty)
self.core_state_pub_.publish(state_msg) self.core_state_pub_.publish(state_msg)
self.get_logger().info( self.get_logger().info(
f"[Core State] Brake: {self.core_brake_mode}, Max Duty: {self.core_max_duty}" f"[Core State] Brake: {self.core_brake_mode}, Max Duty: {self.core_max_duty}"
) )
def send_arm(self): # ARM and BIO
# Collect controller state if self.ctrl_mode == "arm":
left_stick_x = stick_deadzone(self.gamepad.get_axis(0))
left_stick_y = stick_deadzone(self.gamepad.get_axis(1))
left_trigger = stick_deadzone(self.gamepad.get_axis(2))
right_stick_x = stick_deadzone(self.gamepad.get_axis(3))
right_stick_y = stick_deadzone(self.gamepad.get_axis(4))
right_trigger = stick_deadzone(self.gamepad.get_axis(5))
button_a = self.gamepad.get_button(0)
button_b = self.gamepad.get_button(1)
button_x = self.gamepad.get_button(2)
button_y = self.gamepad.get_button(3)
left_bumper = self.gamepad.get_button(4)
right_bumper = self.gamepad.get_button(5)
dpad_input = self.gamepad.get_hat(0)
# OLD MANUAL
# ==========
if not self.use_arm_ik and self.use_old_topics:
arm_input = ArmManual() arm_input = ArmManual()
# OLD ARM MANUAL CONTROL SCHEME # Collect controller state
if not self.use_new_arm_manual_scheme: left_stick_x = deadzone(self.gamepad.get_axis(0))
# EF Grippers left_stick_y = deadzone(self.gamepad.get_axis(1))
if left_trigger > 0 and right_trigger > 0: left_trigger = deadzone(self.gamepad.get_axis(2))
arm_input.gripper = 0 right_stick_x = deadzone(self.gamepad.get_axis(3))
elif left_trigger > 0: right_stick_y = deadzone(self.gamepad.get_axis(4))
arm_input.gripper = -1 right_trigger = deadzone(self.gamepad.get_axis(5))
elif right_trigger > 0: right_bumper = self.gamepad.get_button(5)
arm_input.gripper = 1 dpad_input = self.gamepad.get_hat(0)
# Axis 0 # EF Grippers
if dpad_input[0] == 1:
arm_input.axis0 = 1
elif dpad_input[0] == -1:
arm_input.axis0 = -1
if right_bumper: # Control end effector
# Effector yaw
if left_stick_x > 0:
arm_input.effector_yaw = 1
elif left_stick_x < 0:
arm_input.effector_yaw = -1
# Effector roll
if right_stick_x > 0:
arm_input.effector_roll = 1
elif right_stick_x < 0:
arm_input.effector_roll = -1
else: # Control arm axis
# Axis 1
if abs(left_stick_x) > 0.15:
arm_input.axis1 = round(left_stick_x)
# Axis 2
if abs(left_stick_y) > 0.15:
arm_input.axis2 = -1 * round(left_stick_y)
# Axis 3
if abs(right_stick_y) > 0.15:
arm_input.axis3 = -1 * round(right_stick_y)
# NEW ARM MANUAL CONTROL SCHEME
if self.use_new_arm_manual_scheme:
# Right stick: EF yaw and axis 3
# Left stick: axis 1 and 2
# D-pad: axis 0 and _
# Triggers: EF grippers
# Bumpers: EF roll
# A: brake
# B: linear actuator in
# X: _
# Y: linear actuator out
# Right stick: EF yaw and axis 3
arm_input.effector_yaw = stick_to_arm_direction(right_stick_x)
arm_input.axis3 = -1 * stick_to_arm_direction(right_stick_y)
# Left stick: axis 1 and 2
arm_input.axis1 = stick_to_arm_direction(left_stick_x)
arm_input.axis2 = -1 * stick_to_arm_direction(left_stick_y)
# D-pad: axis 0 and _
arm_input.axis0 = int(dpad_input[0])
# Triggers: EF Grippers
if left_trigger > 0 and right_trigger > 0:
arm_input.gripper = 0
elif left_trigger > 0:
arm_input.gripper = -1
elif right_trigger > 0:
arm_input.gripper = 1
# Bumpers: EF roll
if left_bumper > 0 and right_bumper > 0:
arm_input.effector_roll = 0
elif left_bumper > 0:
arm_input.effector_roll = -1
elif right_bumper > 0:
arm_input.effector_roll = 1
# A: brake
if button_a:
arm_input.brake = True
# Y: linear actuator
if button_y and not button_b:
arm_input.linear_actuator = 1
elif button_b and not button_y:
arm_input.linear_actuator = -1
else:
arm_input.linear_actuator = 0
self.arm_publisher.publish(arm_input)
# NEW MANUAL
# ==========
elif not self.use_arm_ik and not self.use_old_topics:
arm_input = JointJog()
arm_input.header.frame_id = "base_link"
arm_input.header.stamp = self.get_clock().now().to_msg()
arm_input.joint_names = self.all_joint_names
arm_input.velocities = [0.0] * len(self.all_joint_names)
# Right stick: EF yaw and axis 3
# Left stick: axis 1 and 2
# D-pad: axis 0 and _
# Triggers: EF grippers
# Bumpers: EF roll
# A: brake
# B: linear actuator in
# X: _
# Y: linear actuator out
# Right stick: EF yaw and axis 3
arm_input.velocities[self.all_joint_names.index("wrist_yaw_joint")] = float(
stick_to_arm_direction(right_stick_x)
)
arm_input.velocities[self.all_joint_names.index("axis_3_joint")] = float(
stick_to_arm_direction(right_stick_y)
)
# Left stick: axis 1 and 2
arm_input.velocities[self.all_joint_names.index("axis_1_joint")] = float(
stick_to_arm_direction(left_stick_x)
)
arm_input.velocities[self.all_joint_names.index("axis_2_joint")] = float(
stick_to_arm_direction(left_stick_y)
)
# D-pad: axis 0 and _
arm_input.velocities[self.all_joint_names.index("axis_0_joint")] = float(
dpad_input[0]
)
# Triggers: EF Grippers
if left_trigger > 0 and right_trigger > 0: if left_trigger > 0 and right_trigger > 0:
arm_input.velocities[ arm_input.gripper = 0
self.all_joint_names.index("ef_gripper_left_joint")
] = 0.0
elif left_trigger > 0: elif left_trigger > 0:
arm_input.velocities[ arm_input.gripper = -1
self.all_joint_names.index("ef_gripper_left_joint")
] = -1.0
elif right_trigger > 0: elif right_trigger > 0:
arm_input.velocities[ arm_input.gripper = 1
self.all_joint_names.index("ef_gripper_left_joint")
] = 1.0
# Bumpers: EF roll # Axis 0
arm_input.velocities[self.all_joint_names.index("wrist_roll_joint")] = ( if dpad_input[0] == 1:
right_bumper - left_bumper arm_input.axis0 = 1
) elif dpad_input[0] == -1:
arm_input.axis0 = -1
# A: brake if right_bumper: # Control end effector
# TODO: Brake mode
# Y: linear actuator # Effector yaw
# TODO: linear actuator if left_stick_x > 0:
arm_input.effector_yaw = 1
elif left_stick_x < 0:
arm_input.effector_yaw = -1
self.arm_manual_pub_.publish(arm_input) # Effector roll
if right_stick_x > 0:
arm_input.effector_roll = 1
elif right_stick_x < 0:
arm_input.effector_roll = -1
# IK (ONLY NEW) else: # Control arm axis
# =============
elif self.use_arm_ik: # Axis 1
arm_twist = TwistStamped() if abs(left_stick_x) > 0.15:
arm_twist.header.frame_id = "base_link" arm_input.axis1 = round(left_stick_x)
arm_twist.header.stamp = self.get_clock().now().to_msg()
arm_jointjog = JointJog()
arm_jointjog.header.frame_id = "base_link"
arm_jointjog.header.stamp = self.get_clock().now().to_msg()
# Right stick: linear y and linear x # Axis 2
# Left stick: angular z and linear z if abs(left_stick_y) > 0.15:
# D-pad: angular y and _ arm_input.axis2 = -1 * round(left_stick_y)
# Triggers: EF grippers
# Bumpers: angular x
# A: brake
# B: IK mode
# X: manual mode
# Y: linear actuator
# Right stick: linear y and linear x # Axis 3
arm_twist.twist.linear.y = float(right_stick_x) if abs(right_stick_y) > 0.15:
arm_twist.twist.linear.x = float(right_stick_y) arm_input.axis3 = -1 * round(right_stick_y)
# Left stick: angular z and linear z # BIO
arm_twist.twist.angular.z = float(-1 * left_stick_x)
arm_twist.twist.linear.z = float(-1 * left_stick_y)
# D-pad: angular y and _
arm_twist.twist.angular.y = (
float(0)
if dpad_input[0] == 0
else float(-1 * copysign(0.75, dpad_input[0]))
)
# Triggers: EF Grippers
if left_trigger > 0 or right_trigger > 0:
arm_jointjog.joint_names.append("ef_gripper_left_joint") # type: ignore
arm_jointjog.velocities.append(float(right_trigger - left_trigger))
# Bumpers: angular x
if left_bumper > 0 and right_bumper > 0:
arm_twist.twist.angular.x = float(0)
elif left_bumper > 0:
arm_twist.twist.angular.x = float(1)
elif right_bumper > 0:
arm_twist.twist.angular.x = float(-1)
self.arm_ik_twist_publisher.publish(arm_twist)
# self.arm_ik_jointjog_publisher.publish(arm_jointjog) # TODO: Figure this shit out
def send_bio(self):
# Collect controller state
left_stick_x = stick_deadzone(self.gamepad.get_axis(0))
left_stick_y = stick_deadzone(self.gamepad.get_axis(1))
left_trigger = stick_deadzone(self.gamepad.get_axis(2))
right_stick_x = stick_deadzone(self.gamepad.get_axis(3))
right_stick_y = stick_deadzone(self.gamepad.get_axis(4))
right_trigger = stick_deadzone(self.gamepad.get_axis(5))
button_a = self.gamepad.get_button(0)
button_b = self.gamepad.get_button(1)
button_x = self.gamepad.get_button(2)
button_y = self.gamepad.get_button(3)
left_bumper = self.gamepad.get_button(4)
right_bumper = self.gamepad.get_button(5)
dpad_input = self.gamepad.get_hat(0)
if self.use_old_topics:
bio_input = BioControl( bio_input = BioControl(
bio_arm=int(left_stick_y * -100), bio_arm=int(left_stick_y * -100),
drill_arm=int(round(right_stick_y) * -100), drill_arm=int(round(right_stick_y) * -100),
) )
# Drill motor (FAERIE) # Drill motor (FAERIE)
if left_trigger > 0 or right_trigger > 0: if deadzone(left_trigger) > 0 or deadzone(right_trigger) > 0:
bio_input.drill = int( bio_input.drill = int(
30 * (right_trigger - left_trigger) 30 * (right_trigger - left_trigger)
) # Max duty cycle 30% ) # Max duty cycle 30%
self.bio_publisher.publish(bio_input) self.core_publisher.publish(CORE_STOP_MSG)
self.arm_publisher.publish(arm_input)
else: # self.bio_publisher.publish(bio_input)
pass # TODO: implement new bio control topics
def arm_manual_stop_msg(self):
return JointJog(
header=Header(frame_id="base_link", stamp=self.get_clock().now().to_msg()),
joint_names=self.all_joint_names,
velocities=[0.0] * len(self.all_joint_names),
)
def arm_ik_twist_stop_msg(self):
return TwistStamped(
header=Header(frame_id="base_link", stamp=self.get_clock().now().to_msg())
)
def stick_deadzone(value: float, threshold=STICK_DEADZONE) -> float: def deadzone(value: float, threshold=0.05) -> float:
"""Apply a deadzone to a joystick input so the motors don't sound angry""" """Apply a deadzone to a joystick input so the motors don't sound angry"""
if abs(value) < threshold: if abs(value) < threshold:
return 0 return 0
return value return value
def stick_to_arm_direction(value: float, threshold=ARM_DEADZONE) -> int:
"""Apply a larger deadzone to a stick input and make digital/binary instead of analog"""
if abs(value) < threshold:
return 0
return int(copysign(1, value))
def is_user_in_group(group_name: str) -> bool:
# Copied from https://zetcode.com/python/os-getgrouplist/
try:
username = os.getlogin()
# Get group ID from name
group_info = grp.getgrnam(group_name)
target_gid = group_info.gr_gid
# Get user's groups
user_info = pwd.getpwnam(username)
user_groups = os.getgrouplist(username, user_info.pw_gid)
return target_gid in user_groups
except KeyError:
return False
def exit_handler(signum, frame):
print("Caught SIGTERM. Exiting...")
rclpy.try_shutdown()
sys.exit(0)
def main(args=None): def main(args=None):
try: rclpy.init(args=args)
rclpy.init(args=args) node = Headless()
rclpy.spin(node)
# Catch termination signals and exit cleanly rclpy.shutdown()
signal.signal(signal.SIGTERM, exit_handler)
node = Headless()
rclpy.spin(node)
except (KeyboardInterrupt, ExternalShutdownException):
print("Caught shutdown signal. Exiting...")
finally:
rclpy.try_shutdown()
if __name__ == "__main__": if __name__ == "__main__":
signal.signal(
signal.SIGTERM, lambda signum, frame: sys.exit(0)
) # Catch termination signals and exit cleanly
main() main()

4
src/latency_tester/src/embedded_ping.cpp
View File

@@ -26,7 +26,7 @@ class LatencyTester : public rclcpp::Node
{ {
public: public:
LatencyTester() LatencyTester()
: Node("latency_tester"), count_(0) : Node("latency_tester"), count_(0), target_mcu_("core")
{ {
publisher_ = this->create_publisher<std_msgs::msg::String>("/anchor/relay", 10); publisher_ = this->create_publisher<std_msgs::msg::String>("/anchor/relay", 10);
timer_ = this->create_wall_timer( timer_ = this->create_wall_timer(
@@ -35,8 +35,6 @@ public:
"/anchor/debug", "/anchor/debug",
10, 10,
std::bind(&LatencyTester::response_callback, this, std::placeholders::_1)); std::bind(&LatencyTester::response_callback, this, std::placeholders::_1));
target_mcu_ = this->declare_parameter<std::string>("target_mcu", "core");
} }
private: private:

80
src/servo_arm_twist_pkg/CMakeLists.txt Normal file
View File

@@ -0,0 +1,80 @@
cmake_minimum_required(VERSION 3.22)
project(servo_arm_twist_pkg)
# C++ Libraries #################################################
# Core C++ library for calculations and collision checking.
# Provides interface used by the component node.
set(SERVO_LIB_NAME servo_arm_twist_lib)
# Pose Tracking
set(POSE_TRACKING pose_tracking)
# Component Nodes (Shared libraries) ############################
set(SERVO_COMPONENT_NODE servo_node)
set(SERVO_CONTROLLER_INPUT servo_controller_input)
# Executable Nodes ##############################################
set(SERVO_NODE_MAIN_NAME servo_node_main)
set(POSE_TRACKING_DEMO_NAME servo_pose_tracking_demo)
set(FAKE_SERVO_CMDS_NAME fake_command_publisher)
#################################################################
# Common cmake code applied to all moveit packages
find_package(moveit_common REQUIRED)
moveit_package()
set(THIS_PACKAGE_INCLUDE_DEPENDS
control_msgs
control_toolbox
geometry_msgs
moveit_core
moveit_msgs
moveit_ros_planning
pluginlib
rclcpp
rclcpp_components
sensor_msgs
std_msgs
std_srvs
tf2_eigen
trajectory_msgs
)
find_package(ament_cmake REQUIRED)
find_package(eigen3_cmake_module REQUIRED)
find_package(Eigen3 REQUIRED)
foreach(Dependency IN ITEMS ${THIS_PACKAGE_INCLUDE_DEPENDS})
find_package(${Dependency} REQUIRED)
endforeach()
#####################
## Component Nodes ##
#####################
# Add executable for using a controller
add_library(${SERVO_CONTROLLER_INPUT} SHARED src/joystick_twist.cpp)
ament_target_dependencies(${SERVO_CONTROLLER_INPUT} ${THIS_PACKAGE_INCLUDE_DEPENDS})
rclcpp_components_register_nodes(${SERVO_CONTROLLER_INPUT} "servo_arm_twist_pkg::JoyToServoPub")
#############
## Install ##
#############
# Install Libraries
install(
TARGETS
${SERVO_CONTROLLER_INPUT}
EXPORT export_${PROJECT_NAME}
LIBRARY DESTINATION lib
ARCHIVE DESTINATION lib
RUNTIME DESTINATION bin
INCLUDES DESTINATION include
)
# Install Binaries
ament_export_targets(export_${PROJECT_NAME} HAS_LIBRARY_TARGET)
ament_export_dependencies(${THIS_PACKAGE_INCLUDE_DEPENDS})
ament_package()

3
src/servo_arm_twist_pkg/README.md Normal file
View File

@@ -0,0 +1,3 @@
# Moveit Servo
See the [Realtime Arm Servoing Tutorial](https://moveit.picknik.ai/main/doc/realtime_servo/realtime_servo_tutorial.html) for installation instructions, quick-start guide, an overview about `moveit_servo`, and to learn how to set it up on your robot.

58
src/servo_arm_twist_pkg/package.xml Normal file
View File

@@ -0,0 +1,58 @@
<?xml version="1.0"?>
<?xml-model href="http://download.ros.org/schema/package_format3.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
<package format="3">
<name>servo_arm_twist_pkg</name>
<version>2.5.9</version>
<description>Provides real-time manipulator Cartesian and joint servoing.</description>
<maintainer email="blakeanderson@utexas.edu">Blake Anderson</maintainer>
<maintainer email="andyz@utexas.edu">Andy Zelenak</maintainer>
<maintainer email="tyler@picknik.ai">Tyler Weaver</maintainer>
<maintainer email="henningkayser@picknik.ai">Henning Kayser</maintainer>
<license>BSD 3-Clause</license>
<url type="website">https://ros-planning.github.io/moveit_tutorials</url>
<author>Brian O'Neil</author>
<author email="andyz@utexas.edu">Andy Zelenak</author>
<author>Blake Anderson</author>
<author email="alex@machinekoder.com">Alexander Rössler</author>
<author email="tyler@picknik.ai">Tyler Weaver</author>
<author email="adam.pettinger@utexas.edu">Adam Pettinger</author>
<buildtool_depend>ament_cmake</buildtool_depend>
<depend>moveit_common</depend>
<depend>control_msgs</depend>
<depend>control_toolbox</depend>
<depend>geometry_msgs</depend>
<depend>moveit_msgs</depend>
<depend>moveit_core</depend>
<depend>moveit_ros_planning_interface</depend>
<depend>pluginlib</depend>
<depend>sensor_msgs</depend>
<depend>std_msgs</depend>
<depend>std_srvs</depend>
<depend>tf2_eigen</depend>
<depend>trajectory_msgs</depend>
<exec_depend>gripper_controllers</exec_depend>
<exec_depend>joint_state_broadcaster</exec_depend>
<exec_depend>joint_trajectory_controller</exec_depend>
<exec_depend>joy</exec_depend>
<exec_depend>robot_state_publisher</exec_depend>
<exec_depend>tf2_ros</exec_depend>
<exec_depend>moveit_configs_utils</exec_depend>
<exec_depend>launch_param_builder</exec_depend>
<test_depend>ament_cmake_gtest</test_depend>
<test_depend>ament_lint_auto</test_depend>
<test_depend>ament_lint_common</test_depend>
<test_depend>controller_manager</test_depend>
<test_depend>ros_testing</test_depend>
<export>
<build_type>ament_cmake</build_type>
</export>
</package>

271
src/servo_arm_twist_pkg/src/joystick_twist.cpp Normal file
View File

@@ -0,0 +1,271 @@
/*********************************************************************
* Software License Agreement (BSD License)
*
* Copyright (c) 2020, PickNik Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of PickNik Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*********************************************************************/
/* Title : joystick_servo_example.cpp
* Project : servo_arm_twist_pkg
* Created : 08/07/2020
* Author : Adam Pettinger
*/
#include <sensor_msgs/msg/joy.hpp>
#include <geometry_msgs/msg/twist_stamped.hpp>
#include <control_msgs/msg/joint_jog.hpp>
#include <std_srvs/srv/trigger.hpp>
#include <moveit_msgs/msg/planning_scene.hpp>
#include <rclcpp/client.hpp>
#include <rclcpp/experimental/buffers/intra_process_buffer.hpp>
#include <rclcpp/node.hpp>
#include <rclcpp/publisher.hpp>
#include <rclcpp/qos.hpp>
#include <rclcpp/qos_event.hpp>
#include <rclcpp/subscription.hpp>
#include <rclcpp/time.hpp>
#include <rclcpp/utilities.hpp>
#include <thread>
// We'll just set up parameters here
const std::string JOY_TOPIC = "/joy";
const std::string TWIST_TOPIC = "/servo_node/delta_twist_cmds";
const std::string JOINT_TOPIC = "/servo_node/delta_joint_cmds";
const std::string EEF_FRAME_ID = "End_Effector";
const std::string BASE_FRAME_ID = "base_link";
// Enums for button names -> axis/button array index
// For XBOX 1 controller
enum Axis
{
LEFT_STICK_X = 0,
LEFT_STICK_Y = 1,
LEFT_TRIGGER = 2,
RIGHT_STICK_X = 3,
RIGHT_STICK_Y = 4,
RIGHT_TRIGGER = 5,
D_PAD_X = 6,
D_PAD_Y = 7
};
enum Button
{
A = 0,
B = 1,
X = 2,
Y = 3,
LEFT_BUMPER = 4,
RIGHT_BUMPER = 5,
CHANGE_VIEW = 6,
MENU = 7,
HOME = 8,
LEFT_STICK_CLICK = 9,
RIGHT_STICK_CLICK = 10
};
// Some axes have offsets (e.g. the default trigger position is 1.0 not 0)
// This will map the default values for the axes
std::map<Axis, double> AXIS_DEFAULTS = { { LEFT_TRIGGER, 1.0 }, { RIGHT_TRIGGER, 1.0 } };
std::map<Button, double> BUTTON_DEFAULTS;
// To change controls or setup a new controller, all you should to do is change the above enums and the follow 2
// functions
/** \brief // This converts a joystick axes and buttons array to a TwistStamped or JointJog message
* @param axes The vector of continuous controller joystick axes
* @param buttons The vector of discrete controller button values
* @param twist A TwistStamped message to update in prep for publishing
* @param joint A JointJog message to update in prep for publishing
* @return return true if you want to publish a Twist, false if you want to publish a JointJog
*/
bool convertJoyToCmd(const std::vector<float>& axes, const std::vector<int>& buttons,
std::unique_ptr<geometry_msgs::msg::TwistStamped>& twist,
std::unique_ptr<control_msgs::msg::JointJog>& joint)
{
// // Give joint jogging priority because it is only buttons
// // If any joint jog command is requested, we are only publishing joint commands
// if (buttons[A] || buttons[B] || buttons[X] || buttons[Y] || axes[D_PAD_X] || axes[D_PAD_Y])
// {
// // Map the D_PAD to the proximal joints
// joint->joint_names.push_back("panda_joint1");
// joint->velocities.push_back(axes[D_PAD_X]);
// joint->joint_names.push_back("panda_joint2");
// joint->velocities.push_back(axes[D_PAD_Y]);
// // Map the diamond to the distal joints
// joint->joint_names.push_back("panda_joint7");
// joint->velocities.push_back(buttons[B] - buttons[X]);
// joint->joint_names.push_back("panda_joint6");
// joint->velocities.push_back(buttons[Y] - buttons[A]);
// return false;
// }
// The bread and butter: map buttons to twist commands
twist->twist.linear.z = axes[RIGHT_STICK_Y];
twist->twist.linear.y = axes[RIGHT_STICK_X];
double lin_x_right = -0.5 * (axes[RIGHT_TRIGGER] - AXIS_DEFAULTS.at(RIGHT_TRIGGER));
double lin_x_left = 0.5 * (axes[LEFT_TRIGGER] - AXIS_DEFAULTS.at(LEFT_TRIGGER));
twist->twist.linear.x = lin_x_right + lin_x_left;
twist->twist.angular.y = axes[LEFT_STICK_Y];
twist->twist.angular.x = axes[LEFT_STICK_X];
double roll_positive = buttons[RIGHT_BUMPER];
double roll_negative = -1 * (buttons[LEFT_BUMPER]);
twist->twist.angular.z = roll_positive + roll_negative;
return true;
}
/** \brief // This should update the frame_to_publish_ as needed for changing command frame via controller
* @param frame_name Set the command frame to this
* @param buttons The vector of discrete controller button values
*/
void updateCmdFrame(std::string& frame_name, const std::vector<int>& buttons)
{
if (buttons[CHANGE_VIEW] && frame_name == EEF_FRAME_ID)
frame_name = BASE_FRAME_ID;
else if (buttons[MENU] && frame_name == BASE_FRAME_ID)
frame_name = EEF_FRAME_ID;
}
namespace servo_arm_twist_pkg
{
class JoyToServoPub : public rclcpp::Node
{
public:
JoyToServoPub(const rclcpp::NodeOptions& options)
: Node("joy_to_twist_publisher", options), frame_to_publish_(BASE_FRAME_ID)
{
// Setup pub/sub
joy_sub_ = this->create_subscription<sensor_msgs::msg::Joy>(
JOY_TOPIC, rclcpp::SystemDefaultsQoS(),
[this](const sensor_msgs::msg::Joy::ConstSharedPtr& msg) { return joyCB(msg); });
twist_pub_ = this->create_publisher<geometry_msgs::msg::TwistStamped>(TWIST_TOPIC, rclcpp::SystemDefaultsQoS());
joint_pub_ = this->create_publisher<control_msgs::msg::JointJog>(JOINT_TOPIC, rclcpp::SystemDefaultsQoS());
// collision_pub_ =
// this->create_publisher<moveit_msgs::msg::PlanningScene>("/planning_scene", rclcpp::SystemDefaultsQoS());
// Create a service client to start the ServoNode
servo_start_client_ = this->create_client<std_srvs::srv::Trigger>("/servo_node/start_servo");
servo_start_client_->wait_for_service(std::chrono::seconds(1));
servo_start_client_->async_send_request(std::make_shared<std_srvs::srv::Trigger::Request>());
// // Load the collision scene asynchronously
// collision_pub_thread_ = std::thread([this]() {
// rclcpp::sleep_for(std::chrono::seconds(3));
// // Create collision object, in the way of servoing
// moveit_msgs::msg::CollisionObject collision_object;
// collision_object.header.frame_id = "panda_link0";
// collision_object.id = "box";
// shape_msgs::msg::SolidPrimitive table_1;
// table_1.type = table_1.BOX;
// table_1.dimensions = { 0.4, 0.6, 0.03 };
// geometry_msgs::msg::Pose table_1_pose;
// table_1_pose.position.x = 0.6;
// table_1_pose.position.y = 0.0;
// table_1_pose.position.z = 0.4;
// shape_msgs::msg::SolidPrimitive table_2;
// table_2.type = table_2.BOX;
// table_2.dimensions = { 0.6, 0.4, 0.03 };
// geometry_msgs::msg::Pose table_2_pose;
// table_2_pose.position.x = 0.0;
// table_2_pose.position.y = 0.5;
// table_2_pose.position.z = 0.25;
// collision_object.primitives.push_back(table_1);
// collision_object.primitive_poses.push_back(table_1_pose);
// collision_object.primitives.push_back(table_2);
// collision_object.primitive_poses.push_back(table_2_pose);
// collision_object.operation = collision_object.ADD;
// moveit_msgs::msg::PlanningSceneWorld psw;
// psw.collision_objects.push_back(collision_object);
// auto ps = std::make_unique<moveit_msgs::msg::PlanningScene>();
// ps->world = psw;
// ps->is_diff = true;
// collision_pub_->publish(std::move(ps));
// });
}
// ~JoyToServoPub() override
// {
// if (collision_pub_thread_.joinable())
// collision_pub_thread_.join();
// }
void joyCB(const sensor_msgs::msg::Joy::ConstSharedPtr& msg)
{
// Create the messages we might publish
auto twist_msg = std::make_unique<geometry_msgs::msg::TwistStamped>();
auto joint_msg = std::make_unique<control_msgs::msg::JointJog>();
// This call updates the frame for twist commands
updateCmdFrame(frame_to_publish_, msg->buttons);
// Convert the joystick message to Twist or JointJog and publish
if (convertJoyToCmd(msg->axes, msg->buttons, twist_msg, joint_msg))
{
// publish the TwistStamped
twist_msg->header.frame_id = frame_to_publish_;
twist_msg->header.stamp = this->now();
twist_pub_->publish(std::move(twist_msg));
}
// else
// {
// // publish the JointJog
// joint_msg->header.stamp = this->now();
// joint_msg->header.frame_id = "panda_link3";
// joint_pub_->publish(std::move(joint_msg));
// }
}
private:
rclcpp::Subscription<sensor_msgs::msg::Joy>::SharedPtr joy_sub_;
rclcpp::Publisher<geometry_msgs::msg::TwistStamped>::SharedPtr twist_pub_;
rclcpp::Publisher<control_msgs::msg::JointJog>::SharedPtr joint_pub_;
rclcpp::Publisher<moveit_msgs::msg::PlanningScene>::SharedPtr collision_pub_;
rclcpp::Client<std_srvs::srv::Trigger>::SharedPtr servo_start_client_;
std::string frame_to_publish_;
// std::thread collision_pub_thread_;
}; // class JoyToServoPub
} // namespace servo_arm_twist_pkg
// Register the component with class_loader
#include <rclcpp_components/register_node_macro.hpp>
RCLCPP_COMPONENTS_REGISTER_NODE(servo_arm_twist_pkg::JoyToServoPub)

9
treefmt.nix
View File

@@ -1,9 +0,0 @@
{ ... }:
{
projectRootFile = "flake.nix";
programs = {
nixfmt.enable = true;
black.enable = true;
shfmt.enable = true;
};
}