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Branches Tags
aaron:main aaron:fix-oversights aaron:mcu-version aaron:core-ros2-control aaron:bio-topic-refactor-rebase aaron:docker aaron:gazebo-docker-compose aaron:jazzy aaron:ptz-zoom aaron:ptz-node
aaron:v1.2.1 aaron:v1.2 aaron:v1.1 aaron:v1.0
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compare: aaron:bio-topic-refactor-rebase
Branches Tags
aaron:fix-oversights aaron:mcu-version aaron:core-ros2-control aaron:main aaron:bio-topic-refactor-rebase aaron:docker aaron:gazebo-docker-compose aaron:jazzy aaron:ptz-zoom aaron:ptz-node
aaron:v1.2.1 aaron:v1.2 aaron:v1.1 aaron:v1.0

14 Commits
7669ded344 ... bio-topic-

Author SHA1 Message Date
SHC-ASTRA
24b805d37c fixed embedded safety timeout on action -riley 2026-02-23 23:42:09 -06:00
iggy
5a2358a176 combined scythe and citadel, added placeholder service for libs, changed values of VicCAN commands 2026-02-23 05:25:59 -06:00
iggy
6061baec1b changed astra_msgs to newest 2026-02-23 01:38:10 -06:00
iggy
8eba7fd671 Revert "updated astra_msgs version" 
This reverts commit 2dbdae8ade.
 2026-02-23 01:29:33 -06:00
iggy
2dbdae8ade updated astra_msgs version 2026-02-23 00:26:10 -06:00
iggy
bc6c325e4e changed bio mcu name to digit 2026-02-22 09:22:14 -06:00
iggy
caab0ebd7a added support for laser, added drill_speed, removed scythe reset 2026-02-22 06:49:32 -06:00
iggy
0ce872d9c9 added lance control, changed citadel to use uint8 instead of byte, removed astra_msgs submodule and added it as a nix package 2026-02-20 04:54:37 -06:00
SHC-ASTRA
7e6a53b7f1 fixed astra_msgs nixpkg being used incorrectly 2026-02-09 21:31:35 -06:00
SHC-ASTRA
9510270272 Merge branch 'main' into bio-topic-refactor-rebase 2026-02-09 21:17:38 -06:00
iggy
d4042f8744 clean up 2026-02-07 19:50:51 -06:00
SHC-ASTRA
d46bb81ed1 Merge branch 'main' into bio-topic-refactor-rebase 2026-02-05 21:34:51 -06:00
SHC-ASTRA
87a764e616 change astra_msgs to latest main hash 2026-02-05 21:07:56 -06:00
iggy
f99b9e6f96 created bio node, added rqt-graph to flake 2026-02-05 02:12:21 -06:00
42 changed files with 2104 additions and 1806 deletions
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3
.gitmodules vendored
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@@ -1,6 +1,3 @@
[submodule "src/astra_description"]
path = src/astra_descriptions
url = ../astra_descriptions
[submodule "src/astra_msgs"]
path = src/astra_msgs
url = git@github.com:SHC-ASTRA/astra_msgs.git

37
README.md
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@@ -16,9 +16,6 @@ You will use these packages to launch all rover-side ROS2 nodes.
- [Connecting the GuliKit Controller](#connecting-the-gulikit-controller)
- [Common Problems/Toubleshooting](#common-problemstroubleshooting)
- [Packages](#packages)
- [Graphs](#graphs)
- [Full System](#full-system)
- [Individual Nodes](#individual-nodes)
- [Maintainers](#maintainers)
## Software Prerequisites
@@ -143,40 +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`).
- [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
| Name | Email | Discord |

8
auto_start/auto_start_anchor.sh
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@@ -14,12 +14,8 @@ echo "[INFO] Network interface is up!"
# Your actual ROS node start command goes here
echo "[INFO] Starting ROS node..."
# Source ROS 2 Humble setup script
if command -v nixos-rebuild; then
echo "[INFO] running on NixOS"
else
source /opt/ros/humble/setup.bash
fi
# Source ROS 2 Humble setup script (if we aren't using nix)
command -v ros2 || source /opt/ros/humble/setup.bash
# Source your workspace setup script
source $SCRIPT_DIR/../install/setup.bash

6
auto_start/auto_start_headless_full.sh
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@@ -15,11 +15,7 @@ echo "[INFO] Network interface is up!"
echo "[INFO] Starting ROS node..."
# Source ROS 2 Humble setup script
if command -v nixos-rebuild; then
echo "[INFO] running on NixOS"
else
source /opt/ros/humble/setup.bash
fi
command -v ros2 || source /opt/ros/humble/setup.bash
# Source your workspace setup script
source $SCRIPT_DIR/../install/setup.bash

6
auto_start/start_rosbag.sh
View File

@@ -17,11 +17,7 @@ done
echo "[INFO] Network interface is up!"
if command -v nixos-rebuild; then
echo "[INFO] running on NixOS"
else
source /opt/ros/humble/setup.bash
fi
command -v ros2 || source /opt/ros/humble/setup.bash
source $ANCHOR_WS/install/setup.bash
[[ -f $AUTONOMY_WS/install/setup.bash ]] && source $AUTONOMY_WS/install/setup.bash

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102
flake.lock generated
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@@ -1,5 +1,29 @@
{
"nodes": {
"astra-msgs": {
"inputs": {
"nix-ros-overlay": "nix-ros-overlay",
"nixpkgs": [
"astra-msgs",
"nix-ros-overlay",
"nixpkgs"
]
},
"locked": {
"lastModified": 1771845042,
"narHash": "sha256-pGsb93ZlMhP3biy8S2eJc1sW+35vmaxlWHTbuwZDlQI=",
"owner": "SHC-ASTRA",
"repo": "astra_msgs",
"rev": "acabfd117d9711afc420612375b4e02f4ce4982d",
"type": "github"
},
"original": {
"owner": "SHC-ASTRA",
"repo": "astra_msgs",
"rev": "acabfd117d9711afc420612375b4e02f4ce4982d",
"type": "github"
}
},
"flake-utils": {
"inputs": {
"systems": "systems"
@@ -18,17 +42,55 @@
"type": "github"
}
},
"flake-utils_2": {
"inputs": {
"systems": "systems_2"
},
"locked": {
"lastModified": 1731533236,
"narHash": "sha256-l0KFg5HjrsfsO/JpG+r7fRrqm12kzFHyUHqHCVpMMbI=",
"owner": "numtide",
"repo": "flake-utils",
"rev": "11707dc2f618dd54ca8739b309ec4fc024de578b",
"type": "github"
},
"original": {
"owner": "numtide",
"repo": "flake-utils",
"type": "github"
}
},
"nix-ros-overlay": {
"inputs": {
"flake-utils": "flake-utils",
"nixpkgs": "nixpkgs"
},
"locked": {
"lastModified": 1770108954,
"narHash": "sha256-VBj6bd4LPPSfsZJPa/UPPA92dOs6tmQo0XZKqfz/3W4=",
"lastModified": 1770622967,
"narHash": "sha256-1LYjTugPSCa/5NkP6/dcZLH5TQYj3R8mAZ/9dgd7jDM=",
"owner": "lopsided98",
"repo": "nix-ros-overlay",
"rev": "3d05d46451b376e128a1553e78b8870c75d7753a",
"rev": "d1b9f17eba909116356436d46b5192d299c6b49a",
"type": "github"
},
"original": {
"owner": "lopsided98",
"ref": "develop",
"repo": "nix-ros-overlay",
"type": "github"
}
},
"nix-ros-overlay_2": {
"inputs": {
"flake-utils": "flake-utils_2",
"nixpkgs": "nixpkgs_2"
},
"locked": {
"lastModified": 1771404745,
"narHash": "sha256-UVP3TsQJ4PezyQG3B1SsgsTxz32XBVzplJ/cgq7v/uk=",
"owner": "lopsided98",
"repo": "nix-ros-overlay",
"rev": "7cdf7b44ff186869baedbb3b82e5b409bb3e8dd9",
"type": "github"
},
"original": {
@@ -54,9 +116,26 @@
"type": "github"
}
},
"nixpkgs_2": {
"locked": {
"lastModified": 1759381078,
"narHash": "sha256-gTrEEp5gEspIcCOx9PD8kMaF1iEmfBcTbO0Jag2QhQs=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "7df7ff7d8e00218376575f0acdcc5d66741351ee",
"type": "github"
},
"original": {
"owner": "lopsided98",
"ref": "nix-ros",
"repo": "nixpkgs",
"type": "github"
}
},
"root": {
"inputs": {
"nix-ros-overlay": "nix-ros-overlay",
"astra-msgs": "astra-msgs",
"nix-ros-overlay": "nix-ros-overlay_2",
"nixpkgs": [
"nix-ros-overlay",
"nixpkgs"
@@ -77,6 +156,21 @@
"repo": "default",
"type": "github"
}
},
"systems_2": {
"locked": {
"lastModified": 1681028828,
"narHash": "sha256-Vy1rq5AaRuLzOxct8nz4T6wlgyUR7zLU309k9mBC768=",
"owner": "nix-systems",
"repo": "default",
"rev": "da67096a3b9bf56a91d16901293e51ba5b49a27e",
"type": "github"
},
"original": {
"owner": "nix-systems",
"repo": "default",
"type": "github"
}
}
},
"root": "root",

39
flake.nix
View File

@@ -3,15 +3,13 @@
inputs = {
nix-ros-overlay.url = "github:lopsided98/nix-ros-overlay/develop";
nixpkgs.follows = "nix-ros-overlay/nixpkgs"; # IMPORTANT!!!
nixpkgs.follows = "nix-ros-overlay/nixpkgs";
astra-msgs.url =
"github:SHC-ASTRA/astra_msgs/acabfd117d9711afc420612375b4e02f4ce4982d";
};
outputs =
{
self,
nix-ros-overlay,
nixpkgs,
}:
{ self, nix-ros-overlay, nixpkgs, astra-msgs }:
nix-ros-overlay.inputs.flake-utils.lib.eachDefaultSystem (
system:
let
@@ -19,26 +17,31 @@
inherit system;
overlays = [ nix-ros-overlay.overlays.default ];
};
astra_msgs_pkgs = astra-msgs.packages.${system};
rosDistro = "humble";
in
{
devShells.default = pkgs.mkShell {
name = "ASTRA Anchor";
packages = with pkgs; [
colcon
(python313.withPackages (
p: with p; [
astra_msgs_pkgs.astra-msgs
(pkgs.rosPackages.${rosDistro}.python3.withPackages (p: with p; [
pyserial
pygame
scipy
crccheck
black
]
))
(
with rosPackages.humble;
]))
(with rosPackages.${rosDistro};
buildEnv {
paths = [
ros-core
rqt-graph
ros2cli
ros2run
ros2bag
@@ -74,11 +77,14 @@
ros2-controllers
chomp-motion-planner
];
}
)
})
];
env = {
ASTRAMSGS = "${astra-msgs.outPath}";
};
shellHook = ''
# Display stuff
export DISPLAY=''${DISPLAY:-:0}
export QT_X11_NO_MITSHM=1
'';
@@ -88,6 +94,7 @@
nixConfig = {
extra-substituters = [ "https://ros.cachix.org" ];
extra-trusted-public-keys = [ "ros.cachix.org-1:dSyZxI8geDCJrwgvCOHDoAfOm5sV1wCPjBkKL+38Rvo=" ];
extra-trusted-public-keys =
[ "ros.cachix.org-1:dSyZxI8geDCJrwgvCOHDoAfOm5sV1wCPjBkKL+38Rvo=" ];
};
}

68
src/anchor_pkg/launch/rover.launch.py
View File

@@ -1,21 +1,13 @@
#!/usr/bin/env python3
from launch import LaunchDescription
from launch.actions import (
DeclareLaunchArgument,
OpaqueFunction,
Shutdown,
IncludeLaunchDescription,
)
from launch.actions import DeclareLaunchArgument, OpaqueFunction, Shutdown
from launch.substitutions import (
LaunchConfiguration,
ThisLaunchFileDir,
PathJoinSubstitution,
)
from launch.launch_description_sources import PythonLaunchDescriptionSource
from launch.conditions import IfCondition
from launch_ros.actions import Node
from launch_ros.substitutions import FindPackageShare
# Prevent making __pycache__ directories
@@ -48,11 +40,7 @@ def launch_setup(context, *args, **kwargs):
executable="core", # change as needed
name="core",
output="both",
parameters=[
{"launch_mode": mode},
{"use_ros2_control": LaunchConfiguration("use_ros2_control", default=False)},
{"is_testbed", LaunchConfiguration("is_testbed", default=False)},
],
parameters=[{"launch_mode": mode}],
on_exit=Shutdown(),
)
)
@@ -62,7 +50,6 @@ def launch_setup(context, *args, **kwargs):
executable="ptz", # change as needed
name="ptz",
output="both",
condition=IfCondition(LaunchConfiguration("use_ptz", default="true")),
# 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
)
@@ -146,53 +133,4 @@ def generate_launch_description():
description="Launch mode: arm, core, bio, anchor, or ptz",
)
ros2_control_arg = DeclareLaunchArgument(
"use_ros2_control",
default_value="false",
description="Whether to use DiffDriveController for driving instead of direct Twist",
)
testbed_arg = DeclareLaunchArgument(
"is_testbed",
default_value="false",
description="Whether using Testbed (true) or Clucky (false)",
)
rsp = IncludeLaunchDescription(
PythonLaunchDescriptionSource(
PathJoinSubstitution(
[
FindPackageShare("core_description"),
"launch",
"robot_state_publisher.launch.py",
]
)
),
condition=IfCondition(LaunchConfiguration("use_ros2_control")),
launch_arguments={("hardware_mode", "physical")},
)
controllers = IncludeLaunchDescription(
PythonLaunchDescriptionSource(
PathJoinSubstitution(
[
FindPackageShare("core_description"),
"launch",
"spawn_controllers.launch.py",
]
)
),
condition=IfCondition(LaunchConfiguration("use_ros2_control")),
launch_arguments={("hardware_mode", "physical")},
)
return LaunchDescription(
[
declare_arg,
ros2_control_arg,
testbed_arg,
rsp,
controllers,
OpaqueFunction(function=launch_setup),
]
)
return LaunchDescription([declare_arg, OpaqueFunction(function=launch_setup)])

14
src/anchor_pkg/package.xml
View File

@@ -2,20 +2,14 @@
<?xml-model href="http://download.ros.org/schema/package_format3.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
<package format="3">
<name>anchor_pkg</name>
<version>1.0.0</version>
<description>ASTRA VicCAN driver package, using python-can and pyserial.</description>
<version>0.0.0</version>
<description>TODO: Package description</description>
<maintainer email="tristanmcginnis26@gmail.com">tristan</maintainer>
<license>AGPL-3.0-only</license>
<depend>rclpy</depend>
<exec_depend>common_interfaces</exec_depend>
<exec_depend>python3-serial</exec_depend>
<exec_depend>core_pkg</exec_depend>
<exec_depend>arm_pkg</exec_depend>
<exec_depend>bio_pkg</exec_depend>
<exec_depend>core_description</exec_depend>
<depend>common_interfaces</depend>
<depend>python3-serial</depend>
<build_depend>black</build_depend>

2
src/anchor_pkg/setup.cfg
View File

@@ -2,5 +2,3 @@
script_dir=$base/lib/anchor_pkg
[install]
install_scripts=$base/lib/anchor_pkg
[build_scripts]
executable= /usr/bin/env python3

6
src/anchor_pkg/setup.py
View File

@@ -6,7 +6,7 @@ package_name = "anchor_pkg"
setup(
name=package_name,
version="1.0.0",
version="0.0.0",
packages=find_packages(exclude=["test"]),
data_files=[
("share/ament_index/resource_index/packages", ["resource/" + package_name]),
@@ -17,8 +17,8 @@ setup(
zip_safe=True,
maintainer="tristan",
maintainer_email="tristanmcginnis26@gmail.com",
description="ASTRA VicCAN driver package, using python-can and pyserial.",
license="AGPL-3.0-only",
description="Anchor node used to run all modules through a single modules MCU/Computer. Commands to all modules will be relayed through CAN",
license="All Rights Reserved",
entry_points={
"console_scripts": ["anchor = anchor_pkg.anchor_node:main"],
},

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()

518
src/arm_pkg/arm_pkg/arm_node.py
View File

@@ -1,218 +1,181 @@
import sys
import signal
import math
from warnings import deprecated
import rclpy
from rclpy.node import Node
from rclpy.executors import ExternalShutdownException
from rclpy import qos
from std_msgs.msg import String, Header
import serial
import sys
import threading
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 control_msgs.msg import JointJog
from astra_msgs.msg import SocketFeedback, DigitFeedback, ArmManual # TODO: Old topics
from astra_msgs.msg import ArmFeedback, VicCAN, RevMotorState
import math
control_qos = qos.QoSProfile(
history=qos.QoSHistoryPolicy.KEEP_LAST,
depth=2,
reliability=qos.QoSReliabilityPolicy.BEST_EFFORT, # Best Effort subscribers are still compatible with Reliable publishers
durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=Duration(seconds=1),
# lifespan=Duration(nanoseconds=500_000_000), # 500ms
# control_qos = qos.QoSProfile(
# history=qos.QoSHistoryPolicy.KEEP_LAST,
# depth=1,
# reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
# durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=1000,
# lifespan=500,
# liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT,
# liveliness_lease_duration=Duration(seconds=5),
)
# liveliness_lease_duration=5000
# )
serial_pub = None
thread = None
class ArmNode(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,
}
class SerialRelay(Node):
def __init__(self):
# Initialize 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}")
##################################################
# Parameters
# Create publishers
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)
self.use_old_topics = (
self.get_parameter("use_old_topics").get_parameter_value().bool_value
# Create subscribers
self.man_sub = self.create_subscription(
ArmManual, "/arm/control/manual", self.send_manual, 2
)
##################################################
# Old topics
# New messages
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:
# Anchor topics
self.joint_command_sub = self.create_subscription(
JointState, "/joint_commands", self.joint_command_callback, 10
)
# Topics used in anchor mode
if self.launch_mode == "anchor":
self.anchor_sub = self.create_subscription(
String, "/anchor/arm/feedback", self.anchor_feedback, 10
)
self.anchor_pub = self.create_publisher(String, "/anchor/relay", 10)
# Create publishers
self.socket_pub = self.create_publisher(
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
self.man_sub = self.create_subscription(
ArmManual, "/arm/control/manual", self.send_manual, 10
# Search for ports IF in 'arm' (standalone) and not 'anchor' mode
if self.launch_mode == "arm":
# 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
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
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)
###################################################
# New topics
self.ser = serial.Serial(self.port, 115200)
atexit.register(self.cleanup)
# Anchor topics
def run(self):
global thread
thread = threading.Thread(target=rclpy.spin, args=(self,), daemon=True)
thread.start()
# from_vic
self.anchor_fromvic_sub_ = self.create_subscription(
VicCAN, "/anchor/from_vic/arm", self.relay_fromvic, 20
)
# to_vic
self.anchor_tovic_pub_ = self.create_publisher(
VicCAN, "/anchor/to_vic/relay", 20
)
# if in arm mode, will need to read from the MCU
# Control
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()
# Manual: /arm/manual/joint_jog is published by Basestation or Headless
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
# Combined Socket and Digit feedback
self.arm_feedback_pub_ = self.create_publisher(
ArmFeedback,
"/arm/feedback",
qos_profile=qos.qos_profile_sensor_data,
)
# IK arm pose: /joint_states is published from here to topic_based_control
self.joint_state_pub_ = self.create_publisher(
JointState, "/joint_states", qos_profile=qos.qos_profile_sensor_data
)
###################################################
# Saved state
# Combined Socket and Digit feedback
self.arm_feedback_new = ArmFeedback()
# IK Arm pose
self.saved_joint_state = JointState()
self.saved_joint_state.name = self.all_joint_names
# ... initialize with zeros
self.saved_joint_state.position = [0.0] * len(self.saved_joint_state.name)
self.saved_joint_state.velocity = [0.0] * len(self.saved_joint_state.name)
def jointjog_callback(self, msg: JointJog):
if len(msg.joint_names) != len(msg.velocities):
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
# Currently will just spit out all values over the /arm/feedback/debug topic as strings
def read_mcu(self):
try:
output = str(self.ser.readline(), "utf8")
if output:
# self.get_logger().info(f"[MCU] {output}")
msg = String()
msg.data = output
self.debug_pub.publish(msg)
except serial.SerialException:
self.get_logger().info("SerialException caught... closing serial port.")
if self.ser.is_open:
self.ser.close()
pass
except TypeError as e:
self.get_logger().info(f"TypeError: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
pass
except Exception as e:
print(f"Exception: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
pass
def joint_command_callback(self, msg: JointState):
if len(msg.position) < 7 and len(msg.velocity) < 7:
self.get_logger().debug("Ignoring malformed /joint_command message.")
return # command needs either position or velocity for all 7 joints
# Embedded takes deg*10, ROS2 uses Radians
positions = [math.degrees(pos) * 10 for pos in msg.position]
# Axis 2 & 3 URDF direction is inverted
positions[2] = -positions[2]
positions[3] = -positions[3]
# Grab velocities from message
velocities = [
(
msg.velocity[msg.name.index(joint_name)] # type: ignore
if joint_name in msg.name
else 0.0
)
for joint_name in self.all_joint_names
]
# Set target angles for each arm axis for embedded IK PID to handle
command = f"can_relay_tovic,arm,32,{positions[0]},{positions[1]},{positions[2]},{positions[3]}\n"
# Wrist yaw and roll
command += f"can_relay_tovic,digit,32,{positions[4]},{positions[5]}\n"
# Gripper IK does not have adequate hardware yet
self.send_cmd(command)
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):
axis0 = msg.axis0
axis1 = -1 * msg.axis1
@@ -237,17 +200,24 @@ class ArmNode(Node):
return
@deprecated("Uses an old message type. Will be removed at some point.")
def send_cmd(self, msg: str):
output = String(data=msg)
if (
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):
output = msg.data
if output.startswith("can_relay_fromvic,arm,55"):
# pass
self.updateAngleFeedback(output)
elif output.startswith("can_relay_fromvic,arm,54"):
# pass
self.updateBusVoltage(output)
elif output.startswith("can_relay_fromvic,arm,53"):
self.updateMotorFeedback(output)
@@ -265,133 +235,19 @@ class ArmNode(Node):
if len(parts) >= 4:
self.digit_feedback.wrist_angle = float(parts[3])
# 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:
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):
self.socket_pub.publish(self.arm_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):
# Angle feedbacks,
# split the msg.data by commas
@@ -407,10 +263,19 @@ class ArmNode(Node):
self.arm_feedback.axis1_angle = angles[1]
self.arm_feedback.axis2_angle = angles[2]
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:
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):
# Bus Voltage feedbacks
parts = msg.split(",")
@@ -425,7 +290,6 @@ class ArmNode(Node):
else:
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):
parts = str(msg.strip()).split(",")
motorId = round(float(parts[3]))
@@ -449,28 +313,38 @@ class ArmNode(Node):
self.arm_feedback.axis0_voltage = voltage
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):
print("Caught SIGTERM. Exiting...")
rclpy.try_shutdown()
sys.exit(0)
def cleanup(self):
print("Cleaning up...")
try:
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):
rclpy.init(args=args)
sys.excepthook = myexcepthook
# Catch termination signals and exit cleanly
signal.signal(signal.SIGTERM, exit_handler)
arm_node = ArmNode()
try:
rclpy.spin(arm_node)
except (KeyboardInterrupt, ExternalShutdownException):
pass
finally:
rclpy.try_shutdown()
global serial_pub
serial_pub = SerialRelay()
serial_pub.run()
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()

11
src/arm_pkg/package.xml
View File

@@ -3,15 +3,14 @@
<package format="3">
<name>arm_pkg</name>
<version>1.0.0</version>
<description>Relays topics related to Arm between VicCAN (through Anchor) and basestation.</description>
<maintainer email="ds0196@uah.edu">David Sharpe</maintainer>
<description>Core arm package which handles ROS2 commnuication.</description>
<maintainer email="tristanmcginnis26@gmail.com">tristan</maintainer>
<license>AGPL-3.0-only</license>
<depend>rclpy</depend>
<exec_depend>common_interfaces</exec_depend>
<exec_depend>python3-numpy</exec_depend>
<exec_depend>astra_msgs</exec_depend>
<depend>common_interfaces</depend>
<depend>python3-numpy</depend>
<depend>astra_msgs</depend>
<test_depend>ament_copyright</test_depend>
<test_depend>ament_flake8</test_depend>

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"
setup(
name=package_name,
version="1.0.0",
packages=[package_name],
packages=find_packages(exclude=["test"]),
data_files=[
("share/ament_index/resource_index/packages", ["resource/" + package_name]),
("share/" + package_name, ["package.xml"]),
],
install_requires=["setuptools"],
zip_safe=True,
maintainer="David Sharpe",
maintainer_email="ds0196@uah.edu",
description="Relays topics related to Arm between VicCAN (through Anchor) and basestation.",
license="AGPL-3.0-only",
maintainer="tristan",
maintainer_email="tristanmcginnis26@gmail.com",
description="TODO: Package description",
license="All Rights Reserved",
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: 04c2061443...29a3eea9c5

1
src/astra_msgs

Submodule src/astra_msgs deleted from 93dc0e0919

382
src/bio_pkg/bio_pkg/bio_node.py
View File

@@ -1,241 +1,251 @@
import rclpy
from rclpy.node import Node
import serial
import signal
import sys
import threading
import os
import glob
import time
import atexit
import signal
from std_msgs.msg import String
from astra_msgs.msg import BioControl
from astra_msgs.msg import BioFeedback
import rclpy
from astra_msgs.action import BioVacuum
from astra_msgs.msg import CitadelControl, FaerieControl, VicCAN
from astra_msgs.srv import BioTestTube, LibsSystem
from rclpy.action import ActionServer
from rclpy.node import Node
from std_msgs.msg import Header, String
serial_pub = None
thread = None
# used to verify the length of an incoming VicCAN feedback message
# key is VicCAN command_id, value is expected length of data list
viccan_citadel_msg_len_dict = {
# empty because not expecting any VicCAN from citadel atm
}
viccan_lance_msg_len_dict = {
# empty because not sure what VicCAN commands LANCE sends
}
class SerialRelay(Node):
def __init__(self):
# Initialize node
super().__init__("bio_node")
# Get launch mode parameter
self.declare_parameter("launch_mode", "bio")
self.launch_mode = self.get_parameter("launch_mode").value
self.get_logger().info(f"bio launch_mode is: {self.launch_mode}")
# Create publishers
self.debug_pub = self.create_publisher(String, "/bio/feedback/debug", 10)
self.feedback_pub = self.create_publisher(BioFeedback, "/bio/feedback", 10)
# Create subscribers
self.control_sub = self.create_subscription(
BioControl, "/bio/control", self.send_control, 10
# Anchor Topics
self.anchor_fromvic_sub_ = self.create_subscription(
VicCAN, "/anchor/from_vic/bio", self.relay_fromvic, 20
)
self.anchor_tovic_pub_ = self.create_publisher(
VicCAN, "/anchor/to_vic/relay", 20
)
# Create a publisher for telemetry
self.telemetry_pub_timer = self.create_timer(1.0, self.publish_feedback)
# Topics used in anchor mode
if self.launch_mode == "anchor":
self.anchor_sub = self.create_subscription(
String, "/anchor/bio/feedback", self.anchor_feedback, 10
)
self.anchor_pub = self.create_publisher(String, "/anchor/relay", 10)
self.bio_feedback = BioFeedback()
# Search for ports IF in 'arm' (standalone) and not 'anchor' mode
if self.launch_mode == "bio":
# Loop through all serial devices on the computer to check for the MCU
self.port = None
for i in range(2):
try:
# connect and send a ping command
set_port = (
"/dev/ttyACM0" # MCU is controlled through GPIO pins on the PI
# Messages
self.citadel_sub = self.create_subscription(
CitadelControl,
"/bio/control/citadel",
self.citadel_callback,
10,
)
ser = serial.Serial(set_port, 115200, timeout=1)
# print(f"Checking port {port}...")
ser.write(b"ping\n")
response = ser.read_until("\n")
# if pong is in response, then we are talking with the MCU
if b"pong" in response:
self.port = set_port
self.get_logger().info(f"Found MCU at {set_port}!")
break
except:
pass
if self.port is None:
self.get_logger().info(
"Unable to find MCU... please make sure it is connected."
self.faerie_sub = self.create_subscription(
FaerieControl,
"/bio/control/faerie",
self.faerie_callback,
10,
)
time.sleep(1)
sys.exit(1)
self.ser = serial.Serial(self.port, 115200)
atexit.register(self.cleanup)
# Services
self.test_tube_service = self.create_service(
BioTestTube, "/bio/control/test_tube", self.test_tube_callback
)
self.libs_service = self.create_service(
LibsSystem, "bio/control/libs_system", self.libs_callback
)
# Actions
self._action_server = ActionServer(
self, BioVacuum, "/bio/actions/vacuum", self.execute_vacuum
)
def run(self):
global thread
thread = threading.Thread(target=rclpy.spin, args=(self,), daemon=True)
thread.start()
# if in arm mode, will need to read from the MCU
try:
while rclpy.ok():
if self.launch_mode == "bio":
if self.ser.in_waiting:
self.read_mcu()
else:
time.sleep(0.1)
except KeyboardInterrupt:
pass
finally:
self.cleanup()
# Currently will just spit out all values over the /arm/feedback/debug topic as strings
def read_mcu(self):
try:
output = str(self.ser.readline(), "utf8")
if output:
self.get_logger().info(f"[MCU] {output}")
msg = String()
msg.data = output
self.debug_pub.publish(msg)
except serial.SerialException:
self.get_logger().info("SerialException caught... closing serial port.")
if self.ser.is_open:
self.ser.close()
pass
except TypeError as e:
self.get_logger().info(f"TypeError: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
pass
except Exception as e:
print(f"Exception: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
pass
def send_ik(self, msg):
pass
def send_control(self, msg: BioControl):
# CITADEL Control Commands
################
# Chem Pumps, only send if not zero
if msg.pump_id != 0:
command = (
"can_relay_tovic,citadel,27,"
+ str(msg.pump_id)
+ ","
+ str(msg.pump_amount)
+ "\n"
)
self.send_cmd(command)
# Fans, only send if not zero
if msg.fan_id != 0:
command = (
"can_relay_tovic,citadel,40,"
+ str(msg.fan_id)
+ ","
+ str(msg.fan_duration)
+ "\n"
)
self.send_cmd(command)
# Servos, only send if not zero
if msg.servo_id != 0:
command = (
"can_relay_tovic,citadel,25,"
+ str(msg.servo_id)
+ ","
+ str(int(msg.servo_state))
+ "\n"
)
self.send_cmd(command)
# LSS (SCYTHE)
command = "can_relay_tovic,citadel,24," + str(msg.bio_arm) + "\n"
# self.send_cmd(command)
# Vibration Motor
command += "can_relay_tovic,citadel,26," + str(msg.vibration_motor) + "\n"
# self.send_cmd(command)
# FAERIE Control Commands
################
# To be reviewed before use#
# Laser
command += "can_relay_tovic,digit,28," + str(msg.laser) + "\n"
# self.send_cmd(command)
# Drill (SCABBARD)
command += f"can_relay_tovic,digit,19,{msg.drill:.2f}\n"
# self.send_cmd(command)
# Bio linear actuator
command += "can_relay_tovic,digit,42," + str(msg.drill_arm) + "\n"
self.send_cmd(command)
def send_cmd(self, msg: str):
if (
self.launch_mode == "anchor"
): # if in anchor mode, send to anchor node to relay
# send to anchor node to relay
output = String()
output.data = msg
self.anchor_pub.publish(output)
elif self.launch_mode == "bio": # if in standalone mode, send to MCU directly
self.get_logger().info(f"[Bio to MCU] {msg}")
self.ser.write(bytes(msg, "utf8"))
def relay_fromvic(self, msg: VicCAN):
# self.get_logger().info(msg)
if msg.mcu_name == "citadel":
self.process_fromvic_citadel(msg)
def process_fromvic_citadel(self, msg: VicCAN):
# Check message len to prevent crashing on bad data
if msg.command_id in viccan_citadel_msg_len_dict:
expected_len = viccan_citadel_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
def anchor_feedback(self, msg: String):
output = msg.data
parts = str(output.strip()).split(",")
# self.get_logger().info(f"[Bio Anchor] {msg.data}")
self.get_logger().info(f"[Bio Anchor] {msg.data}")
# no data planned to be received from citadel, not sure about lance
if output.startswith(
"can_relay_fromvic,citadel,54"
): # bat, 12, 5, Voltage readings * 100
self.bio_feedback.bat_voltage = float(parts[3]) / 100.0
self.bio_feedback.voltage_12 = float(parts[4]) / 100.0
self.bio_feedback.voltage_5 = float(parts[5]) / 100.0
elif output.startswith("can_relay_fromvic,digit,57"):
self.bio_feedback.drill_temp = float(parts[3])
self.bio_feedback.drill_humidity = float(parts[4])
def citadel_callback(self, msg: CitadelControl):
distributor_arr = msg.distributor_id
# Distributor Control
vic_cmd = VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="citadel",
command_id=40,
data=[
clamp_short(distributor_arr[0]),
clamp_short(distributor_arr[1]),
clamp_short(distributor_arr[2]),
0,
],
)
self.anchor_tovic_pub_.publish(vic_cmd)
# Move Scythe
vic_cmd = VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="digit",
command_id=42,
data=[float(msg.move_scythe)],
)
self.anchor_tovic_pub_.publish(vic_cmd)
def publish_feedback(self):
self.feedback_pub.publish(self.bio_feedback)
def faerie_callback(self, msg: FaerieControl):
# Move Faerie
vic_cmd = VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="digit",
command_id=42,
data=[float(msg.move_faerie)],
)
self.anchor_tovic_pub_.publish(vic_cmd)
# Drill Speed
vic_cmd = VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="digit",
command_id=19,
data=[
float(msg.drill_speed * 100)
], # change on embedded so we can go (-1,1)
)
self.anchor_tovic_pub_.publish(vic_cmd)
# Vanity Laser Control
vic_cmd = VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="digit",
command_id=28,
data=[float(msg.vanity_laser)],
)
self.anchor_tovic_pub_.publish(vic_cmd)
@staticmethod
def list_serial_ports():
return glob.glob("/dev/ttyUSB*") + glob.glob("/dev/ttyACM*")
# return glob.glob("/dev/tty[A-Za-z]*")
def test_tube_callback(self, request, response):
vic_cmd = VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="citadel",
command_id=40,
data=[
float(int(request.tube_id)),
float(request.milliliters),
],
)
self.anchor_tovic_pub_.publish(vic_cmd)
return response
def cleanup(self):
print("Cleaning up...")
try:
if self.ser.is_open:
self.ser.close()
except Exception as e:
exit(0)
def libs_callback(self, request, response):
print("todo")
def execute_vacuum(self, goal_handle):
valve_id = int(goal_handle.request.valve_id)
duty = int(goal_handle.request.fan_duty_cycle_percent)
total = goal_handle.request.fan_time_ms
# open valve
self.anchor_tovic_pub_.publish(
VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="citadel",
command_id=40,
data=[float(valve_id)],
)
)
feedback = BioVacuum.Feedback()
start = time.time()
while True:
# set fan duty cycle
self.anchor_tovic_pub_.publish(
VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="citadel",
command_id=19,
data=[float(duty)],
)
)
elapsed = int((time.time() - start) * 1000)
remaining = max(0, total - elapsed)
feedback.fan_time_remaining_ms = remaining
goal_handle.publish_feedback(feedback)
if remaining == 0:
break
time.sleep(0.1)
# stop fan
self.anchor_tovic_pub_.publish(
VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="citadel",
command_id=19,
data=[0.0],
)
)
# close valve
self.anchor_tovic_pub_.publish(
VicCAN(
header=Header(stamp=self.get_clock().now().to_msg()),
mcu_name="citadel",
command_id=40,
data=[-1.0],
)
)
goal_handle.succeed()
return BioVacuum.Result()
def clamp_short(x: int) -> int:
return max(-32768, min(32767, x))
def myexcepthook(type, value, tb):
print("Uncaught exception:", type, value)
if serial_pub:
serial_pub.cleanup()
def main(args=None):

12
src/bio_pkg/package.xml
View File

@@ -2,16 +2,14 @@
<?xml-model href="http://download.ros.org/schema/package_format3.xsd" schematypens="http://www.w3.org/2001/XMLSchema"?>
<package format="3">
<name>bio_pkg</name>
<version>1.0.0</version>
<description>Biosensor package to handle command interpretation and embedded interfacing.</description>
<maintainer email="ds0196@uah.edu">David Sharpe</maintainer>
<version>0.0.0</version>
<description>TODO: Package description</description>
<maintainer email="tristanmcginnis26@gmail.com">tristan</maintainer>
<license>AGPL-3.0-only</license>
<depend>rclpy</depend>
<exec_depend>common_interfaces</exec_depend>
<exec_depend>astra_msgs</exec_depend>
<depend>common_interfaces</depend>
<depend>astra_msgs</depend>
<test_depend>ament_copyright</test_depend>
<test_depend>ament_flake8</test_depend>

2
src/bio_pkg/setup.cfg
View File

@@ -2,5 +2,3 @@
script_dir=$base/lib/bio_pkg
[install]
install_scripts=$base/lib/bio_pkg
[build_scripts]
executable= /usr/bin/env python3

4
src/bio_pkg/setup.py
View File

@@ -14,8 +14,8 @@ setup(
zip_safe=True,
maintainer="tristan",
maintainer_email="tristanmcginnis26@gmail.com",
description="Relays topics related to Biosensor between VicCAN (through Anchor) and basestation.",
license="AGPL-3.0-only",
description="TODO: Package description",
license="TODO: License declaration",
entry_points={
"console_scripts": ["bio = bio_pkg.bio_node:main"],
},

112
src/core_pkg/core_pkg/core_headless.py Executable file
View File

@@ -0,0 +1,112 @@
import rclpy
from rclpy.node import Node
import pygame
import time
import serial
import sys
import threading
import glob
import os
import importlib
from std_msgs.msg import String
from astra_msgs.msg import CoreControl
os.environ["SDL_VIDEODRIVER"] = "dummy" # Prevents pygame from trying to open a display
os.environ["SDL_AUDIODRIVER"] = (
"dummy" # Force pygame to use a dummy audio driver before pygame.init()
)
max_speed = 90 # Max speed as a duty cycle percentage (1-100)
class Headless(Node):
def __init__(self):
# Initialize pygame first
pygame.init()
pygame.joystick.init()
# Wait for a gamepad to be connected
self.gamepad = None
print("Waiting for gamepad connection...")
while pygame.joystick.get_count() == 0:
# Process any pygame events to keep it responsive
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
sys.exit(0)
time.sleep(1.0) # Check every second
print("No gamepad found. Waiting...")
# Initialize the gamepad
self.gamepad = pygame.joystick.Joystick(0)
self.gamepad.init()
print(f"Gamepad Found: {self.gamepad.get_name()}")
# Now initialize the ROS2 node
super().__init__("core_headless")
self.create_timer(0.15, self.send_controls)
self.publisher = self.create_publisher(CoreControl, "/core/control", 10)
self.lastMsg = (
String()
) # Used to ignore sending controls repeatedly when they do not change
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():
self.send_controls()
time.sleep(0.1) # Small delay to avoid CPU hogging
except KeyboardInterrupt:
sys.exit(0)
def send_controls(self):
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
sys.exit(0)
# Check if controller is still connected
if pygame.joystick.get_count() == 0:
print("Gamepad disconnected. Exiting...")
# Send one last zero control message
input = CoreControl()
input.left_stick = 0
input.right_stick = 0
input.max_speed = 0
self.publisher.publish(input)
self.get_logger().info("Final stop command sent. Shutting down.")
# Clean up
pygame.quit()
sys.exit(0)
input = CoreControl()
input.max_speed = max_speed
input.right_stick = -1 * round(self.gamepad.get_axis(4), 2) # right y-axis
if self.gamepad.get_axis(5) > 0:
input.left_stick = input.right_stick
else:
input.left_stick = -1 * round(self.gamepad.get_axis(1), 2) # left y-axis
output = f"L: {input.left_stick}, R: {input.right_stick}, M: {max_speed}"
self.get_logger().info(f"[Ctrl] {output}")
self.publisher.publish(input)
def main(args=None):
rclpy.init(args=args)
node = Headless()
rclpy.spin(node)
rclpy.shutdown()
if __name__ == "__main__":
main()

400
src/core_pkg/core_pkg/core_node.py
View File

@@ -1,14 +1,20 @@
import sys
import signal
from scipy.spatial.transform import Rotation
from math import copysign, pi
from warnings import deprecated
import rclpy
from rclpy.node import Node
from rclpy.executors import ExternalShutdownException
from rclpy import qos
from rclpy.duration import Duration
from std_srvs.srv import Empty
import signal
import time
import atexit
import serial
import os
import sys
import threading
import glob
from scipy.spatial.transform import Rotation
from math import copysign, pi
from std_msgs.msg import String, Header
from sensor_msgs.msg import Imu, NavSatFix, NavSatStatus, JointState
@@ -17,30 +23,24 @@ from astra_msgs.msg import CoreControl, CoreFeedback, RevMotorState
from astra_msgs.msg import VicCAN, NewCoreFeedback, Barometer, CoreCtrlState
serial_pub = None
thread = None
CORE_WHEELBASE = 0.836 # meters
CORE_WHEEL_RADIUS = 0.171 # meters
CORE_GEAR_RATIO = 100.0 # Clucky: 100:1
# TODO: update core_description or add testbed_description
TESTBED_WHEELBASE = 0.368 # meters
TESTBED_WHEEL_RADIUS = 0.108 # meters
TESTBED_GEAR_RATIO = 64 # Testbed: 64:1
CORE_GEAR_RATIO = 100.0 # Clucky: 100:1, Testbed: 64:1
control_qos = qos.QoSProfile(
history=qos.QoSHistoryPolicy.KEEP_LAST,
# history=qos.QoSHistoryPolicy.KEEP_LAST,
depth=2,
reliability=qos.QoSReliabilityPolicy.BEST_EFFORT, # Best Effort subscribers are still compatible with Reliable publishers
durability=qos.QoSDurabilityPolicy.VOLATILE,
# reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
# durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=Duration(seconds=1),
# lifespan=Duration(nanoseconds=500_000_000), # 500ms
# liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT,
# liveliness_lease_duration=Duration(seconds=5),
)
class CoreNode(Node):
"""Relay between Anchor and Basestation/Headless/Moveit2 for Core related topics."""
# Used to verify the length of an incoming VicCAN feedback message
# Key is VicCAN command_id, value is expected length of data list
viccan_msg_len_dict = {
@@ -55,59 +55,22 @@ class CoreNode(Node):
58: 4, # ditto
}
class SerialRelay(Node):
def __init__(self):
# Initalize node with name
super().__init__("core_node")
self.get_logger().info(f"core launch_mode is: anchor")
# Launch mode -- anchor vs core
self.declare_parameter("launch_mode", "core")
self.launch_mode = self.get_parameter("launch_mode").value
self.get_logger().info(f"Core launch_mode is: {self.launch_mode}")
##################################################
# Parameters
self.declare_parameter("use_ros2_control", False)
self.use_ros2_control = (
self.get_parameter("use_ros2_control").get_parameter_value().bool_value
)
self.declare_parameter("is_testbed", False)
self.is_testbed = (
self.get_parameter("is_testbed").get_parameter_value().bool_value
)
if self.is_testbed:
global TESTBED_WHEELBASE, TESTBED_WHEEL_RADIUS, TESTBED_GEAR_RATIO
self.wheelbase = TESTBED_WHEELBASE
self.wheel_radius = TESTBED_WHEEL_RADIUS
self.gear_ratio = TESTBED_GEAR_RATIO
else:
global CORE_WHEELBASE, CORE_WHEEL_RADIUS, CORE_GEAR_RATIO
self.wheelbase = CORE_WHEELBASE
self.wheel_radius = CORE_WHEEL_RADIUS
self.gear_ratio = CORE_GEAR_RATIO
##################################################
# Old Topics
self.anchor_sub = self.create_subscription(
String, "/anchor/core/feedback", self.anchor_feedback, 10
)
self.anchor_pub = self.create_publisher(String, "/anchor/relay", 10)
if not self.use_ros2_control:
# /core/control
self.control_sub = self.create_subscription(
CoreControl, "/core/control", self.send_controls, 10
) # old control method -- left_stick, right_stick, max_speed, brake, and some other random autonomy stuff
# /core/feedback
self.feedback_pub = self.create_publisher(CoreFeedback, "/core/feedback", 10)
self.core_feedback = CoreFeedback()
self.telemetry_pub_timer = self.create_timer(1.0, self.publish_feedback)
##################################################
# New Topics
# Topics
# Anchor
if self.launch_mode == "anchor":
self.anchor_fromvic_sub_ = self.create_subscription(
VicCAN, "/anchor/from_vic/core", self.relay_fromvic, 20
)
@@ -115,16 +78,18 @@ class CoreNode(Node):
VicCAN, "/anchor/to_vic/relay", 20
)
self.anchor_sub = self.create_subscription(
String, "/anchor/core/feedback", self.anchor_feedback, 10
)
self.anchor_pub = self.create_publisher(String, "/anchor/relay", 10)
# Control
if self.use_ros2_control:
# Joint state control for topic-based controller
self.joint_command_sub_ = self.create_subscription(
JointState, "/core/joint_commands", self.joint_command_callback, 2
# autonomy twist -- m/s and rad/s -- for autonomy, in particular Nav2
self.cmd_vel_sub_ = self.create_subscription(
TwistStamped, "/cmd_vel", self.cmd_vel_callback, 1
)
else:
# manual twist -- [-1, 1] rather than real units
# TODO: change topic to '/core/control/twist'
self.twist_man_sub_ = self.create_subscription(
Twist, "/core/twist", self.twist_man_callback, qos_profile=control_qos
)
@@ -135,64 +100,148 @@ class CoreNode(Node):
self.control_state_callback,
qos_profile=control_qos,
)
self.twist_max_duty = 0.5 # max duty cycle for twist commands (0.0 - 1.0); walking speed is 0.5
self.twist_max_duty = (
0.5 # max duty cycle for twist commands (0.0 - 1.0); walking speed is 0.5
)
# Feedback
# Consolidated and organized main core feedback
# TODO: change topic to something like '/core/feedback/main'
# Consolidated and organized core feedback
self.feedback_new_pub_ = self.create_publisher(
NewCoreFeedback,
"/core/feedback_new",
qos_profile=qos.qos_profile_sensor_data,
)
# Joint states for topic-based controller
self.joint_state_pub_ = self.create_publisher(
JointState, "/joint_states", qos_profile=qos.qos_profile_sensor_data
)
# IMU (embedded BNO-055)
self.imu_pub_ = self.create_publisher(
Imu, "/core/imu", qos_profile=qos.qos_profile_sensor_data
)
# GPS (embedded u-blox M9N)
self.gps_pub_ = self.create_publisher(
NavSatFix, "/gps/fix", qos_profile=qos.qos_profile_sensor_data
)
# Barometer (embedded BMP-388)
self.baro_pub_ = self.create_publisher(
Barometer, "/core/feedback/baro", qos_profile=qos.qos_profile_sensor_data
)
###################################################
# Saved state
# Main Core feedback
self.feedback_new_state = NewCoreFeedback()
self.feedback_new_state.fl_motor.id = 1
self.feedback_new_state.bl_motor.id = 2
self.feedback_new_state.fr_motor.id = 3
self.feedback_new_state.br_motor.id = 4
# IMU
self.telemetry_pub_timer = self.create_timer(
1.0, self.publish_feedback
) # TODO: not sure about this
# Joint states for topic-based controller
self.joint_state_pub_ = self.create_publisher(
JointState, "/core/joint_states", qos_profile=qos.qos_profile_sensor_data
)
# IMU (embedded BNO-055)
self.imu_pub_ = self.create_publisher(
Imu, "/core/imu", qos_profile=qos.qos_profile_sensor_data
)
self.imu_state = Imu()
self.imu_state.header.frame_id = "core_bno055"
# GPS
# GPS (embedded u-blox M9N)
self.gps_pub_ = self.create_publisher(
NavSatFix, "/gps/fix", qos_profile=qos.qos_profile_sensor_data
)
self.gps_state = NavSatFix()
self.gps_state.header.frame_id = "core_gps_antenna"
self.gps_state.status.service = NavSatStatus.SERVICE_GPS
self.gps_state.status.status = NavSatStatus.STATUS_NO_FIX
self.gps_state.position_covariance_type = NavSatFix.COVARIANCE_TYPE_UNKNOWN
# Barometer
# Barometer (embedded BMP-388)
self.baro_pub_ = self.create_publisher(
Barometer, "/core/baro", qos_profile=qos.qos_profile_sensor_data
)
self.baro_state = Barometer()
self.baro_state.header.frame_id = "core_bmp388"
@deprecated("Uses an old message type. Will be removed at some point.")
# Old
# /core/control
self.control_sub = self.create_subscription(
CoreControl, "/core/control", self.send_controls, 10
) # old control method -- left_stick, right_stick, max_speed, brake, and some other random autonomy stuff
# /core/feedback
self.feedback_pub = self.create_publisher(CoreFeedback, "/core/feedback", 10)
self.core_feedback = CoreFeedback()
# Debug
self.debug_pub = self.create_publisher(String, "/core/debug", 10)
self.ping_service = self.create_service(
Empty, "/astra/core/ping", self.ping_callback
)
##################################################
# Find microcontroller (Non-anchor only)
# Core (non-anchor) specific
if self.launch_mode == "core":
# Loop through all serial devices on the computer to check for the MCU
self.port = None
ports = SerialRelay.list_serial_ports()
for i in range(2):
for port in ports:
try:
# connect and send a ping command
ser = serial.Serial(port, 115200, timeout=1)
# (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
if b"pong" in response:
self.port = port
self.get_logger().info(f"Found MCU at {self.port}!")
self.get_logger().info(f"Enabling Relay Mode")
ser.write(b"can_relay_mode,on\n")
break
except:
pass
if self.port is not None:
break
if self.port is None:
self.get_logger().info("Unable to find MCU...")
time.sleep(1)
sys.exit(1)
self.ser = serial.Serial(self.port, 115200)
atexit.register(self.cleanup)
# end __init__()
def run(self):
# 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()
try:
while rclpy.ok():
if self.launch_mode == "core":
self.read_MCU() # Check the MCU for updates
except KeyboardInterrupt:
sys.exit(0)
def read_MCU(self): # NON-ANCHOR SPECIFIC
try:
output = str(self.ser.readline(), "utf8")
if output:
# All output over debug temporarily
print(f"[MCU] {output}")
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()
sys.exit(1)
except TypeError as e:
print(f"TypeError: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
sys.exit(1)
except Exception as e:
print(f"Exception: {e}")
print("Closing serial port.")
if self.ser.is_open:
self.ser.close()
sys.exit(1)
def scale_duty(self, value: float, max_speed: float):
leftMin = -1
leftMax = 1
@@ -209,7 +258,6 @@ class CoreNode(Node):
# Convert the 0-1 range into a value in the right range.
return str(rightMin + (valueScaled * rightSpan))
@deprecated("Uses an old message type. Will be removed at some point.")
def send_controls(self, msg: CoreControl):
if msg.turn_to_enable:
command = (
@@ -235,42 +283,17 @@ class CoreNode(Node):
# print(f"[Sys] Relaying: {command}")
def joint_command_callback(self, msg: JointState):
# So... topic based control node publishes JointState messages over /joint_commands
# with len(msg.name) == 5 and len(msg.velocity) == 4... all 5 non-fixed joints
# are included in msg.name, but ig it is implied that msg.velocity only
# includes velocities for the commanded joints (ros__parameters.joints).
# So, this will be much more hacky and less adaptable than I would like it to be.
if (
len(msg.name) != (4 if self.is_testbed else 5)
or len(msg.velocity) != 4
or len(msg.position) != 0
):
self.get_logger().warning(
f"Received joint control message with unexpected number of joints. Ignoring."
)
return
if msg.name[-4:] != [ # type: ignore
"bl_wheel_joint",
"br_wheel_joint",
"fl_wheel_joint",
"fr_wheel_joint",
]:
self.get_logger().warning(
f"Received joint control message with unexpected name[]. Ignoring."
)
return
def cmd_vel_callback(self, msg: TwistStamped):
linear = msg.twist.linear.x
angular = -msg.twist.angular.z
(bl_vel, br_vel, fl_vel, fr_vel) = msg.velocity
vel_left_rads = (linear - (angular * CORE_WHEELBASE / 2)) / CORE_WHEEL_RADIUS
vel_right_rads = (linear + (angular * CORE_WHEELBASE / 2)) / CORE_WHEEL_RADIUS
bl_rpm = radps_to_rpm(bl_vel) * self.gear_ratio
br_rpm = radps_to_rpm(br_vel) * self.gear_ratio
fl_rpm = radps_to_rpm(fl_vel) * self.gear_ratio
fr_rpm = radps_to_rpm(fr_vel) * self.gear_ratio
vel_left_rpm = round((vel_left_rads * 60) / (2 * 3.14159)) * CORE_GEAR_RATIO
vel_right_rpm = round((vel_right_rads * 60) / (2 * 3.14159)) * CORE_GEAR_RATIO
self.send_viccan(
20, [fl_rpm, bl_rpm, fr_rpm, br_rpm]
) # order expected by embedded
self.send_viccan(20, [vel_left_rpm, vel_right_rpm])
def twist_man_callback(self, msg: Twist):
linear = msg.linear.x # [-1 1] for forward/back from left stick y
@@ -311,9 +334,15 @@ class CoreNode(Node):
# Max duty cycle
self.twist_max_duty = msg.max_duty # twist_man_callback will handle this
@deprecated("Uses an old message type. Will be removed at some point.")
def send_cmd(self, msg: str):
self.anchor_pub.publish(String(data=msg)) # Publish to anchor for relay
if self.launch_mode == "anchor":
# self.get_logger().info(f"[Core to Anchor Relay] {msg}")
output = String() # Convert to std_msg string
output.data = msg
self.anchor_pub.publish(output)
elif self.launch_mode == "core":
self.get_logger().info(f"[Core to MCU] {msg}")
self.ser.write(bytes(msg, "utf8"))
def send_viccan(self, cmd_id: int, data: list[float]):
self.anchor_tovic_pub_.publish(
@@ -325,7 +354,6 @@ class CoreNode(Node):
)
)
@deprecated("Uses an old message type. Will be removed at some point.")
def anchor_feedback(self, msg: String):
output = msg.data
parts = str(output.strip()).split(",")
@@ -395,16 +423,14 @@ class CoreNode(Node):
# skill diff if not
# Check message len to prevent crashing on bad data
if msg.command_id in self.viccan_msg_len_dict:
expected_len = self.viccan_msg_len_dict[msg.command_id]
if msg.command_id in viccan_msg_len_dict:
expected_len = viccan_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
self.feedback_new_state.header.stamp = msg.header.stamp
match msg.command_id:
# GNSS
case 48: # GNSS Latitude
@@ -431,7 +457,6 @@ class CoreNode(Node):
self.imu_state.linear_acceleration.x = float(msg.data[0])
self.imu_state.linear_acceleration.y = float(msg.data[1])
self.imu_state.linear_acceleration.z = float(msg.data[2])
self.feedback_new_state.orientation = float(msg.data[3])
# Deal with quaternion
r = Rotation.from_euler("z", float(msg.data[3]), degrees=True)
q = r.as_quat()
@@ -476,7 +501,6 @@ class CoreNode(Node):
self.feedback_new_state.board_voltage.v12 = float(msg.data[1]) / 100.0
self.feedback_new_state.board_voltage.v5 = float(msg.data[2]) / 100.0
self.feedback_new_state.board_voltage.v3 = float(msg.data[3]) / 100.0
self.feedback_new_state.board_voltage.header.stamp = msg.header.stamp
# Baro
case 56: # BMP temperature, altitude, pressure
self.baro_state.temperature = float(msg.data[0])
@@ -489,12 +513,14 @@ class CoreNode(Node):
motorId = round(float(msg.data[0]))
position = float(msg.data[1])
velocity = float(msg.data[2])
joint_state_msg = JointState()
joint_state_msg = (
JointState()
) # TODO: not sure if all motors should be in each message or not
joint_state_msg.position = [
position * (2 * pi) / self.gear_ratio
position * (2 * pi) / CORE_GEAR_RATIO
] # revolutions to radians
joint_state_msg.velocity = [
velocity * (2 * pi / 60.0) / self.gear_ratio
velocity * (2 * pi / 60.0) / CORE_GEAR_RATIO
] # RPM to rad/s
motor: RevMotorState | None = None
@@ -502,42 +528,52 @@ class CoreNode(Node):
match motorId:
case 1:
motor = self.feedback_new_state.fl_motor
joint_state_msg.name = ["fl_wheel_joint"]
joint_state_msg.name = ["fl_motor_joint"]
case 2:
motor = self.feedback_new_state.bl_motor
joint_state_msg.name = ["bl_wheel_joint"]
joint_state_msg.name = ["bl_motor_joint"]
case 3:
motor = self.feedback_new_state.fr_motor
joint_state_msg.name = ["fr_wheel_joint"]
joint_state_msg.name = ["fr_motor_joint"]
case 4:
motor = self.feedback_new_state.br_motor
joint_state_msg.name = ["br_wheel_joint"]
joint_state_msg.name = ["br_motor_joint"]
case _:
self.get_logger().warning(
f"Ignoring REV motor feedback 58 with invalid motorId {motorId}"
)
return
if motor:
motor.position = position
motor.velocity = velocity
# make the fucking shit work
if not self.is_testbed:
joint_state_msg.name.append("left_suspension_joint")
joint_state_msg.position.append(0.0)
joint_state_msg.velocity.append(0.0)
joint_state_msg.header.stamp = msg.header.stamp
self.joint_state_pub_.publish(joint_state_msg)
case _:
return
@deprecated("Uses an old message type. Will be removed at some point.")
def publish_feedback(self):
# self.get_logger().info(f"[Core] {self.core_feedback}")
self.feedback_pub.publish(self.core_feedback)
def ping_callback(self, request, response):
return response
@staticmethod
def list_serial_ports():
return glob.glob("/dev/ttyUSB*") + glob.glob("/dev/ttyACM*")
def cleanup(self):
print("Cleaning up before terminating...")
try:
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 map_range(
value: float, in_min: float, in_max: float, out_min: float, out_max: float
@@ -545,31 +581,19 @@ def map_range(
return (value - in_min) * (out_max - out_min) / (in_max - in_min) + out_min
def radps_to_rpm(radps: float):
return radps * 60 / (2 * pi)
def exit_handler(signum, frame):
print("Caught SIGTERM. Exiting...")
rclpy.try_shutdown()
sys.exit(0)
def main(args=None):
rclpy.init(args=args)
sys.excepthook = myexcepthook
# Catch termination signals and exit cleanly
signal.signal(signal.SIGTERM, exit_handler)
global serial_pub
core_node = CoreNode()
try:
rclpy.spin(core_node)
except (KeyboardInterrupt, ExternalShutdownException):
pass
finally:
rclpy.try_shutdown()
serial_pub = SerialRelay()
serial_pub.run()
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()

14
src/core_pkg/package.xml
View File

@@ -3,17 +3,15 @@
<package format="3">
<name>core_pkg</name>
<version>1.0.0</version>
<description>Relays topics related to Core between VicCAN (through Anchor) and basestation.</description>
<maintainer email="ds0196@uah.edu">David Sharpe</maintainer>
<description>Core rover control package to handle command interpretation and embedded interfacing.</description>
<maintainer email="tristanmcginnis26@gmail.com">tristan</maintainer>
<license>AGPL-3.0-only</license>
<depend>rclpy</depend>
<exec_depend>common_interfaces</exec_depend>
<exec_depend>python3-scipy</exec_depend>
<exec_depend>python-crccheck-pip</exec_depend>
<exec_depend>astra_msgs</exec_depend>
<depend>common_interfaces</depend>
<depend>python3-scipy</depend>
<depend>python-crccheck-pip</depend>
<depend>astra_msgs</depend>
<test_depend>ament_copyright</test_depend>
<test_depend>ament_flake8</test_depend>

2
src/core_pkg/setup.cfg
View File

@@ -2,5 +2,3 @@
script_dir=$base/lib/core_pkg
[install]
install_scripts=$base/lib/core_pkg
[build_scripts]
executable= /usr/bin/env python3

11
src/core_pkg/setup.py
View File

@@ -4,7 +4,7 @@ package_name = "core_pkg"
setup(
name=package_name,
version="1.0.0",
version="0.0.0",
packages=find_packages(exclude=["test"]),
data_files=[
("share/ament_index/resource_index/packages", ["resource/" + package_name]),
@@ -12,13 +12,14 @@ setup(
],
install_requires=["setuptools"],
zip_safe=True,
maintainer="David Sharpe",
maintainer_email="ds0196@uah.edu",
description="Relays topics related to Core between VicCAN (through Anchor) and basestation.",
license="AGPL-3.0-only",
maintainer="tristan",
maintainer_email="tristanmcginnis26@gmail.com",
description="Core rover control package to handle command interpretation and embedded interfacing.",
license="All Rights Reserved",
entry_points={
"console_scripts": [
"core = core_pkg.core_node:main",
"headless = core_pkg.core_headless:main",
"ptz = core_pkg.core_ptz:main",
],
},

9
src/headless_pkg/package.xml
View File

@@ -3,15 +3,14 @@
<package format="3">
<name>headless_pkg</name>
<version>1.0.0</version>
<description>Provides headless rover control, similar to Basestation.</description>
<description>Headless rover control package to handle command interpretation and embedded interfacing.</description>
<maintainer email="ds0196@uah.edu">David Sharpe</maintainer>
<license>AGPL-3.0-only</license>
<depend>rclpy</depend>
<exec_depend>common_interfaces</exec_depend>
<exec_depend>python3-pygame</exec_depend>
<exec_depend>astra_msgs</exec_depend>
<depend>common_interfaces</depend>
<depend>python3-pygame</depend>
<depend>astra_msgs</depend>
<test_depend>ament_copyright</test_depend>
<test_depend>ament_flake8</test_depend>

2
src/headless_pkg/setup.cfg
View File

@@ -2,5 +2,3 @@
script_dir=$base/lib/headless_pkg
[install]
install_scripts=$base/lib/headless_pkg
[build_scripts]
executable= /usr/bin/env python3

8
src/headless_pkg/setup.py
View File

@@ -14,9 +14,11 @@ setup(
zip_safe=True,
maintainer="David Sharpe",
maintainer_email="ds0196@uah.edu",
description="Provides headless rover control, similar to Basestation.",
license="AGPL-3.0-only",
description="Headless rover control package to handle command interpretation and embedded interfacing.",
license="All Rights Reserved",
entry_points={
"console_scripts": ["headless_full = src.headless_node:main"],
"console_scripts": [
"headless_full = src.headless_node:main",
],
},
)

541
src/headless_pkg/src/headless_node.py
View File

@@ -6,28 +6,21 @@ from rclpy.duration import Duration
import signal
import time
import atexit
import os
import sys
import threading
import glob
import pwd
import grp
from math import copysign
from std_srvs.srv import Trigger
from std_msgs.msg import Header
from geometry_msgs.msg import Twist, TwistStamped
from control_msgs.msg import JointJog
from std_msgs.msg import String
from geometry_msgs.msg import Twist
from astra_msgs.msg import CoreControl, ArmManual, BioControl
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
os.environ["SDL_VIDEODRIVER"] = "dummy" # Prevents pygame from trying to open a display
@@ -41,44 +34,26 @@ CORE_STOP_TWIST_MSG = Twist() # "
ARM_STOP_MSG = ArmManual() # "
BIO_STOP_MSG = BioControl() # "
control_qos = qos.QoSProfile(
history=qos.QoSHistoryPolicy.KEEP_LAST,
# history=qos.QoSHistoryPolicy.KEEP_LAST,
depth=2,
reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
durability=qos.QoSDurabilityPolicy.VOLATILE,
# reliability=qos.QoSReliabilityPolicy.BEST_EFFORT,
# durability=qos.QoSDurabilityPolicy.VOLATILE,
# deadline=Duration(seconds=1),
# lifespan=Duration(nanoseconds=500_000_000), # 500ms
# liveliness=qos.QoSLivelinessPolicy.SYSTEM_DEFAULT,
# liveliness_lease_duration=Duration(seconds=5),
)
STICK_DEADZONE = float(os.getenv("STICK_DEADZONE", "0.05"))
ARM_DEADZONE = float(os.getenv("ARM_DEADZONE", "0.2"))
CORE_MODE = "twist" # "twist" or "duty"
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):
# Initialize pygame first
pygame.init()
pygame.joystick.init()
super().__init__("headless_node")
##################################################
# Preamble
super().__init__("headless")
# Wait for anchor to start
pub_info = self.get_publishers_info_by_topic("/anchor/from_vic/debug")
@@ -130,139 +105,37 @@ class Headless(Node):
break
id += 1
##################################################
# Parameters
self.create_timer(0.15, self.send_controls)
self.declare_parameter("use_old_topics", True)
self.use_old_topics = (
self.get_parameter("use_old_topics").get_parameter_value().bool_value
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)
self.core_twist_pub_ = self.create_publisher(
Twist, "/core/twist", qos_profile=control_qos
)
self.declare_parameter("use_cmd_vel", False)
self.use_cmd_vel = (
self.get_parameter("use_cmd_vel").get_parameter_value().bool_value
)
self.declare_parameter("use_bio", False)
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_cmd_vel:
self.get_logger().info("Using cmd_vel for core control")
global CORE_MODE
CORE_MODE = "twist"
else:
self.get_logger().info("Using astra_msgs/CoreControl for core control")
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.core_state_pub_ = self.create_publisher(
CoreCtrlState, "/core/control/state", qos_profile=control_qos
)
self.ctrl_mode = "core" # Start in core mode
self.core_brake_mode = False
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_cmd_vel_pub_ = self.create_publisher(
TwistStamped, "/diff_controller/cmd_vel", 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)
self.gamepad.rumble(0.7, 0.8, 150)
# Added so you can tell when it starts running after changing the constant logging to debug from info
self.get_logger().info("Defaulting to Core mode. Ready.")
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()
def stop_all(self):
if self.use_old_topics:
self.core_publisher.publish(CORE_STOP_MSG)
self.arm_publisher.publish(ARM_STOP_MSG)
self.bio_publisher.publish(BIO_STOP_MSG)
else:
if self.use_cmd_vel:
self.core_cmd_vel_pub_.publish(self.core_cmd_vel_stop_msg())
else:
self.core_twist_pub_.publish(CORE_STOP_TWIST_MSG)
if self.use_arm_ik:
self.arm_ik_twist_publisher.publish(self.arm_ik_twist_stop_msg())
else:
self.arm_manual_pub_.publish(self.arm_manual_stop_msg())
# TODO: add bio here after implementing new topics
try:
while rclpy.ok():
self.send_controls()
time.sleep(0.1) # Small delay to avoid CPU hogging
except KeyboardInterrupt:
sys.exit(0)
def send_controls(self):
"""Read the gamepad state and publish control messages"""
@@ -274,8 +147,10 @@ class Headless(Node):
# Check if controller is still connected
if pygame.joystick.get_count() != self.num_gamepads:
print("Gamepad disconnected. Exiting...")
# Stop the rover if controller disconnected
self.stop_all()
# Send one last zero control message
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.")
# Clean up
pygame.quit()
@@ -291,51 +166,20 @@ class Headless(Node):
new_ctrl_mode = "core"
if new_ctrl_mode != self.ctrl_mode:
self.stop_all()
self.gamepad.rumble(0.6, 0.7, 75)
self.ctrl_mode = new_ctrl_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
if self.ctrl_mode == "core":
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:
# CORE
if self.ctrl_mode == "core" and CORE_MODE == "duty":
input = CoreControl()
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
input.right_stick = float(round(-1 * right_stick_y, 2))
@@ -350,30 +194,31 @@ class Headless(Node):
self.get_logger().info(f"[Ctrl] {output}")
self.core_publisher.publish(input)
self.arm_publisher.publish(ARM_STOP_MSG)
# self.bio_publisher.publish(BIO_STOP_MSG)
else: # New topics
twist = Twist()
elif self.ctrl_mode == "core" and CORE_MODE == "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
twist.linear.x = -1.0 * left_stick_y
twist.angular.z = -1.0 * copysign(
input.linear.x = -1.0 * left_stick_y
input.angular.z = -1.0 * copysign(
right_stick_x**2, right_stick_x
) # Exponent for finer control (curve)
# This kinda looks dumb being seperate from the following block, but this
# maintains the separation between modifying the control message and sending it
if self.use_cmd_vel:
twist.linear.x *= 1.5
twist.angular.z *= 0.5
# Publish
if self.use_cmd_vel:
header = Header(stamp=self.get_clock().now().to_msg())
self.core_cmd_vel_pub_.publish(TwistStamped(header=header, twist=twist))
else:
self.core_twist_pub_.publish(twist)
self.get_logger().debug(
f"[Core Ctrl] Linear: {round(twist.linear.x, 2)}, Angular: {round(twist.angular.z, 2)}"
self.core_twist_pub_.publish(input)
self.arm_publisher.publish(ARM_STOP_MSG)
# self.bio_publisher.publish(BIO_STOP_MSG)
self.get_logger().info(
f"[Core Ctrl] Linear: {round(input.linear.x, 2)}, Angular: {round(input.angular.z, 2)}"
)
# Brake mode
@@ -396,36 +241,25 @@ class Headless(Node):
state_msg = CoreCtrlState()
state_msg.brake_mode = bool(self.core_brake_mode)
state_msg.max_duty = float(self.core_max_duty)
self.core_state_pub_.publish(state_msg)
self.get_logger().info(
f"[Core State] Brake: {self.core_brake_mode}, Max Duty: {self.core_max_duty}"
)
def send_arm(self):
# ARM and BIO
if self.ctrl_mode == "arm":
arm_input = ArmManual()
# 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)
left_stick_x = deadzone(self.gamepad.get_axis(0))
left_stick_y = deadzone(self.gamepad.get_axis(1))
left_trigger = deadzone(self.gamepad.get_axis(2))
right_stick_x = deadzone(self.gamepad.get_axis(3))
right_stick_y = deadzone(self.gamepad.get_axis(4))
right_trigger = deadzone(self.gamepad.get_axis(5))
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()
# OLD ARM MANUAL CONTROL SCHEME
if not self.use_new_arm_manual_scheme:
# EF Grippers
if left_trigger > 0 and right_trigger > 0:
arm_input.gripper = 0
@@ -468,243 +302,30 @@ class Headless(Node):
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:
arm_input.velocities[
self.all_joint_names.index("ef_gripper_left_joint")
] = 0.0
elif left_trigger > 0:
arm_input.velocities[
self.all_joint_names.index("ef_gripper_left_joint")
] = -1.0
elif right_trigger > 0:
arm_input.velocities[
self.all_joint_names.index("ef_gripper_left_joint")
] = 1.0
# Bumpers: EF roll
arm_input.velocities[self.all_joint_names.index("wrist_roll_joint")] = (
right_bumper - left_bumper
)
# A: brake
# TODO: Brake mode
# Y: linear actuator
# TODO: linear actuator
self.arm_manual_pub_.publish(arm_input)
# IK (ONLY NEW)
# =============
elif self.use_arm_ik:
arm_twist = TwistStamped()
arm_twist.header.frame_id = "base_link"
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
# Left stick: angular z and linear z
# D-pad: angular y and _
# Triggers: EF grippers
# Bumpers: angular x
# A: brake
# B: IK mode
# X: manual mode
# Y: linear actuator
# Right stick: linear y and linear x
arm_twist.twist.linear.y = float(right_stick_x)
arm_twist.twist.linear.x = float(right_stick_y)
# Left stick: angular z and linear z
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
bio_input = BioControl(
bio_arm=int(left_stick_y * -100),
drill_arm=int(round(right_stick_y) * -100),
)
# 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(
30 * (right_trigger - left_trigger)
) # Max duty cycle 30%
self.bio_publisher.publish(bio_input)
else:
pass # TODO: implement new bio control topics
def core_cmd_vel_stop_msg(self):
return TwistStamped(
header=Header(frame_id="base_link", stamp=self.get_clock().now().to_msg())
)
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())
)
self.core_publisher.publish(CORE_STOP_MSG)
self.arm_publisher.publish(arm_input)
# self.bio_publisher.publish(bio_input)
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"""
if abs(value) < threshold:
return 0
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:
@@ -723,26 +344,20 @@ def is_user_in_group(group_name: str) -> bool:
return False
def exit_handler(signum, frame):
print("Caught SIGTERM. Exiting...")
rclpy.try_shutdown()
sys.exit(0)
def main(args=None):
try:
rclpy.init(args=args)
# Catch termination signals and exit cleanly
signal.signal(signal.SIGTERM, exit_handler)
node = Headless()
rclpy.spin(node)
except (KeyboardInterrupt, ExternalShutdownException):
print("Caught shutdown signal. Exiting...")
finally:
rclpy.try_shutdown()
rclpy.shutdown()
if __name__ == "__main__":
signal.signal(
signal.SIGTERM, lambda signum, frame: sys.exit(0)
) # Catch termination signals and exit cleanly
main()

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

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

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* modification, are permitted provided that the following conditions
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*
* * 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.
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* 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)