Repository Summary
Checkout URI | https://github.com/ros2/ros2_tracing.git |
VCS Type | git |
VCS Version | humble |
Last Updated | 2022-11-07 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
Name | Version |
---|---|
ros2trace | 4.1.1 |
test_tracetools | 4.1.1 |
test_tracetools_launch | 4.1.1 |
tracetools | 4.1.1 |
tracetools_launch | 4.1.1 |
tracetools_read | 4.1.1 |
tracetools_test | 4.1.1 |
tracetools_trace | 4.1.1 |
README
ros2_tracing
Tracing tools for ROS 2.
Overview
ros2_tracing
provides tracing instrumentation for the core ROS 2 packages.
It also provides tools to configure tracing through a launch action and a ros2
CLI command.
ros2_tracing
currently only supports the LTTng tracer.
Consequently, it currently only supports Linux.
Publications & presentations
Read the ros2_tracing
paper!
If you use or refer to ros2_tracing
, please cite:
- C. Bédard, I. Lütkebohle, and M. Dagenais, “ros2_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2,” IEEE Robotics and Automation Letters, vol. 7, no. 3, pp. 6511–6518, 2022.
BibTeX
```bibtex @article{bedard2022ros2tracing, title={ros2\_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2}, author={B{\'e}dard, Christophe and L{\"u}tkebohle, Ingo and Dagenais, Michel}, journal={IEEE Robotics and Automation Letters}, year={2022}, volume={7}, number={3}, pages={6511--6518}, doi={10.1109/LRA.2022.3174346} } ```Also, check out the ROS World 2021 presentation titled “Tracing ROS 2 with ros2_tracing” (video, slides). Reference:
- C. Bédard, “Tracing ROS 2 with ros2_tracing,” in ROS World 2021. Open Robotics, October 2021. [Online]. Available: https://vimeo.com/652633418, (pdf)
Tutorials & demos
- Real-Time Working Group documentation tutorial: How to use
ros2_tracing
to trace and analyze an application - ROS World 2021 demo: github.com/christophebedard/ros-world-2021-demo
Building
As of Foxy, these instructions also apply to an installation from the Debian packages; it will not work out-of-the-box.
If LTTng is not found during build, or if the TRACETOOLS_DISABLED
option is enabled, then this package will not do anything.
To enable tracing:
- Install LTTng (
>=2.11.1
) with the Python bindings to control tracing and read traces:
$ sudo apt-get update
$ sudo apt-get install lttng-tools liblttng-ust-dev
$ sudo apt-get install python3-babeltrace python3-lttng
* The above commands will only install the LTTng userspace tracer, LTTng-UST. You only need the userspace tracer to trace ROS 2.
* To install the [LTTng kernel tracer](https://lttng.org/docs/v2.13/#doc-tracing-the-linux-kernel):
$ sudo apt-get install lttng-modules-dkms
* For more information about LTTng, [see its documentation](https://lttng.org/docs/v2.13/). 2. Build:
* If you've already built ROS 2 from source before installing LTTng, you will need to re-build at least up to `tracetools`:
$ colcon build --packages-up-to tracetools --cmake-force-configure
* If you rely on the ROS 2 binaries (Debian packages, release binaries, or prerelease binaries), you will need to clone this repo into your workspace and build at least up to `tracetools`:
$ cd src/
$ git clone https://gitlab.com/ros-tracing/ros2_tracing.git
$ cd ../
$ colcon build --packages-up-to tracetools
- Source and check that tracing is enabled:
$ source ./install/setup.bash
$ ros2 run tracetools status
Tracing enabled
Disabling tracing
Alternatively, to build and disable tracing, use TRACETOOLS_DISABLED
:
$ colcon build --cmake-args " -DTRACETOOLS_DISABLED=ON"
This will remove all instrumentation from the core ROS 2 packages, and thus they will not depend on or link against the shared library provided by the tracetools
package.
Tracing
The steps above will not lead to trace data being generated, and thus they will have no impact on execution. LTTng has to be configured for tracing. The packages in this repo provide two options: a command and a launch file action.
The tracing directory can be configured using command/launch action parameters, or through environment variables with the following logic:
- Use
$ROS_TRACE_DIR
ifROS_TRACE_DIR
is set and not empty. - Otherwise, use
$ROS_HOME/tracing
, using~/.ros
forROS_HOME
if not set or if empty.
Additionally, if you’re using kernel tracing with a non-root user, make sure that the tracing
group exists and that your user is added to it.
# Create group if it doesn't exist
$ sudo groupadd -r tracing
# Add user to the group
$ sudo usermod -aG tracing $USER
Trace command
The first option is to use the ros2 trace
command.
$ ros2 trace
By default, it will enable all ROS tracepoints and a few kernel tracepoints.
The trace will be written to ~/.ros/tracing/session-YYYYMMDDHHMMSS
.
Run the command with -h
for more information.
You must install the kernel tracer if you want to enable kernel events (using the -k
/--kernel-events
option).
If have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Launch file trace action
Another option is to use the Trace
action in a Python, XML, or YAML launch file along with your Node
action(s).
This way, tracing automatically starts when launching the launch file and ends when it exits or when terminated.
$ ros2 launch tracetools_launch example.launch.py
The Trace
action will also set the LD_PRELOAD
environment to preload LTTng’s userspace tracing helper(s) if the corresponding event(s) are enabled.
For more information, see this example launch file and the Trace
action.
You must install the kernel tracer if you want to enable kernel events (events_kernel
in Python, events-kernel
in XML or YAML).
If have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Design
See the design document.
Real-time
LTTng-UST, the current default userspace tracer used for tracing ROS 2, was designed for real-time production applications. It is a low-overhead tracer with many important real-time compatible features:
- userspace tracer completely implemented in userspace, independent from the kernel
- reentrant, thread-safe, signal-safe, non-blocking
- no system calls in the fast path
- no copies of the trace data
However, some settings need to be tuned for it to be fully real-time safe and for performance to be optimal for your use-case:
- timers1: use read timer to avoid a write(2) call
- sub-buffer1 count and size:
- see documentation for sub-buffer count and size tuning tips based on your use-case
- minimize sub-buffer count to minimize sub-buffer switching overhead
- one-time memory allocation/lock/syscall per thread:
- usually done the first time a tracepoint is executed within a thread for URCU thread registration, but registration can be manually performed to force it to be done during your application’s initialization
- see this LTTng mailing list message
For further reading:
- LTTng documentation
- Combined Tracing of the Kernel and Applications with LTTng: LTTng-UST architecture and design goals (section 3)
- Survey and Analysis of Kernel and Userspace Tracers on Linux: Design, Implementation, and Overhead: LTTng-UST overhead and design compared to other kernel and userspace tracers (table 6: average latency overhead per tracepoint of 158 ns)
The LTTng kernel tracer has a similar implementation, but is separate from the userspace tracer.
Packages
ros2trace
Package containing a ros2cli
extension to enable tracing.
tracetools
Library to support instrumenting ROS packages, including core packages.
This package claims to be in the Quality Level 1 category, see the Quality Declaration for more details.
See the API documentation.
tracetools_launch
Package containing tools to enable tracing through launch files.
tracetools_read
Package containing tools to read traces.
tracetools_test
Package containing tools for tracing-related tests.
tracetools_trace
Package containing tools to enable tracing.
test_tracetools
Package containing unit and system tests for tracetools
.
Analysis
See tracetools_analysis
.
-
this setting cannot currently be set through the
Trace
launch file action or theros2 trace
command, see !129 ↩ ↩2
CONTRIBUTING
Any contribution that you make to this repository will be under the Apache 2 License, as dictated by that license:
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
Contributors must sign-off each commit by adding a Signed-off-by: ...
line to commit messages to certify that they have the right to submit
the code they are contributing to the project according to the
Developer Certificate of Origin (DCO).
Repository Summary
Checkout URI | https://github.com/ros2/ros2_tracing.git |
VCS Type | git |
VCS Version | iron |
Last Updated | 2024-11-08 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
Name | Version |
---|---|
ros2trace | 6.3.3 |
test_ros2trace | 6.3.3 |
test_tracetools | 6.3.3 |
test_tracetools_launch | 6.3.3 |
tracetools | 6.3.3 |
tracetools_launch | 6.3.3 |
tracetools_read | 6.3.3 |
tracetools_test | 6.3.3 |
tracetools_trace | 6.3.3 |
README
ros2_tracing
Tracing tools for ROS 2.
Overview
ros2_tracing
provides tracing instrumentation for the core ROS 2 packages.
It also provides tools to configure tracing through a launch action and a ros2
CLI command.
ros2_tracing
currently only supports the LTTng tracer.
Consequently, it currently only supports Linux.
Note: make sure to use the right branch, depending on the ROS 2 distro: use rolling
for Rolling, galactic
for Galactic, etc.
Publications & presentations
Read the ros2_tracing
paper!
If you use or refer to ros2_tracing
, please cite:
- C. Bédard, I. Lütkebohle, and M. Dagenais, “ros2_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2,” IEEE Robotics and Automation Letters, vol. 7, no. 3, pp. 6511–6518, 2022.
BibTeX
```bibtex @article{bedard2022ros2tracing, title={ros2\_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2}, author={B{\'e}dard, Christophe and L{\"u}tkebohle, Ingo and Dagenais, Michel}, journal={IEEE Robotics and Automation Letters}, year={2022}, volume={7}, number={3}, pages={6511--6518}, doi={10.1109/LRA.2022.3174346} } ```Also, check out the ROS World 2021 presentation titled “Tracing ROS 2 with ros2_tracing” (video, slides). Reference:
- C. Bédard, “Tracing ROS 2 with ros2_tracing,” in ROS World 2021. Open Robotics, October 2021. [Online]. Available: https://vimeo.com/652633418, (pdf)
Tutorials & demos
- ROS 2 documentation: Building ROS 2 with tracing
- Real-Time Working Group documentation tutorial: How to use
ros2_tracing
to trace and analyze an application - ROS World 2021 demo: github.com/christophebedard/ros-world-2021-demo
Building
As of Iron, the LTTng tracer is a ROS 2 dependency. Therefore, ROS 2 can be traced out-of-the-box on Linux; this package does not need to be re-built.
To make sure that the instrumentation and tracepoints are available:
$ source /opt/ros/rolling/setup.bash # With a binary install
$ source ./install/setup.bash # When building from source
$ ros2 run tracetools status
Tracing enabled
A ROS 2 installation only includes the LTTng userspace tracer (LTTng-UST), which is all that is needed to trace ROS 2. To trace the Linux kernel, the LTTng kernel tracer must be installed separately:
$ sudo apt-get update
$ sudo apt-get install lttng-modules-dkms
For more information about LTTng, refer to its documentation.
Removing the instrumentation
To build and remove all instrumentation, use TRACETOOLS_DISABLED
:
$ colcon build --cmake-args -DTRACETOOLS_DISABLED=ON
This will remove all instrumentation from the core ROS 2 packages, and thus they will not depend on or link against the shared library provided by the tracetools
package.
This also means that LTTng is not required at build-time or at runtime.
Excluding tracepoints
Alternatively, to only exclude the actual tracepoints, use TRACETOOLS_TRACEPOINTS_EXCLUDED
:
$ colcon build --packages-select tracetools --cmake-clean-cache --cmake-args -DTRACETOOLS_TRACEPOINTS_EXCLUDED=ON
This will keep the instrumentation but remove all tracepoints.
This also means that LTTng is not required at build-time or at runtime.
This option can be useful, since tracepoints can be added back in or removed by simply replacing/re-building the shared library provided by the tracetools
package.
Tracing
By default, trace data will not be generated, and thus these packages will have virtually no impact on execution. LTTng has to be configured for tracing. The packages in this repo provide two options: a command and a launch file action.
Note: tracing must be started before the application is launched. Metadata is recorded during the initialization phase of the application. This metadata is needed to understand the rest of the trace data, so if tracing is started after the application started executing, then the trace data might be unusable. For more information, refer to the design document. The launch file action is designed to automatically start tracing before the application launches.
The tracing directory can be configured using command/launch action parameters, or through environment variables with the following logic:
- Use
$ROS_TRACE_DIR
ifROS_TRACE_DIR
is set and not empty. - Otherwise, use
$ROS_HOME/tracing
, using~/.ros
forROS_HOME
if not set or if empty.
Additionally, if you’re using kernel tracing with a non-root user, make sure that the tracing
group exists and that your user is added to it.
# Create group if it doesn't exist
$ sudo groupadd -r tracing
# Add user to the group
$ sudo usermod -aG tracing $USER
Trace command
The first option is to use the ros2 trace
command.
$ ros2 trace
By default, it will enable all ROS 2 tracepoints.
The trace will be written to ~/.ros/tracing/session-YYYYMMDDHHMMSS
.
Run the command with -h
for more information.
You must install the kernel tracer if you want to enable kernel events (using the -k
/--kernel-events
option).
If you have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Launch file trace action
Another option is to use the Trace
action in a Python, XML, or YAML launch file along with your Node
action(s).
This way, tracing automatically starts when launching the launch file and ends when it exits or when terminated.
$ ros2 launch tracetools_launch example.launch.py
The Trace
action will also set the LD_PRELOAD
environment to preload LTTng’s userspace tracing helper(s) if the corresponding event(s) are enabled.
For more information, see this example launch file and the Trace
action.
You must install the kernel tracer if you want to enable kernel events (events_kernel
in Python, events-kernel
in XML or YAML).
If you have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Design
See the design document.
Real-time
LTTng-UST, the current default userspace tracer used for tracing ROS 2, was designed for real-time production applications. It is a low-overhead tracer with many important real-time compatible features:
- userspace tracer completely implemented in userspace, independent from the kernel
- reentrant, thread-safe, signal-safe, non-blocking
- no system calls in the fast path
- no copies of the trace data
However, some settings need to be tuned for it to be fully real-time safe and for performance to be optimal for your use-case:
- timers1: use read timer to avoid a write(2) call
- sub-buffer1 count and size:
- see documentation for sub-buffer count and size tuning tips based on your use-case
- minimize sub-buffer count to minimize sub-buffer switching overhead
- one-time memory allocation/lock/syscall per thread:
- usually done the first time a tracepoint is executed within a thread for URCU thread registration, but registration can be manually performed to force it to be done during your application’s initialization
- see this LTTng mailing list message
For further reading:
- LTTng documentation
- Combined Tracing of the Kernel and Applications with LTTng: LTTng-UST architecture and design goals (section 3)
- Survey and Analysis of Kernel and Userspace Tracers on Linux: Design, Implementation, and Overhead: LTTng-UST overhead and design compared to other kernel and userspace tracers (table 6: average latency overhead per tracepoint of 158 ns)
The LTTng kernel tracer has a similar implementation, but is separate from the userspace tracer.
Packages
ros2trace
Package containing a ros2cli
extension to enable tracing.
tracetools
Library to support instrumenting ROS packages, including core packages.
This package claims to be in the Quality Level 1 category, see the Quality Declaration for more details.
See the API documentation.
tracetools_launch
Package containing tools to enable tracing through launch files.
tracetools_read
Package containing tools to read traces.
tracetools_test
Package containing tools for tracing-related tests.
tracetools_trace
Package containing tools to enable tracing.
test_tracetools
Package containing unit and system tests for tracetools
.
test_tracetools_launch
Package containing system tests for tracetools_launch
.
Analysis
See tracetools_analysis
.
-
this setting cannot currently be set through the
Trace
launch file action or theros2 trace
command, see #20 ↩ ↩2
CONTRIBUTING
Any contribution that you make to this repository will be under the Apache 2 License, as dictated by that license:
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
Contributors must sign-off each commit by adding a Signed-off-by: ...
line to commit messages to certify that they have the right to submit
the code they are contributing to the project according to the
Developer Certificate of Origin (DCO).
Repository Summary
Checkout URI | https://github.com/ros2/ros2_tracing.git |
VCS Type | git |
VCS Version | jazzy |
Last Updated | 2024-09-25 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
Name | Version |
---|---|
lttngpy | 8.2.2 |
ros2trace | 8.2.2 |
test_ros2trace | 8.2.2 |
test_tracetools | 8.2.2 |
test_tracetools_launch | 8.2.2 |
tracetools | 8.2.2 |
tracetools_launch | 8.2.2 |
tracetools_read | 8.2.2 |
tracetools_test | 8.2.2 |
tracetools_trace | 8.2.2 |
README
ros2_tracing
Tracing tools for ROS 2.
Overview
ros2_tracing
provides tracing instrumentation for the core ROS 2 packages.
It also provides tools to configure tracing through a launch action and a ros2
CLI command.
ros2_tracing
currently only supports the LTTng tracer.
Consequently, it currently only supports Linux.
Note: make sure to use the right branch, depending on the ROS 2 distro: use rolling
for Rolling, galactic
for Galactic, etc.
Publications & presentations
Read the ros2_tracing
paper!
If you use or refer to ros2_tracing
, please cite:
- C. Bédard, I. Lütkebohle, and M. Dagenais, “ros2_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2,” IEEE Robotics and Automation Letters, vol. 7, no. 3, pp. 6511–6518, 2022.
BibTeX
@article{bedard2022ros2tracing,
title={ros2\_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2},
author={B{\'e}dard, Christophe and L{\"u}tkebohle, Ingo and Dagenais, Michel},
journal={IEEE Robotics and Automation Letters},
year={2022},
volume={7},
number={3},
pages={6511--6518},
doi={10.1109/LRA.2022.3174346}
}
</details>
This other paper leverages ros2_tracing
to analyze and visualize the flow of messages across distributed ROS 2 systems:
- C. Bédard, P.-Y. Lajoie, G. Beltrame, and M. Dagenais, “Message Flow Analysis with Complex Causal Links for Distributed ROS 2 Systems,” Robotics and Autonomous Systems, vol. 161, p. 104361, 2023.
BibTeX
@article{bedard2023messageflow,
title={Message flow analysis with complex causal links for distributed {ROS} 2 systems},
author={B{\'e}dard, Christophe and Lajoie, Pierre-Yves and Beltrame, Giovanni and Dagenais, Michel},
journal={Robotics and Autonomous Systems},
year={2023},
volume={161},
pages={104361},
doi={10.1016/j.robot.2022.104361}
}
</details>
Finally, check out the following presentations:
- ROSCon 2023: “Improving Your Application’s Algorithms and Optimizing Performance Using Trace Data” (video, slides)
- ROS World 2021: “Tracing ROS 2 with ros2_tracing” (video, slides)
Tutorials & demos
- ROS 2 documentation:
- ROS World 2021 demo: github.com/christophebedard/ros-world-2021-demo
Building
As of Iron, the LTTng tracer is a ROS 2 dependency. Therefore, ROS 2 can be traced out-of-the-box on Linux; this package does not need to be re-built.
To make sure that the instrumentation and tracepoints are available:
$ source /opt/ros/rolling/setup.bash # With a binary install
$ source ./install/setup.bash # When building from source
$ ros2 run tracetools status
Tracing enabled
A ROS 2 installation only includes the LTTng userspace tracer (LTTng-UST), which is all that is needed to trace ROS 2. To trace the Linux kernel, the LTTng kernel tracer must be installed separately:
$ sudo apt-get update
$ sudo apt-get install lttng-modules-dkms
For more information about LTTng, refer to its documentation.
Removing the instrumentation
To build and remove all instrumentation, use TRACETOOLS_DISABLED
:
$ colcon build --cmake-args -DTRACETOOLS_DISABLED=ON
This will remove all instrumentation from the core ROS 2 packages, and thus they will not depend on or link against the shared library provided by the tracetools
package.
This also means that LTTng is not required at build-time or at runtime.
Excluding tracepoints
Alternatively, to only exclude the actual tracepoints, use TRACETOOLS_TRACEPOINTS_EXCLUDED
:
$ colcon build --packages-select tracetools --cmake-clean-cache --cmake-args -DTRACETOOLS_TRACEPOINTS_EXCLUDED=ON
This will keep the instrumentation but remove all tracepoints.
This also means that LTTng is not required at build-time or at runtime.
This option can be useful, since tracepoints can be added back in or removed by simply replacing/re-building the shared library provided by the tracetools
package.
Tracing
By default, trace data will not be generated, and thus these packages will have virtually no impact on execution. LTTng has to be configured for tracing. The packages in this repo provide two options: a command and a launch file action.
Note: tracing must be started before the application is launched. Metadata is recorded during the initialization phase of the application. This metadata is needed to understand the rest of the trace data, so if tracing is started after the application started executing, then the trace data might be unusable. For more information, refer to the design document. The launch file action is designed to automatically start tracing before the application launches.
The tracing directory can be configured using command/launch action parameters, or through environment variables with the following logic:
- Use
$ROS_TRACE_DIR
ifROS_TRACE_DIR
is set and not empty. - Otherwise, use
$ROS_HOME/tracing
, using~/.ros
forROS_HOME
if not set or if empty.
Additionally, if you’re using kernel tracing with a non-root user, make sure that the tracing
group exists and that your user is added to it.
# Create group if it doesn't exist
$ sudo groupadd -r tracing
# Add user to the group
$ sudo usermod -aG tracing $USER
Trace command
The first option is to use the ros2 trace
command.
$ ros2 trace
By default, it will enable all ROS 2 tracepoints.
The trace will be written to ~/.ros/tracing/session-YYYYMMDDHHMMSS
.
Run the command with -h
for more information.
The ros2 trace
command requires user interaction to start and then stop tracing.
To trace without user interaction (e.g., in scripts), or for finer-grained tracing control, the following sub-commands can be used:
$ ros2 trace start session_name # Configure tracing session and start tracing
$ ros2 trace pause session_name # Pause tracing after starting
$ ros2 trace resume session_name # Resume tracing after pausing
$ ros2 trace stop session_name # Stop tracing after starting or resuming
Run each command with -h
for more information.
You must install the kernel tracer if you want to enable kernel events (using the -k
/--kernel-events
option).
If you have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Launch file trace action
Another option is to use the Trace
action in a Python, XML, or YAML launch file along with your Node
action(s).
This way, tracing automatically starts when launching the launch file and ends when it exits or when terminated.
$ ros2 launch tracetools_launch example.launch.py
The Trace
action will also set the LD_PRELOAD
environment to preload LTTng’s userspace tracing helper(s) if the corresponding event(s) are enabled.
For more information, see this example launch file and the Trace
action.
You must install the kernel tracer if you want to enable kernel events (events_kernel
in Python, events-kernel
in XML or YAML).
If you have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Design
See the design document.
Real-time
LTTng-UST, the current default userspace tracer used for tracing ROS 2, was designed for real-time production applications. It is a low-overhead tracer with many important real-time compatible features:
- userspace tracer completely implemented in userspace, independent from the kernel
- reentrant, thread-safe, signal-safe, non-blocking
- no system calls in the fast path
- no copies of the trace data
However, some settings need to be tuned for it to be fully real-time safe and for performance to be optimal for your use-case:
- timers1: use read timer to avoid a write(2) call
- sub-buffer1 count and size:
- see documentation for sub-buffer count and size tuning tips based on your use-case
- minimize sub-buffer count to minimize sub-buffer switching overhead
- one-time memory allocation/lock/syscall per thread:
- usually done the first time a tracepoint is executed within a thread for URCU thread registration, but registration can be manually performed to force it to be done during your application’s initialization
- see this LTTng mailing list message
For further reading:
- LTTng documentation
- Combined Tracing of the Kernel and Applications with LTTng: LTTng-UST architecture and design goals (section 3)
- Survey and Analysis of Kernel and Userspace Tracers on Linux: Design, Implementation, and Overhead: LTTng-UST overhead and design compared to other kernel and userspace tracers (table 6: average latency overhead per tracepoint of 158 ns)
The LTTng kernel tracer has a similar implementation, but is separate from the userspace tracer.
Packages
lttngpy
Package containing liblttng-ctl
Python bindings.
ros2trace
Package containing a ros2cli
extension to enable tracing.
tracetools
Library to support instrumenting ROS packages, including core packages.
This package claims to be in the Quality Level 1 category, see the Quality Declaration for more details.
See the API documentation.
tracetools_launch
Package containing tools to enable tracing through launch files.
tracetools_read
Package containing tools to read traces.
tracetools_test
Package containing tools for tracing-related tests.
tracetools_trace
Package containing tools to enable tracing.
test_ros2trace
Package containing system tests for ros2trace
.
test_tracetools
Package containing unit and system tests for tracetools
.
test_tracetools_launch
Package containing system tests for tracetools_launch
.
Analysis
See tracetools_analysis
.
-
this setting cannot currently be set through the
Trace
launch file action or theros2 trace
command, see #20 ↩ ↩2
CONTRIBUTING
Any contribution that you make to this repository will be under the Apache 2 License, as dictated by that license:
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
Contributors must sign-off each commit by adding a Signed-off-by: ...
line to commit messages to certify that they have the right to submit
the code they are contributing to the project according to the
Developer Certificate of Origin (DCO).
Repository Summary
Checkout URI | https://github.com/ros2/ros2_tracing.git |
VCS Type | git |
VCS Version | rolling |
Last Updated | 2024-11-22 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
Name | Version |
---|---|
lttngpy | 8.4.0 |
ros2trace | 8.4.0 |
test_ros2trace | 8.4.0 |
test_tracetools | 8.4.0 |
test_tracetools_launch | 8.4.0 |
tracetools | 8.4.0 |
tracetools_launch | 8.4.0 |
tracetools_read | 8.4.0 |
tracetools_test | 8.4.0 |
tracetools_trace | 8.4.0 |
README
ros2_tracing
Tracing tools for ROS 2.
Overview
ros2_tracing
provides tracing instrumentation for the core ROS 2 packages.
It also provides tools to configure tracing through a launch action and a ros2
CLI command.
ros2_tracing
currently only supports the LTTng tracer.
Consequently, it currently only supports Linux.
Note: make sure to use the right branch, depending on the ROS 2 distro: use rolling
for Rolling, galactic
for Galactic, etc.
Publications & presentations
Read the ros2_tracing
paper!
If you use or refer to ros2_tracing
, please cite:
- C. Bédard, I. Lütkebohle, and M. Dagenais, “ros2_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2,” IEEE Robotics and Automation Letters, vol. 7, no. 3, pp. 6511–6518, 2022.
BibTeX
@article{bedard2022ros2tracing,
title={ros2\_tracing: Multipurpose Low-Overhead Framework for Real-Time Tracing of ROS 2},
author={B{\'e}dard, Christophe and L{\"u}tkebohle, Ingo and Dagenais, Michel},
journal={IEEE Robotics and Automation Letters},
year={2022},
volume={7},
number={3},
pages={6511--6518},
doi={10.1109/LRA.2022.3174346}
}
</details>
This other paper leverages ros2_tracing
to analyze and visualize the flow of messages across distributed ROS 2 systems:
- C. Bédard, P.-Y. Lajoie, G. Beltrame, and M. Dagenais, “Message Flow Analysis with Complex Causal Links for Distributed ROS 2 Systems,” Robotics and Autonomous Systems, vol. 161, p. 104361, 2023.
BibTeX
@article{bedard2023messageflow,
title={Message flow analysis with complex causal links for distributed {ROS} 2 systems},
author={B{\'e}dard, Christophe and Lajoie, Pierre-Yves and Beltrame, Giovanni and Dagenais, Michel},
journal={Robotics and Autonomous Systems},
year={2023},
volume={161},
pages={104361},
doi={10.1016/j.robot.2022.104361}
}
</details>
Finally, check out the following presentations:
- ROSCon 2023: “Improving Your Application’s Algorithms and Optimizing Performance Using Trace Data” (video, slides)
- ROS World 2021: “Tracing ROS 2 with ros2_tracing” (video, slides)
Tutorials & demos
- ROS 2 documentation:
- ROS World 2021 demo: github.com/christophebedard/ros-world-2021-demo
Building
Starting from ROS 2 Iron Irwini, the LTTng tracer is a ROS 2 dependency.
Therefore, ROS 2 can be traced out-of-the-box on Linux; this package does not need to be re-built.
The following rmw
implementations are supported:
rmw_connextdds
rmw_cyclonedds_cpp
rmw_fastrtps_cpp
rmw_fastrtps_dynamic_cpp
To make sure that the instrumentation and tracepoints are available:
$ source /opt/ros/rolling/setup.bash # With a binary install
$ source ./install/setup.bash # When building from source
$ ros2 run tracetools status
Tracing enabled
A ROS 2 installation only includes the LTTng userspace tracer (LTTng-UST), which is all that is needed to trace ROS 2. To trace the Linux kernel, the LTTng kernel tracer must be installed separately:
$ sudo apt-get update
$ sudo apt-get install lttng-modules-dkms
For more information about LTTng, refer to its documentation.
Removing the instrumentation
To build and remove all instrumentation, use TRACETOOLS_DISABLED
:
$ colcon build --cmake-args -DTRACETOOLS_DISABLED=ON
This will remove all instrumentation from the core ROS 2 packages, and thus they will not depend on or link against the shared library provided by the tracetools
package.
This also means that LTTng is not required at build-time or at runtime.
Excluding tracepoints
Alternatively, to only exclude the actual tracepoints, use TRACETOOLS_TRACEPOINTS_EXCLUDED
:
$ colcon build --packages-select tracetools --cmake-clean-cache --cmake-args -DTRACETOOLS_TRACEPOINTS_EXCLUDED=ON
This will keep the instrumentation but remove all tracepoints.
This also means that LTTng is not required at build-time or at runtime.
This option can be useful, since tracepoints can be added back in or removed by simply replacing/re-building the shared library provided by the tracetools
package.
Tracing
By default, trace data will not be generated, and thus these packages will have virtually no impact on execution. LTTng has to be configured for tracing. The packages in this repo provide two options: a command and a launch file action.
Note: tracing must be started before the application is launched. Metadata is recorded during the initialization phase of the application. This metadata is needed to understand the rest of the trace data, so if tracing is started after the application started executing, then the trace data might be unusable. For more information, refer to the design document. The launch file action is designed to automatically start tracing before the application launches.
The tracing directory can be configured using command/launch action parameters, or through environment variables with the following logic:
- Use
$ROS_TRACE_DIR
ifROS_TRACE_DIR
is set and not empty. - Otherwise, use
$ROS_HOME/tracing
, using~/.ros
forROS_HOME
if not set or if empty.
Additionally, if you’re using kernel tracing with a non-root user, make sure that the tracing
group exists and that your user is added to it.
# Create group if it doesn't exist
$ sudo groupadd -r tracing
# Add user to the group
$ sudo usermod -aG tracing $USER
Trace command
The first option is to use the ros2 trace
command.
$ ros2 trace
By default, it will enable all ROS 2 tracepoints.
The trace will be written to ~/.ros/tracing/session-YYYYMMDDHHMMSS
.
Run the command with -h
for more information.
The ros2 trace
command requires user interaction to start and then stop tracing.
To trace without user interaction (e.g., in scripts), or for finer-grained tracing control, the following sub-commands can be used:
$ ros2 trace start session_name # Configure tracing session and start tracing
$ ros2 trace pause session_name # Pause tracing after starting
$ ros2 trace resume session_name # Resume tracing after pausing
$ ros2 trace stop session_name # Stop tracing after starting or resuming
Run each command with -h
for more information.
You must install the kernel tracer if you want to enable kernel events (using the -k
/--kernel-events
option) or syscalls (using the --syscalls
option).
If you have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Launch file trace action
Another option is to use the Trace
action in a Python, XML, or YAML launch file along with your Node
action(s).
This way, tracing automatically starts when launching the launch file and ends when it exits or when terminated.
$ ros2 launch tracetools_launch example.launch.py
The Trace
action will also set the LD_PRELOAD
environment to preload LTTng’s userspace tracing helper(s) if the corresponding event(s) are enabled.
For more information, see this example launch file and the Trace
action.
You must install the kernel tracer if you want to enable kernel events (events_kernel
in Python, events-kernel
in XML or YAML) or syscalls (syscalls
in Python, XML, or YAML).
If you have installed the kernel tracer, use kernel tracing, and still encounter an error here, make sure to add your user to the tracing
group.
Design
See the design document.
Real-time
LTTng-UST, the current default userspace tracer used for tracing ROS 2, was designed for real-time production applications. It is a low-overhead tracer with many important real-time compatible features:
- userspace tracer completely implemented in userspace, independent from the kernel
- reentrant, thread-safe, signal-safe, non-blocking
- no system calls in the fast path
- no copies of the trace data
However, some settings need to be tuned for it to be fully real-time safe and for performance to be optimal for your use-case:
- timers1: use read timer to avoid a write(2) call
- sub-buffer1 count and size:
- see documentation for sub-buffer count and size tuning tips based on your use-case
- minimize sub-buffer count to minimize sub-buffer switching overhead
- one-time memory allocation/lock/syscall per thread:
- usually done the first time a tracepoint is executed within a thread for URCU thread registration, but registration can be manually performed to force it to be done during your application’s initialization
- see this LTTng mailing list message
For further reading:
- LTTng documentation
- Combined Tracing of the Kernel and Applications with LTTng: LTTng-UST architecture and design goals (section 3)
- Survey and Analysis of Kernel and Userspace Tracers on Linux: Design, Implementation, and Overhead: LTTng-UST overhead and design compared to other kernel and userspace tracers (table 6: average latency overhead per tracepoint of 158 ns)
The LTTng kernel tracer has a similar implementation, but is separate from the userspace tracer.
Packages
lttngpy
Package containing liblttng-ctl
Python bindings.
ros2trace
Package containing a ros2cli
extension to enable tracing.
tracetools
Library to support instrumenting ROS packages, including core packages.
This package claims to be in the Quality Level 1 category, see the Quality Declaration for more details.
See the API documentation.
tracetools_launch
Package containing tools to enable tracing through launch files.
tracetools_read
Package containing tools to read traces.
tracetools_test
Package containing tools for tracing-related tests.
tracetools_trace
Package containing tools to enable tracing.
test_ros2trace
Package containing system tests for ros2trace
.
test_tracetools
Package containing unit and system tests for tracetools
.
test_tracetools_launch
Package containing system tests for tracetools_launch
.
Analysis
See tracetools_analysis
.
-
this setting cannot currently be set through the
Trace
launch file action or theros2 trace
command, see #20 ↩ ↩2
CONTRIBUTING
Any contribution that you make to this repository will be under the Apache 2 License, as dictated by that license:
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
Contributors must sign-off each commit by adding a Signed-off-by: ...
line to commit messages to certify that they have the right to submit
the code they are contributing to the project according to the
Developer Certificate of Origin (DCO).
Repository Summary
Checkout URI | https://github.com/ros2/ros2_tracing.git |
VCS Type | git |
VCS Version | galactic |
Last Updated | 2021-05-06 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Packages
Name | Version |
---|---|
ros2trace | 2.3.0 |
tracetools | 2.3.0 |
tracetools_launch | 2.3.0 |
tracetools_read | 2.3.0 |
tracetools_test | 2.3.0 |
tracetools_trace | 2.3.0 |
README
ros2_tracing
Tracing tools for ROS 2.
Building
As of Foxy, these instructions also apply to an installation from the Debian packages; it will not work out-of-the-box. Also, note that tracing using ros2_tracing
is not supported on non-Linux systems.
If LTTng is not found during build, or if the TRACETOOLS_DISABLED
option is enabled, then this package will not do anything.
To enable tracing:
- Install LTTng (
>=2.11.1
) with the Python bindings to control tracing and read traces:
$ sudo apt-get update
$ sudo apt-get install lttng-tools lttng-modules-dkms liblttng-ust-dev
$ sudo apt-get install python3-babeltrace python3-lttng
- Build (at least up to
rcl
&rclcpp
):
$ colcon build
- Source and check that tracing is enabled:
$ source ./install/local_setup.bash
$ ros2 run tracetools status
Disabling tracing
Alternatively, to build and disable tracing, use TRACETOOLS_DISABLED
:
$ colcon build --cmake-args " -DTRACETOOLS_DISABLED=ON"
Tracing
The steps above will not lead to trace data being generated, and thus they will have no impact on execution. LTTng has to be configured for tracing. The packages in this repo provide two options: a command and a launch file action.
The tracing directory can be configured using command/launch action parameters, or through environment variables with the following logic:
- Use
$ROS_TRACE_DIR
ifROS_TRACE_DIR
is set and not empty. - Otherwise, use
$ROS_HOME/tracing
, using~/.ros
forROS_HOME
if not set or if empty.
Trace command
The first option is to use the ros2 trace
command.
$ ros2 trace
By default, it will enable all ROS tracepoints and a few kernel tracepoints. The trace will be written to ~/.ros/tracing/session-YYYYMMDDHHMMSS
. Run the command with -h
for more information.
Launch file trace action
Another option is to use the Trace
action in a launch file along with your Node
action(s). This way, tracing happens when launching the launch file.
$ ros2 launch tracetools_launch example.launch.py
See this example launch file and the Trace
action for more information.
Design
See the design document.
Packages
ros2trace
Package containing a ros2cli
extension to enable tracing.
tracetools
Library to support instrumenting ROS packages, including core packages.
This package claims to be in the Quality Level 1 category, see the Quality Declaration for more details.
See the API documentation.
tracetools_launch
Package containing tools to enable tracing through launch files.
tracetools_read
Package containing tools to read traces.
tracetools_test
Package containing system tests for tracetools
and the tools to support them.
tracetools_trace
Package containing tools to enable tracing.
Analysis
See tracetools_analysis
.
CONTRIBUTING
Any contribution that you make to this repository will be under the Apache 2 License, as dictated by that license:
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
Contributors must sign-off each commit by adding a Signed-off-by: ...
line to commit messages to certify that they have the right to submit
the code they are contributing to the project according to the
Developer Certificate of Origin (DCO).