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ROS 2 Foxy Fitzroy (codename ‘foxy’; June 5th, 2020)
Table of Contents
Foxy Fitzroy is the sixth release of ROS 2.
Supported Platforms
Foxy Fitzroy is primarily supported on the following platforms:
Tier 1 platforms:
Ubuntu 20.04 (Focal):
amd64
andarm64
Mac macOS 10.14 (Mojave)
Windows 10 (Visual Studio 2019)
Tier 3 platforms:
Ubuntu 20.04 (Focal):
arm32
Debian Buster (10):
amd64
,arm64
andarm32
OpenEmbedded Thud (2.6) / webOS OSE:
arm32
andx86
For more information about RMW implementations, compiler / interpreter versions, and system dependency versions see REP 2000.
New features in this ROS 2 release
During the development the Foxy meta-ticket on GitHub contains an up-to-date state of the ongoing high-level tasks as well as references specific tickets with more details.
Changes in Patch Release 2
Bug in static_transform_publisher
During the development of Foxy, a bug was introduced into the tf2_ros static_transform_publisher program. The implementation of the order of the Euler angles passed to static_transform_publisher disagrees with the documentation. Foxy patch release 2 fixes the order so that the implementation agrees with the documentation (yaw, pitch, roll). For users who have started using the initial Foxy release or patch release 1, this means that any launch files that use static_transform_publisher will have to have the command-line order swapped according to the new order. For users who are coming from ROS 2 Dashing, ROS 2 Eloquent, or ROS 1, no changes need to be made to port to Foxy patch release 2.
Changes since the Eloquent release
Classic CMake vs. modern CMake
In “classic” CMake a package provides CMake variables like <pkgname>_INCLUDE_DIRS
and <pkgname>_LIBRARIES
when being find_package()
-ed.
With ament_cmake
that is achieved by calling ament_export_include_directories
and ament_export_libraries
.
In combination with ament_export_dependencies
, ament_cmake
ensures that all include directories and libraries of recursive dependencies are concatenated and included in these variables.
In “modern” CMake a package provides an interface target instead (commonly named <pkgname>::<pkgname>
) which in itself encapsulates all recursive dependencies.
In order to export a library target to use modern CMake ament_export_targets
needs to be called with an export name which is also used when installing the libraries using install(TARGETS <libA> <libB> EXPORT <export_name> ...)
.
The exported interface targets are available through the CMake variable <pkgname>_TARGETS
.
For library targets to be exportable like this they must not rely on classic functions affecting global state like include_directories()
but set the include directories on the target itself - for the build as well as install environment - using generator expressions, e.g. target_include_directories(<target> PUBLIC "$<BUILD_INTERFACE:${CMAKE_CURRENT_BINARY_DIR}/include>" "$<INSTALL_INTERFACE:include>")
.
When ament_target_dependencies
is used to add dependencies to a library target the function uses modern CMake targets when they are available.
Otherwise it falls back to using classic CMake variables.
As a consequence you should only export modern CMake targets if all dependencies are also providing modern CMake targets.
Otherwise the exported interface target will contain the absolute paths to include directories / libraries in the generated CMake logic which makes the package non-relocatable.
For examples how packages have been updated to modern CMake in Foxy see ros2/ros2#904.
ament_export_interfaces replaced by ament_export_targets
The CMake function ament_export_interfaces
from the package ament_cmake_export_interfaces
has been deprecated in favor of the function ament_export_targets
in the new package ament_cmake_export_targets
.
See the GitHub ticket ament/ament_cmake#237 for more context.
rosidl_generator_c|cpp namespace / API changes
The packages rosidl_generator_c
and rosidl_generator_cpp
have been refactored with many headers and sources moved into the new packages rosidl_runtime_c
and rosidl_runtime_cpp
.
The intention is to remove run dependencies on the generator packages and therefore the code generation tools using Python.
While moving the headers the include paths / namespaces were updated accordingly so in many cases changing include directives from the generator package to the runtime package is sufficient.
The generated C / C++ code has also been refactored.
The files ending in __struct.h|hpp
, __functions.h
, __traits.hpp
, etc. have been moved into a subdirectory detail
but most code only includes the header named after the interface without any of these suffixes.
Some types regarding string and sequence bounds have also been renamed to match the naming conventions but they aren’t expected to be used in user code (above RMW implementation and type support packages)
For more information see ros2/rosidl#446 (for C) and ros2/rosidl#447 (for C++).
Default working directory for ament_add_test
The default working directory for tests added with ament_add_test
has been changed to CMAKE_CURRENT_BINARY_DIR
to match the behavior of CMake add_test
.
Either update the tests to work with the new default or pass WORKING_DIRECTORY ${CMAKE_SOURCE_DIR}
to restore the previous value.
Default Console Logging Format
The default console logging output format was changed to include the timestamp by default, see:
Default Console Logging Output Stream
As of Foxy, all logging messages at all severity levels get logged to stderr by default. This ensures that logging messages come out immediately, and brings the ROS 2 logging system into alignment with most other logging systems. It is possible to change the stream to stdout at runtime via the RCUTILS_LOGGING_USE_STDOUT environment variable, but all logging messages will still go to the same stream. See https://github.com/ros2/rcutils/pull/196 for more details.
launch_ros
Node name and namespace parameters changed
The Node
action parameters related to naming have been changed:
node_name
has been renamed toname
node_namespace
has been renamed tonamespace
node_executable
has been renamed toexecutable
exec_name
has been added for naming the process associated with the node. Previously, users would have used thename
keyword argument.
The old parameters have been deprecated.
These changes were made to make the launch frontend more idiomatic. For example, instead of
<node pkg="demo_nodes_cpp" exec="talker" node-name="foo" />
we can now write
<node pkg="demo_nodes_cpp" exec="talker" name="foo" />
This change also applies to ComposableNodeContainer
, ComposableNode
, and LifecycleNode
.
For examples, see the relevant changes to the demos.
rclcpp
Change in Advanced Subscription Callback Signature
With the pull request https://github.com/ros2/rclcpp/pull/1047 the signature of callbacks which receive the message info with the message has changed.
Previously it used the rmw
type rmw_message_info_t
, but now uses the rclcpp
type rclcpp::MessageInfo
.
The required changes are straightforward, and can be seen demonstrated in these pull requests:
Change in Serialized Message Callback Signature
The pull request ros2/rclcpp#1081 introduces a new signature of the callbacks for retrieving ROS messages in serialized form. The previously used C-Struct rcl_serialized_message_t is being superseded by a C++ data type rclcpp::SerializedMessage.
The example nodes in demo_nodes_cpp
, namely talker_serialized_message
as well as listener_serialized_message
reflect these changes.
Breaking change in Node Interface getters’ signature
With pull request ros2/rclcpp#1069, the signature of node interface getters has been modified to return shared ownership of node interfaces (i.e. an std::shared_ptr
) instead of a non-owning raw pointer.
Required changes in downstream packages that relied on the previous signature are simple and straightforward: use the std::shared_ptr::get()
method.
Deprecate set_on_parameters_set_callback
Instead, use the rclcpp::Node
methods add_on_set_parameters_callback
and remove_on_set_parameters_callback
for adding and removing functions that are called when parameters are set.
Related pull request: https://github.com/ros2/rclcpp/pull/1123
Breaking change in Publisher getter signature
With pull request ros2/rclcpp#1119, the signature of publisher handle getter has been modified to return shared ownership of the underlying rcl structure (i.e. an std::shared_ptr
) instead of a non-owning raw pointer.
This was necessary to fix a segfault in certain circumstances.
Required changes in downstream packages that relied on the previous signature are simple and straightforward: use the std::shared_ptr::get()
method.
rclcpp_action
Deprecate ClientGoalHandle::async_result()
Using this API, it is possible to run into a race condition causing an exception to be thrown.
Instead, prefer to use Client::async_get_result()
, which is safer.
See ros2/rclcpp#1120 and the connected issue for more info.
rclpy
Support for multiple on parameter set callbacks
Use the Node
methods add_on_set_parameters_callback
and remove_on_set_parameters_callback
for adding and removing functions that are called when parameters are set.
The method set_parameters_callback
has been deprecated.
Related pull requests: https://github.com/ros2/rclpy/pull/457, https://github.com/ros2/rclpy/pull/504
rmw_connext_cpp
Connext 5.1 locator kinds compatibility mode
Up to and including Eloquent
, rmw_connext_cpp
was setting dds.transport.use_510_compatible_locator_kinds
property to true
.
This property is not being forced anymore, and shared transport communication between Foxy
and previous releases will stop working.
Logs similar to:
PRESParticipant_checkTransportInfoMatching:Warning: discovered remote participant 'RTI Administration Console' using the 'shmem' transport with class ID 16777216.
This class ID does not match the class ID 2 of the same transport in the local participant 'talker'.
These two participants will not communicate over the 'shmem' transport.
Check the value of the property 'dds.transport.use_510_compatible_locator_kinds' in the local participant.
See https://community.rti.com/kb/what-causes-error-discovered-remote-participant for additional info.
will be observed when this incompatibility happens.
If compatibility is needed, it can be set up in an external QoS profiles files containing:
<participant_qos>
<property>
<value>
<element>
<name>
dds.transport.use_510_compatible_locator_kinds
</name>
<value>1</value>
</element>
</value>
</property>
</participant_qos>
Remember to set the NDDS_QOS_PROFILES
environment variable to the QoS profiles file path.
For more information, see How to Change Transport Settings in 5.2.0 Applications for Compatibility with 5.1.0
section of Transport_Compatibility.
rviz
Tools timestamp messages using ROS time
‘2D Pose Estimate’, ‘2D Nav Goal’, and ‘Publish Point’ tools now timestamp their messages using ROS time instead of system time, in order for the use_sim_time
parameter to have an effect on them.
Related pull request: https://github.com/ros2/rviz/pull/519
std_msgs
Deprecation of messages
Although discouraged for a long time we have officially deprecated the following messages in std_msgs
.
There are copies in example_interfaces
std_msgs/msg/Bool
std_msgs/msg/Byte
std_msgs/msg/ByteMultiArray
std_msgs/msg/Char
std_msgs/msg/Float32
std_msgs/msg/Float32MultiArray
std_msgs/msg/Float64
std_msgs/msg/Float64MultiArray
std_msgs/msg/Int16
std_msgs/msg/Int16MultiArray
std_msgs/msg/Int32
std_msgs/msg/Int32MultiArray
std_msgs/msg/Int64
std_msgs/msg/Int64MultiArray
std_msgs/msg/Int8
std_msgs/msg/Int8MultiArray
std_msgs/msg/MultiArrayDimension
std_msgs/msg/MultiArrayLayout
std_msgs/msg/String
std_msgs/msg/UInt16
std_msgs/msg/UInt16MultiArray
std_msgs/msg/UInt32
std_msgs/msg/UInt32MultiArray
std_msgs/msg/UInt64
std_msgs/msg/UInt64MultiArray
std_msgs/msg/UInt8
std_msgs/msg/UInt8MultiArray
Security features
Use of security enclaves
As of Foxy, domain participants are no longer mapped directly to ROS nodes. As a result, ROS 2 security features (which are specific to domain participants) are also no longer mapped directly to ROS nodes. Instead, Foxy introduces the concept of a security “enclave”, where an “enclave” is a process or group of processes that will share the same identity and access control rules.
This means that security artifacts are not retrieved based on the node name anymore but based on the Security enclave name.
A node enclave name can be set by using the ROS argument --enclave
, e.g. ros2 run demo_nodes_py talker --ros-args --enclave /my_enclave
Related design document: https://github.com/ros2/design/pull/274
Note that permissions files are limited by the underlying transport packet size, so grouping many permissions under the same enclave will not work if the resulting permissions file exceed 64kB. Related issue [ros2/sros2#228]
Known Issues
[ros2/ros2#922] Services’ performance is flaky for
rclcpp
nodes using eProsima Fast-RTPS or ADLINK CycloneDDS as RMW implementation. Specifically, service clients sometimes do not receive the response from servers.
Timeline before the release
A few milestones leading up to the release:
注解
The dates below reflect an extension by roughly two weeks due to the coronavirus pandemic.
- Wed. April 22nd, 2020
API and feature freeze for
ros_core
1 packages. Note that this includesrmw
, which is a recursive dependency ofros_core
. Only bug fix releases should be made after this point. New packages can be released independently.- Mon. April 29th, 2020 (beta)
Updated releases of
desktop
2 packages available. Testing of the new features.- Wed. May 27th, 2020 (release candidate)
Updated releases of
desktop
2 packages available.- Wed. June 3rd, 2020
Freeze rosdistro. No PRs for Foxy on the
rosdistro
repo will be merged (reopens after the release announcement).