eProsima Micro XRCE-DDS Agent¶
The eProsima Micro XRCE-DDS Agent acts as a server between the DDS Network and eProsima Micro XRCE-DDS Clients applications. The Agents receive messages containing operations from the Clients, and keep track of the Clients and of the entities they create. These entities are used by the Agents to interact with the DDS Global Data Space on behalf of the Clients.
The communication between a Client and an Agent currently supports UDP, TCP, Serial, CAN FD, and Custom transports, depending on the peripherals and communication technologies offered by the platforms. A section dedicated to the configuration and use of the Custom Transport can be found at the end of this page.
While running, the Agent attends any received requests from the Clients and answers back with the result of those requests.
This section is organized as follow:
Agent CLI¶
To run the Agent, first of all build it as indicated in the Installation page. Once it is built successfully, launch it by executing one of the following commands:
- UDP transport
The communication via UDP can be executed using two modes, IPv4 and IPv6; and configured as follows:
$ ./MicroXRCEAgent [ udp4 | udp6 ] [OPTIONS] Options: -h,--help Print the help message. -p,--port UINT REQUIRED Select the IP port. -m,--middleware TEXT in {ced,rtps,dds}=dds Select the kind of middleware among the supported ones. By default, it will be FastDDS. -r,--refs FILEPATH Load a references file from the given path. -v,--verbose UINT in {0,1,2,3,4,5,6}=4 Select log level from none (0) to full verbosity (6). -d,--discovery UINT=7400 Activate the Discovery server. If no port is specified, 7400 will be used. --p2p UINT Activate the P2P profile, using the given port.- TCP transport
The communication via TCP can be executed using two modes, IPv4 and IPv6; and configured as follows:
$ ./MicroXRCEAgent [ tcp4 | tcp6 ] [OPTIONS] Options: -h,--help Print the help message. -p,--port UINT REQUIRED Select the IP port. -m,--middleware TEXT in {ced,rtps,dds}=dds Select the kind of middleware among the supported ones. By default, it will be FastDDS. -r,--refs FILEPATH Load a references file from the given path. -v,--verbose UINT in {0,1,2,3,4,5,6}=4 Select log level from none (0) to full verbosity (6). -d,--discovery UINT=7400 Activate the Discovery server. If no port is specified, 7400 will be used. --p2p UINT Activate the P2P profile, using the given port.- Communication via Serial transport (only Linux)
The communication via Serial transport can be executed and configured as follows:
$ ./MicroXRCEAgent serial [OPTIONS] Options: -h,--help Print the help message. -D,--dev FILE REQUIRED Specify the serial device. -f,--file FILE REQUIRED Specify a text file with the serial device name. -b,--baudrate TEXT=115200 Select the baudrate. -m,--middleware TEXT in {ced,rtps,dds}=dds Select the kind of middleware among the supported ones. By default, it will be FastDDS. -r,--refs FILEPATH Load a references file from the given path. -v,--verbose UINT in {0,1,2,3,4,5,6}=4 Select log level from none (0) to full verbosity (6).
Note
The Agent will check and wait for the proper availability of the Serial port to start the connection. Its expected to start the transport with a disconnected Serial port.
- Communication via Multiserial transport (only Linux)
This transport allows multiple serial connections on the same Agent instance. The communication via Multiserial transport can be executed and configured as follows:
$ ./MicroXRCEAgent multiserial [OPTIONS] Options: -h,--help Print the help message. -D,--devs FILE REQUIRED Specify the serial devices. -f,--file FILE REQUIRED Specify a text file with one serial device per line. -b,--baudrate TEXT=115200 Select the baudrate. -m,--middleware TEXT in {ced,rtps,dds}=dds Select the kind of middleware among the supported ones. By default, it will be FastDDS. -r,--refs FILEPATH Load a references file from the given path. -v,--verbose UINT in {0,1,2,3,4,5,6}=4 Select log level from none (0) to full verbosity (6).
Note
The Agent will check and wait for the proper availability of each Serial port to start the connection. Its expected to start the transport with multiple disconnected ports.
- Communication via CAN FD transport (only Linux)
The communication via CAN FD transport can be executed and configured as follows:
$ ./MicroXRCEAgent canfd [OPTIONS] Options: -h,--help Print the help message. -D,--dev INTERFACE REQUIRED Specify the CAN interface. -m,--middleware TEXT in {ced,rtps,dds}=dds Select the kind of middleware among the supported ones. By default, it will be FastDDS. -r,--refs FILEPATH Load a references file from the given path. -v,--verbose UINT in {0,1,2,3,4,5,6}=4 Select log level from none (0) to full verbosity (6).
Note
The used interface must support CAN FD frames with a maximum payload of 64 bytes. The agent will use the received message identifiers from each client on its output frames.
- Communication via pseudo terminal (only Linux)
The communication via pseudo serial can be executed and configured as follow:
$ ./MicroXRCEAgent pseudoterminal [OPTIONS] Options: -h,--help Print the help message. -D,--dev FILE REQUIRED Specify the pseudo serial device. -b,--baudrate TEXT=115200 Select the baudrate. -m,--middleware TEXT in {ced,rtps,dds}=dds Select the kind of middleware among the supported ones. By default, it will be FastDDS. -r,--refs FILEPATH Load a references file from the given path. -v,--verbose UINT in {0,1,2,3,4,5,6}=4 Select log level from none (0) to full verbosity (6).
The reference file shall be composed by a set of Fast DDS profiles following the XML syntax described in the eProsima Fast DDS documentation. The
profile_nameattribute of each profile represents a reference to an XRCE entity, so that it can be used by the Clients to create entities by reference.The
-b,--baudrate <baudrate>options sets the baud rate of the communication. It can take the following values: 0, 50, 75, 110, 134, 150, 200, 300, 600, 1200, 1800, 240, 4800, 9600, 19200, 38400, 57600, 115200 (default), 230400, 460800, 500000, 576000, 921600, 1000000, 1152000, 1500000, 2000000, 2500000, 3000000, 3500000 or 4000000 bauds.The
-v,--verbose <level[0-6]>option sets log level from less to more verbose, where level 0 corresponds to the logger being off. Then, from 1 to 6, the following logging levels are activated: critical, error, warning, info, debug and trace.The option
-m,--middleware <middleware-impl>sets the middleware implementation to use. There are three: RTPS (based on eProsima Fast RTPS), DDS (specified by the XRCE standard and using Fast DDS) and Centralized (topic are managed by the Agent similarly to MQTT). More information about the supported middlewares can be found here.The
--p2p <port>option enables P2P communication, this option is only available on network transports. Centralized middleware is necessary for this option.
Custom transport¶
If none of the transports specified above is suitable for the target application, users can easily create an instance of a Micro XRCE-DDS Agent, together with a custom transport implementation.
For this purpose, the eprosima::uxr::CustomAgent class was developed. It follows the policy of giving users function signatures to implement, which hide as much as possible the underneath implementation details of the Agent.
Thus, this methods provide common parameters used when implementing a receive/send message method, such as an octet pointer to a raw data buffer, buffer/message length, timeout, and so on.
More details on how to implement a custom transport can be found in the Custom Transport Agent’s section of this documentation.
Configuration¶
There are several parameters which can be set at compile-time to configure the eProsima Micro XRCE-DDS Agent.
These parameters can be selected as CMake flags (-D<parameter>=<value>) before the compilation.
The following is a table listing these parameters and the functionalities they carry out:
Definition |
Description |
Values |
Default |
|---|---|---|---|
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Specifies the history of the reliable streams. |
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Specifies the history of the best-effort streams. |
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Specifies the |
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Specifies the maximum number of connections that the Agent can manage. |
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Specifies the maximum number of incoming connections (pending to be |
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Maximum server’s queues size. |
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Client dead time in milliseconds. |
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Client dead time in milliseconds. |
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Server buffer size. |
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Creation Mode: Agent¶
As explained in the Creation Mode: Client section in the eProsima Micro XRCE-DDS Client page, the creation of Entities on the Agent can be done in two ways: by XML, or by reference.
While the creation by XML is configured directly on the Client, creation by reference must be configured on the Agent, via
an agent.refs file which must be loaded as a CLI parameter by using the
-r option followed by the path to the reference file. If a Custom trasnport is used, the agent.refs file must be fed to the
:ref:`load_config_file <load_config_file>` function defined in the Agent.
The agent.refs file should define the desired profiles as follows:
<profiles>
<participant profile_name="default_xrce_participant">
<rtps>
<name>default_xrce_participant</name>
</rtps>
</participant>
<data_writer profile_name="shapetype_data_writer">
<topic>
<kind>WITH_KEY</kind>
<name>Square</name>
<dataType>ShapeType</dataType>
</topic>
</data_writer>
<data_reader profile_name="shapetype_data_reader">
<topic>
<kind>WITH_KEY</kind>
<name>Square</name>
<dataType>ShapeType</dataType>
</topic>
</data_reader>
<topic profile_name="shapetype_topic">
<kind>WITH_KEY</kind>
<name>Square</name>
<dataType>ShapeType</dataType>
</topic>
<requester profile_name="shapetype_requester"
service_name="shapetype_service"
request_type="request_type"
reply_type="reply_type">
</requester>
<replier profile_name="shapetype_replier"
service_name="shapetype_service"
request_type="request_type"
reply_type="reply_type">
</replier>
</profiles>
In the reference file, each entity must be associated to a profile_name which serves as a label to which the Client can refere
when creating entities.
Middleware Abstraction Layer¶
The Middleware Abstraction Layer is an interface whose purpose is to isolate the XRCE core from the middleware, as well as to allow providing multiple middleware implementations. The interface has a set of pure virtual functions, which are called by the ProxyClient each time a Client requests to create/delete an entity or to write/read data.
For the moment, the Agent counts with two active middleware implementations (FastDDSMiddleware and CedMiddleware) and another one that is currently deprecated (FastMiddleware).
FastDDSMiddleware¶
The FastDDSMiddleware uses eProsima Fast DDS, a C++ implementation of the DDS standard.
This middleware allows the Clients to produce and consume data in the DDS Global Data Space, and as such also in the ROS 2 ecosystem. The Agent has the behaviour described in the DDS-XRCE standard, that is, for each DDS-XRCE entity a DDS proxy entity is created, and the writing/reading action produces a publishing/subscribing operation in the DDS world.
CedMiddleware¶
The CedMiddleware (Centralized Middleware) works similar to MQTT, that is, the Agent acts as a broker but has no output to the DDS world. It:
Accepts connection from the Clients,
Accepts messages published by the Clients,
Processes subscribe and unsubscribe requests from the Clients,
Forwards messages that match the Clients’ subscriptions,
Closes the connection opened by the Clients.
By default, this middleware does not allow communication between Clients connected to different Agents, but the P2P communication enables this feature.
FastMiddleware¶
The FastMiddleware uses eProsima Fast RTPS, a C++ implementation of the RTPS (Real Time Publish Subscribe) protocol. This middleware allows Client to produce and consume data in the DDS Global Data Space, and as such also in the ROS 2 ecosystem. As in the case of the FastDDSMiddleware, the Agent has the behaviour described in the DDS-XRCE standard, that is, for each DDS-XRCE entity a DDS proxy entity is created, and the writing/reading action produces a publishing/subscribing operation in the DDS world.
Warning
This implementation is deprecated at the moment.
How to add a middleware¶
Adding a new middleware implementation is quite simple, if the steps below are followed:
Create a class that implement the Middleware class (see inclue/uxr/agent/middleware/fast/FastMiddleware.hpp and src/cpp/middleware/fast.cpp as examples).
Add a enum member protected by defines in Middleware::Kind at include/uxr/agent/middleware/Middleware.hpp.
Add a case in the switch of the ProxyClient constructor at src/cpp/client/ProxyClient.cpp.
In CMakeLists.txt add an option similar to UAGENT_FAST_PROFILE and add the source to SRCS variable.
In include/uxr/agent/config.hpp.in add a #cmakedefine with the name of the CMake option.
Finally, add the CLI middleware option in MiddlewareOpt constructor at include/uxr/agent/utils/CLI.hpp.