sdbus::asio: service sd_event loop upon request

If requested, add in an asynchronous sd_event servicing mechanism so
sd_events can be used in conjunction with boost::asio events. Code
throughout the openbmc repositories use sd_events, especially for
timers. In some cases, we may want to add boost::asio event handling for
superior asynchronous eventing, but not want to rewrite all the existing
sd_event code. This gives us the best of both worlds, with a
low-overhead mechanism to handle the sd_events.

Change-Id: I3f8e2aafa3f733439e1494253698d17c2f3a2321
Signed-off-by: Vernon Mauery <vernon.mauery@linux.intel.com>
3 files changed
tree: 6d8406deda16036bc472dacf152d2803c519621b
  1. docs/
  2. example/
  3. mapbox/
  4. sdbusplus/
  5. test/
  6. tools/
  7. .clang-format
  8. .gitignore
  9. bootstrap.sh
  10. configure.ac
  11. LICENSE
  12. MAINTAINERS
  13. Makefile.am
  14. README.md
  15. sdbusplus.pc.in
README.md

sdbusplus

sdbusplus contains two parts:

  1. A C++ library (libsdbusplus) for interacting with D-Bus, built on top of the sd-bus library from systemd.
  2. A tool (sdbus++) to generate C++ bindings to simplify the development of D-Bus-based applications.

Dependencies

The sdbusplus library requires sd-bus, which is contained in libsystemd.

The sdbus++ application requires python and the python libraries mako and py-inflection.

C++ library

The sdbusplus library builds on top of the sd-bus library to create a modern C++ API for D-Bus. The library attempts to be as lightweight as possible, usually compiling to exactly the sd-bus API calls that would have been necessary, while also providing compile-time type-safety and memory leak protection afforded by modern C++ practices.

Consider the following code:

auto b = bus::new_system();
auto m = b.new_method_call("org.freedesktop.login1",
                           "/org/freedesktop/login1",
                           "org.freedesktop.login1.Manager",
                           "ListUsers");
auto reply = b.call(m);

std::vector<std::tuple<uint32_t, std::string, message::object_path>> users;
reply.read(users);

In a few, relatively succinct, C++ lines this snippet will create a D-Bus connection to the system bus, and call the systemd login manager to get a list of active users. The message and bus objects are automatically freed when they leave scope and the message format strings are generated at compile time based on the types being read. Compare this to the corresponding server code within logind.

In general, the library attempts to mimic the naming conventions of the sd-bus library: ex. sd_bus_call becomes sdbusplus::bus::call, sd_bus_get_unique_name becomes sdbusplus::bus::get_unique_name, sd_bus_message_get_signature becomes sdbusplus::message::get_signature, etc. This allows a relatively straight-forward translation back to the sd-bus functions for looking up the manpage details.

Binding generation tool

sdbusplus also contains a bindings generator tool: sdbus++. The purpose of a bindings generator is to reduce the boilerplate associated with creating D-Bus server or client applications. When creating a server application, rather than creating sd-bus vtables and writing C-style functions to handle each vtable callback, you can create a small YAML file to define your D-Bus interface and the sdbus++ tool will create a C++ class that implements your D-Bus interface. This class has a set of virtual functions for each method and property, which you can overload to create your own customized behavior for the interface.

There are currently two types of YAML files: interface and error. Interfaces are used to create server and client D-Bus interfaces. Errors are used to define C++ exceptions which can be thrown and will automatically turn into D-Bus error responses.

[[ D-Bus client bindings are not yet implemented. See openbmc/openbmc#851. ]]

Generating bindings

How to use tools/sdbus++

The path of your file will be the interface name. For example, for an interface org.freedesktop.Example, you would create the files org/freedesktop/Example.interface.yaml and org/freedesktop/Example.errors.yaml] for interfaces and errors respectively. These can then be used to generate the server and error bindings:

sdbus++ interface server-header org.freedesktop.Example > \
    org/freedesktop/Example/server.hpp
sdbus++ interface server-cpp org.freedesktop.Example > \
    org/freedesktop/Example/server.cpp
sdbus++ error exception-header org.freedesktop.Example > \
    org/freedesktop/Example/error.hpp \
sdbus++ error exception-cpp org.freedesktop.Example > \
    org/freedesktop/Example/error.cpp

Markdown-based documentation can also be generated from the interface and exception files:

sdbus++ interface markdown org.freedesktop.Example > \
    org/freedesktop/Example.md
sdbus++ error markdown org.freedesktop.Example >> \
    org/freedesktop/Example.md

See the example/Makefile.am for more details.