Sections in this file describe:
- introduction and overview
- low-level vs. high-level API
- version numbers
- options to the configure script
- ABI stability policy
D-Bus is a simple system for interprocess communication and coordination.
The "and coordination" part is important; D-Bus provides a bus daemon that does things like:
- notify applications when other apps exit
- start services on demand
- support single-instance applications
See http://www.freedesktop.org/software/dbus/ for lots of documentation,
mailing lists, etc.
See also the file HACKING for notes of interest to developers working on D-Bus.
If you're considering D-Bus for use in a project, you should be aware
that D-Bus was designed for a couple of specific use cases, a "system
bus" and a "desktop session bus." These are documented in more detail
in the D-Bus specification and FAQ available on the web site.
If your use-case isn't one of these, D-Bus may still be useful, but
only by accident; so you should evaluate carefully whether D-Bus makes
sense for your project.
Note: low-level API vs. high-level binding APIs
A core concept of the D-Bus implementation is that "libdbus" is
intended to be a low-level API. Most programmers are intended to use
the bindings to GLib, Qt, Python, Mono, Java, or whatever. These
bindings have varying levels of completeness and are maintained as
separate projects from the main D-Bus package. The main D-Bus package
contains the low-level libdbus, the bus daemon, and a few command-line
tools such as dbus-launch.
If you use the low-level API directly, you're signing up for some
pain. Think of the low-level API as analogous to Xlib or GDI, and the
high-level API as analogous to Qt/GTK+/HTML.
D-Bus uses the common "Linux kernel" versioning system, where
even-numbered minor versions are stable and odd-numbered minor
versions are development snapshots.
So for example, development snapshots: 1.1.1, 1.1.2, 1.1.3, 1.3.4
Stable versions: 1.0, 1.0.1, 1.0.2, 1.2.1, 1.2.3
All pre-1.0 versions were development snapshots.
Development snapshots make no ABI stability guarantees for new ABI
introduced since the last stable release. Development snapshots are
likely to have more bugs than stable releases, obviously.
dbus could be build by using autotools or cmake.
When using autotools the configure step is initiated by running ./configure
with our without additional configuration flags.
When using cmake the configure step is initiated by running the cmake
program with our without additional configuration flags.
When using autools the dbus-specific configuration flags that can be given to
the ./configure program are these
--enable-tests enable unit test code
--enable-verbose-mode support verbose debug mode
--enable-asserts include assertion checks
--enable-checks include sanity checks on public API
--enable-xml-docs build XML documentation (requires xmlto)
--enable-doxygen-docs build DOXYGEN documentation (requires Doxygen)
--enable-compiler-coverage compile with coverage profiling instrumentation (gcc only)
--enable-abstract-sockets use abstract socket namespace (linux only)
--enable-selinux build with SELinux support
--enable-dnotify build with dnotify support (linux only)
--enable-kqueue build with kqueue support (*BSD only)
--with-xml=libxml/expat XML library to use
--with-init-scripts=redhat Style of init scripts to install
--with-session-socket-dir=dirname Where to put sockets for the per-login-session message bus
--with-test-socket-dir=dirname Where to put sockets for make check
--with-system-pid-file=pidfile PID file for systemwide daemon
--with-system-socket=filename UNIX domain socket for systemwide daemon
--with-console-auth-dir=dirname directory to check for console ownerhip
--with-dbus-user=<user> User for running the DBUS daemon (messagebus)
--with-gnu-ld assume the C compiler uses GNU ld [default=no]
--with-tags[=TAGS] include additional configurations [automatic]
--with-x use the X Window System
When using the cmake build system the dbus-specific configuration flags that can be given
to the cmake program are these (use -D<key>=<value> on command line)
CMAKE_BUILD_TYPE set dbus build mode - one of Debug|Release|RelWithDebInfo|MinSizeRel
DBUS_BUILD_TESTS enable unit test code default=ON
DBUS_BUILD_X11 Build with X11 autolaunch support default=ON
HAVE_CONSOLE_OWNER_FILE enable console owner file (solaris only) ) default=ON
DBUS_DISABLE_ASSERTS Disable assertion checking default=OFF
DBUS_DISABLE_CHECKS Disable public API sanity checking default=OFF
DBUS_ENABLE_ABSTRACT_SOCKETS enable support for abstract sockets (linux only) default=ON
DBUS_ENABLE_ANSI enable -ansi -pedantic gcc flags default=OFF
DBUS_ENABLE_DNOTIFY build with dnotify support (linux only) default=ON
DBUS_ENABLE_VERBOSE_MODE support verbose debug mode default=ON
DBUS_ENABLE_DOXYGEN_DOCS build DOXYGEN documentation (requires Doxygen) default=ON
DBUS_GCOV_ENABLED compile with coverage profiling instrumentation (gcc only) default=OFF
DBUS_INSTALL_SYSTEM_LIBS install required system libraries default (windows only) =OFF
DBUS_USE_EXPAT Use expat (== ON) or libxml2 (==OFF) default=ON 
DBUS_USE_NONCE_TCP_DEFAULT_ADDRESS Use nonce tcp default address default=OFF
DBUS_USE_OUTPUT_DEBUG_STRING enable win32 debug port for message output default=OFF
 requires installed development package of the related dependency
Now that D-Bus has reached version 1.0, the objective is that all
applications dynamically linked to libdbus will continue working
indefinitely with the most recent system and session bus daemons.
- The protocol will never be broken again; any message bus should
work with any client forever. However, extensions are possible
where the protocol is extensible.
- If the library API is modified incompatibly, we will rename it
as in http://ometer.com/parallel.html - in other words,
it will always be possible to compile against and use the older
API, and apps will always get the API they expect.
Interfaces can and probably will be _added_. This means both new
functions and types in libdbus, and new methods exported to
applications by the bus daemon.
The above policy is intended to make D-Bus as API-stable as other
widely-used libraries (such as GTK+, Qt, Xlib, or your favorite
example). If you have questions or concerns they are very welcome on
the D-Bus mailing list.
NOTE ABOUT DEVELOPMENT SNAPSHOTS AND VERSIONING
Odd-numbered minor releases (1.1.x, 1.3.x, 2.1.x, etc. -
major.minor.micro) are devel snapshots for testing, and any new ABI
they introduce relative to the last stable version is subject to
change during the development cycle.
Any ABI found in a stable release, however, is frozen.
ABI will not be added in a stable series if we can help it. i.e. the
ABI of 1.2.0 and 1.2.5 you can expect to be the same, while the ABI of
1.4.x may add more stuff not found in 1.2.x.
NOTE ABOUT STATIC LINKING
We are not yet firmly freezing all runtime dependencies of the libdbus
library. For example, the library may read certain files as part of
its implementation, and these files may move around between versions.
As a result, we don't yet recommend statically linking to
libdbus. Also, reimplementations of the protocol from scratch might
have to work to stay in sync with how libdbus behaves.
To lock things down and declare static linking and reimplementation to
be safe, we'd like to see all the internal dependencies of libdbus
(for example, files read) well-documented in the specification, and
we'd like to have a high degree of confidence that these dependencies
are supportable over the long term and extensible where required.
NOTE ABOUT HIGH-LEVEL BINDINGS
Note that the high-level bindings are _separate projects_ from the
main D-Bus package, and have their own release cycles, levels of
maturity, and ABI stability policies. Please consult the documentation
for your binding.