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diff --git a/src/dbus/doc/src/qtdbus-overview.qdoc b/src/dbus/doc/src/qtdbus-overview.qdoc new file mode 100644 index 0000000000..6342e674fd --- /dev/null +++ b/src/dbus/doc/src/qtdbus-overview.qdoc @@ -0,0 +1,176 @@ +// Copyright (C) 2022 The Qt Company Ltd. +// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GFDL-1.3-no-invariants-only + +/*! + \page qtdbus-overview.html + \title Qt D-Bus Overview + \brief Provides insight into the Qt Qt D-Bus module. + \ingroup explanations-networkingandconnectivity + + D-Bus is an Inter-Process Communication (IPC) and Remote Procedure + Calling (RPC) mechanism originally developed for Linux to replace + existing and competing IPC solutions with one unified protocol. It + was also designed to allow communication between system-level + processes (such as printer and hardware driver services) and + normal user processes. + + It uses a fast, binary message-passing protocol, which is suitable + for same-machine communication due to its low latency and low + overhead. Its specification is currently defined by the + \tt{freedesktop.org} project and is available to all parties. + + Communication, in general, happens through a central server + application called the "bus" (hence the name), but direct + application-to-application communication is also possible. When + communicating on a bus, applications can query which other + applications and services are available, as well as activate one + on demand. + + \section1 The Buses + + D-Bus buses are used when many-to-many communication is + desired. In order to achieve that, a central server is launched + before any application can connect to the bus. This server is + responsible for keeping track of the applications that are + connected and for properly routing messages from their source to + their destination. + + In addition, D-Bus defines two well-known buses, called the + system bus and the session bus. These buses are special in the + sense that they have well-defined semantics: some services are + defined to be found in one or both of these buses. + + For example, an application wishing to query the list of hardware + devices attached to the computer will probably communicate to a + service available on the system bus, while the service providing + opening of the user's web browser will probably be found on the + session bus. + + On the system bus, you can also expect to find restrictions on + what services each application is allowed to offer. Therefore, you + can be reasonably certain that if a certain service is present, + it's being offered by a trusted application. + + \section1 Concepts + + \section2 Messages + + On the low level, applications communicate over D-Bus by sending + messages to one another. Messages are used to relay the remote + procedure calls as well as the replies and errors associated + with them. When used over a bus, messages have a destination, + which means they are routed only to the interested parties, + avoiding congestion due to "swarming" or broadcasting. + + A special kind of message called a "signal message" + (a concept based on Qt's \l {Signals and Slots} mechanism), + however, does not have a pre-defined destination. Since its + purpose is to be used in a one-to-many context, signal messages + are designed to work over an "opt-in" mechanism. + + The Qt D-Bus module fully encapsulates the low-level concept of + messages into a simpler, object-oriented approach familiar to Qt + developers. In most cases, the developer need not worry about + sending or receiving messages. + + \section2 Service Names + + When communicating over a bus, applications obtain what is + called a "service name": it is how that application chooses to be + known by other applications on the same bus. The service names + are brokered by the D-Bus bus daemon and are used to + route messages from one application to another. An analogous + concept to service names are IP addresses and hostnames: a + computer normally has one IP address and may have one or more + hostnames associated with it, according to the services that it + provides to the network. + + On the other hand, if a bus is not used, service names are also + not used. If we compare this to a computer network again, this + would equate to a point-to-point network: since the peer is + known, there is no need to use hostnames to find it or its IP + address. + + The format of a D-Bus service name is in fact very similar to a + host name: it is a dot-separated sequence of letters and + digits. The common practice is even to name your service name + according to the domain name of the organization that defined + that service. + + For example, the D-Bus service is defined by + \tt{freedesktop.org} and can be found on the bus under the + service name: + + \snippet code/doc_src_introtodbus.qdoc 0 + + \section2 Object Paths + + Like network hosts, applications provide specific services to + other applications by exporting objects. Those objects are + hierarchically organized, much like the parent-child + relationship that classes derived from QObject possess. One + difference, however, is that there is the concept of "root + object", which all objects have as the ultimate parent. + + If we continue our analogy with Web services, object paths + equate to the path part of a URL: + + \image qurl-ftppath.png + + Like them, object paths in D-Bus are formed resembling path + names on the filesystem: they are slash-separated labels, each + consisting of letters, digits and the underscore character + ("\_"). They must always start with a slash and must not end with + one. + + \section2 Interfaces + + Interfaces are similar to C++ abstract classes and Java's + \c interface keyword and declare the "contract" that is + established between caller and callee. That is, they establish + the names of the methods, signals, and properties that are + available as well as the behavior that is expected from either + side when communication is established. + + Qt uses a very similar mechanism in its \l {How to Create Qt + Plugins}{Plugin system}: Base classes in C++ are associated + with a unique identifier by way of the Q_DECLARE_INTERFACE() + macro. + + D-Bus interface names are, in fact, named in a manner similar to + what is suggested by the Qt Plugin System: an identifier usually + constructed from the domain name of the entity that defined that + interface. + + \section2 Cheat Sheet + + To facilitate remembering of the naming formats and their + purposes, the following table can be used: + + \table 90% + \header \li D-Bus Concept \li Analogy \li Name format + \row \li Service name \li Network hostnames \li Dot-separated + ("looks like a hostname") + \row \li Object path \li URL path component \li Slash-separated + ("looks like a path") + \row \li Interface \li Plugin identifier \li Dot-separated + \endtable + + \section1 Debugging + + When developing applications that use D-Bus, it is sometimes useful to be able + to see information about the messages that are sent and received across the + bus by each application. + + This feature can be enabled on a per-application basis by setting the + \c QDBUS_DEBUG environment variable before running each application. + For example, we can enable debugging only for the car in the + \l{D-Bus Remote Controlled Car} example by running the controller and the + car in the following way: + + \snippet code/doc_src_introtodbus.qdoc QDBUS_DEBUG + + Information about the messages will be written to the console the application + was launched from. + +*/ |