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As discussed on the mailing list (see the whole thread): https://mail.gnome.org/archives/desktop-devel-list/2015-February/msg00126.html Expand the GIO documentation introduction to talk a little about when to use async and sync functions, and how the former should almost always be preferred over the latter. Link to this from the GFile documentation, which is an entry point for a lot of async calls. https://bugzilla.gnome.org/show_bug.cgi?id=744722
740 lines
28 KiB
XML
740 lines
28 KiB
XML
<part>
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<title>GIO Overview</title>
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<chapter>
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<title>Introduction</title>
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<para>
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GIO is striving to provide a modern, easy-to-use VFS API that sits
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at the right level in the library stack, as well as other generally
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useful APIs for desktop applications (such as networking and
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D-Bus support). The goal is to overcome the shortcomings of GnomeVFS
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and provide an API that is so good that developers prefer it over raw
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POSIX calls. Among other things that means using GObject. It also means
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not cloning the POSIX API, but providing higher-level, document-centric
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interfaces.
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</para>
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<para>
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The abstract file system model of GIO consists of a number of
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interfaces and base classes for I/O and files:
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<variablelist>
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<varlistentry>
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<term>GFile</term>
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<listitem><para>reference to a file</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GFileInfo</term>
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<listitem><para>information about a file or filesystem</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GFileEnumerator</term>
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<listitem><para>list files in directories</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GDrive</term>
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<listitem><para>represents a drive</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GVolume</term>
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<listitem><para>represents a file system in an abstract way</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GMount</term>
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<listitem><para>represents a mounted file system</para></listitem>
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</varlistentry>
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</variablelist>
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Then there is a number of stream classes, similar to the input and
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output stream hierarchies that can be found in frameworks like Java:
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<variablelist>
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<varlistentry>
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<term>GInputStream</term>
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<listitem><para>read data</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GOutputStream</term>
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<listitem><para>write data</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GIOStream</term>
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<listitem><para>read and write data</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GSeekable</term>
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<listitem><para>interface optionally implemented by streams to support seeking</para></listitem>
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</varlistentry>
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</variablelist>
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There are interfaces related to applications and the types
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of files they handle:
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<variablelist>
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<varlistentry>
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<term>GAppInfo</term>
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<listitem><para>information about an installed application</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GIcon</term>
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<listitem><para>abstract type for file and application icons</para></listitem>
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</varlistentry>
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</variablelist>
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There is a framework for storing and retrieving application settings:
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<variablelist>
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<varlistentry>
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<term>GSettings</term>
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<listitem><para>stores and retrieves application settings</para></listitem>
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</varlistentry>
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</variablelist>
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There is support for network programming, including connectivity monitoring,
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name resolution, lowlevel socket APIs and highlevel client and server
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helper classes:
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<variablelist>
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<varlistentry>
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<term>GSocket</term>
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<listitem><para>lowlevel platform independent socket object</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GResolver</term>
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<listitem><para>asynchronous and cancellable DNS resolver</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GSocketClient</term>
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<listitem><para>high-level network client helper</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GSocketService</term>
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<listitem><para>high-level network server helper</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GSocketConnection</term>
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<listitem><para>network connection stream</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GNetworkMonitor</term>
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<listitem><para>network connectivity monitoring</para></listitem>
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</varlistentry>
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</variablelist>
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There is support for connecting to <link linkend="http://www.freedesktop.org/wiki/Software/dbus">D-Bus</link>,
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sending and receiving messages, owning and watching bus names,
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and making objects available on the bus:
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<variablelist>
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<varlistentry>
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<term>GDBusConnection</term>
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<listitem><para>a D-Bus connection</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GDBusMethodInvocation</term>
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<listitem><para>for handling remote calls</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GDBusServer</term>
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<listitem><para>helper for accepting connections</para></listitem>
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</varlistentry>
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<varlistentry>
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<term>GDBusProxy</term>
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<listitem><para>proxy to access D-Bus interfaces on a remote object</para></listitem>
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</varlistentry>
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</variablelist>
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Beyond these, GIO provides facilities for file monitoring,
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asynchronous I/O and filename completion. In addition to the
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interfaces, GIO provides implementations for the local case.
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Implementations for various network file systems are provided
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by the GVFS package as loadable modules.
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</para>
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<para>
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Other design choices which consciously break with the GnomeVFS
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design are to move backends out-of-process, which minimizes the
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dependency bloat and makes the whole system more robust. The backends
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are not included in GIO, but in the separate GVFS package. The GVFS
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package also contains the GVFS daemon, which spawn further mount
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daemons for each individual connection.
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</para>
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<figure id="gvfs-overview">
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<title>GIO in the GTK+ library stack</title>
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<graphic fileref="gvfs-overview.png" format="PNG"></graphic>
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</figure>
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<para>
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The GIO model of I/O is stateful: if an application establishes e.g.
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a SFTP connection to a server, it becomes available to all applications
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in the session; the user does not have to enter his password over
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and over again.
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</para>
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<para>
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One of the big advantages of putting the VFS in the GLib layer
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is that GTK+ can directly use it, e.g. in the filechooser.
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</para>
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</chapter>
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<chapter>
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<title>Writing GIO applications</title>
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<para>
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The information in the GLib <ulink url="http://developer.gnome.org/glib/stable/glib-programming.html">documentation</ulink> about writing GLib
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applications is generally applicable when writing GIO applications.
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</para>
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<simplesect><title>Threads</title>
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<para>
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GDBus has its own private worker thread, so applications using
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GDBus have at least 3 threads. GIO makes heavy use of the concept
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of a <link linkend="g-main-context-push-thread-default">thread-default
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main context</link> to execute callbacks of asynchronous
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methods in the same context in which the operation was started.
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</para>
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</simplesect>
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<simplesect id="async-programming"><title>Asynchronous Programming</title>
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<para>
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Many GIO functions come in two versions: synchronous and asynchronous,
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denoted by an <code>_async</code> suffix. It is important to use these
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appropriately: synchronous calls should not be used from
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within a main loop which is shared with other code, such as one in the
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application’s main thread. Synchronous calls block until they complete,
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and I/O operations can take noticeable amounts of time (even on ‘fast’
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SSDs). Blocking a main loop iteration while waiting for I/O means that
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other sources in the main loop will not be dispatched, such as input and
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redraw handlers for the application’s UI. This can cause the application
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to ‘freeze’ until I/O completes.
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</para>
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<para>
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A few self-contained groups of functions, such as code generated by
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<link linkend="gdbus-codegen"><application>gdbus-codegen</application></link>,
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use a different convention: functions are asynchronous default, and it is
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the <emphasis>synchronous</emphasis> version which has a
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<code>_sync</code>
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suffix. Aside from naming differences, they should be treated the same
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way as functions following the normal convention above.
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</para>
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<para>
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The asynchronous (<code>_async</code>) versions of functions return
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control to the caller immediately, after scheduling the I/O in the kernel
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and adding a callback for it to the main loop. This callback will be
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invoked when the operation has completed. From the callback, the paired
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<code>_finish</code> function should be called to retrieve the return
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value of the I/O operation, and any errors which occurred. For more
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information on using and implementing asynchronous functions, see
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<link linkend="GAsyncResult.description"><type>GAsyncResult</type></link>
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and <link linkend="GTask.description"><type>GTask</type></link>.
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</para>
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<para>
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By starting multiple asynchronous operations in succession, they will be
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executed in parallel (up to an arbitrary limit imposed by GIO’s internal
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worker thread pool).
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</para>
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<para>
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The synchronous versions of functions can be used early in application
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startup when there is no main loop to block, for example to load initial
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configuration files. They can also be used for I/O on files which are
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guaranteed to be small and on the local disk. Note that the user’s home
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directory is not guaranteed to be on the local disk.
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</para>
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</simplesect>
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<simplesect><title>Security</title>
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<para>
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When your program needs to carry out some privileged operation (say,
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create a new user account), there are various ways in which you can go
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about this:
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<itemizedlist>
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<listitem><para>
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Implement a daemon that offers the privileged operation. A convenient
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way to do this is as a D-Bus system-bus service. The daemon will probably
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need ways to check the identity and authorization of the caller before
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executing the operation. <ulink url="http://www.freedesktop.org/software/polkit/docs/latest/polkit.8.html">polkit</ulink> is a framework that allows this.
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</para></listitem>
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<listitem><para>
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Use a small helper that is executed with elevated privileges via
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pkexec. <ulink url="http://www.freedesktop.org/software/polkit/docs/latest/pkexec.1.html">pkexec</ulink> is a small program launcher that is part of polkit.
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</para></listitem>
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<listitem><para>
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Use a small helper that is executed with elevated privileges by
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being suid root.
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</para></listitem>
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</itemizedlist>
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None of these approaches is the clear winner, they all have their
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advantages and disadvantages.
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</para>
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<para>
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When writing code that runs with elevated privileges, it is important
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to follow some basic rules of secure programming. David Wheeler has an
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excellent book on this topic,
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<ulink url="http://www.dwheeler.com/secure-programs/Secure-Programs-HOWTO/index.html">Secure Programming for Linux and Unix HOWTO</ulink>.
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</para>
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<para>
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When using GIO in code that runs with elevated privileges, you have to
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be careful. GIO has extension points whose implementations get loaded
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from modules (executable code in shared objects), which could allow
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an attacker to sneak his own code into your application by tricking it
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into loading the code as a module. However, GIO will never load modules
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from your home directory except when explictly asked to do so via an
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environment variable.
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</para>
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<para>
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In most cases, your helper program should be so small that you don't
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need GIO, whose APIs are largely designed to support full-blown desktop
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applications. If you can't resist the convenience of these APIs, here
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are some steps you should take:
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<itemizedlist>
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<listitem><para>
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Clear the environment, e.g. using the <function>clearenv()</function>
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function.
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David Wheeler has a good <ulink url="http://www.dwheeler.com/secure-programs/Secure-Programs-HOWTO/environment-variables.html">explanation</ulink> for why it is
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important to sanitize the environment.
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See <xref linkend="running-gio-apps"/>
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for a list of all environment variables affecting GIO. In particular,
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<envar>PATH</envar> (used to locate binaries), <envar>GIO_EXTRA_MODULES</envar> (used to locate loadable modules) and <envar>DBUS_{SYSTEM,SESSION}_BUS_ADDRESS</envar> (used to locate the D-Bus system and session bus) are important.
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</para></listitem>
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<listitem><para>
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Don't use GVfs, by setting <envar>GIO_USE_VFS=local</envar> in the environment.
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The reason to avoid GVfs in security-sensitive programs is that it uses
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many libraries which have not necessarily been audited for security problems.
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Gvfs is also heavily distributed and relies on a session bus to be present.
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</para></listitem>
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</itemizedlist>
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</para>
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</simplesect>
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</chapter>
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<chapter>
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<title>Compiling GIO applications</title>
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<para>
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GIO comes with a <filename>gio-2.0.pc</filename> file that you
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should use together with <literal>pkg-config</literal> to obtain
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the necessary information about header files and libraries. See
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the <literal>pkg-config</literal> man page or the GLib documentation
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for more information on how to use <literal>pkg-config</literal>
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to compile your application.
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</para>
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<para>
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If you are using GIO on UNIX-like systems, you may want to use
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UNIX-specific GIO interfaces such as #GUnixInputStream,
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#GUnixOutputStream, #GUnixMount or #GDesktopAppInfo.
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To do so, use the <filename>gio-unix-2.0.pc</filename> file
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instead of <filename>gio-2.0.pc</filename>
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</para>
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</chapter>
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<chapter id="running-gio-apps">
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<title>Running GIO applications</title>
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<para>
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GIO inspects a few of environment variables in addition to the
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ones used by GLib.
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</para>
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<formalpara>
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<title><envar>XDG_DATA_HOME</envar>, <envar>XDG_DATA_DIRS</envar></title>
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<para>
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GIO uses these environment variables to locate MIME information.
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For more information, see the <ulink url="http://freedesktop.org/Standards/shared-mime-info-spec">Shared MIME-info Database</ulink>
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and the <ulink url="http://freedesktop.org/Standards/basedir-spec">Base Directory Specification</ulink>.
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GVFS_DISABLE_FUSE</envar></title>
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<para>
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This variable can be set to keep #Gvfs from starting the fuse backend,
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which may be unwanted or unnecessary in certain situations.
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</para>
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</formalpara>
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<para>
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The following environment variables are only useful for debugging
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GIO itself or modules that it loads. They should not be set in a
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production environment.
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</para>
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<formalpara>
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<title><envar>GIO_USE_VFS</envar></title>
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<para>
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This environment variable can be set to the name of a #GVfs
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implementation to override the default for debugging purposes.
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The #GVfs implementation for local files that is included in GIO
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has the name "local", the implementation in the gvfs module has
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the name "gvfs".
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GIO_USE_FILE_MONITOR</envar></title>
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<para>
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This variable can be set to the name of a #GFileMonitor
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implementation to override the default for debugging purposes.
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The #GFileMonitor implementation for local files that is included
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in GIO on Linux has the name "inotify", others that are built
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are built as modules (depending on the platform) are called
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"fam" and "fen".
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GIO_USE_VOLUME_MONITOR</envar></title>
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<para>
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This variable can be set to the name of a #GVolumeMonitor
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implementation to override the default for debugging purposes.
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The #GVolumeMonitor implementation for local files that is included
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in GIO has the name "unix", the hal-based implementation in the
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gvfs module has the name "hal".
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GIO_USE_TLS</envar></title>
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<para>
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This variable can be set to the name of a #GTlsBackend
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implementation to override the default for debugging purposes.
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GIO does not include a #GTlsBackend implementation, the gnutls-based
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implementation in the glib-networking module has the name "gnutls".
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GIO_MODULE_DIR</envar></title>
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<para>
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When this environment variable is set to a path, GIO will load
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modules from this alternate directory instead of the directory
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built into GIO. This is useful when running tests, for example.
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GIO_EXTRA_MODULES</envar></title>
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<para>
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When this environment variable is set to a path, or a set of
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paths separated by a colon, GIO will attempt to load
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additional modules from within the path.
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GSETTINGS_BACKEND</envar></title>
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<para>
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This variable can be set to the name of a #GSettingsBackend
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implementation to override the default for debugging purposes.
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The memory-based implementation that is included in GIO has
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the name "memory", the one in dconf has the name "dconf-settings".
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</para>
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</formalpara>
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<formalpara>
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<title><envar>GSETTINGS_SCHEMA_DIR</envar></title>
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<para>
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This variable can be set to the name of a directory that is
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considered in addition to the <filename>glib-2.0/schemas</filename>
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subdirectories of the XDG system data dirs when looking
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for compiled schemas for #GSettings.
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</para>
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</formalpara>
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<formalpara>
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<title><envar>DBUS_SYSTEM_BUS_ADDRESS</envar></title>
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<para>
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This variable is consulted to find the address of the D-Bus system
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bus. For the format of D-Bus addresses, see the D-Bus
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<ulink url="http://dbus.freedesktop.org/doc/dbus-specification.html#addresses">specification</ulink>.
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</para>
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<para>
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Setting this variable overrides platform-specific ways of determining
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the system bus address.
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</para>
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</formalpara>
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<formalpara>
|
||
<title><envar>DBUS_SESSION_BUS_ADDRESS</envar></title>
|
||
|
||
<para>
|
||
This variable is consulted to find the address of the D-Bus session bus.
|
||
</para>
|
||
<para>
|
||
Setting this variable overrides platform-specific ways of determining
|
||
the session bus address.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title><envar>DBUS_STARTER_BUS_TYPE</envar></title>
|
||
|
||
<para>
|
||
This variable is consulted to find out the 'starter' bus for an
|
||
application that has been started via D-Bus activation. The possible
|
||
values are 'system' or 'session'.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title><envar>G_DBUS_DEBUG</envar></title>
|
||
|
||
<para>
|
||
This variable can be set to a list of debug options, which
|
||
cause GLib to print out different types of debugging
|
||
information when using the D-Bus routines.
|
||
<variablelist>
|
||
<varlistentry>
|
||
<term>transport</term>
|
||
<listitem><para>Show IO activity (e.g. reads and writes)</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>message</term>
|
||
<listitem><para>Show all sent and received D-Bus messages</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>payload</term>
|
||
<listitem><para>Show payload for all sent and received D-Bus messages (implies message)</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>call</term>
|
||
<listitem><para>Trace g_dbus_connection_call() and g_dbus_connection_call_sync() API usage</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>signal</term>
|
||
<listitem><para>Show when a D-Bus signal is received</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>incoming</term>
|
||
<listitem><para>Show when an incoming D-Bus method call is received</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>return</term>
|
||
<listitem><para>Show when a reply is returned via the #GDBusMethodInvocation API</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>emission</term>
|
||
<listitem><para>Trace g_dbus_connection_emit_signal() API usage</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>authentication</term>
|
||
<listitem><para>Show information about connection authentication</para></listitem>
|
||
</varlistentry>
|
||
<varlistentry>
|
||
<term>address</term>
|
||
<listitem><para>Show information about D-Bus address lookups and autolaunching</para></listitem>
|
||
</varlistentry>
|
||
</variablelist>
|
||
The special value <literal>all</literal> can be used to turn
|
||
on all debug options. The special value
|
||
<literal>help</literal> can be used to print a list of
|
||
supported options to standard output.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title><envar>G_DBUS_COOKIE_SHA1_KEYRING_DIR</envar></title>
|
||
|
||
<para>
|
||
Can be used to override the directory used to store the
|
||
keyring used in the <literal>DBUS_COOKIE_SHA1</literal>
|
||
authentication mechanism. Normally the directory used is
|
||
<filename>.dbus-keyrings</filename> in the user's home
|
||
directory.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title><envar>G_DBUS_COOKIE_SHA1_KEYRING_DIR_IGNORE_PERMISSION</envar></title>
|
||
|
||
<para>
|
||
If set, the permissions of the directory used to store the
|
||
keyring used in the <literal>DBUS_COOKIE_SHA1</literal>
|
||
authentication mechanism won't be checked. Normally the
|
||
directory must be readable only by the user.
|
||
</para>
|
||
</formalpara>
|
||
</chapter>
|
||
|
||
<chapter id="extending-gio">
|
||
<title>Extending GIO</title>
|
||
|
||
<para>
|
||
A lot of the functionality that is accessible through GIO
|
||
is implemented in loadable modules, and modules provide a convenient
|
||
way to extend GIO. In addition to the #GIOModule API which supports
|
||
writing such modules, GIO has a mechanism to define extension points,
|
||
and register implementations thereof, see #GIOExtensionPoint.
|
||
</para>
|
||
<para>
|
||
The following extension points are currently defined by GIO:
|
||
</para>
|
||
|
||
<formalpara>
|
||
<title>G_VFS_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to override the functionality of the #GVfs class.
|
||
Implementations of this extension point must be derived from #GVfs.
|
||
GIO uses the implementation with the highest priority that is active,
|
||
see g_vfs_is_active().
|
||
</para>
|
||
<para>
|
||
GIO implements this extension point for local files, gvfs contains
|
||
an implementation that supports all the backends in gvfs.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_VOLUME_MONITOR_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to add more volume monitors.
|
||
Implementations of this extension point must be derived from
|
||
#GVolumeMonitor. GIO uses all registered extensions.
|
||
</para>
|
||
<para>
|
||
gvfs contains an implementation that works together with the #GVfs
|
||
implementation in gvfs.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_NATIVE_VOLUME_MONITOR_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to override the 'native' volume monitor.
|
||
Implementations of this extension point must be derived from
|
||
#GNativeVolumeMonitor. GIO uses the implementation with
|
||
the highest priority that is supported, as determined by the
|
||
is_supported() vfunc in #GVolumeMonitorClass.
|
||
</para>
|
||
<para>
|
||
GIO implements this extension point for local mounts,
|
||
gvfs contains a hal-based implementation.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_LOCAL_FILE_MONITOR_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to override the file monitor implementation for
|
||
local files. Implementations of this extension point must
|
||
be derived from #GLocalFileMonitor. GIO uses the implementation
|
||
with the highest priority that is supported, as determined by the
|
||
is_supported() vfunc in #GLocalFileMonitorClass.
|
||
</para>
|
||
<para>
|
||
GIO uses this extension point internally, to switch between
|
||
its fam-based and inotify-based file monitoring implementations.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_LOCAL_DIRECTORY_MONITOR_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to override the directory monitor implementation for
|
||
local files. Implementations of this extension point must be
|
||
derived from #GLocalDirectoryMonitor. GIO uses the implementation
|
||
with the highest priority that is supported, as determined by the
|
||
is_supported() vfunc in #GLocalDirectoryMonitorClass.
|
||
</para>
|
||
<para>
|
||
GIO uses this extension point internally, to switch between
|
||
its fam-based and inotify-based directory monitoring implementations.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_DESKTOP_APP_INFO_LOOKUP_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Unix-only. Allows to provide a way to associate default handlers
|
||
with URI schemes. Implementations of this extension point must
|
||
implement the #GDesktopAppInfoLookup interface. GIO uses the
|
||
implementation with the highest priority.
|
||
</para>
|
||
<para>
|
||
This extension point has been discontinued in GLib 2.28. It is
|
||
still available to keep API and ABI stability, but GIO is no
|
||
longer using it for default handlers. Instead, the mime handler
|
||
mechanism is used, together with x-scheme-handler pseudo-mimetypes.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_SETTINGS_BACKEND_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to provide an alternative storage for #GSettings.
|
||
Implementations of this extension point must derive from the
|
||
#GSettingsBackend type. GIO contains a keyfile-based
|
||
implementation of this extension point, another one is provided
|
||
by dconf.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_PROXY_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to provide implementations for network proxying.
|
||
Implementations of this extension point must provide the
|
||
#GProxy interface, and must be named after the network
|
||
protocol they are proxying.
|
||
</para>
|
||
<para>
|
||
glib-networking contains an implementation of this extension
|
||
point based on libproxy.
|
||
</para>
|
||
</formalpara>
|
||
<formalpara>
|
||
<title>G_TLS_BACKEND_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to provide implementations for TLS support.
|
||
Implementations of this extension point must implement
|
||
the #GTlsBackend interface.
|
||
</para>
|
||
<para>
|
||
glib-networking contains an implementation of this extension
|
||
point.
|
||
</para>
|
||
</formalpara>
|
||
|
||
<formalpara>
|
||
<title>G_NETWORK_MONITOR_EXTENSION_POINT_NAME</title>
|
||
|
||
<para>
|
||
Allows to provide implementations for network connectivity
|
||
monitoring.
|
||
Implementations of this extension point must implement
|
||
the #GNetworkMonitorInterface interface.
|
||
</para>
|
||
<para>
|
||
GIO contains an implementation of this extension point
|
||
that is using the netlink interface of the Linux kernel.
|
||
</para>
|
||
</formalpara>
|
||
</chapter>
|
||
</part>
|
||
|