'\" t
.TH "SD_BUS_ADD_OBJECT" "3" "" "systemd 252" "sd_bus_add_object"
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.\" http://bugs.debian.org/507673
.\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html
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.nh
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.\" * MAIN CONTENT STARTS HERE *
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.SH "NAME"
sd_bus_add_object, sd_bus_add_fallback, sd_bus_add_object_vtable, sd_bus_add_fallback_vtable, sd_bus_add_filter, SD_BUS_VTABLE_CAPABILITY, SD_BUS_VTABLE_START, SD_BUS_VTABLE_END, SD_BUS_METHOD_WITH_NAMES_OFFSET, SD_BUS_METHOD_WITH_NAMES, SD_BUS_METHOD_WITH_OFFSET, SD_BUS_METHOD, SD_BUS_SIGNAL_WITH_NAMES, SD_BUS_SIGNAL, SD_BUS_WRITABLE_PROPERTY, SD_BUS_PROPERTY, SD_BUS_PARAM \- Declare properties and methods for a D\-Bus path
.SH "SYNOPSIS"
.sp
.ft B
.nf
#include <systemd/sd\-bus\-vtable\&.h>
.fi
.ft
.sp
.HP \w'typedef\ int\ (*sd_bus_message_handler_t)('u
.BI "typedef int (*sd_bus_message_handler_t)(sd_bus_message\ *" "m" ", void\ *" "userdata" ", sd_bus_error\ *" "ret_error" ");"
.HP \w'typedef\ int\ (*sd_bus_property_get_t)('u
.BI "typedef int (*sd_bus_property_get_t)(sd_bus\ *" "bus" ", const\ char\ *" "path" ", const\ char\ *" "interface" ", const\ char\ *" "property" ", sd_bus_message\ *" "reply" ", void\ *" "userdata" ", sd_bus_error\ *" "ret_error" ");"
.HP \w'typedef\ int\ (*sd_bus_property_set_t)('u
.BI "typedef int (*sd_bus_property_set_t)(sd_bus\ *" "bus" ", const\ char\ *" "path" ", const\ char\ *" "interface" ", const\ char\ *" "property" ", sd_bus_message\ *" "value" ", void\ *" "userdata" ", sd_bus_error\ *" "ret_error" ");"
.HP \w'typedef\ int\ (*sd_bus_object_find_t)('u
.BI "typedef int (*sd_bus_object_find_t)(const\ char\ *" "path" ", const\ char\ *" "interface" ", void\ *" "userdata" ", void\ **" "ret_found" ", sd_bus_error\ *" "ret_error" ");"
.HP \w'int\ sd_bus_add_object('u
.BI "int sd_bus_add_object(sd_bus\ *" "bus" ", sd_bus_slot\ **" "slot" ", const\ char\ *" "path" ", sd_bus_message_handler_t\ " "callback" ", void\ *" "userdata" ");"
.HP \w'int\ sd_bus_add_fallback('u
.BI "int sd_bus_add_fallback(sd_bus\ *" "bus" ", sd_bus_slot\ **" "slot" ", const\ char\ *" "path" ", sd_bus_message_handler_t\ " "callback" ", void\ *" "userdata" ");"
.HP \w'int\ sd_bus_add_object_vtable('u
.BI "int sd_bus_add_object_vtable(sd_bus\ *" "bus" ", sd_bus_slot\ **" "slot" ", const\ char\ *" "path" ", const\ char\ *" "interface" ", const\ sd_bus_vtable\ *" "vtable" ", void\ *" "userdata" ");"
.HP \w'int\ sd_bus_add_fallback_vtable('u
.BI "int sd_bus_add_fallback_vtable(sd_bus\ *" "bus" ", sd_bus_slot\ **" "slot" ", const\ char\ *" "prefix" ", const\ char\ *" "interface" ", const\ sd_bus_vtable\ *" "vtable" ", sd_bus_object_find_t\ " "find" ", void\ *" "userdata" ");"
.HP \w'int\ sd_bus_add_filter('u
.BI "int sd_bus_add_filter(sd_bus\ *" "bus" ", sd_bus_slot\ **" "slot" ", sd_bus_message_handler_t\ " "callback" ", void\ *" "userdata" ");"
.PP
\fBSD_BUS_VTABLE_CAPABILITY(\fR\fB\fIcapability\fR\fR\fB)\fR
.PP
\fBSD_BUS_VTABLE_START(\fR\fB\fIflags\fR\fR\fB)\fR
.PP
\fBSD_BUS_VTABLE_END\fR
.PP
\fBSD_BUS_METHOD_WITH_ARGS_OFFSET(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIargs\fR\fR\fB, \fR\fB\fIresult\fR\fR\fB, \fR\fB\fIhandler\fR\fR\fB, \fR\fB\fIoffset\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_METHOD_WITH_ARGS(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIargs\fR\fR\fB, \fR\fB\fIresult\fR\fR\fB, \fR\fB\fIhandler\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_METHOD_WITH_NAMES_OFFSET(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIin_names\fR\fR\fB, \fR\fB\fIresult\fR\fR\fB, \fR\fB\fIout_names\fR\fR\fB, \fR\fB\fIhandler\fR\fR\fB, \fR\fB\fIoffset\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_METHOD_WITH_NAMES(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIin_names\fR\fR\fB, \fR\fB\fIresult\fR\fR\fB, \fR\fB\fIout_names\fR\fR\fB, \fR\fB\fIhandler\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_METHOD_WITH_OFFSET(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIresult\fR\fR\fB, \fR\fB\fIhandler\fR\fR\fB, \fR\fB\fIoffset\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_METHOD(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIresult\fR\fR\fB, \fR\fB\fIhandler\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_SIGNAL_WITH_ARGS(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIargs\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_SIGNAL_WITH_NAMES(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fInames\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_SIGNAL(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_WRITABLE_PROPERTY(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIget\fR\fR\fB, \fR\fB\fIset\fR\fR\fB, \fR\fB\fIoffset\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_PROPERTY(\fR\fB\fImember\fR\fR\fB, \fR\fB\fIsignature\fR\fR\fB, \fR\fB\fIget\fR\fR\fB, \fR\fB\fIoffset\fR\fR\fB, \fR\fB\fIflags\fR\fR\fB) \fR
.PP
\fBSD_BUS_PARAM(\fR\fB\fIname\fR\fR\fB)\fR
.PP
\fBSD_BUS_ARGS(\fR\fB\fI\&.\&.\&.\fR\fR\fB)\fR
.PP
\fBSD_BUS_RESULT(\fR\fB\fI\&.\&.\&.\fR\fR\fB)\fR
.PP
\fBSD_BUS_NO_ARGS\fR
.PP
\fBSD_BUS_NO_RESULT\fR
.SH "DESCRIPTION"
.PP
\fBsd_bus_add_object_vtable()\fR
is used to declare attributes for the object path
\fIpath\fR
connected to the bus connection
\fIbus\fR
under the interface
\fIinterface\fR\&. The table
\fIvtable\fR
may contain property declarations using
\fBSD_BUS_PROPERTY()\fR
or
\fBSD_BUS_WRITABLE_PROPERTY()\fR, method declarations using
\fBSD_BUS_METHOD()\fR,
\fBSD_BUS_METHOD_WITH_NAMES()\fR,
\fBSD_BUS_METHOD_WITH_OFFSET()\fR, or
\fBSD_BUS_METHOD_WITH_NAMES_OFFSET()\fR, and signal declarations using
\fBSD_BUS_SIGNAL_WITH_NAMES()\fR
or
\fBSD_BUS_SIGNAL()\fR, see below\&. The
\fIuserdata\fR
parameter contains a pointer that will be passed to various callback functions\&. It may be specified as
\fBNULL\fR
if no value is necessary\&. An interface can have any number of vtables attached to it\&.
.PP
\fBsd_bus_add_fallback_vtable()\fR
is similar to
\fBsd_bus_add_object_vtable()\fR, but is used to register "fallback" attributes\&. When looking for an attribute declaration, bus object paths registered with
\fBsd_bus_add_object_vtable()\fR
are checked first\&. If no match is found, the fallback vtables are checked for each prefix of the bus object path, i\&.e\&. with the last slash\-separated components successively removed\&. This allows the vtable to be used for an arbitrary number of dynamically created objects\&.
.PP
Parameter
\fIfind\fR
is a function which is used to locate the target object based on the bus object path
\fIpath\fR\&. It must return
\fB1\fR
and set the
\fIret_found\fR
output parameter if the object is found, return
\fB0\fR
if the object was not found, and return a negative errno\-style error code or initialize the error structure
\fIret_error\fR
on error\&. The pointer passed in
\fIret_found\fR
will be used as the
\fIuserdata\fR
parameter for the callback functions (offset by the
\fIoffset\fR
offsets as specified in the vtable entries)\&.
.PP
\fBsd_bus_add_object()\fR
attaches a callback directly to the object path
\fIpath\fR\&. An object path can have any number of callbacks attached to it\&. Each callback is prepended to the list of callbacks which are always called in order\&.
\fBsd_bus_add_fallback()\fR
is similar to
\fBsd_bus_add_object()\fR
but applies to fallback paths instead\&.
.PP
\fBsd_bus_add_filter()\fR
installs a callback that is invoked for each incoming D\-Bus message\&. Filters can be used to handle logic common to all messages received by a service (e\&.g\&. authentication or authorization)\&.
.PP
When a request is received, any associated callbacks are called sequentially until a callback returns a non\-zero integer\&. Return zero from a callback to give other callbacks the chance to process the request\&. Callbacks are called in the following order: first, global callbacks installed with
\fBsd_bus_add_filter()\fR
are called\&. Second, callbacks attached directly to the request object path are called, followed by any D\-Bus method callbacks attached to the request object path, interface and member\&. Finally, the property callbacks attached to the request object path, interface and member are called\&. If the final callback returns zero, an error reply is sent back to the caller indicating no matching object for the request was found\&.
.PP
Note that you can return a positive integer from a
\fImethod\fR
callback without immediately sending a reply\&. This informs sd\-bus this callback will take responsibility for replying to the request without forcing the callback to produce a reply immediately\&. This allows a callback to perform any number of asynchronous operations required to construct a reply\&. However, if producing a reply takes too long, the method call will time out at the caller\&. This is only available to methods and not properties\&.
.PP
If a callback was invoked to handle a request that expects a reply and the callback returns a negative value, the value is interpreted as a negative errno\-style error code and sent back to the caller as a D\-Bus error as if
\fBsd_bus_reply_method_errno\fR(3)
was called\&. Additionally, all callbacks take a
sd_bus_error
output parameter that can be used to provide more detailed error information\&. If
\fIret_error\fR
is set when the callback finishes, the corresponding D\-Bus error is sent back to the caller as if
\fBsd_bus_reply_method_error\fR(3)
was called\&. Any error stored in
\fIret_error\fR
takes priority over any negative values returned by the same callback when determining which error to send back to the caller\&. Use
\fBsd_bus_error_set\fR(3)
or one of its variants to set
\fIret_error\fR
and return a negative integer from a callback with a single function call\&. To send an error reply after a callback has already finished, use
\fBsd_bus_reply_method_errno\fR(3)
or one of its variants\&.
.PP
For all functions, a match slot is created internally\&. If the output parameter
\fIslot\fR
is
\fBNULL\fR, a "floating" slot object is created, see
\fBsd_bus_slot_set_floating\fR(3)\&. Otherwise, a pointer to the slot object is returned\&. In that case, the reference to the slot object should be dropped when the vtable is not needed anymore, see
\fBsd_bus_slot_unref\fR(3)\&.
.SS "The sd_bus_vtable array"
.PP
The array consists of the structures of type
sd_bus_vtable, but it should never be filled in manually, but through one of the following macros:
.PP
\fBSD_BUS_VTABLE_START(\fR\fB\fIflags\fR\fR\fB)\fR, \fBSD_BUS_VTABLE_END\fR
.RS 4
Those must always be the first and last element\&. The
\fIflags\fR
parameter can be used to set attributes that apply to the whole array; see the "Flags" section below\&.
.RE
.PP
\fBSD_BUS_METHOD_WITH_ARGS_OFFSET()\fR, \fBSD_BUS_METHOD_WITH_ARGS()\fR
.RS 4
Declare a D\-Bus method with the name
\fImember\fR, arguments
\fIargs\fR
and result
\fIresult\fR\&.
\fIargs\fR
expects a sequence of argument type/name pairs wrapped in the
\fBSD_BUS_ARGS()\fR
macro\&. The elements at even indices in this list describe the types of the method\*(Aqs arguments\&. The method\*(Aqs parameter signature is the concatenation of all the string literals at even indices in
\fIargs\fR\&. If a method has no parameters, pass
\fBSD_BUS_NO_ARGS\fR
to
\fIargs\fR\&. The elements at uneven indices describe the names of the method\*(Aqs arguments\&.
\fIresult\fR
expects a sequence of type/name pairs wrapped in the
\fBSD_BUS_RESULT()\fR
macro in the same format as
\fBSD_BUS_ARGS()\fR\&. The method\*(Aqs result signature is the concatenation of all the string literals at even indices in
\fIresult\fR\&. If a method has no result, pass
\fBSD_BUS_NO_RESULT\fR
to
\fIresult\fR\&. Note that argument types are expected to be quoted string literals and argument names are expected to be unquoted string literals\&. See below for a complete example\&.
.sp
The handler function
\fIhandler\fR
must be of type
\fBsd_bus_message_handler_t\fR\&. It will be called to handle the incoming messages that call this method\&. It receives a pointer that is the
\fIuserdata\fR
parameter passed to the registration function offset by
\fIoffset\fR
bytes\&. This may be used to pass pointers to different fields in the same data structure to different methods in the same vtable\&. To send a reply from
\fIhandler\fR, call
\fBsd_bus_reply_method_return\fR(3)
with the message the callback was invoked with\&. Parameter
\fIflags\fR
is a combination of flags, see below\&.
.sp
\fBSD_BUS_METHOD_WITH_ARGS()\fR
is a shorthand for calling
\fBSD_BUS_METHOD_WITH_ARGS_OFFSET()\fR
with an offset of zero\&.
.RE
.PP
\fBSD_BUS_METHOD_WITH_NAMES_OFFSET()\fR, \fBSD_BUS_METHOD_WITH_NAMES()\fR, \fBSD_BUS_METHOD_WITH_OFFSET()\fR, \fBSD_BUS_METHOD()\fR
.RS 4
Declare a D\-Bus method with the name
\fImember\fR, parameter signature
\fIsignature\fR, result signature
\fIresult\fR\&. Parameters
\fIin_names\fR
and
\fIout_names\fR
specify the argument names of the input and output arguments in the function signature\&.
\fIin_names\fR
and
\fIout_names\fR
should be created using the
\fBSD_BUS_PARAM()\fR
macro, see below\&. In all other regards, this macro behaves exactly the same as
\fBSD_BUS_METHOD_WITH_ARGS_OFFSET()\fR\&.
.sp
\fBSD_BUS_METHOD_WITH_NAMES()\fR,
\fBSD_BUS_METHOD_WITH_OFFSET()\fR, and
\fBSD_BUS_METHOD()\fR
are variants which specify zero offset (\fIuserdata\fR
parameter is passed with no change), leave the names unset (i\&.e\&. no parameter names), or both\&.
.sp
Prefer using
\fBSD_BUS_METHOD_WITH_ARGS_OFFSET()\fR
and
\fBSD_BUS_METHOD_WITH_ARGS()\fR
over these macros as they allow specifying argument types and names next to each other which is less error\-prone than first specifying all argument types followed by specifying all argument names\&.
.RE
.PP
\fBSD_BUS_SIGNAL_WITH_ARGS()\fR
.RS 4
Declare a D\-Bus signal with the name
\fImember\fR
and arguments
\fIargs\fR\&.
\fIargs\fR
expects a sequence of argument type/name pairs wrapped in the
\fBSD_BUS_ARGS()\fR
macro\&. The elements at even indices in this list describe the types of the signal\*(Aqs arguments\&. The signal\*(Aqs parameter signature is the concatenation of all the string literals at even indices in
\fIargs\fR\&. If a signal has no parameters, pass
\fBSD_BUS_NO_ARGS\fR
to
\fIargs\fR\&. The elements at uneven indices describe the names of the signal\*(Aqs arguments\&. Parameter
\fIflags\fR
is a combination of flags\&. See below for a complete example\&.
.RE
.PP
\fBSD_BUS_SIGNAL_WITH_NAMES()\fR, \fBSD_BUS_SIGNAL()\fR
.RS 4
Declare a D\-Bus signal with the name
\fImember\fR, parameter signature
\fIsignature\fR, and argument names
\fInames\fR\&.
\fInames\fR
should be created using the
\fBSD_BUS_PARAM()\fR
macro, see below\&. Parameter
\fIflags\fR
is a combination of flags, see below\&.
.sp
\fBSD_BUS_SIGNAL()\fR
is equivalent to
\fBSD_BUS_SIGNAL_WITH_NAMES()\fR
with the
\fInames\fR
parameter unset (i\&.e\&. no parameter names)\&.
.sp
Prefer using
\fBSD_BUS_SIGNAL_WITH_ARGS()\fR
over these macros as it allows specifying argument types and names next to each other which is less error\-prone than first specifying all argument types followed by specifying all argument names\&.
.RE
.PP
\fBSD_BUS_WRITABLE_PROPERTY()\fR, \fBSD_BUS_PROPERTY()\fR
.RS 4
Declare a D\-Bus property with the name
\fImember\fR
and value signature
\fIsignature\fR\&. Parameters
\fIget\fR
and
\fIset\fR
are the getter and setter methods\&. They are called with a pointer that is the
\fIuserdata\fR
parameter passed to the registration function offset by
\fIoffset\fR
bytes\&. This may be used pass pointers to different fields in the same data structure to different setters and getters in the same vtable\&. Parameter
\fIflags\fR
is a combination of flags, see below\&.
.sp
The setter and getter methods may be omitted (specified as
\fBNULL\fR), if the property is one of the basic types or
"as"
in case of read\-only properties\&. In those cases, the
\fIuserdata\fR
and
\fIoffset\fR
parameters must together point to a valid variable of the corresponding type\&. A default setter and getter will be provided, which simply copy the argument between this variable and the message\&.
.sp
\fBSD_BUS_PROPERTY()\fR
is used to define a read\-only property\&.
.RE
.PP
\fBSD_BUS_PARAM()\fR
.RS 4
Parameter names should be wrapped in this macro, see the example below\&.
.RE
.SS "Flags"
.PP
The
\fIflags\fR
parameter is used to specify a combination of
\m[blue]\fBD\-Bus annotations\fR\m[]\&\s-2\u[1]\d\s+2\&.
.PP
\fBSD_BUS_VTABLE_DEPRECATED\fR
.RS 4
Mark this vtable entry as deprecated using the
\fBorg\&.freedesktop\&.DBus\&.Deprecated\fR
annotation in introspection data\&. If specified for
\fBSD_BUS_VTABLE_START()\fR, the annotation is applied to the enclosing interface\&.
.RE
.PP
\fBSD_BUS_VTABLE_HIDDEN\fR
.RS 4
Make this vtable entry hidden\&. It will not be shown in introspection data\&. If specified for
\fBSD_BUS_VTABLE_START()\fR, all entries in the array are hidden\&.
.RE
.PP
\fBSD_BUS_VTABLE_METHOD_NO_REPLY\fR
.RS 4
Mark this vtable entry as a method that will not return a reply using the
\fBorg\&.freedesktop\&.DBus\&.Method\&.NoReply\fR
annotation in introspection data\&.
.RE
.PP
\fBSD_BUS_VTABLE_PROPERTY_CONST\fR, \fBSD_BUS_VTABLE_PROPERTY_EMITS_CHANGE\fR, \fBSD_BUS_VTABLE_PROPERTY_EMITS_INVALIDATION\fR
.RS 4
Those three flags correspond to different values of the
\fBorg\&.freedesktop\&.DBus\&.Property\&.EmitsChangedSignal\fR
annotation, which specifies whether the
\fBorg\&.freedesktop\&.DBus\&.Properties\&.PropertiesChanged\fR
signal is emitted whenever the property changes\&.
\fBSD_BUS_VTABLE_PROPERTY_CONST\fR
corresponds to
\fBconst\fR
and means that the property never changes during the lifetime of the object it belongs to, so no signal needs to be emitted\&.
\fBSD_BUS_VTABLE_PROPERTY_EMITS_CHANGE\fR
corresponds to
\fBtrue\fR
and means that the signal is emitted\&.
\fBSD_BUS_VTABLE_PROPERTY_EMITS_INVALIDATION\fR
corresponds to
\fBinvalidates\fR
and means that the signal is emitted, but the value is not included in the signal\&.
.RE
.PP
\fBSD_BUS_VTABLE_PROPERTY_EXPLICIT\fR
.RS 4
Mark this vtable property entry as requiring explicit request to for the value to be shown (generally because the value is large or slow to calculate)\&. This entry cannot be combined with
\fBSD_BUS_VTABLE_PROPERTY_EMITS_CHANGE\fR, and will not be shown in property listings by default (e\&.g\&.
\fBbusctl introspect\fR)\&. This corresponds to the
\fBorg\&.freedesktop\&.systemd1\&.Explicit\fR
annotation in introspection data\&.
.RE
.PP
\fBSD_BUS_VTABLE_SENSITIVE\fR
.RS 4
Mark this vtable method entry as processing sensitive data\&. When set, incoming method call messages and their outgoing reply messages are marked as sensitive using
\fBsd_bus_message_sensitive\fR(3), so that they are erased from memory when freed\&.
.RE
.PP
\fBSD_BUS_VTABLE_ABSOLUTE_OFFSET\fR
.RS 4
Mark this vtable method or property entry so that the user data pointer passed to its associated handler functions is determined slightly differently: instead of adding the offset parameter of the entry to the user data pointer specified during vtable registration, the offset is passed directly, converted to a pointer, without taking the user data pointer specified during vtable registration into account\&.
.RE
.PP
\fBSD_BUS_VTABLE_CAPABILITY(\fR\fB\fIcapability\fR\fR\fB)\fR
.RS 4
Access to this vtable entry will be allowed if the calling process has the capability
\fIcapability\fR, as described in
\fBsd_bus_query_sender_privilege\fR(3)\&. If used for
\fBSD_BUS_VTABLE_START()\fR, provides a default for all entries in the array\&. If not specified, either for an individual entry or the whole array,
\fBCAP_SYS_ADMIN\fR
is checked by default\&. See
\fBcapabilities\fR(7)
for information about capabilities\&.
.sp
Note that vtable entries may be marked as unprivileged and the whole bus may be marked as trusted, see the discussion of
\fBSD_BUS_VTABLE_UNPRIVILEGED\fR
below\&.
.RE
.PP
\fBSD_BUS_VTABLE_UNPRIVILEGED\fR
.RS 4
Mark this vtable entry as unprivileged\&. Access to privileged entries is limited to users with appropriate capabilities as described above\&. In practice many vtable entries are marked as unprivileged, and either are open to everyone, or the decision whether to allow access is taken later, e\&.g\&. by delegating to
\m[blue]\fBpolkit\fR\m[]\&\s-2\u[2]\d\s+2\&.
.sp
The whole bus may be marked as trusted, in which case annotations at the entry level are ignored, see
\fBsd_bus_set_trusted\fR(3)\&.
.sp
When
\fInot\fR
specified, the
\fBorg\&.freedesktop\&.systemd1\&.Privileged\fR
annotation with value
"true"
will be shown in introspection data\&.
.sp
\fBSD_BUS_VTABLE_UNPRIVILEGED\fR
may not be applied to read\-only properties, but read access (to both read\-only and writable properties) is always unrestricted\&.
.sp
Note that this page describes checks implemented in the D\-Bus client\&. The D\-Bus server has an additional policy that may permit or deny connections, see "CONFIGURATION FILE" in
\fBdbus-daemon\fR(1)\&.
.RE
.SH "EXAMPLES"
.PP
\fBExample\ \&1.\ \&Create a simple listener on the bus\fR
.sp
.if n \{\
.RS 4
.\}
.nf
/* SPDX\-License\-Identifier: MIT\-0 */

#include <errno\&.h>
#include <stdbool\&.h>
#include <stddef\&.h>
#include <stdlib\&.h>
#include <stdio\&.h>
#include <systemd/sd\-bus\&.h>

#define _cleanup_(f) __attribute__((cleanup(f)))

#define check(x) ({                             \e
  int r = (x);                                  \e
  errno = r < 0 ? \-r : 0;                       \e
  printf(#x ": %m\en");                          \e
  if (r < 0)                                    \e
    return EXIT_FAILURE;                        \e
  })

typedef struct object {
  char *name;
  uint32_t number;
} object;

static int method(sd_bus_message *m, void *userdata, sd_bus_error *error) {
  printf("Got called with userdata=%p\en", userdata);

  if (sd_bus_message_is_method_call(m,
                                    "org\&.freedesktop\&.systemd\&.VtableExample",
                                    "Method4"))
    return 1;

  const char *string;
  check(sd_bus_message_read(m, "s", &string));
  check(sd_bus_reply_method_return(m, "s", string));

  return 1;
}

static const sd_bus_vtable vtable[] = {
        SD_BUS_VTABLE_START(0),
        SD_BUS_METHOD(
            "Method1", "s", "s", method, 0),
        SD_BUS_METHOD_WITH_NAMES_OFFSET(
            "Method2",
            "so", SD_BUS_PARAM(string) SD_BUS_PARAM(path),
            "s", SD_BUS_PARAM(returnstring),
            method, offsetof(object, number),
            SD_BUS_VTABLE_DEPRECATED),
        SD_BUS_METHOD_WITH_ARGS_OFFSET(
            "Method3",
            SD_BUS_ARGS("s", string, "o", path),
            SD_BUS_RESULT("s", returnstring),
            method, offsetof(object, number),
            SD_BUS_VTABLE_UNPRIVILEGED),
        SD_BUS_METHOD_WITH_ARGS(
            "Method4",
            SD_BUS_NO_ARGS,
            SD_BUS_NO_RESULT,
            method,
            SD_BUS_VTABLE_UNPRIVILEGED),
        SD_BUS_SIGNAL(
            "Signal1",
            "so",
            0),
        SD_BUS_SIGNAL_WITH_NAMES(
            "Signal2",
            "so", SD_BUS_PARAM(string) SD_BUS_PARAM(path),
            0),
        SD_BUS_SIGNAL_WITH_ARGS(
            "Signal3",
            SD_BUS_ARGS("s", string, "o", path),
            0),
        SD_BUS_WRITABLE_PROPERTY(
            "AutomaticStringProperty", "s", NULL, NULL,
            offsetof(object, name),
            SD_BUS_VTABLE_PROPERTY_EMITS_CHANGE),
        SD_BUS_WRITABLE_PROPERTY(
            "AutomaticIntegerProperty", "u", NULL, NULL,
            offsetof(object, number),
            SD_BUS_VTABLE_PROPERTY_EMITS_INVALIDATION),
        SD_BUS_VTABLE_END
};

int main(int argc, char **argv) {
  _cleanup_(sd_bus_flush_close_unrefp) sd_bus *bus = NULL;

  sd_bus_default(&bus);

  object object = { \&.number = 666 };
  check((object\&.name = strdup("name")) != NULL);

  check(sd_bus_add_object_vtable(bus, NULL,
                                 "/org/freedesktop/systemd/VtableExample",
                                 "org\&.freedesktop\&.systemd\&.VtableExample",
                                 vtable,
                                 &object));

  check(sd_bus_request_name(bus,
                            "org\&.freedesktop\&.systemd\&.VtableExample",
                            0));

  for (;;) {
    check(sd_bus_wait(bus, UINT64_MAX));
    check(sd_bus_process(bus, NULL));
  }

  check(sd_bus_release_name(bus, "org\&.freedesktop\&.systemd\&.VtableExample"));
  free(object\&.name);

  return 0;
}
.fi
.if n \{\
.RE
.\}
.PP
This creates a simple client on the bus (the user bus, when run as normal user)\&. We may use the D\-Bus
\fBorg\&.freedesktop\&.DBus\&.Introspectable\&.Introspect\fR
call to acquire the XML description of the interface:
.sp
.if n \{\
.RS 4
.\}
.nf
<!DOCTYPE node PUBLIC "\-//freedesktop//DTD D\-BUS Object Introspection 1\&.0//EN"
"https://www\&.freedesktop\&.org/standards/dbus/1\&.0/introspect\&.dtd">
<!\-\- SPDX\-License\-Identifier: LGPL\-2\&.1\-or\-later \-\->
<node>
 <interface name="org\&.freedesktop\&.DBus\&.Peer">
  <method name="Ping"/>
  <method name="GetMachineId">
   <arg type="s" name="machine_uuid" direction="out"/>
  </method>
 </interface>
 <interface name="org\&.freedesktop\&.DBus\&.Introspectable">
  <method name="Introspect">
   <arg name="xml_data" type="s" direction="out"/>
  </method>
 </interface>
 <interface name="org\&.freedesktop\&.DBus\&.Properties">
  <method name="Get">
   <arg name="interface_name" direction="in" type="s"/>
   <arg name="property_name" direction="in" type="s"/>
   <arg name="value" direction="out" type="v"/>
  </method>
  <method name="GetAll">
   <arg name="interface_name" direction="in" type="s"/>
   <arg name="props" direction="out" type="a{sv}"/>
  </method>
  <method name="Set">
   <arg name="interface_name" direction="in" type="s"/>
   <arg name="property_name" direction="in" type="s"/>
   <arg name="value" direction="in" type="v"/>
  </method>
  <signal name="PropertiesChanged">
   <arg type="s" name="interface_name"/>
   <arg type="a{sv}" name="changed_properties"/>
   <arg type="as" name="invalidated_properties"/>
  </signal>
 </interface>
 <interface name="org\&.freedesktop\&.systemd\&.VtableExample">
  <method name="Method1">
   <arg type="s" direction="in"/>
   <arg type="s" direction="out"/>
  </method>
  <method name="Method2">
   <arg type="s" name="string" direction="in"/>
   <arg type="o" name="path" direction="in"/>
   <arg type="s" name="returnstring" direction="out"/>
   <annotation name="org\&.freedesktop\&.DBus\&.Deprecated" value="true"/>
  </method>
  <property name="AutomaticStringProperty" type="s" access="readwrite">
  </property>
  <property name="AutomaticIntegerProperty" type="u" access="readwrite">
   <annotation name="org\&.freedesktop\&.DBus\&.Property\&.EmitsChangedSignal" value="invalidates"/>
  </property>
 </interface>
</node>

.fi
.if n \{\
.RE
.\}
.SH "RETURN VALUE"
.PP
On success,
\fBsd_bus_add_object_vtable()\fR
and
\fBsd_bus_add_fallback_vtable()\fR
return a non\-negative integer\&. On failure, they return a negative errno\-style error code\&.
.SS "Errors"
.PP
Returned errors may indicate the following problems:
.PP
\fB\-EINVAL\fR
.RS 4
One of the required parameters is
\fBNULL\fR
or invalid\&. A reserved D\-Bus interface was passed as the
\fIinterface\fR
parameter\&.
.RE
.PP
\fB\-ENOPKG\fR
.RS 4
The bus cannot be resolved\&.
.RE
.PP
\fB\-ECHILD\fR
.RS 4
The bus was created in a different process\&.
.RE
.PP
\fB\-ENOMEM\fR
.RS 4
Memory allocation failed\&.
.RE
.PP
\fB\-EPROTOTYPE\fR
.RS 4
\fBsd_bus_add_object_vtable()\fR
and
\fBsd_bus_add_fallback_vtable()\fR
have been both called for the same bus object path, which is not allowed\&.
.RE
.PP
\fB\-EEXIST\fR
.RS 4
This vtable has already been registered for this
\fIinterface\fR
and
\fIpath\fR\&.
.RE
.SH "NOTES"
.PP
These APIs are implemented as a shared library, which can be compiled and linked to with the
\fBlibsystemd\fR\ \&\fBpkg-config\fR(1)
file\&.
.SH "SEE ALSO"
.PP
\fBsd-bus\fR(3),
\fBbusctl\fR(1),
\fBsd_bus_emit_properties_changed\fR(3),
\fBsd_bus_emit_object_added\fR(3)
.SH "NOTES"
.IP " 1." 4
D-Bus annotations
.RS 4
\%https://dbus.freedesktop.org/doc/dbus-specification.html#introspection-format
.RE
.IP " 2." 4
polkit
.RS 4
\%https://www.freedesktop.org/software/polkit/docs/latest/
.RE