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.\"
.\" dbus-daemon manual page.
.\" Copyright (C) 2003,2008 Red Hat, Inc.
.\"
.TH dbus-daemon 1
.SH NAME
dbus-daemon \- Message bus daemon
.SH SYNOPSIS
.PP
.B dbus-daemon
dbus-daemon [\-\-version] [\-\-session] [\-\-system] [\-\-config-file=FILE]
[\-\-print-address[=DESCRIPTOR]] [\-\-print-pid[=DESCRIPTOR]] [\-\-fork]

.SH DESCRIPTION
\fIdbus-daemon\fP is the D-Bus message bus daemon. See
http://www.freedesktop.org/software/dbus/ for more information about
the big picture. D-Bus is first a library that provides one-to-one
communication between any two applications; \fIdbus-daemon\fP is an
application that uses this library to implement a message bus
daemon. Multiple programs connect to the message bus daemon and can
exchange messages with one another.
.PP
There are two standard message bus instances: the systemwide message bus
(installed on many systems as the "messagebus" init service) and the
per-user-login-session message bus (started each time a user logs in).
\fIdbus-daemon\fP is used for both of these instances, but with
a different configuration file.
.PP
The \-\-session option is equivalent to
"\-\-config-file=@EXPANDED_SYSCONFDIR@/dbus-1/session.conf" and the \-\-system
option is equivalent to
"\-\-config-file=@EXPANDED_SYSCONFDIR@/dbus-1/system.conf". By creating
additional configuration files and using the \-\-config-file option,
additional special-purpose message bus daemons could be created.
.PP
The systemwide daemon is normally launched by an init script,
standardly called simply "messagebus".
.PP
The systemwide daemon is largely used for broadcasting system events,
such as changes to the printer queue, or adding/removing devices.
.PP
The per-session daemon is used for various interprocess communication
among desktop applications (however, it is not tied to X or the GUI
in any way).
.PP
SIGHUP will cause the D-Bus daemon to PARTIALLY reload its
configuration file and to flush its user/group information caches. Some
configuration changes would require kicking all apps off the bus; so they will
only take effect if you restart the daemon. Policy changes should take effect
with SIGHUP.

.SH OPTIONS
The following options are supported:
.TP
.I "--config-file=FILE"
Use the given configuration file.
.TP
.I "--fork"
Force the message bus to fork and become a daemon, even if
the configuration file does not specify that it should.
In most contexts the configuration file already gets this
right, though.
.I "--nofork"
Force the message bus not to fork and become a daemon, even if
the configuration file specifies that it should.
.TP
.I "--print-address[=DESCRIPTOR]"
Print the address of the message bus to standard output, or
to the given file descriptor. This is used by programs that
launch the message bus.
.TP
.I "--print-pid[=DESCRIPTOR]"
Print the process ID of the message bus to standard output, or
to the given file descriptor. This is used by programs that
launch the message bus.
.TP
.I "--session"
Use the standard configuration file for the per-login-session message
bus.
.TP
.I "--system"
Use the standard configuration file for the systemwide message bus.
.TP
.I "--version"
Print the version of the daemon.
.TP
.I "--introspect"
Print the introspection information for all D-Bus internal interfaces.
.TP
.I "--address[=ADDRESS]"
Set the address to listen on. This option overrides the address
configured in the configuration file.
.TP
.I "--systemd-activation"
Enable systemd-style service activation. Only useful in conjunction
with the systemd system and session manager on Linux.

.SH CONFIGURATION FILE

A message bus daemon has a configuration file that specializes it
for a particular application. For example, one configuration
file might set up the message bus to be a systemwide message bus,
while another might set it up to be a per-user-login-session bus.
.PP
The configuration file also establishes resource limits, security
parameters, and so forth.
.PP
The configuration file is not part of any interoperability
specification and its backward compatibility is not guaranteed; this
document is documentation, not specification.
.PP
The standard systemwide and per-session message bus setups are
configured in the files "@EXPANDED_SYSCONFDIR@/dbus-1/system.conf" and
"@EXPANDED_SYSCONFDIR@/dbus-1/session.conf".  These files normally
<include> a system-local.conf or session-local.conf; you can put local
overrides in those files to avoid modifying the primary configuration
files.

.PP
The configuration file is an XML document. It must have the following
doctype declaration:
.nf

   <!DOCTYPE busconfig PUBLIC "-//freedesktop//DTD D-Bus Bus Configuration 1.0//EN"
    "http://www.freedesktop.org/standards/dbus/1.0/busconfig.dtd">

.fi

.PP
The following elements may be present in the configuration file.

.TP
.I "<busconfig>"

.PP
Root element.

.TP
.I "<type>"

.PP
The well-known type of the message bus. Currently known values are
"system" and "session"; if other values are set, they should be
either added to the D-Bus specification, or namespaced.  The last
<type> element "wins" (previous values are ignored). This element
only controls which message bus specific environment variables are
set in activated clients.  Most of the policy that distinguishes a
session bus from the system bus is controlled from the other elements
in the configuration file.

.PP
If the well-known type of the message bus is "session", then the
DBUS_STARTER_BUS_TYPE environment variable will be set to "session"
and the DBUS_SESSION_BUS_ADDRESS environment variable will be set
to the address of the session bus.  Likewise, if the type of the
message bus is "system", then the DBUS_STARTER_BUS_TYPE environment
variable will be set to "system" and the DBUS_SESSION_BUS_ADDRESS
environment variable will be set to the address of the system bus
(which is normally well known anyway).

.PP
Example: <type>session</type>

.TP
.I "<include>"

.PP
Include a file <include>filename.conf</include> at this point.  If the
filename is relative, it is located relative to the configuration file
doing the including.

.PP
<include> has an optional attribute "ignore_missing=(yes|no)"
which defaults to "no" if not provided. This attribute
controls whether it's a fatal error for the included file
to be absent.

.TP
.I "<includedir>"

.PP
Include all files in <includedir>foo.d</includedir> at this
point. Files in the directory are included in undefined order.
Only files ending in ".conf" are included.

.PP
This is intended to allow extension of the system bus by particular
packages. For example, if CUPS wants to be able to send out
notification of printer queue changes, it could install a file to
@EXPANDED_SYSCONFDIR@/dbus-1/system.d that allowed all apps to receive
this message and allowed the printer daemon user to send it.

.TP
.I "<user>"

.PP
The user account the daemon should run as, as either a username or a
UID. If the daemon cannot change to this UID on startup, it will exit.
If this element is not present, the daemon will not change or care
about its UID.

.PP
The last <user> entry in the file "wins", the others are ignored.

.PP
The user is changed after the bus has completed initialization.  So
sockets etc. will be created before changing user, but no data will be
read from clients before changing user. This means that sockets
and PID files can be created in a location that requires root
privileges for writing.

.TP
.I "<fork>"

.PP
If present, the bus daemon becomes a real daemon (forks
into the background, etc.). This is generally used
rather than the \-\-fork command line option.

.TP
.I "<keep_umask>"

.PP
If present, the bus daemon keeps its original umask when forking.
This may be useful to avoid affecting the behavior of child processes.

.TP
.I "<listen>"

.PP
Add an address that the bus should listen on. The
address is in the standard D-Bus format that contains
a transport name plus possible parameters/options.

.PP
Example: <listen>unix:path=/tmp/foo</listen>

.PP
Example: <listen>tcp:host=localhost,port=1234</listen>

.PP
If there are multiple <listen> elements, then the bus listens
on multiple addresses. The bus will pass its address to
started services or other interested parties with
the last address given in <listen> first. That is,
apps will try to connect to the last <listen> address first.

.PP
tcp sockets can accept IPv4 addresses, IPv6 addresses or hostnames.
If a hostname resolves to multiple addresses, the server will bind
to all of them. The family=ipv4 or family=ipv6 options can be used
to force it to bind to a subset of addresses

.PP
Example: <listen>tcp:host=localhost,port=0,family=ipv4</listen>

.PP
A special case is using a port number of zero (or omitting the port),
which means to choose an available port selected by the operating
system. The port number chosen can be obtained with the
--print-address command line parameter and will be present in other
cases where the server reports its own address, such as when
DBUS_SESSION_BUS_ADDRESS is set.

.PP
Example: <listen>tcp:host=localhost,port=0</listen>

.PP
tcp addresses also allow a bind=hostname option, which will override
the host option specifying what address to bind to, without changing
the address reported by the bus. The bind option can also take a
special name '*' to cause the bus to listen on all local address
(INADDR_ANY). The specified host should be a valid name of the local
machine or weird stuff will happen.

.PP
Example: <listen>tcp:host=localhost,bind=*,port=0</listen>

.TP
.I "<auth>"

.PP
Lists permitted authorization mechanisms. If this element doesn't
exist, then all known mechanisms are allowed.  If there are multiple
<auth> elements, all the listed mechanisms are allowed.  The order in
which mechanisms are listed is not meaningful.

.PP
Example: <auth>EXTERNAL</auth>

.PP
Example: <auth>DBUS_COOKIE_SHA1</auth>

.TP
.I "<servicedir>"

.PP
Adds a directory to scan for .service files. Directories are
scanned starting with the last to appear in the config file
(the first .service file found that provides a particular
service will be used).

.PP
Service files tell the bus how to automatically start a program.
They are primarily used with the per-user-session bus,
not the systemwide bus.

.TP
.I "<standard_session_servicedirs/>"

.PP
<standard_session_servicedirs/> is equivalent to specifying a series
of <servicedir/> elements for each of the data directories in the "XDG
Base Directory Specification" with the subdirectory "dbus-1/services",
so for example "/usr/share/dbus-1/services" would be among the
directories searched.

.PP
The "XDG Base Directory Specification" can be found at
http://freedesktop.org/wiki/Standards/basedir-spec if it hasn't moved,
otherwise try your favorite search engine.

.PP
The <standard_session_servicedirs/> option is only relevant to the
per-user-session bus daemon defined in
@EXPANDED_SYSCONFDIR@/dbus-1/session.conf. Putting it in any other
configuration file would probably be nonsense.

.TP
.I "<standard_system_servicedirs/>"

.PP
<standard_system_servicedirs/> specifies the standard system-wide
activation directories that should be searched for service files.
This option defaults to @EXPANDED_DATADIR@/dbus-1/system-services.

.PP
The <standard_system_servicedirs/> option is only relevant to the
per-system bus daemon defined in
@EXPANDED_SYSCONFDIR@/dbus-1/system.conf. Putting it in any other
configuration file would probably be nonsense.

.TP
.I "<servicehelper/>"

.PP
<servicehelper/> specifies the setuid helper that is used to launch
system daemons with an alternate user. Typically this should be
the dbus-daemon-launch-helper executable in located in libexec.

.PP
The <servicehelper/> option is only relevant to the per-system bus daemon
defined in @EXPANDED_SYSCONFDIR@/dbus-1/system.conf. Putting it in any other
configuration file would probably be nonsense.

.TP
.I "<limit>"

.PP
<limit> establishes a resource limit. For example:
.nf
  <limit name="max_message_size">64</limit>
  <limit name="max_completed_connections">512</limit>
.fi

.PP
The name attribute is mandatory.
Available limit names are:
.nf
      "max_incoming_bytes"         : total size in bytes of messages
                                     incoming from a single connection
      "max_incoming_unix_fds"      : total number of unix fds of messages
                                     incoming from a single connection
      "max_outgoing_bytes"         : total size in bytes of messages
                                     queued up for a single connection
      "max_outgoing_unix_fds"      : total number of unix fds of messages
                                     queued up for a single connection
      "max_message_size"           : max size of a single message in
                                     bytes
      "max_message_unix_fds"       : max unix fds of a single message
      "service_start_timeout"      : milliseconds (thousandths) until
                                     a started service has to connect
      "auth_timeout"               : milliseconds (thousandths) a
                                     connection is given to
                                     authenticate
      "max_completed_connections"  : max number of authenticated connections
      "max_incomplete_connections" : max number of unauthenticated
                                     connections
      "max_connections_per_user"   : max number of completed connections from
                                     the same user
      "max_pending_service_starts" : max number of service launches in
                                     progress at the same time
      "max_names_per_connection"   : max number of names a single
                                     connection can own
      "max_match_rules_per_connection": max number of match rules for a single
                                        connection
      "max_replies_per_connection" : max number of pending method
                                     replies per connection
                                     (number of calls-in-progress)
      "reply_timeout"              : milliseconds (thousandths)
                                     until a method call times out
.fi

.PP
The max incoming/outgoing queue sizes allow a new message to be queued
if one byte remains below the max. So you can in fact exceed the max
by max_message_size.

.PP
max_completed_connections divided by max_connections_per_user is the
number of users that can work together to denial-of-service all other users by using
up all connections on the systemwide bus.

.PP
Limits are normally only of interest on the systemwide bus, not the user session
buses.

.TP
.I "<policy>"

.PP
The <policy> element defines a security policy to be applied to a particular
set of connections to the bus. A policy is made up of
<allow> and <deny> elements. Policies are normally used with the systemwide bus;
they are analogous to a firewall in that they allow expected traffic
and prevent unexpected traffic.

.PP
Currently, the system bus has a default-deny policy for sending method calls
and owning bus names.  Everything else, in particular reply messages, receive
checks, and signals has a default allow policy.

.PP
In general, it is best to keep system services as small, targeted programs which
run in their own process and provide a single bus name.  Then, all that is needed
is an <allow> rule for the "own" permission to let the process claim the bus
name, and a "send_destination" rule to allow traffic from some or all uids to
your service.

.PP
The <policy> element has one of four attributes:
.nf
  context="(default|mandatory)"
  at_console="(true|false)"
  user="username or userid"
  group="group name or gid"
.fi

.PP
Policies are applied to a connection as follows:
.nf
   - all context="default" policies are applied
   - all group="connection's user's group" policies are applied
     in undefined order
   - all user="connection's auth user" policies are applied
     in undefined order
   - all at_console="true" policies are applied
   - all at_console="false" policies are applied
   - all context="mandatory" policies are applied
.fi

.PP
Policies applied later will override those applied earlier,
when the policies overlap. Multiple policies with the same
user/group/context are applied in the order they appear
in the config file.

.TP
.I "<deny>"
.I "<allow>"

.PP
A <deny> element appears below a <policy> element and prohibits some
action. The <allow> element makes an exception to previous <deny>
statements, and works just like <deny> but with the inverse meaning.

.PP
The possible attributes of these elements are:
.nf
   send_interface="interface_name"
   send_member="method_or_signal_name"
   send_error="error_name"
   send_destination="name"
   send_type="method_call" | "method_return" | "signal" | "error"
   send_path="/path/name"

   receive_interface="interface_name"
   receive_member="method_or_signal_name"
   receive_error="error_name"
   receive_sender="name"
   receive_type="method_call" | "method_return" | "signal" | "error"
   receive_path="/path/name"

   send_requested_reply="true" | "false"
   receive_requested_reply="true" | "false"

   eavesdrop="true" | "false"

   own="name"
   user="username"
   group="groupname"
.fi

.PP
Examples:
.nf
   <deny send_destination="org.freedesktop.Service" send_interface="org.freedesktop.System" send_member="Reboot"/>
   <deny send_destination="org.freedesktop.System"/>
   <deny receive_sender="org.freedesktop.System"/>
   <deny user="john"/>
   <deny group="enemies"/>
.fi

.PP
The <deny> element's attributes determine whether the deny "matches" a
particular action. If it matches, the action is denied (unless later
rules in the config file allow it).
.PP
send_destination and receive_sender rules mean that messages may not be
sent to or received from the *owner* of the given name, not that
they may not be sent *to that name*. That is, if a connection
owns services A, B, C, and sending to A is denied, sending to B or C
will not work either.
.PP
The other send_* and receive_* attributes are purely textual/by-value
matches against the given field in the message header.
.PP
"Eavesdropping" occurs when an application receives a message that
was explicitly addressed to a name the application does not own, or
is a reply to such a message. Eavesdropping thus only applies to
messages that are addressed to services and replies to such messages
(i.e. it does not apply to signals).
.PP
For <allow>, eavesdrop="true" indicates that the rule matches even
when eavesdropping. eavesdrop="false" is the default and means that
the rule only allows messages to go to their specified recipient.
For <deny>, eavesdrop="true" indicates that the rule matches
only when eavesdropping. eavesdrop="false" is the default for <deny>
also, but here it means that the rule applies always, even when
not eavesdropping. The eavesdrop attribute can only be combined with
send and receive rules (with send_* and receive_* attributes).
.PP
The [send|receive]_requested_reply attribute works similarly to the eavesdrop
attribute. It controls whether the <deny> or <allow> matches a reply
that is expected (corresponds to a previous method call message).
This attribute only makes sense for reply messages (errors and method
returns), and is ignored for other message types.

.PP
For <allow>, [send|receive]_requested_reply="true" is the default and indicates that
only requested replies are allowed by the
rule. [send|receive]_requested_reply="false" means that the rule allows any reply
even if unexpected.

.PP
For <deny>, [send|receive]_requested_reply="false" is the default but indicates that
the rule matches only when the reply was not
requested. [send|receive]_requested_reply="true" indicates that the rule applies
always, regardless of pending reply state.

.PP
user and group denials mean that the given user or group may
not connect to the message bus.

.PP
For "name", "username", "groupname", etc.
the character "*" can be substituted, meaning "any." Complex globs
like "foo.bar.*" aren't allowed for now because they'd be work to
implement and maybe encourage sloppy security anyway.

.PP
It does not make sense to deny a user or group inside a <policy>
for a user or group; user/group denials can only be inside
context="default" or context="mandatory" policies.

.PP
A single <deny> rule may specify combinations of attributes such as
send_destination and send_interface and send_type. In this case, the
denial applies only if both attributes match the message being denied.
e.g. <deny send_interface="foo.bar" send_destination="foo.blah"/> would
deny messages with the given interface AND the given bus name.
To get an OR effect you specify multiple <deny> rules.

.PP
You can't include both send_ and receive_ attributes on the same
rule, since "whether the message can be sent" and "whether it can be
received" are evaluated separately.

.PP
Be careful with send_interface/receive_interface, because the
interface field in messages is optional.  In particular, do NOT
specify <deny send_interface="org.foo.Bar"/>!  This will cause
no-interface messages to be blocked for all services, which is
almost certainly not what you intended.  Always use rules of
the form: <deny send_interface="org.foo.Bar" send_destination="org.foo.Service"/>

.TP
.I "<selinux>"

.PP
The <selinux> element contains settings related to Security Enhanced Linux.
More details below.

.TP
.I "<associate>"

.PP
An <associate> element appears below an <selinux> element and
creates a mapping. Right now only one kind of association is possible:
.nf
   <associate own="org.freedesktop.Foobar" context="foo_t"/>
.fi

.PP
This means that if a connection asks to own the name
"org.freedesktop.Foobar" then the source context will be the context
of the connection and the target context will be "foo_t" - see the
short discussion of SELinux below.

.PP
Note, the context here is the target context when requesting a name,
NOT the context of the connection owning the name.

.PP
There's currently no way to set a default for owning any name, if
we add this syntax it will look like:
.nf
   <associate own="*" context="foo_t"/>
.fi
If you find a reason this is useful, let the developers know.
Right now the default will be the security context of the bus itself.

.PP
If two <associate> elements specify the same name, the element
appearing later in the configuration file will be used.

.SH SELinux

.PP
See http://www.nsa.gov/selinux/ for full details on SELinux. Some useful excerpts:

.IP "" 8
Every subject (process) and object (e.g. file, socket, IPC object,
etc) in the system is assigned a collection of security attributes,
known as a security context. A security context contains all of the
security attributes associated with a particular subject or object
that are relevant to the security policy.

.IP "" 8
In order to better encapsulate security contexts and to provide
greater efficiency, the policy enforcement code of SELinux typically
handles security identifiers (SIDs) rather than security contexts. A
SID is an integer that is mapped by the security server to a security
context at runtime.

.IP "" 8
When a security decision is required, the policy enforcement code
passes a pair of SIDs (typically the SID of a subject and the SID of
an object, but sometimes a pair of subject SIDs or a pair of object
SIDs), and an object security class to the security server. The object
security class indicates the kind of object, e.g. a process, a regular
file, a directory, a TCP socket, etc.

.IP "" 8
Access decisions specify whether or not a permission is granted for a
given pair of SIDs and class. Each object class has a set of
associated permissions defined to control operations on objects with
that class.

.PP
D-Bus performs SELinux security checks in two places.

.PP
First, any time a message is routed from one connection to another
connection, the bus daemon will check permissions with the security context of
the first connection as source, security context of the second connection
as target, object class "dbus" and requested permission "send_msg".

.PP
If a security context is not available for a connection
(impossible when using UNIX domain sockets), then the target
context used is the context of the bus daemon itself.
There is currently no way to change this default, because we're
assuming that only UNIX domain sockets will be used to
connect to the systemwide bus. If this changes, we'll
probably add a way to set the default connection context.

.PP
Second, any time a connection asks to own a name,
the bus daemon will check permissions with the security
context of the connection as source, the security context specified
for the name in the config file as target, object
class "dbus" and requested permission "acquire_svc".

.PP
The security context for a bus name is specified with the
<associate> element described earlier in this document.
If a name has no security context associated in the
configuration file, the security context of the bus daemon
itself will be used.

.SH DEBUGGING

.PP
If you're trying to figure out where your messages are going or why
you aren't getting messages, there are several things you can try.
.PP
Remember that the system bus is heavily locked down and if you
haven't installed a security policy file to allow your message
through, it won't work. For the session bus, this is not a concern.
.PP
The simplest way to figure out what's happening on the bus is to run
the \fIdbus-monitor\fP program, which comes with the D-Bus
package. You can also send test messages with \fIdbus-send\fP. These
programs have their own man pages.
.PP
If you want to know what the daemon itself is doing, you might consider
running a separate copy of the daemon to test against. This will allow you
to put the daemon under a debugger, or run it with verbose output, without
messing up your real session and system daemons.
.PP
To run a separate test copy of the daemon, for example you might open a terminal
and type:
.nf
  DBUS_VERBOSE=1 dbus-daemon --session --print-address
.fi
.PP
The test daemon address will be printed when the daemon starts. You will need
to copy-and-paste this address and use it as the value of the
DBUS_SESSION_BUS_ADDRESS environment variable when you launch the applications
you want to test. This will cause those applications to connect to your
test bus instead of the DBUS_SESSION_BUS_ADDRESS of your real session bus.
.PP
DBUS_VERBOSE=1 will have NO EFFECT unless your copy of D-Bus
was compiled with verbose mode enabled. This is not recommended in
production builds due to performance impact. You may need to rebuild
D-Bus if your copy was not built with debugging in mind. (DBUS_VERBOSE
also affects the D-Bus library and thus applications using D-Bus; it may
be useful to see verbose output on both the client side and from the daemon.)
.PP
If you want to get fancy, you can create a custom bus
configuration for your test bus (see the session.conf and system.conf
files that define the two default configurations for example). This
would allow you to specify a different directory for .service files,
for example.

.SH AUTHOR
See http://www.freedesktop.org/software/dbus/doc/AUTHORS

.SH BUGS
Please send bug reports to the D-Bus mailing list or bug tracker,
see http://www.freedesktop.org/software/dbus/