From 2abdb13ebe737e39653b79fecd93477e156b9db1 Mon Sep 17 00:00:00 2001 From: Havoc Pennington Date: Tue, 18 Jan 2005 22:20:38 +0000 Subject: 2005-01-18 Havoc Pennington * rename dbus-daemon-1 to dbus-daemon throughout --- bus/dbus-daemon.1.in | 575 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 575 insertions(+) create mode 100644 bus/dbus-daemon.1.in (limited to 'bus/dbus-daemon.1.in') diff --git a/bus/dbus-daemon.1.in b/bus/dbus-daemon.1.in new file mode 100644 index 00000000..902ff374 --- /dev/null +++ b/bus/dbus-daemon.1.in @@ -0,0 +1,575 @@ +.\" +.\" dbus-daemon manual page. +.\" Copyright (C) 2003 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. 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. +.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. + +.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 + 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 + + + +.fi + +.PP +The following elements may be present in the configuration file. + +.TP +.I "" + +.PP +Root element. + +.TP +.I "" + +.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 + element "wins" (previous values are ignored). + +.PP +Example: session + +.TP +.I "" + +.PP +Include a file filename.conf at this point. If the +filename is relative, it is located relative to the configuration file +doing the including. + +.PP + 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 "" + +.PP +Include all files in foo.d 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 "" + +.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 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 "" + +.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 "" + +.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: unix:path=/tmp/foo + +.PP +If there are multiple 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 first. That is, +apps will try to connect to the last address first. + +.TP +.I "" + +.PP +Lists permitted authorization mechanisms. If this element doesn't +exist, then all known mechanisms are allowed. If there are multiple + elements, all the listed mechanisms are allowed. The order in +which mechanisms are listed is not meaningful. + +.PP +Example: EXTERNAL + +.PP +Example: DBUS_COOKIE_SHA1 + +.TP +.I "" + +.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 "" + +.PP + establishes a resource limit. For example: +.nf + 64 + 512 +.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_outgoing_bytes" : total size in bytes of messages + queued up for a single connection + "max_message_size" : max size of a single message in + bytes + "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 DOS all other users by using +up all connections. + +.TP +.I "" + +.PP +The element defines a policy to be applied to a particular +set of connections to the bus. A policy is made up of + and elements. + +.PP +The element has one of three attributes: +.nf + context="(default|mandatory)" + 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 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 "" +.I "" + +.PP +A element appears below a element and prohibits some +action. The element makes an exception to previous +statements, and works just like 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 + + + + + + + +.fi + +.PP +The 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. +Eavesdropping thus only applies to messages that are addressed to +services (i.e. it does not apply to signals). + +.PP +For , 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 , eavesdrop="true" indicates that the rule matches +only when eavesdropping. eavesdrop="false" is the default for +also, but here it means that the rule applies always, even when +not eavesdropping. The eavesdrop attribute can only be combined with +receive rules (with receive_* attributes). + + +.PP +The [send|receive]_requested_reply attribute works similarly to the eavesdrop +attribute. It controls whether the or 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 , [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 , [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 +for a user or group; user/group denials can only be inside +context="default" or context="mandatory" policies. + +.PP +A single 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. would +deny messages with the given interface AND the given bus name. +To get an OR effect you specify multiple 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. + +.TP +.I "" + +.PP +The element contains settings related to Security Enhanced Linux. +More details below. + +.TP +.I "" + +.PP +An element appears below an element and +creates a mapping. Right now only one kind of association is possible: +.nf + +.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 + +.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 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 with an element as target, object +class "dbus" and requested permission "acquire_svc". + +.PP +If the name has no security context associated in the +configuration file, the security context of the bus daemon +itself will be used. + +.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/ -- cgit