/usr/lib/ocaml/obus/oBus_bus.mli is in libobus-ocaml-dev 1.1.5-5build1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 | (*
* oBus_bus.mli
* ------------
* Copyright : (c) 2008, Jeremie Dimino <jeremie@dimino.org>
* Licence : BSD3
*
* This file is a part of obus, an ocaml implementation of D-Bus.
*)
(** Message buses management *)
type t = OBus_connection.t
(** {6 Well-known instances} *)
val session : ?switch : Lwt_switch.t -> unit -> t Lwt.t
(** [session ?switch ()] returns a connection to the user session
message bus. Subsequent calls to {!session} will return the same
bus. OBus will automatically exits the program when an error
happen on the session bus. You can change this behavior by
calling {!OBus_connection.set_on_disconnect}. *)
val system : ?switch : Lwt_switch.t -> unit -> t Lwt.t
(** [system ?switch ()] returns a connection to the system message
bus. As for {!session}, subsequent calls to {!system} will
return the same bus. However, if the connection is closed or it
crashes, {!system} will try to reopen it. *)
(** {6 Creation} *)
val of_addresses : ?switch : Lwt_switch.t -> OBus_address.t list -> t Lwt.t
(** Establish a connection with a message bus. The bus must be
accessible with at least one of the given addresses *)
val register_connection : OBus_connection.t -> unit Lwt.t
(** Register the given connection to a message bus. It has the side
effect of requesting a name to the message bus if not already
done.
If the connection is a connection to a message bus, created with
one of the function of {!OBus_connection} then
{!register_connection} must be called on it before any other
functions. *)
val exit_on_disconnect : exn -> 'a
(** Function which exit the program as follow:
- if [exn] is {!OBus_connection.Connection_lost}, it exits
program with a return code of 0
- if [exn] is a fatal error, it prints a message on stderr and
exits the program with an exit code of 1
*)
(** {6 Peer/proxy helpers} *)
val get_peer : t -> OBus_name.bus -> OBus_peer.t Lwt.t
(** [get_peer bus name] return the peer owning the bus name
[name]. If the service is not activated and is activable, then
it is started *)
val get_proxy : t -> OBus_name.bus -> OBus_path.t -> OBus_proxy.t Lwt.t
(** [get_proxy bus name path] resolve [name] with {!get_peer} and
return a proxy for the object with path [path] on this
service *)
(** {6 Bus names} *)
val name : t -> OBus_name.bus
(** Same as {!OBus_connection.name}. *)
val names : t -> Set.Make(String).t React.signal
(** [names bus] is the signal holding the set of all names we
currently own. It raises [Invalid_argument] if the connection is
not a connection to a message bus. *)
val hello : t -> OBus_name.bus Lwt.t
(** [hello connection] sends an hello message to the message bus,
which returns the unique connection name of the connection. Note
that if the hello message has already been sent, it will
fail. *)
exception Access_denied of string
(** Exception raised when a name cannot be owned due to security
policies *)
type request_name_result =
[ `Primary_owner
(** You are now the primary owner of the connection *)
| `In_queue
(** You will get the name when it will be available *)
| `Exists
(** Somebody else already have the name and nobody specify
what to do in this case *)
| `Already_owner
(** You already have the name *) ]
val request_name : t ->
?allow_replacement:bool ->
?replace_existing:bool ->
?do_not_queue:bool ->
OBus_name.bus -> request_name_result Lwt.t
(** Request a name to the bus. This is the way to acquire a
well-know name.
All optionnal parameters default to [false], their meaning are:
- [allow_replacement]: allow other application to steal you the name
- [replace_existing]: replace any existing owner of the name
- [do_not_queue]: do not queue if not available
*)
type release_name_result =
[ `Released
| `Non_existent
| `Not_owner ]
val release_name : t -> OBus_name.bus -> release_name_result Lwt.t
(** {6 Service starting/discovering} *)
exception Service_unknown of string
(** Exception raised when a service is not present on a message bus
and can not be started automatically *)
type start_service_by_name_result =
[ `Success
| `Already_running ]
val start_service_by_name : t -> OBus_name.bus -> start_service_by_name_result Lwt.t
(** Start a service on the given bus by its name *)
val name_has_owner : t -> OBus_name.bus -> bool Lwt.t
(** Return [true] if the service is currently running, i.e. some
application offer it on the message bus *)
val list_names : t -> OBus_name.bus list Lwt.t
(** List names currently running on the message bus *)
val list_activatable_names : t -> OBus_name.bus list Lwt.t
(** List services that can be activated. A service is automatically
activated when you call one of its method or when you use
[start_service_by_name] *)
exception Name_has_no_owner of string
val get_name_owner : t -> OBus_name.bus -> OBus_name.bus Lwt.t
(** Return the connection unique name of the given service. Raise a
[Name_has_no_owner] if the given name does not have an owner. *)
val list_queued_owners : t -> OBus_name.bus -> OBus_name.bus list Lwt.t
(** Return the connection unique names of applications waiting for a
name *)
exception Service_unknown of string
(** Raised when we try to contact a service which is not available
and the bus do not known how to start it *)
(** {6 Messages routing} *)
(** Note that you should prefer using {!OBus_match.export} and
{!OBus_match.remove} since they do not add duplicated rules
several times. *)
exception Match_rule_invalid of string
(** Exception raised when the program try to send an invalid match
rule. This should never happen since values of type
{!OBus_match.rule} are always valid. *)
val add_match : t -> OBus_match.rule -> unit Lwt.t
(** Add a matching rule on a message bus. This means that every
message routed on the message bus matching this rule will be
sent to us.
It can raise {!OBus_error.No_memory}.
*)
exception Match_rule_not_found of string
val remove_match : t -> OBus_match.rule -> unit Lwt.t
(** Remove a match rule from the message bus. It raises
{!Match_rule_not_found} if the rule does not exists *)
(** {6 Other} *)
(** These functions are also offered by the message bus *)
exception Adt_audit_data_unknown of string
exception Selinux_security_context_unknown of string
val update_activation_environment : t -> (string * string) list -> unit Lwt.t
val get_connection_unix_user : t -> OBus_name.bus -> int Lwt.t
val get_connection_unix_process_id : t -> OBus_name.bus -> int Lwt.t
val get_adt_audit_session_data : t -> OBus_name.bus -> string Lwt.t
val get_connection_selinux_security_context : t -> OBus_name.bus -> string Lwt.t
val reload_config : t -> unit Lwt.t
val get_id : t -> OBus_uuid.t Lwt.t
(** {6 Signals} *)
val name_owner_changed : t -> (OBus_name.bus * OBus_name.bus * OBus_name.bus) OBus_signal.t
(** This signal is emited each time the owner of a name (unique
connection name or service name) change. *)
val name_lost : t -> OBus_name.bus OBus_signal.t
val name_acquired : t -> OBus_name.bus OBus_signal.t
|