1 /* -*- mode: C; c-file-style: "gnu" -*- */ 2 /* dbus-connection.c DBusConnection object 3 * 4 * Copyright (C) 2002-2006 Red Hat Inc. 5 * 6 * Licensed under the Academic Free License version 2.1 7 * 8 * This program is free software; you can redistribute it and/or modify 9 * it under the terms of the GNU General Public License as published by 10 * the Free Software Foundation; either version 2 of the License, or 11 * (at your option) any later version. 12 * 13 * This program is distributed in the hope that it will be useful, 14 * but WITHOUT ANY WARRANTY; without even the implied warranty of 15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 16 * GNU General Public License for more details. 17 * 18 * You should have received a copy of the GNU General Public License 19 * along with this program; if not, write to the Free Software 20 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA 21 * 22 */ 23 24 #include <config.h> 25 #include "dbus-shared.h" 26 #include "dbus-connection.h" 27 #include "dbus-list.h" 28 #include "dbus-timeout.h" 29 #include "dbus-transport.h" 30 #include "dbus-watch.h" 31 #include "dbus-connection-internal.h" 32 #include "dbus-pending-call-internal.h" 33 #include "dbus-list.h" 34 #include "dbus-hash.h" 35 #include "dbus-message-internal.h" 36 #include "dbus-threads.h" 37 #include "dbus-protocol.h" 38 #include "dbus-dataslot.h" 39 #include "dbus-string.h" 40 #include "dbus-pending-call.h" 41 #include "dbus-object-tree.h" 42 #include "dbus-threads-internal.h" 43 #include "dbus-bus.h" 44 45 #ifdef DBUS_DISABLE_CHECKS 46 #define TOOK_LOCK_CHECK(connection) 47 #define RELEASING_LOCK_CHECK(connection) 48 #define HAVE_LOCK_CHECK(connection) 49 #else 50 #define TOOK_LOCK_CHECK(connection) do { \ 51 _dbus_assert (!(connection)->have_connection_lock); \ 52 (connection)->have_connection_lock = TRUE; \ 53 } while (0) 54 #define RELEASING_LOCK_CHECK(connection) do { \ 55 _dbus_assert ((connection)->have_connection_lock); \ 56 (connection)->have_connection_lock = FALSE; \ 57 } while (0) 58 #define HAVE_LOCK_CHECK(connection) _dbus_assert ((connection)->have_connection_lock) 59 /* A "DO_NOT_HAVE_LOCK_CHECK" is impossible since we need the lock to check the flag */ 60 #endif 61 62 #define TRACE_LOCKS 0 63 64 #define CONNECTION_LOCK(connection) do { \ 65 if (TRACE_LOCKS) { _dbus_verbose (" LOCK: %s\n", _DBUS_FUNCTION_NAME); } \ 66 _dbus_mutex_lock ((connection)->mutex); \ 67 TOOK_LOCK_CHECK (connection); \ 68 } while (0) 69 70 #define CONNECTION_UNLOCK(connection) do { \ 71 if (TRACE_LOCKS) { _dbus_verbose (" UNLOCK: %s\n", _DBUS_FUNCTION_NAME); } \ 72 RELEASING_LOCK_CHECK (connection); \ 73 _dbus_mutex_unlock ((connection)->mutex); \ 74 } while (0) 75 76 #define DISPATCH_STATUS_NAME(s) \ 77 ((s) == DBUS_DISPATCH_COMPLETE ? "complete" : \ 78 (s) == DBUS_DISPATCH_DATA_REMAINS ? "data remains" : \ 79 (s) == DBUS_DISPATCH_NEED_MEMORY ? "need memory" : \ 80 "???") 81 82 /** 83 * @defgroup DBusConnection DBusConnection 84 * @ingroup DBus 85 * @brief Connection to another application 86 * 87 * A DBusConnection represents a connection to another 88 * application. Messages can be sent and received via this connection. 89 * The other application may be a message bus; for convenience, the 90 * function dbus_bus_get() is provided to automatically open a 91 * connection to the well-known message buses. 92 * 93 * In brief a DBusConnection is a message queue associated with some 94 * message transport mechanism such as a socket. The connection 95 * maintains a queue of incoming messages and a queue of outgoing 96 * messages. 97 * 98 * Several functions use the following terms: 99 * <ul> 100 * <li><b>read</b> means to fill the incoming message queue by reading from the socket</li> 101 * <li><b>write</b> means to drain the outgoing queue by writing to the socket</li> 102 * <li><b>dispatch</b> means to drain the incoming queue by invoking application-provided message handlers</li> 103 * </ul> 104 * 105 * The function dbus_connection_read_write_dispatch() for example does all 106 * three of these things, offering a simple alternative to a main loop. 107 * 108 * In an application with a main loop, the read/write/dispatch 109 * operations are usually separate. 110 * 111 * The connection provides #DBusWatch and #DBusTimeout objects to 112 * the main loop. These are used to know when reading, writing, or 113 * dispatching should be performed. 114 * 115 * Incoming messages are processed 116 * by calling dbus_connection_dispatch(). dbus_connection_dispatch() 117 * runs any handlers registered for the topmost message in the message 118 * queue, then discards the message, then returns. 119 * 120 * dbus_connection_get_dispatch_status() indicates whether 121 * messages are currently in the queue that need dispatching. 122 * dbus_connection_set_dispatch_status_function() allows 123 * you to set a function to be used to monitor the dispatch status. 124 * 125 * If you're using GLib or Qt add-on libraries for D-Bus, there are 126 * special convenience APIs in those libraries that hide 127 * all the details of dispatch and watch/timeout monitoring. 128 * For example, dbus_connection_setup_with_g_main(). 129 * 130 * If you aren't using these add-on libraries, but want to process 131 * messages asynchronously, you must manually call 132 * dbus_connection_set_dispatch_status_function(), 133 * dbus_connection_set_watch_functions(), 134 * dbus_connection_set_timeout_functions() providing appropriate 135 * functions to integrate the connection with your application's main 136 * loop. This can be tricky to get right; main loops are not simple. 137 * 138 * If you don't need to be asynchronous, you can ignore #DBusWatch, 139 * #DBusTimeout, and dbus_connection_dispatch(). Instead, 140 * dbus_connection_read_write_dispatch() can be used. 141 * 142 * Or, in <em>very</em> simple applications, 143 * dbus_connection_pop_message() may be all you need, allowing you to 144 * avoid setting up any handler functions (see 145 * dbus_connection_add_filter(), 146 * dbus_connection_register_object_path() for more on handlers). 147 * 148 * When you use dbus_connection_send() or one of its variants to send 149 * a message, the message is added to the outgoing queue. It's 150 * actually written to the network later; either in 151 * dbus_watch_handle() invoked by your main loop, or in 152 * dbus_connection_flush() which blocks until it can write out the 153 * entire outgoing queue. The GLib/Qt add-on libraries again 154 * handle the details here for you by setting up watch functions. 155 * 156 * When a connection is disconnected, you are guaranteed to get a 157 * signal "Disconnected" from the interface 158 * #DBUS_INTERFACE_LOCAL, path 159 * #DBUS_PATH_LOCAL. 160 * 161 * You may not drop the last reference to a #DBusConnection 162 * until that connection has been disconnected. 163 * 164 * You may dispatch the unprocessed incoming message queue even if the 165 * connection is disconnected. However, "Disconnected" will always be 166 * the last message in the queue (obviously no messages are received 167 * after disconnection). 168 * 169 * After calling dbus_threads_init(), #DBusConnection has thread 170 * locks and drops them when invoking user callbacks, so in general is 171 * transparently threadsafe. However, #DBusMessage does NOT have 172 * thread locks; you must not send the same message to multiple 173 * #DBusConnection if those connections will be used from different threads, 174 * for example. 175 * 176 * Also, if you dispatch or pop messages from multiple threads, it 177 * may work in the sense that it won't crash, but it's tough to imagine 178 * sane results; it will be completely unpredictable which messages 179 * go to which threads. 180 * 181 * It's recommended to dispatch from a single thread. 182 * 183 * The most useful function to call from multiple threads at once 184 * is dbus_connection_send_with_reply_and_block(). That is, 185 * multiple threads can make method calls at the same time. 186 * 187 * If you aren't using threads, you can use a main loop and 188 * dbus_pending_call_set_notify() to achieve a similar result. 189 */ 190 191 /** 192 * @defgroup DBusConnectionInternals DBusConnection implementation details 193 * @ingroup DBusInternals 194 * @brief Implementation details of DBusConnection 195 * 196 * @{ 197 */ 198 199 /** 200 * Internal struct representing a message filter function 201 */ 202 typedef struct DBusMessageFilter DBusMessageFilter; 203 204 /** 205 * Internal struct representing a message filter function 206 */ 207 struct DBusMessageFilter 208 { 209 DBusAtomic refcount; /**< Reference count */ 210 DBusHandleMessageFunction function; /**< Function to call to filter */ 211 void *user_data; /**< User data for the function */ 212 DBusFreeFunction free_user_data_function; /**< Function to free the user data */ 213 }; 214 215 216 /** 217 * Internals of DBusPreallocatedSend 218 */ 219 struct DBusPreallocatedSend 220 { 221 DBusConnection *connection; /**< Connection we'd send the message to */ 222 DBusList *queue_link; /**< Preallocated link in the queue */ 223 DBusList *counter_link; /**< Preallocated link in the resource counter */ 224 }; 225 226 static dbus_bool_t _dbus_modify_sigpipe = TRUE; 227 228 /** 229 * Implementation details of DBusConnection. All fields are private. 230 */ 231 struct DBusConnection 232 { 233 DBusAtomic refcount; /**< Reference count. */ 234 235 DBusMutex *mutex; /**< Lock on the entire DBusConnection */ 236 237 DBusMutex *dispatch_mutex; /**< Protects dispatch_acquired */ 238 DBusCondVar *dispatch_cond; /**< Notify when dispatch_acquired is available */ 239 DBusMutex *io_path_mutex; /**< Protects io_path_acquired */ 240 DBusCondVar *io_path_cond; /**< Notify when io_path_acquired is available */ 241 242 DBusList *outgoing_messages; /**< Queue of messages we need to send, send the end of the list first. */ 243 DBusList *incoming_messages; /**< Queue of messages we have received, end of the list received most recently. */ 244 245 DBusMessage *message_borrowed; /**< Filled in if the first incoming message has been borrowed; 246 * dispatch_acquired will be set by the borrower 247 */ 248 249 int n_outgoing; /**< Length of outgoing queue. */ 250 int n_incoming; /**< Length of incoming queue. */ 251 252 DBusCounter *outgoing_counter; /**< Counts size of outgoing messages. */ 253 254 DBusTransport *transport; /**< Object that sends/receives messages over network. */ 255 DBusWatchList *watches; /**< Stores active watches. */ 256 DBusTimeoutList *timeouts; /**< Stores active timeouts. */ 257 258 DBusList *filter_list; /**< List of filters. */ 259 260 DBusDataSlotList slot_list; /**< Data stored by allocated integer ID */ 261 262 DBusHashTable *pending_replies; /**< Hash of message serials to #DBusPendingCall. */ 263 264 dbus_uint32_t client_serial; /**< Client serial. Increments each time a message is sent */ 265 DBusList *disconnect_message_link; /**< Preallocated list node for queueing the disconnection message */ 266 267 DBusWakeupMainFunction wakeup_main_function; /**< Function to wake up the mainloop */ 268 void *wakeup_main_data; /**< Application data for wakeup_main_function */ 269 DBusFreeFunction free_wakeup_main_data; /**< free wakeup_main_data */ 270 271 DBusDispatchStatusFunction dispatch_status_function; /**< Function on dispatch status changes */ 272 void *dispatch_status_data; /**< Application data for dispatch_status_function */ 273 DBusFreeFunction free_dispatch_status_data; /**< free dispatch_status_data */ 274 275 DBusDispatchStatus last_dispatch_status; /**< The last dispatch status we reported to the application. */ 276 277 DBusList *link_cache; /**< A cache of linked list links to prevent contention 278 * for the global linked list mempool lock 279 */ 280 DBusObjectTree *objects; /**< Object path handlers registered with this connection */ 281 282 char *server_guid; /**< GUID of server if we are in shared_connections, #NULL if server GUID is unknown or connection is private */ 283 284 unsigned int shareable : 1; /**< #TRUE if libdbus owns a reference to the connection and can return it from dbus_connection_open() more than once */ 285 286 unsigned int dispatch_acquired : 1; /**< Someone has dispatch path (can drain incoming queue) */ 287 unsigned int io_path_acquired : 1; /**< Someone has transport io path (can use the transport to read/write messages) */ 288 289 unsigned int exit_on_disconnect : 1; /**< If #TRUE, exit after handling disconnect signal */ 290 291 unsigned int route_peer_messages : 1; /**< If #TRUE, if org.freedesktop.DBus.Peer messages have a bus name, don't handle them automatically */ 292 293 unsigned int disconnected_message_arrived : 1; /**< We popped or are dispatching the disconnected message. 294 * if the disconnect_message_link is NULL then we queued it, but 295 * this flag is whether it got to the head of the queue. 296 */ 297 unsigned int disconnected_message_processed : 1; /**< We did our default handling of the disconnected message, 298 * such as closing the connection. 299 */ 300 301 #ifndef DBUS_DISABLE_CHECKS 302 unsigned int have_connection_lock : 1; /**< Used to check locking */ 303 #endif 304 305 #ifndef DBUS_DISABLE_CHECKS 306 int generation; /**< _dbus_current_generation that should correspond to this connection */ 307 #endif 308 }; 309 310 static DBusDispatchStatus _dbus_connection_get_dispatch_status_unlocked (DBusConnection *connection); 311 static void _dbus_connection_update_dispatch_status_and_unlock (DBusConnection *connection, 312 DBusDispatchStatus new_status); 313 static void _dbus_connection_last_unref (DBusConnection *connection); 314 static void _dbus_connection_acquire_dispatch (DBusConnection *connection); 315 static void _dbus_connection_release_dispatch (DBusConnection *connection); 316 static DBusDispatchStatus _dbus_connection_flush_unlocked (DBusConnection *connection); 317 static void _dbus_connection_close_possibly_shared_and_unlock (DBusConnection *connection); 318 static dbus_bool_t _dbus_connection_get_is_connected_unlocked (DBusConnection *connection); 319 320 static DBusMessageFilter * 321 _dbus_message_filter_ref (DBusMessageFilter *filter) 322 { 323 _dbus_assert (filter->refcount.value > 0); 324 _dbus_atomic_inc (&filter->refcount); 325 326 return filter; 327 } 328 329 static void 330 _dbus_message_filter_unref (DBusMessageFilter *filter) 331 { 332 _dbus_assert (filter->refcount.value > 0); 333 334 if (_dbus_atomic_dec (&filter->refcount) == 1) 335 { 336 if (filter->free_user_data_function) 337 (* filter->free_user_data_function) (filter->user_data); 338 339 dbus_free (filter); 340 } 341 } 342 343 /** 344 * Acquires the connection lock. 345 * 346 * @param connection the connection. 347 */ 348 void 349 _dbus_connection_lock (DBusConnection *connection) 350 { 351 CONNECTION_LOCK (connection); 352 } 353 354 /** 355 * Releases the connection lock. 356 * 357 * @param connection the connection. 358 */ 359 void 360 _dbus_connection_unlock (DBusConnection *connection) 361 { 362 CONNECTION_UNLOCK (connection); 363 } 364 365 /** 366 * Wakes up the main loop if it is sleeping 367 * Needed if we're e.g. queueing outgoing messages 368 * on a thread while the mainloop sleeps. 369 * 370 * @param connection the connection. 371 */ 372 static void 373 _dbus_connection_wakeup_mainloop (DBusConnection *connection) 374 { 375 if (connection->wakeup_main_function) 376 (*connection->wakeup_main_function) (connection->wakeup_main_data); 377 } 378 379 #ifdef DBUS_BUILD_TESTS 380 /* For now this function isn't used */ 381 /** 382 * Adds a message to the incoming message queue, returning #FALSE 383 * if there's insufficient memory to queue the message. 384 * Does not take over refcount of the message. 385 * 386 * @param connection the connection. 387 * @param message the message to queue. 388 * @returns #TRUE on success. 389 */ 390 dbus_bool_t 391 _dbus_connection_queue_received_message (DBusConnection *connection, 392 DBusMessage *message) 393 { 394 DBusList *link; 395 396 link = _dbus_list_alloc_link (message); 397 if (link == NULL) 398 return FALSE; 399 400 dbus_message_ref (message); 401 _dbus_connection_queue_received_message_link (connection, link); 402 403 return TRUE; 404 } 405 406 /** 407 * Gets the locks so we can examine them 408 * 409 * @param connection the connection. 410 * @param mutex_loc return for the location of the main mutex pointer 411 * @param dispatch_mutex_loc return location of the dispatch mutex pointer 412 * @param io_path_mutex_loc return location of the io_path mutex pointer 413 * @param dispatch_cond_loc return location of the dispatch conditional 414 * variable pointer 415 * @param io_path_cond_loc return location of the io_path conditional 416 * variable pointer 417 */ 418 void 419 _dbus_connection_test_get_locks (DBusConnection *connection, 420 DBusMutex **mutex_loc, 421 DBusMutex **dispatch_mutex_loc, 422 DBusMutex **io_path_mutex_loc, 423 DBusCondVar **dispatch_cond_loc, 424 DBusCondVar **io_path_cond_loc) 425 { 426 *mutex_loc = connection->mutex; 427 *dispatch_mutex_loc = connection->dispatch_mutex; 428 *io_path_mutex_loc = connection->io_path_mutex; 429 *dispatch_cond_loc = connection->dispatch_cond; 430 *io_path_cond_loc = connection->io_path_cond; 431 } 432 #endif 433 434 /** 435 * Adds a message-containing list link to the incoming message queue, 436 * taking ownership of the link and the message's current refcount. 437 * Cannot fail due to lack of memory. 438 * 439 * @param connection the connection. 440 * @param link the message link to queue. 441 */ 442 void 443 _dbus_connection_queue_received_message_link (DBusConnection *connection, 444 DBusList *link) 445 { 446 DBusPendingCall *pending; 447 dbus_int32_t reply_serial; 448 DBusMessage *message; 449 450 _dbus_assert (_dbus_transport_get_is_authenticated (connection->transport)); 451 452 _dbus_list_append_link (&connection->incoming_messages, 453 link); 454 message = link->data; 455 456 /* If this is a reply we're waiting on, remove timeout for it */ 457 reply_serial = dbus_message_get_reply_serial (message); 458 if (reply_serial != -1) 459 { 460 pending = _dbus_hash_table_lookup_int (connection->pending_replies, 461 reply_serial); 462 if (pending != NULL) 463 { 464 if (_dbus_pending_call_is_timeout_added_unlocked (pending)) 465 _dbus_connection_remove_timeout_unlocked (connection, 466 _dbus_pending_call_get_timeout_unlocked (pending)); 467 468 _dbus_pending_call_set_timeout_added_unlocked (pending, FALSE); 469 } 470 } 471 472 473 474 connection->n_incoming += 1; 475 476 _dbus_connection_wakeup_mainloop (connection); 477 478 _dbus_verbose ("Message %p (%d %s %s %s '%s' reply to %u) added to incoming queue %p, %d incoming\n", 479 message, 480 dbus_message_get_type (message), 481 dbus_message_get_path (message) ? 482 dbus_message_get_path (message) : 483 "no path", 484 dbus_message_get_interface (message) ? 485 dbus_message_get_interface (message) : 486 "no interface", 487 dbus_message_get_member (message) ? 488 dbus_message_get_member (message) : 489 "no member", 490 dbus_message_get_signature (message), 491 dbus_message_get_reply_serial (message), 492 connection, 493 connection->n_incoming);} 494 495 /** 496 * Adds a link + message to the incoming message queue. 497 * Can't fail. Takes ownership of both link and message. 498 * 499 * @param connection the connection. 500 * @param link the list node and message to queue. 501 * 502 */ 503 void 504 _dbus_connection_queue_synthesized_message_link (DBusConnection *connection, 505 DBusList *link) 506 { 507 HAVE_LOCK_CHECK (connection); 508 509 _dbus_list_append_link (&connection->incoming_messages, link); 510 511 connection->n_incoming += 1; 512 513 _dbus_connection_wakeup_mainloop (connection); 514 515 _dbus_verbose ("Synthesized message %p added to incoming queue %p, %d incoming\n", 516 link->data, connection, connection->n_incoming); 517 } 518 519 520 /** 521 * Checks whether there are messages in the outgoing message queue. 522 * Called with connection lock held. 523 * 524 * @param connection the connection. 525 * @returns #TRUE if the outgoing queue is non-empty. 526 */ 527 dbus_bool_t 528 _dbus_connection_has_messages_to_send_unlocked (DBusConnection *connection) 529 { 530 HAVE_LOCK_CHECK (connection); 531 return connection->outgoing_messages != NULL; 532 } 533 534 /** 535 * Checks whether there are messages in the outgoing message queue. 536 * Use dbus_connection_flush() to block until all outgoing 537 * messages have been written to the underlying transport 538 * (such as a socket). 539 * 540 * @param connection the connection. 541 * @returns #TRUE if the outgoing queue is non-empty. 542 */ 543 dbus_bool_t 544 dbus_connection_has_messages_to_send (DBusConnection *connection) 545 { 546 dbus_bool_t v; 547 548 _dbus_return_val_if_fail (connection != NULL, FALSE); 549 550 CONNECTION_LOCK (connection); 551 v = _dbus_connection_has_messages_to_send_unlocked (connection); 552 CONNECTION_UNLOCK (connection); 553 554 return v; 555 } 556 557 /** 558 * Gets the next outgoing message. The message remains in the 559 * queue, and the caller does not own a reference to it. 560 * 561 * @param connection the connection. 562 * @returns the message to be sent. 563 */ 564 DBusMessage* 565 _dbus_connection_get_message_to_send (DBusConnection *connection) 566 { 567 HAVE_LOCK_CHECK (connection); 568 569 return _dbus_list_get_last (&connection->outgoing_messages); 570 } 571 572 /** 573 * Notifies the connection that a message has been sent, so the 574 * message can be removed from the outgoing queue. 575 * Called with the connection lock held. 576 * 577 * @param connection the connection. 578 * @param message the message that was sent. 579 */ 580 void 581 _dbus_connection_message_sent (DBusConnection *connection, 582 DBusMessage *message) 583 { 584 DBusList *link; 585 586 HAVE_LOCK_CHECK (connection); 587 588 /* This can be called before we even complete authentication, since 589 * it's called on disconnect to clean up the outgoing queue. 590 * It's also called as we successfully send each message. 591 */ 592 593 link = _dbus_list_get_last_link (&connection->outgoing_messages); 594 _dbus_assert (link != NULL); 595 _dbus_assert (link->data == message); 596 597 /* Save this link in the link cache */ 598 _dbus_list_unlink (&connection->outgoing_messages, 599 link); 600 _dbus_list_prepend_link (&connection->link_cache, link); 601 602 connection->n_outgoing -= 1; 603 604 _dbus_verbose ("Message %p (%d %s %s %s '%s') removed from outgoing queue %p, %d left to send\n", 605 message, 606 dbus_message_get_type (message), 607 dbus_message_get_path (message) ? 608 dbus_message_get_path (message) : 609 "no path", 610 dbus_message_get_interface (message) ? 611 dbus_message_get_interface (message) : 612 "no interface", 613 dbus_message_get_member (message) ? 614 dbus_message_get_member (message) : 615 "no member", 616 dbus_message_get_signature (message), 617 connection, connection->n_outgoing); 618 619 /* Save this link in the link cache also */ 620 _dbus_message_remove_size_counter (message, connection->outgoing_counter, 621 &link); 622 _dbus_list_prepend_link (&connection->link_cache, link); 623 624 dbus_message_unref (message); 625 } 626 627 /** Function to be called in protected_change_watch() with refcount held */ 628 typedef dbus_bool_t (* DBusWatchAddFunction) (DBusWatchList *list, 629 DBusWatch *watch); 630 /** Function to be called in protected_change_watch() with refcount held */ 631 typedef void (* DBusWatchRemoveFunction) (DBusWatchList *list, 632 DBusWatch *watch); 633 /** Function to be called in protected_change_watch() with refcount held */ 634 typedef void (* DBusWatchToggleFunction) (DBusWatchList *list, 635 DBusWatch *watch, 636 dbus_bool_t enabled); 637 638 static dbus_bool_t 639 protected_change_watch (DBusConnection *connection, 640 DBusWatch *watch, 641 DBusWatchAddFunction add_function, 642 DBusWatchRemoveFunction remove_function, 643 DBusWatchToggleFunction toggle_function, 644 dbus_bool_t enabled) 645 { 646 DBusWatchList *watches; 647 dbus_bool_t retval; 648 649 HAVE_LOCK_CHECK (connection); 650 651 /* This isn't really safe or reasonable; a better pattern is the "do everything, then 652 * drop lock and call out" one; but it has to be propagated up through all callers 653 */ 654 655 watches = connection->watches; 656 if (watches) 657 { 658 connection->watches = NULL; 659 _dbus_connection_ref_unlocked (connection); 660 CONNECTION_UNLOCK (connection); 661 662 if (add_function) 663 retval = (* add_function) (watches, watch); 664 else if (remove_function) 665 { 666 retval = TRUE; 667 (* remove_function) (watches, watch); 668 } 669 else 670 { 671 retval = TRUE; 672 (* toggle_function) (watches, watch, enabled); 673 } 674 675 CONNECTION_LOCK (connection); 676 connection->watches = watches; 677 _dbus_connection_unref_unlocked (connection); 678 679 return retval; 680 } 681 else 682 return FALSE; 683 } 684 685 686 /** 687 * Adds a watch using the connection's DBusAddWatchFunction if 688 * available. Otherwise records the watch to be added when said 689 * function is available. Also re-adds the watch if the 690 * DBusAddWatchFunction changes. May fail due to lack of memory. 691 * Connection lock should be held when calling this. 692 * 693 * @param connection the connection. 694 * @param watch the watch to add. 695 * @returns #TRUE on success. 696 */ 697 dbus_bool_t 698 _dbus_connection_add_watch_unlocked (DBusConnection *connection, 699 DBusWatch *watch) 700 { 701 return protected_change_watch (connection, watch, 702 _dbus_watch_list_add_watch, 703 NULL, NULL, FALSE); 704 } 705 706 /** 707 * Removes a watch using the connection's DBusRemoveWatchFunction 708 * if available. It's an error to call this function on a watch 709 * that was not previously added. 710 * Connection lock should be held when calling this. 711 * 712 * @param connection the connection. 713 * @param watch the watch to remove. 714 */ 715 void 716 _dbus_connection_remove_watch_unlocked (DBusConnection *connection, 717 DBusWatch *watch) 718 { 719 protected_change_watch (connection, watch, 720 NULL, 721 _dbus_watch_list_remove_watch, 722 NULL, FALSE); 723 } 724 725 /** 726 * Toggles a watch and notifies app via connection's 727 * DBusWatchToggledFunction if available. It's an error to call this 728 * function on a watch that was not previously added. 729 * Connection lock should be held when calling this. 730 * 731 * @param connection the connection. 732 * @param watch the watch to toggle. 733 * @param enabled whether to enable or disable 734 */ 735 void 736 _dbus_connection_toggle_watch_unlocked (DBusConnection *connection, 737 DBusWatch *watch, 738 dbus_bool_t enabled) 739 { 740 _dbus_assert (watch != NULL); 741 742 protected_change_watch (connection, watch, 743 NULL, NULL, 744 _dbus_watch_list_toggle_watch, 745 enabled); 746 } 747 748 /** Function to be called in protected_change_timeout() with refcount held */ 749 typedef dbus_bool_t (* DBusTimeoutAddFunction) (DBusTimeoutList *list, 750 DBusTimeout *timeout); 751 /** Function to be called in protected_change_timeout() with refcount held */ 752 typedef void (* DBusTimeoutRemoveFunction) (DBusTimeoutList *list, 753 DBusTimeout *timeout); 754 /** Function to be called in protected_change_timeout() with refcount held */ 755 typedef void (* DBusTimeoutToggleFunction) (DBusTimeoutList *list, 756 DBusTimeout *timeout, 757 dbus_bool_t enabled); 758 759 static dbus_bool_t 760 protected_change_timeout (DBusConnection *connection, 761 DBusTimeout *timeout, 762 DBusTimeoutAddFunction add_function, 763 DBusTimeoutRemoveFunction remove_function, 764 DBusTimeoutToggleFunction toggle_function, 765 dbus_bool_t enabled) 766 { 767 DBusTimeoutList *timeouts; 768 dbus_bool_t retval; 769 770 HAVE_LOCK_CHECK (connection); 771 772 /* This isn't really safe or reasonable; a better pattern is the "do everything, then 773 * drop lock and call out" one; but it has to be propagated up through all callers 774 */ 775 776 timeouts = connection->timeouts; 777 if (timeouts) 778 { 779 connection->timeouts = NULL; 780 _dbus_connection_ref_unlocked (connection); 781 CONNECTION_UNLOCK (connection); 782 783 if (add_function) 784 retval = (* add_function) (timeouts, timeout); 785 else if (remove_function) 786 { 787 retval = TRUE; 788 (* remove_function) (timeouts, timeout); 789 } 790 else 791 { 792 retval = TRUE; 793 (* toggle_function) (timeouts, timeout, enabled); 794 } 795 796 CONNECTION_LOCK (connection); 797 connection->timeouts = timeouts; 798 _dbus_connection_unref_unlocked (connection); 799 800 return retval; 801 } 802 else 803 return FALSE; 804 } 805 806 /** 807 * Adds a timeout using the connection's DBusAddTimeoutFunction if 808 * available. Otherwise records the timeout to be added when said 809 * function is available. Also re-adds the timeout if the 810 * DBusAddTimeoutFunction changes. May fail due to lack of memory. 811 * The timeout will fire repeatedly until removed. 812 * Connection lock should be held when calling this. 813 * 814 * @param connection the connection. 815 * @param timeout the timeout to add. 816 * @returns #TRUE on success. 817 */ 818 dbus_bool_t 819 _dbus_connection_add_timeout_unlocked (DBusConnection *connection, 820 DBusTimeout *timeout) 821 { 822 return protected_change_timeout (connection, timeout, 823 _dbus_timeout_list_add_timeout, 824 NULL, NULL, FALSE); 825 } 826 827 /** 828 * Removes a timeout using the connection's DBusRemoveTimeoutFunction 829 * if available. It's an error to call this function on a timeout 830 * that was not previously added. 831 * Connection lock should be held when calling this. 832 * 833 * @param connection the connection. 834 * @param timeout the timeout to remove. 835 */ 836 void 837 _dbus_connection_remove_timeout_unlocked (DBusConnection *connection, 838 DBusTimeout *timeout) 839 { 840 protected_change_timeout (connection, timeout, 841 NULL, 842 _dbus_timeout_list_remove_timeout, 843 NULL, FALSE); 844 } 845 846 /** 847 * Toggles a timeout and notifies app via connection's 848 * DBusTimeoutToggledFunction if available. It's an error to call this 849 * function on a timeout that was not previously added. 850 * Connection lock should be held when calling this. 851 * 852 * @param connection the connection. 853 * @param timeout the timeout to toggle. 854 * @param enabled whether to enable or disable 855 */ 856 void 857 _dbus_connection_toggle_timeout_unlocked (DBusConnection *connection, 858 DBusTimeout *timeout, 859 dbus_bool_t enabled) 860 { 861 protected_change_timeout (connection, timeout, 862 NULL, NULL, 863 _dbus_timeout_list_toggle_timeout, 864 enabled); 865 } 866 867 static dbus_bool_t 868 _dbus_connection_attach_pending_call_unlocked (DBusConnection *connection, 869 DBusPendingCall *pending) 870 { 871 dbus_uint32_t reply_serial; 872 DBusTimeout *timeout; 873 874 HAVE_LOCK_CHECK (connection); 875 876 reply_serial = _dbus_pending_call_get_reply_serial_unlocked (pending); 877 878 _dbus_assert (reply_serial != 0); 879 880 timeout = _dbus_pending_call_get_timeout_unlocked (pending); 881 882 if (!_dbus_connection_add_timeout_unlocked (connection, timeout)) 883 return FALSE; 884 885 if (!_dbus_hash_table_insert_int (connection->pending_replies, 886 reply_serial, 887 pending)) 888 { 889 _dbus_connection_remove_timeout_unlocked (connection, timeout); 890 891 _dbus_pending_call_set_timeout_added_unlocked (pending, FALSE); 892 HAVE_LOCK_CHECK (connection); 893 return FALSE; 894 } 895 896 _dbus_pending_call_set_timeout_added_unlocked (pending, TRUE); 897 898 _dbus_pending_call_ref_unlocked (pending); 899 900 HAVE_LOCK_CHECK (connection); 901 902 return TRUE; 903 } 904 905 static void 906 free_pending_call_on_hash_removal (void *data) 907 { 908 DBusPendingCall *pending; 909 DBusConnection *connection; 910 911 if (data == NULL) 912 return; 913 914 pending = data; 915 916 connection = _dbus_pending_call_get_connection_unlocked (pending); 917 918 HAVE_LOCK_CHECK (connection); 919 920 if (_dbus_pending_call_is_timeout_added_unlocked (pending)) 921 { 922 _dbus_connection_remove_timeout_unlocked (connection, 923 _dbus_pending_call_get_timeout_unlocked (pending)); 924 925 _dbus_pending_call_set_timeout_added_unlocked (pending, FALSE); 926 } 927 928 /* FIXME 1.0? this is sort of dangerous and undesirable to drop the lock 929 * here, but the pending call finalizer could in principle call out to 930 * application code so we pretty much have to... some larger code reorg 931 * might be needed. 932 */ 933 _dbus_connection_ref_unlocked (connection); 934 _dbus_pending_call_unref_and_unlock (pending); 935 CONNECTION_LOCK (connection); 936 _dbus_connection_unref_unlocked (connection); 937 } 938 939 static void 940 _dbus_connection_detach_pending_call_unlocked (DBusConnection *connection, 941 DBusPendingCall *pending) 942 { 943 /* This ends up unlocking to call the pending call finalizer, which is unexpected to 944 * say the least. 945 */ 946 _dbus_hash_table_remove_int (connection->pending_replies, 947 _dbus_pending_call_get_reply_serial_unlocked (pending)); 948 } 949 950 static void 951 _dbus_connection_detach_pending_call_and_unlock (DBusConnection *connection, 952 DBusPendingCall *pending) 953 { 954 /* The idea here is to avoid finalizing the pending call 955 * with the lock held, since there's a destroy notifier 956 * in pending call that goes out to application code. 957 * 958 * There's an extra unlock inside the hash table 959 * "free pending call" function FIXME... 960 */ 961 _dbus_pending_call_ref_unlocked (pending); 962 _dbus_hash_table_remove_int (connection->pending_replies, 963 _dbus_pending_call_get_reply_serial_unlocked (pending)); 964 _dbus_pending_call_unref_and_unlock (pending); 965 } 966 967 /** 968 * Removes a pending call from the connection, such that 969 * the pending reply will be ignored. May drop the last 970 * reference to the pending call. 971 * 972 * @param connection the connection 973 * @param pending the pending call 974 */ 975 void 976 _dbus_connection_remove_pending_call (DBusConnection *connection, 977 DBusPendingCall *pending) 978 { 979 CONNECTION_LOCK (connection); 980 _dbus_connection_detach_pending_call_and_unlock (connection, pending); 981 } 982 983 /** 984 * Acquire the transporter I/O path. This must be done before 985 * doing any I/O in the transporter. May sleep and drop the 986 * IO path mutex while waiting for the I/O path. 987 * 988 * @param connection the connection. 989 * @param timeout_milliseconds maximum blocking time, or -1 for no limit. 990 * @returns TRUE if the I/O path was acquired. 991 */ 992 static dbus_bool_t 993 _dbus_connection_acquire_io_path (DBusConnection *connection, 994 int timeout_milliseconds) 995 { 996 dbus_bool_t we_acquired; 997 998 HAVE_LOCK_CHECK (connection); 999 1000 /* We don't want the connection to vanish */ 1001 _dbus_connection_ref_unlocked (connection); 1002 1003 /* We will only touch io_path_acquired which is protected by our mutex */ 1004 CONNECTION_UNLOCK (connection); 1005 1006 _dbus_verbose ("%s locking io_path_mutex\n", _DBUS_FUNCTION_NAME); 1007 _dbus_mutex_lock (connection->io_path_mutex); 1008 1009 _dbus_verbose ("%s start connection->io_path_acquired = %d timeout = %d\n", 1010 _DBUS_FUNCTION_NAME, connection->io_path_acquired, timeout_milliseconds); 1011 1012 we_acquired = FALSE; 1013 1014 if (connection->io_path_acquired) 1015 { 1016 if (timeout_milliseconds != -1) 1017 { 1018 _dbus_verbose ("%s waiting %d for IO path to be acquirable\n", 1019 _DBUS_FUNCTION_NAME, timeout_milliseconds); 1020 1021 if (!_dbus_condvar_wait_timeout (connection->io_path_cond, 1022 connection->io_path_mutex, 1023 timeout_milliseconds)) 1024 { 1025 /* We timed out before anyone signaled. */ 1026 /* (writing the loop to handle the !timedout case by 1027 * waiting longer if needed is a pain since dbus 1028 * wraps pthread_cond_timedwait to take a relative 1029 * time instead of absolute, something kind of stupid 1030 * on our part. for now it doesn't matter, we will just 1031 * end up back here eventually.) 1032 */ 1033 } 1034 } 1035 else 1036 { 1037 while (connection->io_path_acquired) 1038 { 1039 _dbus_verbose ("%s waiting for IO path to be acquirable\n", _DBUS_FUNCTION_NAME); 1040 _dbus_condvar_wait (connection->io_path_cond, 1041 connection->io_path_mutex); 1042 } 1043 } 1044 } 1045 1046 if (!connection->io_path_acquired) 1047 { 1048 we_acquired = TRUE; 1049 connection->io_path_acquired = TRUE; 1050 } 1051 1052 _dbus_verbose ("%s end connection->io_path_acquired = %d we_acquired = %d\n", 1053 _DBUS_FUNCTION_NAME, connection->io_path_acquired, we_acquired); 1054 1055 _dbus_verbose ("%s unlocking io_path_mutex\n", _DBUS_FUNCTION_NAME); 1056 _dbus_mutex_unlock (connection->io_path_mutex); 1057 1058 CONNECTION_LOCK (connection); 1059 1060 HAVE_LOCK_CHECK (connection); 1061 1062 _dbus_connection_unref_unlocked (connection); 1063 1064 return we_acquired; 1065 } 1066 1067 /** 1068 * Release the I/O path when you're done with it. Only call 1069 * after you've acquired the I/O. Wakes up at most one thread 1070 * currently waiting to acquire the I/O path. 1071 * 1072 * @param connection the connection. 1073 */ 1074 static void 1075 _dbus_connection_release_io_path (DBusConnection *connection) 1076 { 1077 HAVE_LOCK_CHECK (connection); 1078 1079 _dbus_verbose ("%s locking io_path_mutex\n", _DBUS_FUNCTION_NAME); 1080 _dbus_mutex_lock (connection->io_path_mutex); 1081 1082 _dbus_assert (connection->io_path_acquired); 1083 1084 _dbus_verbose ("%s start connection->io_path_acquired = %d\n", 1085 _DBUS_FUNCTION_NAME, connection->io_path_acquired); 1086 1087 connection->io_path_acquired = FALSE; 1088 _dbus_condvar_wake_one (connection->io_path_cond); 1089 1090 _dbus_verbose ("%s unlocking io_path_mutex\n", _DBUS_FUNCTION_NAME); 1091 _dbus_mutex_unlock (connection->io_path_mutex); 1092 } 1093 1094 /** 1095 * Queues incoming messages and sends outgoing messages for this 1096 * connection, optionally blocking in the process. Each call to 1097 * _dbus_connection_do_iteration_unlocked() will call select() or poll() one 1098 * time and then read or write data if possible. 1099 * 1100 * The purpose of this function is to be able to flush outgoing 1101 * messages or queue up incoming messages without returning 1102 * control to the application and causing reentrancy weirdness. 1103 * 1104 * The flags parameter allows you to specify whether to 1105 * read incoming messages, write outgoing messages, or both, 1106 * and whether to block if no immediate action is possible. 1107 * 1108 * The timeout_milliseconds parameter does nothing unless the 1109 * iteration is blocking. 1110 * 1111 * If there are no outgoing messages and DBUS_ITERATION_DO_READING 1112 * wasn't specified, then it's impossible to block, even if 1113 * you specify DBUS_ITERATION_BLOCK; in that case the function 1114 * returns immediately. 1115 * 1116 * Called with connection lock held. 1117 * 1118 * @param connection the connection. 1119 * @param flags iteration flags. 1120 * @param timeout_milliseconds maximum blocking time, or -1 for no limit. 1121 */ 1122 void 1123 _dbus_connection_do_iteration_unlocked (DBusConnection *connection, 1124 unsigned int flags, 1125 int timeout_milliseconds) 1126 { 1127 _dbus_verbose ("%s start\n", _DBUS_FUNCTION_NAME); 1128 1129 HAVE_LOCK_CHECK (connection); 1130 1131 if (connection->n_outgoing == 0) 1132 flags &= ~DBUS_ITERATION_DO_WRITING; 1133 1134 if (_dbus_connection_acquire_io_path (connection, 1135 (flags & DBUS_ITERATION_BLOCK) ? timeout_milliseconds : 0)) 1136 { 1137 HAVE_LOCK_CHECK (connection); 1138 1139 _dbus_transport_do_iteration (connection->transport, 1140 flags, timeout_milliseconds); 1141 _dbus_connection_release_io_path (connection); 1142 } 1143 1144 HAVE_LOCK_CHECK (connection); 1145 1146 _dbus_verbose ("%s end\n", _DBUS_FUNCTION_NAME); 1147 } 1148 1149 /** 1150 * Creates a new connection for the given transport. A transport 1151 * represents a message stream that uses some concrete mechanism, such 1152 * as UNIX domain sockets. May return #NULL if insufficient 1153 * memory exists to create the connection. 1154 * 1155 * @param transport the transport. 1156 * @returns the new connection, or #NULL on failure. 1157 */ 1158 DBusConnection* 1159 _dbus_connection_new_for_transport (DBusTransport *transport) 1160 { 1161 DBusConnection *connection; 1162 DBusWatchList *watch_list; 1163 DBusTimeoutList *timeout_list; 1164 DBusHashTable *pending_replies; 1165 DBusList *disconnect_link; 1166 DBusMessage *disconnect_message; 1167 DBusCounter *outgoing_counter; 1168 DBusObjectTree *objects; 1169 1170 watch_list = NULL; 1171 connection = NULL; 1172 pending_replies = NULL; 1173 timeout_list = NULL; 1174 disconnect_link = NULL; 1175 disconnect_message = NULL; 1176 outgoing_counter = NULL; 1177 objects = NULL; 1178 1179 watch_list = _dbus_watch_list_new (); 1180 if (watch_list == NULL) 1181 goto error; 1182 1183 timeout_list = _dbus_timeout_list_new (); 1184 if (timeout_list == NULL) 1185 goto error; 1186 1187 pending_replies = 1188 _dbus_hash_table_new (DBUS_HASH_INT, 1189 NULL, 1190 (DBusFreeFunction)free_pending_call_on_hash_removal); 1191 if (pending_replies == NULL) 1192 goto error; 1193 1194 connection = dbus_new0 (DBusConnection, 1); 1195 if (connection == NULL) 1196 goto error; 1197 1198 _dbus_mutex_new_at_location (&connection->mutex); 1199 if (connection->mutex == NULL) 1200 goto error; 1201 1202 _dbus_mutex_new_at_location (&connection->io_path_mutex); 1203 if (connection->io_path_mutex == NULL) 1204 goto error; 1205 1206 _dbus_mutex_new_at_location (&connection->dispatch_mutex); 1207 if (connection->dispatch_mutex == NULL) 1208 goto error; 1209 1210 _dbus_condvar_new_at_location (&connection->dispatch_cond); 1211 if (connection->dispatch_cond == NULL) 1212 goto error; 1213 1214 _dbus_condvar_new_at_location (&connection->io_path_cond); 1215 if (connection->io_path_cond == NULL) 1216 goto error; 1217 1218 disconnect_message = dbus_message_new_signal (DBUS_PATH_LOCAL, 1219 DBUS_INTERFACE_LOCAL, 1220 "Disconnected"); 1221 1222 if (disconnect_message == NULL) 1223 goto error; 1224 1225 disconnect_link = _dbus_list_alloc_link (disconnect_message); 1226 if (disconnect_link == NULL) 1227 goto error; 1228 1229 outgoing_counter = _dbus_counter_new (); 1230 if (outgoing_counter == NULL) 1231 goto error; 1232 1233 objects = _dbus_object_tree_new (connection); 1234 if (objects == NULL) 1235 goto error; 1236 1237 if (_dbus_modify_sigpipe) 1238 _dbus_disable_sigpipe (); 1239 1240 connection->refcount.value = 1; 1241 connection->transport = transport; 1242 connection->watches = watch_list; 1243 connection->timeouts = timeout_list; 1244 connection->pending_replies = pending_replies; 1245 connection->outgoing_counter = outgoing_counter; 1246 connection->filter_list = NULL; 1247 connection->last_dispatch_status = DBUS_DISPATCH_COMPLETE; /* so we're notified first time there's data */ 1248 connection->objects = objects; 1249 connection->exit_on_disconnect = FALSE; 1250 connection->shareable = FALSE; 1251 connection->route_peer_messages = FALSE; 1252 connection->disconnected_message_arrived = FALSE; 1253 connection->disconnected_message_processed = FALSE; 1254 1255 #ifndef DBUS_DISABLE_CHECKS 1256 connection->generation = _dbus_current_generation; 1257 #endif 1258 1259 _dbus_data_slot_list_init (&connection->slot_list); 1260 1261 connection->client_serial = 1; 1262 1263 connection->disconnect_message_link = disconnect_link; 1264 1265 CONNECTION_LOCK (connection); 1266 1267 if (!_dbus_transport_set_connection (transport, connection)) 1268 { 1269 CONNECTION_UNLOCK (connection); 1270 1271 goto error; 1272 } 1273 1274 _dbus_transport_ref (transport); 1275 1276 CONNECTION_UNLOCK (connection); 1277 1278 return connection; 1279 1280 error: 1281 if (disconnect_message != NULL) 1282 dbus_message_unref (disconnect_message); 1283 1284 if (disconnect_link != NULL) 1285 _dbus_list_free_link (disconnect_link); 1286 1287 if (connection != NULL) 1288 { 1289 _dbus_condvar_free_at_location (&connection->io_path_cond); 1290 _dbus_condvar_free_at_location (&connection->dispatch_cond); 1291 _dbus_mutex_free_at_location (&connection->mutex); 1292 _dbus_mutex_free_at_location (&connection->io_path_mutex); 1293 _dbus_mutex_free_at_location (&connection->dispatch_mutex); 1294 dbus_free (connection); 1295 } 1296 if (pending_replies) 1297 _dbus_hash_table_unref (pending_replies); 1298 1299 if (watch_list) 1300 _dbus_watch_list_free (watch_list); 1301 1302 if (timeout_list) 1303 _dbus_timeout_list_free (timeout_list); 1304 1305 if (outgoing_counter) 1306 _dbus_counter_unref (outgoing_counter); 1307 1308 if (objects) 1309 _dbus_object_tree_unref (objects); 1310 1311 return NULL; 1312 } 1313 1314 /** 1315 * Increments the reference count of a DBusConnection. 1316 * Requires that the caller already holds the connection lock. 1317 * 1318 * @param connection the connection. 1319 * @returns the connection. 1320 */ 1321 DBusConnection * 1322 _dbus_connection_ref_unlocked (DBusConnection *connection) 1323 { 1324 _dbus_assert (connection != NULL); 1325 _dbus_assert (connection->generation == _dbus_current_generation); 1326 1327 HAVE_LOCK_CHECK (connection); 1328 1329 #ifdef DBUS_HAVE_ATOMIC_INT 1330 _dbus_atomic_inc (&connection->refcount); 1331 #else 1332 _dbus_assert (connection->refcount.value > 0); 1333 connection->refcount.value += 1; 1334 #endif 1335 1336 return connection; 1337 } 1338 1339 /** 1340 * Decrements the reference count of a DBusConnection. 1341 * Requires that the caller already holds the connection lock. 1342 * 1343 * @param connection the connection. 1344 */ 1345 void 1346 _dbus_connection_unref_unlocked (DBusConnection *connection) 1347 { 1348 dbus_bool_t last_unref; 1349 1350 HAVE_LOCK_CHECK (connection); 1351 1352 _dbus_assert (connection != NULL); 1353 1354 /* The connection lock is better than the global 1355 * lock in the atomic increment fallback 1356 */ 1357 1358 #ifdef DBUS_HAVE_ATOMIC_INT 1359 last_unref = (_dbus_atomic_dec (&connection->refcount) == 1); 1360 #else 1361 _dbus_assert (connection->refcount.value > 0); 1362 1363 connection->refcount.value -= 1; 1364 last_unref = (connection->refcount.value == 0); 1365 #if 0 1366 printf ("unref_unlocked() connection %p count = %d\n", connection, connection->refcount.value); 1367 #endif 1368 #endif 1369 1370 if (last_unref) 1371 _dbus_connection_last_unref (connection); 1372 } 1373 1374 static dbus_uint32_t 1375 _dbus_connection_get_next_client_serial (DBusConnection *connection) 1376 { 1377 int serial; 1378 1379 serial = connection->client_serial++; 1380 1381 if (connection->client_serial < 0) 1382 connection->client_serial = 1; 1383 1384 return serial; 1385 } 1386 1387 /** 1388 * A callback for use with dbus_watch_new() to create a DBusWatch. 1389 * 1390 * @todo This is basically a hack - we could delete _dbus_transport_handle_watch() 1391 * and the virtual handle_watch in DBusTransport if we got rid of it. 1392 * The reason this is some work is threading, see the _dbus_connection_handle_watch() 1393 * implementation. 1394 * 1395 * @param watch the watch. 1396 * @param condition the current condition of the file descriptors being watched. 1397 * @param data must be a pointer to a #DBusConnection 1398 * @returns #FALSE if the IO condition may not have been fully handled due to lack of memory 1399 */ 1400 dbus_bool_t 1401 _dbus_connection_handle_watch (DBusWatch *watch, 1402 unsigned int condition, 1403 void *data) 1404 { 1405 DBusConnection *connection; 1406 dbus_bool_t retval; 1407 DBusDispatchStatus status; 1408 1409 connection = data; 1410 1411 _dbus_verbose ("%s start\n", _DBUS_FUNCTION_NAME); 1412 1413 CONNECTION_LOCK (connection); 1414 _dbus_connection_acquire_io_path (connection, -1); 1415 HAVE_LOCK_CHECK (connection); 1416 retval = _dbus_transport_handle_watch (connection->transport, 1417 watch, condition); 1418 1419 _dbus_connection_release_io_path (connection); 1420 1421 HAVE_LOCK_CHECK (connection); 1422 1423 _dbus_verbose ("%s middle\n", _DBUS_FUNCTION_NAME); 1424 1425 status = _dbus_connection_get_dispatch_status_unlocked (connection); 1426 1427 /* this calls out to user code */ 1428 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 1429 1430 _dbus_verbose ("%s end\n", _DBUS_FUNCTION_NAME); 1431 1432 return retval; 1433 } 1434 1435 _DBUS_DEFINE_GLOBAL_LOCK (shared_connections); 1436 static DBusHashTable *shared_connections = NULL; 1437 1438 static void 1439 shared_connections_shutdown (void *data) 1440 { 1441 int n_entries; 1442 1443 _DBUS_LOCK (shared_connections); 1444 1445 /* This is a little bit unpleasant... better ideas? */ 1446 while ((n_entries = _dbus_hash_table_get_n_entries (shared_connections)) > 0) 1447 { 1448 DBusConnection *connection; 1449 DBusMessage *message; 1450 DBusHashIter iter; 1451 1452 _dbus_hash_iter_init (shared_connections, &iter); 1453 _dbus_hash_iter_next (&iter); 1454 1455 connection = _dbus_hash_iter_get_value (&iter); 1456 1457 _DBUS_UNLOCK (shared_connections); 1458 1459 dbus_connection_ref (connection); 1460 _dbus_connection_close_possibly_shared (connection); 1461 1462 /* Churn through to the Disconnected message */ 1463 while ((message = dbus_connection_pop_message (connection))) 1464 { 1465 dbus_message_unref (message); 1466 } 1467 dbus_connection_unref (connection); 1468 1469 _DBUS_LOCK (shared_connections); 1470 1471 /* The connection should now be dead and not in our hash ... */ 1472 _dbus_assert (_dbus_hash_table_get_n_entries (shared_connections) < n_entries); 1473 } 1474 1475 _dbus_assert (_dbus_hash_table_get_n_entries (shared_connections) == 0); 1476 1477 _dbus_hash_table_unref (shared_connections); 1478 shared_connections = NULL; 1479 1480 _DBUS_UNLOCK (shared_connections); 1481 } 1482 1483 static dbus_bool_t 1484 connection_lookup_shared (DBusAddressEntry *entry, 1485 DBusConnection **result) 1486 { 1487 _dbus_verbose ("checking for existing connection\n"); 1488 1489 *result = NULL; 1490 1491 _DBUS_LOCK (shared_connections); 1492 1493 if (shared_connections == NULL) 1494 { 1495 _dbus_verbose ("creating shared_connections hash table\n"); 1496 1497 shared_connections = _dbus_hash_table_new (DBUS_HASH_STRING, 1498 dbus_free, 1499 NULL); 1500 if (shared_connections == NULL) 1501 { 1502 _DBUS_UNLOCK (shared_connections); 1503 return FALSE; 1504 } 1505 1506 if (!_dbus_register_shutdown_func (shared_connections_shutdown, NULL)) 1507 { 1508 _dbus_hash_table_unref (shared_connections); 1509 shared_connections = NULL; 1510 _DBUS_UNLOCK (shared_connections); 1511 return FALSE; 1512 } 1513 1514 _dbus_verbose (" successfully created shared_connections\n"); 1515 1516 _DBUS_UNLOCK (shared_connections); 1517 return TRUE; /* no point looking up in the hash we just made */ 1518 } 1519 else 1520 { 1521 const char *guid; 1522 1523 guid = dbus_address_entry_get_value (entry, "guid"); 1524 1525 if (guid != NULL) 1526 { 1527 DBusConnection *connection; 1528 1529 connection = _dbus_hash_table_lookup_string (shared_connections, 1530 guid); 1531 1532 if (connection) 1533 { 1534 /* The DBusConnection can't be finalized without taking 1535 * the shared_connections lock to remove it from the 1536 * hash. So it's safe to ref the connection here. 1537 * However, it may be disconnected if the Disconnected 1538 * message hasn't been processed yet, in which case we 1539 * want to pretend it isn't in the hash and avoid 1540 * returning it. 1541 * 1542 * The idea is to avoid ever returning a disconnected connection 1543 * from dbus_connection_open(). We could just synchronously 1544 * drop our shared ref to the connection on connection disconnect, 1545 * and then assert here that the connection is connected, but 1546 * that causes reentrancy headaches. 1547 */ 1548 CONNECTION_LOCK (connection); 1549 if (_dbus_connection_get_is_connected_unlocked (connection)) 1550 { 1551 _dbus_connection_ref_unlocked (connection); 1552 *result = connection; 1553 _dbus_verbose ("looked up existing connection to server guid %s\n", 1554 guid); 1555 } 1556 else 1557 { 1558 _dbus_verbose ("looked up existing connection to server guid %s but it was disconnected so ignoring it\n", 1559 guid); 1560 } 1561 CONNECTION_UNLOCK (connection); 1562 } 1563 } 1564 1565 _DBUS_UNLOCK (shared_connections); 1566 return TRUE; 1567 } 1568 } 1569 1570 static dbus_bool_t 1571 connection_record_shared_unlocked (DBusConnection *connection, 1572 const char *guid) 1573 { 1574 char *guid_key; 1575 char *guid_in_connection; 1576 1577 HAVE_LOCK_CHECK (connection); 1578 _dbus_assert (connection->server_guid == NULL); 1579 _dbus_assert (connection->shareable); 1580 1581 /* get a hard ref on this connection, even if 1582 * we won't in fact store it in the hash, we still 1583 * need to hold a ref on it until it's disconnected. 1584 */ 1585 _dbus_connection_ref_unlocked (connection); 1586 1587 if (guid == NULL) 1588 return TRUE; /* don't store in the hash */ 1589 1590 /* A separate copy of the key is required in the hash table, because 1591 * we don't have a lock on the connection when we are doing a hash 1592 * lookup. 1593 */ 1594 1595 guid_key = _dbus_strdup (guid); 1596 if (guid_key == NULL) 1597 return FALSE; 1598 1599 guid_in_connection = _dbus_strdup (guid); 1600 if (guid_in_connection == NULL) 1601 { 1602 dbus_free (guid_key); 1603 return FALSE; 1604 } 1605 1606 _DBUS_LOCK (shared_connections); 1607 _dbus_assert (shared_connections != NULL); 1608 1609 if (!_dbus_hash_table_insert_string (shared_connections, 1610 guid_key, connection)) 1611 { 1612 dbus_free (guid_key); 1613 dbus_free (guid_in_connection); 1614 _DBUS_UNLOCK (shared_connections); 1615 return FALSE; 1616 } 1617 1618 connection->server_guid = guid_in_connection; 1619 1620 _dbus_verbose ("stored connection to %s to be shared\n", 1621 connection->server_guid); 1622 1623 _DBUS_UNLOCK (shared_connections); 1624 1625 _dbus_assert (connection->server_guid != NULL); 1626 1627 return TRUE; 1628 } 1629 1630 static void 1631 connection_forget_shared_unlocked (DBusConnection *connection) 1632 { 1633 HAVE_LOCK_CHECK (connection); 1634 1635 if (!connection->shareable) 1636 return; 1637 1638 if (connection->server_guid != NULL) 1639 { 1640 _dbus_verbose ("dropping connection to %s out of the shared table\n", 1641 connection->server_guid); 1642 1643 _DBUS_LOCK (shared_connections); 1644 1645 if (!_dbus_hash_table_remove_string (shared_connections, 1646 connection->server_guid)) 1647 _dbus_assert_not_reached ("connection was not in the shared table"); 1648 1649 dbus_free (connection->server_guid); 1650 connection->server_guid = NULL; 1651 _DBUS_UNLOCK (shared_connections); 1652 } 1653 1654 /* remove our reference held on all shareable connections */ 1655 _dbus_connection_unref_unlocked (connection); 1656 } 1657 1658 static DBusConnection* 1659 connection_try_from_address_entry (DBusAddressEntry *entry, 1660 DBusError *error) 1661 { 1662 DBusTransport *transport; 1663 DBusConnection *connection; 1664 1665 transport = _dbus_transport_open (entry, error); 1666 1667 if (transport == NULL) 1668 { 1669 _DBUS_ASSERT_ERROR_IS_SET (error); 1670 return NULL; 1671 } 1672 1673 connection = _dbus_connection_new_for_transport (transport); 1674 1675 _dbus_transport_unref (transport); 1676 1677 if (connection == NULL) 1678 { 1679 _DBUS_SET_OOM (error); 1680 return NULL; 1681 } 1682 1683 #ifndef DBUS_DISABLE_CHECKS 1684 _dbus_assert (!connection->have_connection_lock); 1685 #endif 1686 return connection; 1687 } 1688 1689 /* 1690 * If the shared parameter is true, then any existing connection will 1691 * be used (and if a new connection is created, it will be available 1692 * for use by others). If the shared parameter is false, a new 1693 * connection will always be created, and the new connection will 1694 * never be returned to other callers. 1695 * 1696 * @param address the address 1697 * @param shared whether the connection is shared or private 1698 * @param error error return 1699 * @returns the connection or #NULL on error 1700 */ 1701 static DBusConnection* 1702 _dbus_connection_open_internal (const char *address, 1703 dbus_bool_t shared, 1704 DBusError *error) 1705 { 1706 DBusConnection *connection; 1707 DBusAddressEntry **entries; 1708 DBusError tmp_error; 1709 DBusError first_error; 1710 int len, i; 1711 1712 _DBUS_ASSERT_ERROR_IS_CLEAR (error); 1713 1714 _dbus_verbose ("opening %s connection to: %s\n", 1715 shared ? "shared" : "private", address); 1716 1717 if (!dbus_parse_address (address, &entries, &len, error)) 1718 return NULL; 1719 1720 _DBUS_ASSERT_ERROR_IS_CLEAR (error); 1721 1722 connection = NULL; 1723 1724 dbus_error_init (&tmp_error); 1725 dbus_error_init (&first_error); 1726 for (i = 0; i < len; i++) 1727 { 1728 if (shared) 1729 { 1730 if (!connection_lookup_shared (entries[i], &connection)) 1731 _DBUS_SET_OOM (&tmp_error); 1732 } 1733 1734 if (connection == NULL) 1735 { 1736 connection = connection_try_from_address_entry (entries[i], 1737 &tmp_error); 1738 1739 if (connection != NULL && shared) 1740 { 1741 const char *guid; 1742 1743 connection->shareable = TRUE; 1744 1745 /* guid may be NULL */ 1746 guid = dbus_address_entry_get_value (entries[i], "guid"); 1747 1748 CONNECTION_LOCK (connection); 1749 1750 if (!connection_record_shared_unlocked (connection, guid)) 1751 { 1752 _DBUS_SET_OOM (&tmp_error); 1753 _dbus_connection_close_possibly_shared_and_unlock (connection); 1754 dbus_connection_unref (connection); 1755 connection = NULL; 1756 } 1757 else 1758 CONNECTION_UNLOCK (connection); 1759 } 1760 } 1761 1762 if (connection) 1763 break; 1764 1765 _DBUS_ASSERT_ERROR_IS_SET (&tmp_error); 1766 1767 if (i == 0) 1768 dbus_move_error (&tmp_error, &first_error); 1769 else 1770 dbus_error_free (&tmp_error); 1771 } 1772 1773 _DBUS_ASSERT_ERROR_IS_CLEAR (error); 1774 _DBUS_ASSERT_ERROR_IS_CLEAR (&tmp_error); 1775 1776 if (connection == NULL) 1777 { 1778 _DBUS_ASSERT_ERROR_IS_SET (&first_error); 1779 dbus_move_error (&first_error, error); 1780 } 1781 else 1782 dbus_error_free (&first_error); 1783 1784 dbus_address_entries_free (entries); 1785 return connection; 1786 } 1787 1788 /** 1789 * Closes a shared OR private connection, while dbus_connection_close() can 1790 * only be used on private connections. Should only be called by the 1791 * dbus code that owns the connection - an owner must be known, 1792 * the open/close state is like malloc/free, not like ref/unref. 1793 * 1794 * @param connection the connection 1795 */ 1796 void 1797 _dbus_connection_close_possibly_shared (DBusConnection *connection) 1798 { 1799 _dbus_assert (connection != NULL); 1800 _dbus_assert (connection->generation == _dbus_current_generation); 1801 1802 CONNECTION_LOCK (connection); 1803 _dbus_connection_close_possibly_shared_and_unlock (connection); 1804 } 1805 1806 static DBusPreallocatedSend* 1807 _dbus_connection_preallocate_send_unlocked (DBusConnection *connection) 1808 { 1809 DBusPreallocatedSend *preallocated; 1810 1811 HAVE_LOCK_CHECK (connection); 1812 1813 _dbus_assert (connection != NULL); 1814 1815 preallocated = dbus_new (DBusPreallocatedSend, 1); 1816 if (preallocated == NULL) 1817 return NULL; 1818 1819 if (connection->link_cache != NULL) 1820 { 1821 preallocated->queue_link = 1822 _dbus_list_pop_first_link (&connection->link_cache); 1823 preallocated->queue_link->data = NULL; 1824 } 1825 else 1826 { 1827 preallocated->queue_link = _dbus_list_alloc_link (NULL); 1828 if (preallocated->queue_link == NULL) 1829 goto failed_0; 1830 } 1831 1832 if (connection->link_cache != NULL) 1833 { 1834 preallocated->counter_link = 1835 _dbus_list_pop_first_link (&connection->link_cache); 1836 preallocated->counter_link->data = connection->outgoing_counter; 1837 } 1838 else 1839 { 1840 preallocated->counter_link = _dbus_list_alloc_link (connection->outgoing_counter); 1841 if (preallocated->counter_link == NULL) 1842 goto failed_1; 1843 } 1844 1845 _dbus_counter_ref (preallocated->counter_link->data); 1846 1847 preallocated->connection = connection; 1848 1849 return preallocated; 1850 1851 failed_1: 1852 _dbus_list_free_link (preallocated->queue_link); 1853 failed_0: 1854 dbus_free (preallocated); 1855 1856 return NULL; 1857 } 1858 1859 /* Called with lock held, does not update dispatch status */ 1860 static void 1861 _dbus_connection_send_preallocated_unlocked_no_update (DBusConnection *connection, 1862 DBusPreallocatedSend *preallocated, 1863 DBusMessage *message, 1864 dbus_uint32_t *client_serial) 1865 { 1866 dbus_uint32_t serial; 1867 const char *sig; 1868 1869 preallocated->queue_link->data = message; 1870 _dbus_list_prepend_link (&connection->outgoing_messages, 1871 preallocated->queue_link); 1872 1873 _dbus_message_add_size_counter_link (message, 1874 preallocated->counter_link); 1875 1876 dbus_free (preallocated); 1877 preallocated = NULL; 1878 1879 dbus_message_ref (message); 1880 1881 connection->n_outgoing += 1; 1882 1883 sig = dbus_message_get_signature (message); 1884 1885 _dbus_verbose ("Message %p (%d %s %s %s '%s') for %s added to outgoing queue %p, %d pending to send\n", 1886 message, 1887 dbus_message_get_type (message), 1888 dbus_message_get_path (message) ? 1889 dbus_message_get_path (message) : 1890 "no path", 1891 dbus_message_get_interface (message) ? 1892 dbus_message_get_interface (message) : 1893 "no interface", 1894 dbus_message_get_member (message) ? 1895 dbus_message_get_member (message) : 1896 "no member", 1897 sig, 1898 dbus_message_get_destination (message) ? 1899 dbus_message_get_destination (message) : 1900 "null", 1901 connection, 1902 connection->n_outgoing); 1903 1904 if (dbus_message_get_serial (message) == 0) 1905 { 1906 serial = _dbus_connection_get_next_client_serial (connection); 1907 _dbus_message_set_serial (message, serial); 1908 if (client_serial) 1909 *client_serial = serial; 1910 } 1911 else 1912 { 1913 if (client_serial) 1914 *client_serial = dbus_message_get_serial (message); 1915 } 1916 1917 _dbus_verbose ("Message %p serial is %u\n", 1918 message, dbus_message_get_serial (message)); 1919 1920 _dbus_message_lock (message); 1921 1922 /* Now we need to run an iteration to hopefully just write the messages 1923 * out immediately, and otherwise get them queued up 1924 */ 1925 _dbus_connection_do_iteration_unlocked (connection, 1926 DBUS_ITERATION_DO_WRITING, 1927 -1); 1928 1929 /* If stuff is still queued up, be sure we wake up the main loop */ 1930 if (connection->n_outgoing > 0) 1931 _dbus_connection_wakeup_mainloop (connection); 1932 } 1933 1934 static void 1935 _dbus_connection_send_preallocated_and_unlock (DBusConnection *connection, 1936 DBusPreallocatedSend *preallocated, 1937 DBusMessage *message, 1938 dbus_uint32_t *client_serial) 1939 { 1940 DBusDispatchStatus status; 1941 1942 HAVE_LOCK_CHECK (connection); 1943 1944 _dbus_connection_send_preallocated_unlocked_no_update (connection, 1945 preallocated, 1946 message, client_serial); 1947 1948 _dbus_verbose ("%s middle\n", _DBUS_FUNCTION_NAME); 1949 status = _dbus_connection_get_dispatch_status_unlocked (connection); 1950 1951 /* this calls out to user code */ 1952 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 1953 } 1954 1955 /** 1956 * Like dbus_connection_send(), but assumes the connection 1957 * is already locked on function entry, and unlocks before returning. 1958 * 1959 * @param connection the connection 1960 * @param message the message to send 1961 * @param client_serial return location for client serial of sent message 1962 * @returns #FALSE on out-of-memory 1963 */ 1964 dbus_bool_t 1965 _dbus_connection_send_and_unlock (DBusConnection *connection, 1966 DBusMessage *message, 1967 dbus_uint32_t *client_serial) 1968 { 1969 DBusPreallocatedSend *preallocated; 1970 1971 _dbus_assert (connection != NULL); 1972 _dbus_assert (message != NULL); 1973 1974 preallocated = _dbus_connection_preallocate_send_unlocked (connection); 1975 if (preallocated == NULL) 1976 { 1977 CONNECTION_UNLOCK (connection); 1978 return FALSE; 1979 } 1980 1981 _dbus_connection_send_preallocated_and_unlock (connection, 1982 preallocated, 1983 message, 1984 client_serial); 1985 return TRUE; 1986 } 1987 1988 /** 1989 * Used internally to handle the semantics of dbus_server_set_new_connection_function(). 1990 * If the new connection function does not ref the connection, we want to close it. 1991 * 1992 * A bit of a hack, probably the new connection function should have returned a value 1993 * for whether to close, or should have had to close the connection itself if it 1994 * didn't want it. 1995 * 1996 * But, this works OK as long as the new connection function doesn't do anything 1997 * crazy like keep the connection around without ref'ing it. 1998 * 1999 * We have to lock the connection across refcount check and close in case 2000 * the new connection function spawns a thread that closes and unrefs. 2001 * In that case, if the app thread 2002 * closes and unrefs first, we'll harmlessly close again; if the app thread 2003 * still has the ref, we'll close and then the app will close harmlessly. 2004 * If the app unrefs without closing, the app is broken since if the 2005 * app refs from the new connection function it is supposed to also close. 2006 * 2007 * If we didn't atomically check the refcount and close with the lock held 2008 * though, we could screw this up. 2009 * 2010 * @param connection the connection 2011 */ 2012 void 2013 _dbus_connection_close_if_only_one_ref (DBusConnection *connection) 2014 { 2015 CONNECTION_LOCK (connection); 2016 2017 _dbus_assert (connection->refcount.value > 0); 2018 2019 if (connection->refcount.value == 1) 2020 _dbus_connection_close_possibly_shared_and_unlock (connection); 2021 else 2022 CONNECTION_UNLOCK (connection); 2023 } 2024 2025 2026 /** 2027 * When a function that blocks has been called with a timeout, and we 2028 * run out of memory, the time to wait for memory is based on the 2029 * timeout. If the caller was willing to block a long time we wait a 2030 * relatively long time for memory, if they were only willing to block 2031 * briefly then we retry for memory at a rapid rate. 2032 * 2033 * @timeout_milliseconds the timeout requested for blocking 2034 */ 2035 static void 2036 _dbus_memory_pause_based_on_timeout (int timeout_milliseconds) 2037 { 2038 if (timeout_milliseconds == -1) 2039 _dbus_sleep_milliseconds (1000); 2040 else if (timeout_milliseconds < 100) 2041 ; /* just busy loop */ 2042 else if (timeout_milliseconds <= 1000) 2043 _dbus_sleep_milliseconds (timeout_milliseconds / 3); 2044 else 2045 _dbus_sleep_milliseconds (1000); 2046 } 2047 2048 static DBusMessage * 2049 generate_local_error_message (dbus_uint32_t serial, 2050 char *error_name, 2051 char *error_msg) 2052 { 2053 DBusMessage *message; 2054 message = dbus_message_new (DBUS_MESSAGE_TYPE_ERROR); 2055 if (!message) 2056 goto out; 2057 2058 if (!dbus_message_set_error_name (message, error_name)) 2059 { 2060 dbus_message_unref (message); 2061 message = NULL; 2062 goto out; 2063 } 2064 2065 dbus_message_set_no_reply (message, TRUE); 2066 2067 if (!dbus_message_set_reply_serial (message, 2068 serial)) 2069 { 2070 dbus_message_unref (message); 2071 message = NULL; 2072 goto out; 2073 } 2074 2075 if (error_msg != NULL) 2076 { 2077 DBusMessageIter iter; 2078 2079 dbus_message_iter_init_append (message, &iter); 2080 if (!dbus_message_iter_append_basic (&iter, 2081 DBUS_TYPE_STRING, 2082 &error_msg)) 2083 { 2084 dbus_message_unref (message); 2085 message = NULL; 2086 goto out; 2087 } 2088 } 2089 2090 out: 2091 return message; 2092 } 2093 2094 2095 /* This is slightly strange since we can pop a message here without 2096 * the dispatch lock. 2097 */ 2098 static DBusMessage* 2099 check_for_reply_unlocked (DBusConnection *connection, 2100 dbus_uint32_t client_serial) 2101 { 2102 DBusList *link; 2103 2104 HAVE_LOCK_CHECK (connection); 2105 2106 link = _dbus_list_get_first_link (&connection->incoming_messages); 2107 2108 while (link != NULL) 2109 { 2110 DBusMessage *reply = link->data; 2111 2112 if (dbus_message_get_reply_serial (reply) == client_serial) 2113 { 2114 _dbus_list_remove_link (&connection->incoming_messages, link); 2115 connection->n_incoming -= 1; 2116 return reply; 2117 } 2118 link = _dbus_list_get_next_link (&connection->incoming_messages, link); 2119 } 2120 2121 return NULL; 2122 } 2123 2124 static void 2125 connection_timeout_and_complete_all_pending_calls_unlocked (DBusConnection *connection) 2126 { 2127 /* We can't iterate over the hash in the normal way since we'll be 2128 * dropping the lock for each item. So we restart the 2129 * iter each time as we drain the hash table. 2130 */ 2131 2132 while (_dbus_hash_table_get_n_entries (connection->pending_replies) > 0) 2133 { 2134 DBusPendingCall *pending; 2135 DBusHashIter iter; 2136 2137 _dbus_hash_iter_init (connection->pending_replies, &iter); 2138 _dbus_hash_iter_next (&iter); 2139 2140 pending = _dbus_hash_iter_get_value (&iter); 2141 _dbus_pending_call_ref_unlocked (pending); 2142 2143 _dbus_pending_call_queue_timeout_error_unlocked (pending, 2144 connection); 2145 _dbus_connection_remove_timeout_unlocked (connection, 2146 _dbus_pending_call_get_timeout_unlocked (pending)); 2147 _dbus_pending_call_set_timeout_added_unlocked (pending, FALSE); 2148 _dbus_hash_iter_remove_entry (&iter); 2149 2150 _dbus_pending_call_unref_and_unlock (pending); 2151 CONNECTION_LOCK (connection); 2152 } 2153 HAVE_LOCK_CHECK (connection); 2154 } 2155 2156 static void 2157 complete_pending_call_and_unlock (DBusConnection *connection, 2158 DBusPendingCall *pending, 2159 DBusMessage *message) 2160 { 2161 _dbus_pending_call_set_reply_unlocked (pending, message); 2162 _dbus_pending_call_ref_unlocked (pending); /* in case there's no app with a ref held */ 2163 _dbus_connection_detach_pending_call_and_unlock (connection, pending); 2164 2165 /* Must be called unlocked since it invokes app callback */ 2166 _dbus_pending_call_complete (pending); 2167 dbus_pending_call_unref (pending); 2168 } 2169 2170 static dbus_bool_t 2171 check_for_reply_and_update_dispatch_unlocked (DBusConnection *connection, 2172 DBusPendingCall *pending) 2173 { 2174 DBusMessage *reply; 2175 DBusDispatchStatus status; 2176 2177 reply = check_for_reply_unlocked (connection, 2178 _dbus_pending_call_get_reply_serial_unlocked (pending)); 2179 if (reply != NULL) 2180 { 2181 _dbus_verbose ("%s checked for reply\n", _DBUS_FUNCTION_NAME); 2182 2183 _dbus_verbose ("dbus_connection_send_with_reply_and_block(): got reply\n"); 2184 2185 complete_pending_call_and_unlock (connection, pending, reply); 2186 dbus_message_unref (reply); 2187 2188 CONNECTION_LOCK (connection); 2189 status = _dbus_connection_get_dispatch_status_unlocked (connection); 2190 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 2191 dbus_pending_call_unref (pending); 2192 2193 return TRUE; 2194 } 2195 2196 return FALSE; 2197 } 2198 2199 /** 2200 * Blocks until a pending call times out or gets a reply. 2201 * 2202 * Does not re-enter the main loop or run filter/path-registered 2203 * callbacks. The reply to the message will not be seen by 2204 * filter callbacks. 2205 * 2206 * Returns immediately if pending call already got a reply. 2207 * 2208 * @todo could use performance improvements (it keeps scanning 2209 * the whole message queue for example) 2210 * 2211 * @param pending the pending call we block for a reply on 2212 */ 2213 void 2214 _dbus_connection_block_pending_call (DBusPendingCall *pending) 2215 { 2216 long start_tv_sec, start_tv_usec; 2217 long end_tv_sec, end_tv_usec; 2218 long tv_sec, tv_usec; 2219 DBusDispatchStatus status; 2220 DBusConnection *connection; 2221 dbus_uint32_t client_serial; 2222 int timeout_milliseconds; 2223 2224 _dbus_assert (pending != NULL); 2225 2226 if (dbus_pending_call_get_completed (pending)) 2227 return; 2228 2229 dbus_pending_call_ref (pending); /* necessary because the call could be canceled */ 2230 2231 connection = _dbus_pending_call_get_connection_and_lock (pending); 2232 2233 /* Flush message queue - note, can affect dispatch status */ 2234 _dbus_connection_flush_unlocked (connection); 2235 2236 client_serial = _dbus_pending_call_get_reply_serial_unlocked (pending); 2237 2238 /* note that timeout_milliseconds is limited to a smallish value 2239 * in _dbus_pending_call_new() so overflows aren't possible 2240 * below 2241 */ 2242 timeout_milliseconds = dbus_timeout_get_interval (_dbus_pending_call_get_timeout_unlocked (pending)); 2243 2244 _dbus_get_current_time (&start_tv_sec, &start_tv_usec); 2245 end_tv_sec = start_tv_sec + timeout_milliseconds / 1000; 2246 end_tv_usec = start_tv_usec + (timeout_milliseconds % 1000) * 1000; 2247 end_tv_sec += end_tv_usec / _DBUS_USEC_PER_SECOND; 2248 end_tv_usec = end_tv_usec % _DBUS_USEC_PER_SECOND; 2249 2250 _dbus_verbose ("dbus_connection_send_with_reply_and_block(): will block %d milliseconds for reply serial %u from %ld sec %ld usec to %ld sec %ld usec\n", 2251 timeout_milliseconds, 2252 client_serial, 2253 start_tv_sec, start_tv_usec, 2254 end_tv_sec, end_tv_usec); 2255 2256 /* check to see if we already got the data off the socket */ 2257 /* from another blocked pending call */ 2258 if (check_for_reply_and_update_dispatch_unlocked (connection, pending)) 2259 return; 2260 2261 /* Now we wait... */ 2262 /* always block at least once as we know we don't have the reply yet */ 2263 _dbus_connection_do_iteration_unlocked (connection, 2264 DBUS_ITERATION_DO_READING | 2265 DBUS_ITERATION_BLOCK, 2266 timeout_milliseconds); 2267 2268 recheck_status: 2269 2270 _dbus_verbose ("%s top of recheck\n", _DBUS_FUNCTION_NAME); 2271 2272 HAVE_LOCK_CHECK (connection); 2273 2274 /* queue messages and get status */ 2275 2276 status = _dbus_connection_get_dispatch_status_unlocked (connection); 2277 2278 /* the get_completed() is in case a dispatch() while we were blocking 2279 * got the reply instead of us. 2280 */ 2281 if (_dbus_pending_call_get_completed_unlocked (pending)) 2282 { 2283 _dbus_verbose ("Pending call completed by dispatch in %s\n", _DBUS_FUNCTION_NAME); 2284 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 2285 dbus_pending_call_unref (pending); 2286 return; 2287 } 2288 2289 if (status == DBUS_DISPATCH_DATA_REMAINS) { 2290 if (check_for_reply_and_update_dispatch_unlocked (connection, pending)) 2291 return; 2292 } 2293 2294 _dbus_get_current_time (&tv_sec, &tv_usec); 2295 2296 if (!_dbus_connection_get_is_connected_unlocked (connection)) 2297 { 2298 DBusMessage *error_msg; 2299 2300 error_msg = generate_local_error_message (client_serial, 2301 DBUS_ERROR_DISCONNECTED, 2302 "Connection was disconnected before a reply was received"); 2303 2304 /* on OOM error_msg is set to NULL */ 2305 complete_pending_call_and_unlock (connection, pending, error_msg); 2306 dbus_pending_call_unref (pending); 2307 return; 2308 } 2309 else if (tv_sec < start_tv_sec) 2310 _dbus_verbose ("dbus_connection_send_with_reply_and_block(): clock set backward\n"); 2311 else if (connection->disconnect_message_link == NULL) 2312 _dbus_verbose ("dbus_connection_send_with_reply_and_block(): disconnected\n"); 2313 else if (tv_sec < end_tv_sec || 2314 (tv_sec == end_tv_sec && tv_usec < end_tv_usec)) 2315 { 2316 timeout_milliseconds = (end_tv_sec - tv_sec) * 1000 + 2317 (end_tv_usec - tv_usec) / 1000; 2318 _dbus_verbose ("dbus_connection_send_with_reply_and_block(): %d milliseconds remain\n", timeout_milliseconds); 2319 _dbus_assert (timeout_milliseconds >= 0); 2320 2321 if (status == DBUS_DISPATCH_NEED_MEMORY) 2322 { 2323 /* Try sleeping a bit, as we aren't sure we need to block for reading, 2324 * we may already have a reply in the buffer and just can't process 2325 * it. 2326 */ 2327 _dbus_verbose ("dbus_connection_send_with_reply_and_block() waiting for more memory\n"); 2328 2329 _dbus_memory_pause_based_on_timeout (timeout_milliseconds); 2330 } 2331 else 2332 { 2333 /* block again, we don't have the reply buffered yet. */ 2334 _dbus_connection_do_iteration_unlocked (connection, 2335 DBUS_ITERATION_DO_READING | 2336 DBUS_ITERATION_BLOCK, 2337 timeout_milliseconds); 2338 } 2339 2340 goto recheck_status; 2341 } 2342 2343 _dbus_verbose ("dbus_connection_send_with_reply_and_block(): Waited %ld milliseconds and got no reply\n", 2344 (tv_sec - start_tv_sec) * 1000 + (tv_usec - start_tv_usec) / 1000); 2345 2346 _dbus_assert (!_dbus_pending_call_get_completed_unlocked (pending)); 2347 2348 /* unlock and call user code */ 2349 complete_pending_call_and_unlock (connection, pending, NULL); 2350 2351 /* update user code on dispatch status */ 2352 CONNECTION_LOCK (connection); 2353 status = _dbus_connection_get_dispatch_status_unlocked (connection); 2354 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 2355 dbus_pending_call_unref (pending); 2356 } 2357 2358 /** @} */ 2359 2360 /** 2361 * @addtogroup DBusConnection 2362 * 2363 * @{ 2364 */ 2365 2366 /** 2367 * Gets a connection to a remote address. If a connection to the given 2368 * address already exists, returns the existing connection with its 2369 * reference count incremented. Otherwise, returns a new connection 2370 * and saves the new connection for possible re-use if a future call 2371 * to dbus_connection_open() asks to connect to the same server. 2372 * 2373 * Use dbus_connection_open_private() to get a dedicated connection 2374 * not shared with other callers of dbus_connection_open(). 2375 * 2376 * If the open fails, the function returns #NULL, and provides a 2377 * reason for the failure in the error parameter. Pass #NULL for the 2378 * error parameter if you aren't interested in the reason for 2379 * failure. 2380 * 2381 * Because this connection is shared, no user of the connection 2382 * may call dbus_connection_close(). However, when you are done with the 2383 * connection you should call dbus_connection_unref(). 2384 * 2385 * @note Prefer dbus_connection_open() to dbus_connection_open_private() 2386 * unless you have good reason; connections are expensive enough 2387 * that it's wasteful to create lots of connections to the same 2388 * server. 2389 * 2390 * @param address the address. 2391 * @param error address where an error can be returned. 2392 * @returns new connection, or #NULL on failure. 2393 */ 2394 DBusConnection* 2395 dbus_connection_open (const char *address, 2396 DBusError *error) 2397 { 2398 DBusConnection *connection; 2399 2400 _dbus_return_val_if_fail (address != NULL, NULL); 2401 _dbus_return_val_if_error_is_set (error, NULL); 2402 2403 connection = _dbus_connection_open_internal (address, 2404 TRUE, 2405 error); 2406 2407 return connection; 2408 } 2409 2410 /** 2411 * Opens a new, dedicated connection to a remote address. Unlike 2412 * dbus_connection_open(), always creates a new connection. 2413 * This connection will not be saved or recycled by libdbus. 2414 * 2415 * If the open fails, the function returns #NULL, and provides a 2416 * reason for the failure in the error parameter. Pass #NULL for the 2417 * error parameter if you aren't interested in the reason for 2418 * failure. 2419 * 2420 * When you are done with this connection, you must 2421 * dbus_connection_close() to disconnect it, 2422 * and dbus_connection_unref() to free the connection object. 2423 * 2424 * (The dbus_connection_close() can be skipped if the 2425 * connection is already known to be disconnected, for example 2426 * if you are inside a handler for the Disconnected signal.) 2427 * 2428 * @note Prefer dbus_connection_open() to dbus_connection_open_private() 2429 * unless you have good reason; connections are expensive enough 2430 * that it's wasteful to create lots of connections to the same 2431 * server. 2432 * 2433 * @param address the address. 2434 * @param error address where an error can be returned. 2435 * @returns new connection, or #NULL on failure. 2436 */ 2437 DBusConnection* 2438 dbus_connection_open_private (const char *address, 2439 DBusError *error) 2440 { 2441 DBusConnection *connection; 2442 2443 _dbus_return_val_if_fail (address != NULL, NULL); 2444 _dbus_return_val_if_error_is_set (error, NULL); 2445 2446 connection = _dbus_connection_open_internal (address, 2447 FALSE, 2448 error); 2449 2450 return connection; 2451 } 2452 2453 /** 2454 * Increments the reference count of a DBusConnection. 2455 * 2456 * @param connection the connection. 2457 * @returns the connection. 2458 */ 2459 DBusConnection * 2460 dbus_connection_ref (DBusConnection *connection) 2461 { 2462 _dbus_return_val_if_fail (connection != NULL, NULL); 2463 _dbus_return_val_if_fail (connection->generation == _dbus_current_generation, NULL); 2464 2465 /* The connection lock is better than the global 2466 * lock in the atomic increment fallback 2467 */ 2468 2469 #ifdef DBUS_HAVE_ATOMIC_INT 2470 _dbus_atomic_inc (&connection->refcount); 2471 #else 2472 CONNECTION_LOCK (connection); 2473 _dbus_assert (connection->refcount.value > 0); 2474 2475 connection->refcount.value += 1; 2476 CONNECTION_UNLOCK (connection); 2477 #endif 2478 2479 return connection; 2480 } 2481 2482 static void 2483 free_outgoing_message (void *element, 2484 void *data) 2485 { 2486 DBusMessage *message = element; 2487 DBusConnection *connection = data; 2488 2489 _dbus_message_remove_size_counter (message, 2490 connection->outgoing_counter, 2491 NULL); 2492 dbus_message_unref (message); 2493 } 2494 2495 /* This is run without the mutex held, but after the last reference 2496 * to the connection has been dropped we should have no thread-related 2497 * problems 2498 */ 2499 static void 2500 _dbus_connection_last_unref (DBusConnection *connection) 2501 { 2502 DBusList *link; 2503 2504 _dbus_verbose ("Finalizing connection %p\n", connection); 2505 2506 _dbus_assert (connection->refcount.value == 0); 2507 2508 /* You have to disconnect the connection before unref:ing it. Otherwise 2509 * you won't get the disconnected message. 2510 */ 2511 _dbus_assert (!_dbus_transport_get_is_connected (connection->transport)); 2512 _dbus_assert (connection->server_guid == NULL); 2513 2514 /* ---- We're going to call various application callbacks here, hope it doesn't break anything... */ 2515 _dbus_object_tree_free_all_unlocked (connection->objects); 2516 2517 dbus_connection_set_dispatch_status_function (connection, NULL, NULL, NULL); 2518 dbus_connection_set_wakeup_main_function (connection, NULL, NULL, NULL); 2519 dbus_connection_set_unix_user_function (connection, NULL, NULL, NULL); 2520 2521 _dbus_watch_list_free (connection->watches); 2522 connection->watches = NULL; 2523 2524 _dbus_timeout_list_free (connection->timeouts); 2525 connection->timeouts = NULL; 2526 2527 _dbus_data_slot_list_free (&connection->slot_list); 2528 2529 link = _dbus_list_get_first_link (&connection->filter_list); 2530 while (link != NULL) 2531 { 2532 DBusMessageFilter *filter = link->data; 2533 DBusList *next = _dbus_list_get_next_link (&connection->filter_list, link); 2534 2535 filter->function = NULL; 2536 _dbus_message_filter_unref (filter); /* calls app callback */ 2537 link->data = NULL; 2538 2539 link = next; 2540 } 2541 _dbus_list_clear (&connection->filter_list); 2542 2543 /* ---- Done with stuff that invokes application callbacks */ 2544 2545 _dbus_object_tree_unref (connection->objects); 2546 2547 _dbus_hash_table_unref (connection->pending_replies); 2548 connection->pending_replies = NULL; 2549 2550 _dbus_list_clear (&connection->filter_list); 2551 2552 _dbus_list_foreach (&connection->outgoing_messages, 2553 free_outgoing_message, 2554 connection); 2555 _dbus_list_clear (&connection->outgoing_messages); 2556 2557 _dbus_list_foreach (&connection->incoming_messages, 2558 (DBusForeachFunction) dbus_message_unref, 2559 NULL); 2560 _dbus_list_clear (&connection->incoming_messages); 2561 2562 _dbus_counter_unref (connection->outgoing_counter); 2563 2564 _dbus_transport_unref (connection->transport); 2565 2566 if (connection->disconnect_message_link) 2567 { 2568 DBusMessage *message = connection->disconnect_message_link->data; 2569 dbus_message_unref (message); 2570 _dbus_list_free_link (connection->disconnect_message_link); 2571 } 2572 2573 _dbus_list_clear (&connection->link_cache); 2574 2575 _dbus_condvar_free_at_location (&connection->dispatch_cond); 2576 _dbus_condvar_free_at_location (&connection->io_path_cond); 2577 2578 _dbus_mutex_free_at_location (&connection->io_path_mutex); 2579 _dbus_mutex_free_at_location (&connection->dispatch_mutex); 2580 2581 _dbus_mutex_free_at_location (&connection->mutex); 2582 2583 dbus_free (connection); 2584 } 2585 2586 /** 2587 * Decrements the reference count of a DBusConnection, and finalizes 2588 * it if the count reaches zero. 2589 * 2590 * Note: it is a bug to drop the last reference to a connection that 2591 * is still connected. 2592 * 2593 * For shared connections, libdbus will own a reference 2594 * as long as the connection is connected, so you can know that either 2595 * you don't have the last reference, or it's OK to drop the last reference. 2596 * Most connections are shared. dbus_connection_open() and dbus_bus_get() 2597 * return shared connections. 2598 * 2599 * For private connections, the creator of the connection must arrange for 2600 * dbus_connection_close() to be called prior to dropping the last reference. 2601 * Private connections come from dbus_connection_open_private() or dbus_bus_get_private(). 2602 * 2603 * @param connection the connection. 2604 */ 2605 void 2606 dbus_connection_unref (DBusConnection *connection) 2607 { 2608 dbus_bool_t last_unref; 2609 2610 _dbus_return_if_fail (connection != NULL); 2611 _dbus_return_if_fail (connection->generation == _dbus_current_generation); 2612 2613 /* The connection lock is better than the global 2614 * lock in the atomic increment fallback 2615 */ 2616 2617 #ifdef DBUS_HAVE_ATOMIC_INT 2618 last_unref = (_dbus_atomic_dec (&connection->refcount) == 1); 2619 #else 2620 CONNECTION_LOCK (connection); 2621 2622 _dbus_assert (connection->refcount.value > 0); 2623 2624 connection->refcount.value -= 1; 2625 last_unref = (connection->refcount.value == 0); 2626 2627 #if 0 2628 printf ("unref() connection %p count = %d\n", connection, connection->refcount.value); 2629 #endif 2630 2631 CONNECTION_UNLOCK (connection); 2632 #endif 2633 2634 if (last_unref) 2635 { 2636 #ifndef DBUS_DISABLE_CHECKS 2637 if (_dbus_transport_get_is_connected (connection->transport)) 2638 { 2639 _dbus_warn_check_failed ("The last reference on a connection was dropped without closing the connection. This is a bug in an application. See dbus_connection_unref() documentation for details.\n%s", 2640 connection->shareable ? 2641 "Most likely, the application called unref() too many times and removed a reference belonging to libdbus, since this is a shared connection.\n" : 2642 "Most likely, the application was supposed to call dbus_connection_close(), since this is a private connection.\n"); 2643 return; 2644 } 2645 #endif 2646 _dbus_connection_last_unref (connection); 2647 } 2648 } 2649 2650 /* 2651 * Note that the transport can disconnect itself (other end drops us) 2652 * and in that case this function never runs. So this function must 2653 * not do anything more than disconnect the transport and update the 2654 * dispatch status. 2655 * 2656 * If the transport self-disconnects, then we assume someone will 2657 * dispatch the connection to cause the dispatch status update. 2658 */ 2659 static void 2660 _dbus_connection_close_possibly_shared_and_unlock (DBusConnection *connection) 2661 { 2662 DBusDispatchStatus status; 2663 2664 HAVE_LOCK_CHECK (connection); 2665 2666 _dbus_verbose ("Disconnecting %p\n", connection); 2667 2668 /* We need to ref because update_dispatch_status_and_unlock will unref 2669 * the connection if it was shared and libdbus was the only remaining 2670 * refcount holder. 2671 */ 2672 _dbus_connection_ref_unlocked (connection); 2673 2674 _dbus_transport_disconnect (connection->transport); 2675 2676 /* This has the side effect of queuing the disconnect message link 2677 * (unless we don't have enough memory, possibly, so don't assert it). 2678 * After the disconnect message link is queued, dbus_bus_get/dbus_connection_open 2679 * should never again return the newly-disconnected connection. 2680 * 2681 * However, we only unref the shared connection and exit_on_disconnect when 2682 * the disconnect message reaches the head of the message queue, 2683 * NOT when it's first queued. 2684 */ 2685 status = _dbus_connection_get_dispatch_status_unlocked (connection); 2686 2687 /* This calls out to user code */ 2688 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 2689 2690 /* Could also call out to user code */ 2691 dbus_connection_unref (connection); 2692 } 2693 2694 /** 2695 * Closes a private connection, so no further data can be sent or received. 2696 * This disconnects the transport (such as a socket) underlying the 2697 * connection. 2698 * 2699 * Attempts to send messages after closing a connection are safe, but will result in 2700 * error replies generated locally in libdbus. 2701 * 2702 * This function does not affect the connection's reference count. It's 2703 * safe to close a connection more than once; all calls after the 2704 * first do nothing. It's impossible to "reopen" a connection, a 2705 * new connection must be created. This function may result in a call 2706 * to the DBusDispatchStatusFunction set with 2707 * dbus_connection_set_dispatch_status_function(), as the disconnect 2708 * message it generates needs to be dispatched. 2709 * 2710 * If a connection is dropped by the remote application, it will 2711 * close itself. 2712 * 2713 * You must close a connection prior to releasing the last reference to 2714 * the connection. If you dbus_connection_unref() for the last time 2715 * without closing the connection, the results are undefined; it 2716 * is a bug in your program and libdbus will try to print a warning. 2717 * 2718 * You may not close a shared connection. Connections created with 2719 * dbus_connection_open() or dbus_bus_get() are shared. 2720 * These connections are owned by libdbus, and applications should 2721 * only unref them, never close them. Applications can know it is 2722 * safe to unref these connections because libdbus will be holding a 2723 * reference as long as the connection is open. Thus, either the 2724 * connection is closed and it is OK to drop the last reference, 2725 * or the connection is open and the app knows it does not have the 2726 * last reference. 2727 * 2728 * Connections created with dbus_connection_open_private() or 2729 * dbus_bus_get_private() are not kept track of or referenced by 2730 * libdbus. The creator of these connections is responsible for 2731 * calling dbus_connection_close() prior to releasing the last 2732 * reference, if the connection is not already disconnected. 2733 * 2734 * @param connection the private (unshared) connection to close 2735 */ 2736 void 2737 dbus_connection_close (DBusConnection *connection) 2738 { 2739 _dbus_return_if_fail (connection != NULL); 2740 _dbus_return_if_fail (connection->generation == _dbus_current_generation); 2741 2742 CONNECTION_LOCK (connection); 2743 2744 #ifndef DBUS_DISABLE_CHECKS 2745 if (connection->shareable) 2746 { 2747 CONNECTION_UNLOCK (connection); 2748 2749 _dbus_warn_check_failed ("Applications must not close shared connections - see dbus_connection_close() docs. This is a bug in the application.\n"); 2750 return; 2751 } 2752 #endif 2753 2754 _dbus_connection_close_possibly_shared_and_unlock (connection); 2755 } 2756 2757 static dbus_bool_t 2758 _dbus_connection_get_is_connected_unlocked (DBusConnection *connection) 2759 { 2760 HAVE_LOCK_CHECK (connection); 2761 return _dbus_transport_get_is_connected (connection->transport); 2762 } 2763 2764 /** 2765 * Gets whether the connection is currently open. A connection may 2766 * become disconnected when the remote application closes its end, or 2767 * exits; a connection may also be disconnected with 2768 * dbus_connection_close(). 2769 * 2770 * There are not separate states for "closed" and "disconnected," the two 2771 * terms are synonymous. This function should really be called 2772 * get_is_open() but for historical reasons is not. 2773 * 2774 * @param connection the connection. 2775 * @returns #TRUE if the connection is still alive. 2776 */ 2777 dbus_bool_t 2778 dbus_connection_get_is_connected (DBusConnection *connection) 2779 { 2780 dbus_bool_t res; 2781 2782 _dbus_return_val_if_fail (connection != NULL, FALSE); 2783 2784 CONNECTION_LOCK (connection); 2785 res = _dbus_connection_get_is_connected_unlocked (connection); 2786 CONNECTION_UNLOCK (connection); 2787 2788 return res; 2789 } 2790 2791 /** 2792 * Gets whether the connection was authenticated. (Note that 2793 * if the connection was authenticated then disconnected, 2794 * this function still returns #TRUE) 2795 * 2796 * @param connection the connection 2797 * @returns #TRUE if the connection was ever authenticated 2798 */ 2799 dbus_bool_t 2800 dbus_connection_get_is_authenticated (DBusConnection *connection) 2801 { 2802 dbus_bool_t res; 2803 2804 _dbus_return_val_if_fail (connection != NULL, FALSE); 2805 2806 CONNECTION_LOCK (connection); 2807 res = _dbus_transport_get_is_authenticated (connection->transport); 2808 CONNECTION_UNLOCK (connection); 2809 2810 return res; 2811 } 2812 2813 /** 2814 * Set whether _exit() should be called when the connection receives a 2815 * disconnect signal. The call to _exit() comes after any handlers for 2816 * the disconnect signal run; handlers can cancel the exit by calling 2817 * this function. 2818 * 2819 * By default, exit_on_disconnect is #FALSE; but for message bus 2820 * connections returned from dbus_bus_get() it will be toggled on 2821 * by default. 2822 * 2823 * @param connection the connection 2824 * @param exit_on_disconnect #TRUE if _exit() should be called after a disconnect signal 2825 */ 2826 void 2827 dbus_connection_set_exit_on_disconnect (DBusConnection *connection, 2828 dbus_bool_t exit_on_disconnect) 2829 { 2830 _dbus_return_if_fail (connection != NULL); 2831 2832 CONNECTION_LOCK (connection); 2833 connection->exit_on_disconnect = exit_on_disconnect != FALSE; 2834 CONNECTION_UNLOCK (connection); 2835 } 2836 2837 /** 2838 * Preallocates resources needed to send a message, allowing the message 2839 * to be sent without the possibility of memory allocation failure. 2840 * Allows apps to create a future guarantee that they can send 2841 * a message regardless of memory shortages. 2842 * 2843 * @param connection the connection we're preallocating for. 2844 * @returns the preallocated resources, or #NULL 2845 */ 2846 DBusPreallocatedSend* 2847 dbus_connection_preallocate_send (DBusConnection *connection) 2848 { 2849 DBusPreallocatedSend *preallocated; 2850 2851 _dbus_return_val_if_fail (connection != NULL, NULL); 2852 2853 CONNECTION_LOCK (connection); 2854 2855 preallocated = 2856 _dbus_connection_preallocate_send_unlocked (connection); 2857 2858 CONNECTION_UNLOCK (connection); 2859 2860 return preallocated; 2861 } 2862 2863 /** 2864 * Frees preallocated message-sending resources from 2865 * dbus_connection_preallocate_send(). Should only 2866 * be called if the preallocated resources are not used 2867 * to send a message. 2868 * 2869 * @param connection the connection 2870 * @param preallocated the resources 2871 */ 2872 void 2873 dbus_connection_free_preallocated_send (DBusConnection *connection, 2874 DBusPreallocatedSend *preallocated) 2875 { 2876 _dbus_return_if_fail (connection != NULL); 2877 _dbus_return_if_fail (preallocated != NULL); 2878 _dbus_return_if_fail (connection == preallocated->connection); 2879 2880 _dbus_list_free_link (preallocated->queue_link); 2881 _dbus_counter_unref (preallocated->counter_link->data); 2882 _dbus_list_free_link (preallocated->counter_link); 2883 dbus_free (preallocated); 2884 } 2885 2886 /** 2887 * Sends a message using preallocated resources. This function cannot fail. 2888 * It works identically to dbus_connection_send() in other respects. 2889 * Preallocated resources comes from dbus_connection_preallocate_send(). 2890 * This function "consumes" the preallocated resources, they need not 2891 * be freed separately. 2892 * 2893 * @param connection the connection 2894 * @param preallocated the preallocated resources 2895 * @param message the message to send 2896 * @param client_serial return location for client serial assigned to the message 2897 */ 2898 void 2899 dbus_connection_send_preallocated (DBusConnection *connection, 2900 DBusPreallocatedSend *preallocated, 2901 DBusMessage *message, 2902 dbus_uint32_t *client_serial) 2903 { 2904 _dbus_return_if_fail (connection != NULL); 2905 _dbus_return_if_fail (preallocated != NULL); 2906 _dbus_return_if_fail (message != NULL); 2907 _dbus_return_if_fail (preallocated->connection == connection); 2908 _dbus_return_if_fail (dbus_message_get_type (message) != DBUS_MESSAGE_TYPE_METHOD_CALL || 2909 dbus_message_get_member (message) != NULL); 2910 _dbus_return_if_fail (dbus_message_get_type (message) != DBUS_MESSAGE_TYPE_SIGNAL || 2911 (dbus_message_get_interface (message) != NULL && 2912 dbus_message_get_member (message) != NULL)); 2913 2914 CONNECTION_LOCK (connection); 2915 _dbus_connection_send_preallocated_and_unlock (connection, 2916 preallocated, 2917 message, client_serial); 2918 } 2919 2920 static dbus_bool_t 2921 _dbus_connection_send_unlocked_no_update (DBusConnection *connection, 2922 DBusMessage *message, 2923 dbus_uint32_t *client_serial) 2924 { 2925 DBusPreallocatedSend *preallocated; 2926 2927 _dbus_assert (connection != NULL); 2928 _dbus_assert (message != NULL); 2929 2930 preallocated = _dbus_connection_preallocate_send_unlocked (connection); 2931 if (preallocated == NULL) 2932 return FALSE; 2933 2934 _dbus_connection_send_preallocated_unlocked_no_update (connection, 2935 preallocated, 2936 message, 2937 client_serial); 2938 return TRUE; 2939 } 2940 2941 /** 2942 * Adds a message to the outgoing message queue. Does not block to 2943 * write the message to the network; that happens asynchronously. To 2944 * force the message to be written, call dbus_connection_flush(). 2945 * Because this only queues the message, the only reason it can 2946 * fail is lack of memory. Even if the connection is disconnected, 2947 * no error will be returned. 2948 * 2949 * If the function fails due to lack of memory, it returns #FALSE. 2950 * The function will never fail for other reasons; even if the 2951 * connection is disconnected, you can queue an outgoing message, 2952 * though obviously it won't be sent. 2953 * 2954 * The message serial is used by the remote application to send a 2955 * reply; see dbus_message_get_serial() or the D-Bus specification. 2956 * 2957 * @param connection the connection. 2958 * @param message the message to write. 2959 * @param serial return location for message serial, or #NULL if you don't care 2960 * @returns #TRUE on success. 2961 */ 2962 dbus_bool_t 2963 dbus_connection_send (DBusConnection *connection, 2964 DBusMessage *message, 2965 dbus_uint32_t *serial) 2966 { 2967 _dbus_return_val_if_fail (connection != NULL, FALSE); 2968 _dbus_return_val_if_fail (message != NULL, FALSE); 2969 2970 CONNECTION_LOCK (connection); 2971 2972 return _dbus_connection_send_and_unlock (connection, 2973 message, 2974 serial); 2975 } 2976 2977 static dbus_bool_t 2978 reply_handler_timeout (void *data) 2979 { 2980 DBusConnection *connection; 2981 DBusDispatchStatus status; 2982 DBusPendingCall *pending = data; 2983 2984 connection = _dbus_pending_call_get_connection_and_lock (pending); 2985 2986 _dbus_pending_call_queue_timeout_error_unlocked (pending, 2987 connection); 2988 _dbus_connection_remove_timeout_unlocked (connection, 2989 _dbus_pending_call_get_timeout_unlocked (pending)); 2990 _dbus_pending_call_set_timeout_added_unlocked (pending, FALSE); 2991 2992 _dbus_verbose ("%s middle\n", _DBUS_FUNCTION_NAME); 2993 status = _dbus_connection_get_dispatch_status_unlocked (connection); 2994 2995 /* Unlocks, and calls out to user code */ 2996 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 2997 2998 return TRUE; 2999 } 3000 3001 /** 3002 * Queues a message to send, as with dbus_connection_send(), 3003 * but also returns a #DBusPendingCall used to receive a reply to the 3004 * message. If no reply is received in the given timeout_milliseconds, 3005 * this function expires the pending reply and generates a synthetic 3006 * error reply (generated in-process, not by the remote application) 3007 * indicating that a timeout occurred. 3008 * 3009 * A #DBusPendingCall will see a reply message before any filters or 3010 * registered object path handlers. See dbus_connection_dispatch() for 3011 * details on when handlers are run. 3012 * 3013 * A #DBusPendingCall will always see exactly one reply message, 3014 * unless it's cancelled with dbus_pending_call_cancel(). 3015 * 3016 * If #NULL is passed for the pending_return, the #DBusPendingCall 3017 * will still be generated internally, and used to track 3018 * the message reply timeout. This means a timeout error will 3019 * occur if no reply arrives, unlike with dbus_connection_send(). 3020 * 3021 * If -1 is passed for the timeout, a sane default timeout is used. -1 3022 * is typically the best value for the timeout for this reason, unless 3023 * you want a very short or very long timeout. There is no way to 3024 * avoid a timeout entirely, other than passing INT_MAX for the 3025 * timeout to mean "very long timeout." libdbus clamps an INT_MAX 3026 * timeout down to a few hours timeout though. 3027 * 3028 * @warning if the connection is disconnected, the #DBusPendingCall 3029 * will be set to #NULL, so be careful with this. 3030 * 3031 * @param connection the connection 3032 * @param message the message to send 3033 * @param pending_return return location for a #DBusPendingCall object, or #NULL if connection is disconnected 3034 * @param timeout_milliseconds timeout in milliseconds or -1 for default 3035 * @returns #FALSE if no memory, #TRUE otherwise. 3036 * 3037 */ 3038 dbus_bool_t 3039 dbus_connection_send_with_reply (DBusConnection *connection, 3040 DBusMessage *message, 3041 DBusPendingCall **pending_return, 3042 int timeout_milliseconds) 3043 { 3044 DBusPendingCall *pending; 3045 dbus_int32_t serial = -1; 3046 DBusDispatchStatus status; 3047 3048 _dbus_return_val_if_fail (connection != NULL, FALSE); 3049 _dbus_return_val_if_fail (message != NULL, FALSE); 3050 _dbus_return_val_if_fail (timeout_milliseconds >= 0 || timeout_milliseconds == -1, FALSE); 3051 3052 if (pending_return) 3053 *pending_return = NULL; 3054 3055 CONNECTION_LOCK (connection); 3056 3057 if (!_dbus_connection_get_is_connected_unlocked (connection)) 3058 { 3059 CONNECTION_UNLOCK (connection); 3060 3061 *pending_return = NULL; 3062 3063 return TRUE; 3064 } 3065 3066 pending = _dbus_pending_call_new_unlocked (connection, 3067 timeout_milliseconds, 3068 reply_handler_timeout); 3069 3070 if (pending == NULL) 3071 { 3072 CONNECTION_UNLOCK (connection); 3073 return FALSE; 3074 } 3075 3076 /* Assign a serial to the message */ 3077 serial = dbus_message_get_serial (message); 3078 if (serial == 0) 3079 { 3080 serial = _dbus_connection_get_next_client_serial (connection); 3081 _dbus_message_set_serial (message, serial); 3082 } 3083 3084 if (!_dbus_pending_call_set_timeout_error_unlocked (pending, message, serial)) 3085 goto error; 3086 3087 /* Insert the serial in the pending replies hash; 3088 * hash takes a refcount on DBusPendingCall. 3089 * Also, add the timeout. 3090 */ 3091 if (!_dbus_connection_attach_pending_call_unlocked (connection, 3092 pending)) 3093 goto error; 3094 3095 if (!_dbus_connection_send_unlocked_no_update (connection, message, NULL)) 3096 { 3097 _dbus_connection_detach_pending_call_and_unlock (connection, 3098 pending); 3099 goto error_unlocked; 3100 } 3101 3102 if (pending_return) 3103 *pending_return = pending; /* hand off refcount */ 3104 else 3105 { 3106 _dbus_connection_detach_pending_call_unlocked (connection, pending); 3107 /* we still have a ref to the pending call in this case, we unref 3108 * after unlocking, below 3109 */ 3110 } 3111 3112 status = _dbus_connection_get_dispatch_status_unlocked (connection); 3113 3114 /* this calls out to user code */ 3115 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 3116 3117 if (pending_return == NULL) 3118 dbus_pending_call_unref (pending); 3119 3120 return TRUE; 3121 3122 error: 3123 CONNECTION_UNLOCK (connection); 3124 error_unlocked: 3125 dbus_pending_call_unref (pending); 3126 return FALSE; 3127 } 3128 3129 /** 3130 * Sends a message and blocks a certain time period while waiting for 3131 * a reply. This function does not reenter the main loop, 3132 * i.e. messages other than the reply are queued up but not 3133 * processed. This function is used to invoke method calls on a 3134 * remote object. 3135 * 3136 * If a normal reply is received, it is returned, and removed from the 3137 * incoming message queue. If it is not received, #NULL is returned 3138 * and the error is set to #DBUS_ERROR_NO_REPLY. If an error reply is 3139 * received, it is converted to a #DBusError and returned as an error, 3140 * then the reply message is deleted and #NULL is returned. If 3141 * something else goes wrong, result is set to whatever is 3142 * appropriate, such as #DBUS_ERROR_NO_MEMORY or 3143 * #DBUS_ERROR_DISCONNECTED. 3144 * 3145 * @warning While this function blocks the calling thread will not be 3146 * processing the incoming message queue. This means you can end up 3147 * deadlocked if the application you're talking to needs you to reply 3148 * to a method. To solve this, either avoid the situation, block in a 3149 * separate thread from the main connection-dispatching thread, or use 3150 * dbus_pending_call_set_notify() to avoid blocking. 3151 * 3152 * @param connection the connection 3153 * @param message the message to send 3154 * @param timeout_milliseconds timeout in milliseconds or -1 for default 3155 * @param error return location for error message 3156 * @returns the message that is the reply or #NULL with an error code if the 3157 * function fails. 3158 */ 3159 DBusMessage* 3160 dbus_connection_send_with_reply_and_block (DBusConnection *connection, 3161 DBusMessage *message, 3162 int timeout_milliseconds, 3163 DBusError *error) 3164 { 3165 DBusMessage *reply; 3166 DBusPendingCall *pending; 3167 3168 _dbus_return_val_if_fail (connection != NULL, NULL); 3169 _dbus_return_val_if_fail (message != NULL, NULL); 3170 _dbus_return_val_if_fail (timeout_milliseconds >= 0 || timeout_milliseconds == -1, NULL); 3171 _dbus_return_val_if_error_is_set (error, NULL); 3172 3173 if (!dbus_connection_send_with_reply (connection, message, 3174 &pending, timeout_milliseconds)) 3175 { 3176 _DBUS_SET_OOM (error); 3177 return NULL; 3178 } 3179 3180 if (pending == NULL) 3181 { 3182 dbus_set_error (error, DBUS_ERROR_DISCONNECTED, "Connection is closed"); 3183 return NULL; 3184 } 3185 3186 dbus_pending_call_block (pending); 3187 3188 reply = dbus_pending_call_steal_reply (pending); 3189 dbus_pending_call_unref (pending); 3190 3191 /* call_complete_and_unlock() called from pending_call_block() should 3192 * always fill this in. 3193 */ 3194 _dbus_assert (reply != NULL); 3195 3196 if (dbus_set_error_from_message (error, reply)) 3197 { 3198 dbus_message_unref (reply); 3199 return NULL; 3200 } 3201 else 3202 return reply; 3203 } 3204 3205 /** 3206 * Blocks until the outgoing message queue is empty. 3207 * Assumes connection lock already held. 3208 * 3209 * If you call this, you MUST call update_dispatch_status afterword... 3210 * 3211 * @param connection the connection. 3212 */ 3213 DBusDispatchStatus 3214 _dbus_connection_flush_unlocked (DBusConnection *connection) 3215 { 3216 /* We have to specify DBUS_ITERATION_DO_READING here because 3217 * otherwise we could have two apps deadlock if they are both doing 3218 * a flush(), and the kernel buffers fill up. This could change the 3219 * dispatch status. 3220 */ 3221 DBusDispatchStatus status; 3222 3223 HAVE_LOCK_CHECK (connection); 3224 3225 while (connection->n_outgoing > 0 && 3226 _dbus_connection_get_is_connected_unlocked (connection)) 3227 { 3228 _dbus_verbose ("doing iteration in %s\n", _DBUS_FUNCTION_NAME); 3229 HAVE_LOCK_CHECK (connection); 3230 _dbus_connection_do_iteration_unlocked (connection, 3231 DBUS_ITERATION_DO_READING | 3232 DBUS_ITERATION_DO_WRITING | 3233 DBUS_ITERATION_BLOCK, 3234 -1); 3235 } 3236 3237 HAVE_LOCK_CHECK (connection); 3238 _dbus_verbose ("%s middle\n", _DBUS_FUNCTION_NAME); 3239 status = _dbus_connection_get_dispatch_status_unlocked (connection); 3240 3241 HAVE_LOCK_CHECK (connection); 3242 return status; 3243 } 3244 3245 /** 3246 * Blocks until the outgoing message queue is empty. 3247 * 3248 * @param connection the connection. 3249 */ 3250 void 3251 dbus_connection_flush (DBusConnection *connection) 3252 { 3253 /* We have to specify DBUS_ITERATION_DO_READING here because 3254 * otherwise we could have two apps deadlock if they are both doing 3255 * a flush(), and the kernel buffers fill up. This could change the 3256 * dispatch status. 3257 */ 3258 DBusDispatchStatus status; 3259 3260 _dbus_return_if_fail (connection != NULL); 3261 3262 CONNECTION_LOCK (connection); 3263 3264 status = _dbus_connection_flush_unlocked (connection); 3265 3266 HAVE_LOCK_CHECK (connection); 3267 /* Unlocks and calls out to user code */ 3268 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 3269 3270 _dbus_verbose ("%s end\n", _DBUS_FUNCTION_NAME); 3271 } 3272 3273 /** 3274 * This function implements dbus_connection_read_write_dispatch() and 3275 * dbus_connection_read_write() (they pass a different value for the 3276 * dispatch parameter). 3277 * 3278 * @param connection the connection 3279 * @param timeout_milliseconds max time to block or -1 for infinite 3280 * @param dispatch dispatch new messages or leave them on the incoming queue 3281 * @returns #TRUE if the disconnect message has not been processed 3282 */ 3283 static dbus_bool_t 3284 _dbus_connection_read_write_dispatch (DBusConnection *connection, 3285 int timeout_milliseconds, 3286 dbus_bool_t dispatch) 3287 { 3288 DBusDispatchStatus dstatus; 3289 dbus_bool_t no_progress_possible; 3290 3291 dstatus = dbus_connection_get_dispatch_status (connection); 3292 3293 if (dispatch && dstatus == DBUS_DISPATCH_DATA_REMAINS) 3294 { 3295 _dbus_verbose ("doing dispatch in %s\n", _DBUS_FUNCTION_NAME); 3296 dbus_connection_dispatch (connection); 3297 CONNECTION_LOCK (connection); 3298 } 3299 else if (dstatus == DBUS_DISPATCH_NEED_MEMORY) 3300 { 3301 _dbus_verbose ("pausing for memory in %s\n", _DBUS_FUNCTION_NAME); 3302 _dbus_memory_pause_based_on_timeout (timeout_milliseconds); 3303 CONNECTION_LOCK (connection); 3304 } 3305 else 3306 { 3307 CONNECTION_LOCK (connection); 3308 if (_dbus_connection_get_is_connected_unlocked (connection)) 3309 { 3310 _dbus_verbose ("doing iteration in %s\n", _DBUS_FUNCTION_NAME); 3311 _dbus_connection_do_iteration_unlocked (connection, 3312 DBUS_ITERATION_DO_READING | 3313 DBUS_ITERATION_DO_WRITING | 3314 DBUS_ITERATION_BLOCK, 3315 timeout_milliseconds); 3316 } 3317 } 3318 3319 HAVE_LOCK_CHECK (connection); 3320 /* If we can dispatch, we can make progress until the Disconnected message 3321 * has been processed; if we can only read/write, we can make progress 3322 * as long as the transport is open. 3323 */ 3324 if (dispatch) 3325 no_progress_possible = connection->n_incoming == 0 && 3326 connection->disconnect_message_link == NULL; 3327 else 3328 no_progress_possible = _dbus_connection_get_is_connected_unlocked (connection); 3329 CONNECTION_UNLOCK (connection); 3330 return !no_progress_possible; /* TRUE if we can make more progress */ 3331 } 3332 3333 3334 /** 3335 * This function is intended for use with applications that don't want 3336 * to write a main loop and deal with #DBusWatch and #DBusTimeout. An 3337 * example usage would be: 3338 * 3339 * @code 3340 * while (dbus_connection_read_write_dispatch (connection, -1)) 3341 * ; // empty loop body 3342 * @endcode 3343 * 3344 * In this usage you would normally have set up a filter function to look 3345 * at each message as it is dispatched. The loop terminates when the last 3346 * message from the connection (the disconnected signal) is processed. 3347 * 3348 * If there are messages to dispatch, this function will 3349 * dbus_connection_dispatch() once, and return. If there are no 3350 * messages to dispatch, this function will block until it can read or 3351 * write, then read or write, then return. 3352 * 3353 * The way to think of this function is that it either makes some sort 3354 * of progress, or it blocks. Note that, while it is blocked on I/O, it 3355 * cannot be interrupted (even by other threads), which makes this function 3356 * unsuitable for applications that do more than just react to received 3357 * messages. 3358 * 3359 * The return value indicates whether the disconnect message has been 3360 * processed, NOT whether the connection is connected. This is 3361 * important because even after disconnecting, you want to process any 3362 * messages you received prior to the disconnect. 3363 * 3364 * @param connection the connection 3365 * @param timeout_milliseconds max time to block or -1 for infinite 3366 * @returns #TRUE if the disconnect message has not been processed 3367 */ 3368 dbus_bool_t 3369 dbus_connection_read_write_dispatch (DBusConnection *connection, 3370 int timeout_milliseconds) 3371 { 3372 _dbus_return_val_if_fail (connection != NULL, FALSE); 3373 _dbus_return_val_if_fail (timeout_milliseconds >= 0 || timeout_milliseconds == -1, FALSE); 3374 return _dbus_connection_read_write_dispatch(connection, timeout_milliseconds, TRUE); 3375 } 3376 3377 3378 /** 3379 * This function is intended for use with applications that want to 3380 * dispatch all the events in the incoming/outgoing queue before returning. 3381 * The function just calls dbus_connection_read_write_dispatch till 3382 * the incoming queue is empty. 3383 * 3384 * @param connection the connection 3385 * @param timeout_milliseconds max time to block or -1 for infinite 3386 * @returns #TRUE if the disconnect message has not been processed 3387 */ 3388 dbus_bool_t 3389 dbus_connection_read_write_dispatch_greedy (DBusConnection *connection, 3390 int timeout_milliseconds) 3391 { 3392 dbus_bool_t ret, progress_possible; 3393 int pre_incoming, pre_outgoing; 3394 do 3395 { 3396 pre_incoming = connection->n_incoming; 3397 pre_outgoing = connection->n_outgoing; 3398 ret = dbus_connection_read_write_dispatch(connection, timeout_milliseconds); 3399 /* No need to take a lock here. If another 'reader' thread has read the packet, 3400 * dbus_connection_read_write_dispatch will just return. If a writer 3401 * writes a packet between the call and the check, it will get processed 3402 * in the next call to the function. 3403 */ 3404 if ((pre_incoming != connection->n_incoming || 3405 pre_outgoing != connection->n_outgoing) && 3406 (connection->n_incoming > 0 || 3407 connection->n_outgoing > 0)) { 3408 progress_possible = TRUE; 3409 } else { 3410 progress_possible = FALSE; 3411 } 3412 } while (ret == TRUE && progress_possible); 3413 return ret; 3414 } 3415 3416 3417 /** 3418 * This function is intended for use with applications that don't want to 3419 * write a main loop and deal with #DBusWatch and #DBusTimeout. See also 3420 * dbus_connection_read_write_dispatch(). 3421 * 3422 * As long as the connection is open, this function will block until it can 3423 * read or write, then read or write, then return #TRUE. 3424 * 3425 * If the connection is closed, the function returns #FALSE. 3426 * 3427 * The return value indicates whether reading or writing is still 3428 * possible, i.e. whether the connection is connected. 3429 * 3430 * Note that even after disconnection, messages may remain in the 3431 * incoming queue that need to be 3432 * processed. dbus_connection_read_write_dispatch() dispatches 3433 * incoming messages for you; with dbus_connection_read_write() you 3434 * have to arrange to drain the incoming queue yourself. 3435 * 3436 * @param connection the connection 3437 * @param timeout_milliseconds max time to block or -1 for infinite 3438 * @returns #TRUE if still connected 3439 */ 3440 dbus_bool_t 3441 dbus_connection_read_write (DBusConnection *connection, 3442 int timeout_milliseconds) 3443 { 3444 _dbus_return_val_if_fail (connection != NULL, FALSE); 3445 _dbus_return_val_if_fail (timeout_milliseconds >= 0 || timeout_milliseconds == -1, FALSE); 3446 return _dbus_connection_read_write_dispatch(connection, timeout_milliseconds, FALSE); 3447 } 3448 3449 /* We need to call this anytime we pop the head of the queue, and then 3450 * update_dispatch_status_and_unlock needs to be called afterward 3451 * which will "process" the disconnected message and set 3452 * disconnected_message_processed. 3453 */ 3454 static void 3455 check_disconnected_message_arrived_unlocked (DBusConnection *connection, 3456 DBusMessage *head_of_queue) 3457 { 3458 HAVE_LOCK_CHECK (connection); 3459 3460 /* checking that the link is NULL is an optimization to avoid the is_signal call */ 3461 if (connection->disconnect_message_link == NULL && 3462 dbus_message_is_signal (head_of_queue, 3463 DBUS_INTERFACE_LOCAL, 3464 "Disconnected")) 3465 { 3466 connection->disconnected_message_arrived = TRUE; 3467 } 3468 } 3469 3470 /** 3471 * Returns the first-received message from the incoming message queue, 3472 * leaving it in the queue. If the queue is empty, returns #NULL. 3473 * 3474 * The caller does not own a reference to the returned message, and 3475 * must either return it using dbus_connection_return_message() or 3476 * keep it after calling dbus_connection_steal_borrowed_message(). No 3477 * one can get at the message while its borrowed, so return it as 3478 * quickly as possible and don't keep a reference to it after 3479 * returning it. If you need to keep the message, make a copy of it. 3480 * 3481 * dbus_connection_dispatch() will block if called while a borrowed 3482 * message is outstanding; only one piece of code can be playing with 3483 * the incoming queue at a time. This function will block if called 3484 * during a dbus_connection_dispatch(). 3485 * 3486 * @param connection the connection. 3487 * @returns next message in the incoming queue. 3488 */ 3489 DBusMessage* 3490 dbus_connection_borrow_message (DBusConnection *connection) 3491 { 3492 DBusDispatchStatus status; 3493 DBusMessage *message; 3494 3495 _dbus_return_val_if_fail (connection != NULL, NULL); 3496 3497 _dbus_verbose ("%s start\n", _DBUS_FUNCTION_NAME); 3498 3499 /* this is called for the side effect that it queues 3500 * up any messages from the transport 3501 */ 3502 status = dbus_connection_get_dispatch_status (connection); 3503 if (status != DBUS_DISPATCH_DATA_REMAINS) 3504 return NULL; 3505 3506 CONNECTION_LOCK (connection); 3507 3508 _dbus_connection_acquire_dispatch (connection); 3509 3510 /* While a message is outstanding, the dispatch lock is held */ 3511 _dbus_assert (connection->message_borrowed == NULL); 3512 3513 connection->message_borrowed = _dbus_list_get_first (&connection->incoming_messages); 3514 3515 message = connection->message_borrowed; 3516 3517 check_disconnected_message_arrived_unlocked (connection, message); 3518 3519 /* Note that we KEEP the dispatch lock until the message is returned */ 3520 if (message == NULL) 3521 _dbus_connection_release_dispatch (connection); 3522 3523 CONNECTION_UNLOCK (connection); 3524 3525 /* We don't update dispatch status until it's returned or stolen */ 3526 3527 return message; 3528 } 3529 3530 /** 3531 * Used to return a message after peeking at it using 3532 * dbus_connection_borrow_message(). Only called if 3533 * message from dbus_connection_borrow_message() was non-#NULL. 3534 * 3535 * @param connection the connection 3536 * @param message the message from dbus_connection_borrow_message() 3537 */ 3538 void 3539 dbus_connection_return_message (DBusConnection *connection, 3540 DBusMessage *message) 3541 { 3542 DBusDispatchStatus status; 3543 3544 _dbus_return_if_fail (connection != NULL); 3545 _dbus_return_if_fail (message != NULL); 3546 _dbus_return_if_fail (message == connection->message_borrowed); 3547 _dbus_return_if_fail (connection->dispatch_acquired); 3548 3549 CONNECTION_LOCK (connection); 3550 3551 _dbus_assert (message == connection->message_borrowed); 3552 3553 connection->message_borrowed = NULL; 3554 3555 _dbus_connection_release_dispatch (connection); 3556 3557 status = _dbus_connection_get_dispatch_status_unlocked (connection); 3558 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 3559 } 3560 3561 /** 3562 * Used to keep a message after peeking at it using 3563 * dbus_connection_borrow_message(). Before using this function, see 3564 * the caveats/warnings in the documentation for 3565 * dbus_connection_pop_message(). 3566 * 3567 * @param connection the connection 3568 * @param message the message from dbus_connection_borrow_message() 3569 */ 3570 void 3571 dbus_connection_steal_borrowed_message (DBusConnection *connection, 3572 DBusMessage *message) 3573 { 3574 DBusMessage *pop_message; 3575 DBusDispatchStatus status; 3576 3577 _dbus_return_if_fail (connection != NULL); 3578 _dbus_return_if_fail (message != NULL); 3579 _dbus_return_if_fail (message == connection->message_borrowed); 3580 _dbus_return_if_fail (connection->dispatch_acquired); 3581 3582 CONNECTION_LOCK (connection); 3583 3584 _dbus_assert (message == connection->message_borrowed); 3585 3586 pop_message = _dbus_list_pop_first (&connection->incoming_messages); 3587 _dbus_assert (message == pop_message); 3588 3589 connection->n_incoming -= 1; 3590 3591 _dbus_verbose ("Incoming message %p stolen from queue, %d incoming\n", 3592 message, connection->n_incoming); 3593 3594 connection->message_borrowed = NULL; 3595 3596 _dbus_connection_release_dispatch (connection); 3597 3598 status = _dbus_connection_get_dispatch_status_unlocked (connection); 3599 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 3600 } 3601 3602 /* See dbus_connection_pop_message, but requires the caller to own 3603 * the lock before calling. May drop the lock while running. 3604 */ 3605 static DBusList* 3606 _dbus_connection_pop_message_link_unlocked (DBusConnection *connection) 3607 { 3608 HAVE_LOCK_CHECK (connection); 3609 3610 _dbus_assert (connection->message_borrowed == NULL); 3611 3612 if (connection->n_incoming > 0) 3613 { 3614 DBusList *link; 3615 3616 link = _dbus_list_pop_first_link (&connection->incoming_messages); 3617 connection->n_incoming -= 1; 3618 3619 _dbus_verbose ("Message %p (%d %s %s %s '%s') removed from incoming queue %p, %d incoming\n", 3620 link->data, 3621 dbus_message_get_type (link->data), 3622 dbus_message_get_path (link->data) ? 3623 dbus_message_get_path (link->data) : 3624 "no path", 3625 dbus_message_get_interface (link->data) ? 3626 dbus_message_get_interface (link->data) : 3627 "no interface", 3628 dbus_message_get_member (link->data) ? 3629 dbus_message_get_member (link->data) : 3630 "no member", 3631 dbus_message_get_signature (link->data), 3632 connection, connection->n_incoming); 3633 3634 check_disconnected_message_arrived_unlocked (connection, link->data); 3635 3636 return link; 3637 } 3638 else 3639 return NULL; 3640 } 3641 3642 /* See dbus_connection_pop_message, but requires the caller to own 3643 * the lock before calling. May drop the lock while running. 3644 */ 3645 static DBusMessage* 3646 _dbus_connection_pop_message_unlocked (DBusConnection *connection) 3647 { 3648 DBusList *link; 3649 3650 HAVE_LOCK_CHECK (connection); 3651 3652 link = _dbus_connection_pop_message_link_unlocked (connection); 3653 3654 if (link != NULL) 3655 { 3656 DBusMessage *message; 3657 3658 message = link->data; 3659 3660 _dbus_list_free_link (link); 3661 3662 return message; 3663 } 3664 else 3665 return NULL; 3666 } 3667 3668 static void 3669 _dbus_connection_putback_message_link_unlocked (DBusConnection *connection, 3670 DBusList *message_link) 3671 { 3672 HAVE_LOCK_CHECK (connection); 3673 3674 _dbus_assert (message_link != NULL); 3675 /* You can't borrow a message while a link is outstanding */ 3676 _dbus_assert (connection->message_borrowed == NULL); 3677 /* We had to have the dispatch lock across the pop/putback */ 3678 _dbus_assert (connection->dispatch_acquired); 3679 3680 _dbus_list_prepend_link (&connection->incoming_messages, 3681 message_link); 3682 connection->n_incoming += 1; 3683 3684 _dbus_verbose ("Message %p (%d %s %s '%s') put back into queue %p, %d incoming\n", 3685 message_link->data, 3686 dbus_message_get_type (message_link->data), 3687 dbus_message_get_interface (message_link->data) ? 3688 dbus_message_get_interface (message_link->data) : 3689 "no interface", 3690 dbus_message_get_member (message_link->data) ? 3691 dbus_message_get_member (message_link->data) : 3692 "no member", 3693 dbus_message_get_signature (message_link->data), 3694 connection, connection->n_incoming); 3695 } 3696 3697 /** 3698 * Returns the first-received message from the incoming message queue, 3699 * removing it from the queue. The caller owns a reference to the 3700 * returned message. If the queue is empty, returns #NULL. 3701 * 3702 * This function bypasses any message handlers that are registered, 3703 * and so using it is usually wrong. Instead, let the main loop invoke 3704 * dbus_connection_dispatch(). Popping messages manually is only 3705 * useful in very simple programs that don't share a #DBusConnection 3706 * with any libraries or other modules. 3707 * 3708 * There is a lock that covers all ways of accessing the incoming message 3709 * queue, so dbus_connection_dispatch(), dbus_connection_pop_message(), 3710 * dbus_connection_borrow_message(), etc. will all block while one of the others 3711 * in the group is running. 3712 * 3713 * @param connection the connection. 3714 * @returns next message in the incoming queue. 3715 */ 3716 DBusMessage* 3717 dbus_connection_pop_message (DBusConnection *connection) 3718 { 3719 DBusMessage *message; 3720 DBusDispatchStatus status; 3721 3722 _dbus_verbose ("%s start\n", _DBUS_FUNCTION_NAME); 3723 3724 /* this is called for the side effect that it queues 3725 * up any messages from the transport 3726 */ 3727 status = dbus_connection_get_dispatch_status (connection); 3728 if (status != DBUS_DISPATCH_DATA_REMAINS) 3729 return NULL; 3730 3731 CONNECTION_LOCK (connection); 3732 _dbus_connection_acquire_dispatch (connection); 3733 HAVE_LOCK_CHECK (connection); 3734 3735 message = _dbus_connection_pop_message_unlocked (connection); 3736 3737 _dbus_verbose ("Returning popped message %p\n", message); 3738 3739 _dbus_connection_release_dispatch (connection); 3740 3741 status = _dbus_connection_get_dispatch_status_unlocked (connection); 3742 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 3743 3744 return message; 3745 } 3746 3747 /** 3748 * Acquire the dispatcher. This is a separate lock so the main 3749 * connection lock can be dropped to call out to application dispatch 3750 * handlers. 3751 * 3752 * @param connection the connection. 3753 */ 3754 static void 3755 _dbus_connection_acquire_dispatch (DBusConnection *connection) 3756 { 3757 HAVE_LOCK_CHECK (connection); 3758 3759 _dbus_connection_ref_unlocked (connection); 3760 CONNECTION_UNLOCK (connection); 3761 3762 _dbus_verbose ("%s locking dispatch_mutex\n", _DBUS_FUNCTION_NAME); 3763 _dbus_mutex_lock (connection->dispatch_mutex); 3764 3765 while (connection->dispatch_acquired) 3766 { 3767 _dbus_verbose ("%s waiting for dispatch to be acquirable\n", _DBUS_FUNCTION_NAME); 3768 _dbus_condvar_wait (connection->dispatch_cond, 3769 connection->dispatch_mutex); 3770 } 3771 3772 _dbus_assert (!connection->dispatch_acquired); 3773 3774 connection->dispatch_acquired = TRUE; 3775 3776 _dbus_verbose ("%s unlocking dispatch_mutex\n", _DBUS_FUNCTION_NAME); 3777 _dbus_mutex_unlock (connection->dispatch_mutex); 3778 3779 CONNECTION_LOCK (connection); 3780 _dbus_connection_unref_unlocked (connection); 3781 } 3782 3783 /** 3784 * Release the dispatcher when you're done with it. Only call 3785 * after you've acquired the dispatcher. Wakes up at most one 3786 * thread currently waiting to acquire the dispatcher. 3787 * 3788 * @param connection the connection. 3789 */ 3790 static void 3791 _dbus_connection_release_dispatch (DBusConnection *connection) 3792 { 3793 HAVE_LOCK_CHECK (connection); 3794 3795 _dbus_verbose ("%s locking dispatch_mutex\n", _DBUS_FUNCTION_NAME); 3796 _dbus_mutex_lock (connection->dispatch_mutex); 3797 3798 _dbus_assert (connection->dispatch_acquired); 3799 3800 connection->dispatch_acquired = FALSE; 3801 _dbus_condvar_wake_one (connection->dispatch_cond); 3802 3803 _dbus_verbose ("%s unlocking dispatch_mutex\n", _DBUS_FUNCTION_NAME); 3804 _dbus_mutex_unlock (connection->dispatch_mutex); 3805 } 3806 3807 static void 3808 _dbus_connection_failed_pop (DBusConnection *connection, 3809 DBusList *message_link) 3810 { 3811 _dbus_list_prepend_link (&connection->incoming_messages, 3812 message_link); 3813 connection->n_incoming += 1; 3814 } 3815 3816 /* Note this may be called multiple times since we don't track whether we already did it */ 3817 static void 3818 notify_disconnected_unlocked (DBusConnection *connection) 3819 { 3820 HAVE_LOCK_CHECK (connection); 3821 3822 /* Set the weakref in dbus-bus.c to NULL, so nobody will get a disconnected 3823 * connection from dbus_bus_get(). We make the same guarantee for 3824 * dbus_connection_open() but in a different way since we don't want to 3825 * unref right here; we instead check for connectedness before returning 3826 * the connection from the hash. 3827 */ 3828 _dbus_bus_notify_shared_connection_disconnected_unlocked (connection); 3829 3830 /* Dump the outgoing queue, we aren't going to be able to 3831 * send it now, and we'd like accessors like 3832 * dbus_connection_get_outgoing_size() to be accurate. 3833 */ 3834 if (connection->n_outgoing > 0) 3835 { 3836 DBusList *link; 3837 3838 _dbus_verbose ("Dropping %d outgoing messages since we're disconnected\n", 3839 connection->n_outgoing); 3840 3841 while ((link = _dbus_list_get_last_link (&connection->outgoing_messages))) 3842 { 3843 _dbus_connection_message_sent (connection, link->data); 3844 } 3845 } 3846 } 3847 3848 /* Note this may be called multiple times since we don't track whether we already did it */ 3849 static DBusDispatchStatus 3850 notify_disconnected_and_dispatch_complete_unlocked (DBusConnection *connection) 3851 { 3852 HAVE_LOCK_CHECK (connection); 3853 3854 if (connection->disconnect_message_link != NULL) 3855 { 3856 _dbus_verbose ("Sending disconnect message from %s\n", 3857 _DBUS_FUNCTION_NAME); 3858 3859 /* If we have pending calls, queue their timeouts - we want the Disconnected 3860 * to be the last message, after these timeouts. 3861 */ 3862 connection_timeout_and_complete_all_pending_calls_unlocked (connection); 3863 3864 /* We haven't sent the disconnect message already, 3865 * and all real messages have been queued up. 3866 */ 3867 _dbus_connection_queue_synthesized_message_link (connection, 3868 connection->disconnect_message_link); 3869 connection->disconnect_message_link = NULL; 3870 3871 return DBUS_DISPATCH_DATA_REMAINS; 3872 } 3873 3874 return DBUS_DISPATCH_COMPLETE; 3875 } 3876 3877 static DBusDispatchStatus 3878 _dbus_connection_get_dispatch_status_unlocked (DBusConnection *connection) 3879 { 3880 HAVE_LOCK_CHECK (connection); 3881 3882 if (connection->n_incoming > 0) 3883 return DBUS_DISPATCH_DATA_REMAINS; 3884 else if (!_dbus_transport_queue_messages (connection->transport)) 3885 return DBUS_DISPATCH_NEED_MEMORY; 3886 else 3887 { 3888 DBusDispatchStatus status; 3889 dbus_bool_t is_connected; 3890 3891 status = _dbus_transport_get_dispatch_status (connection->transport); 3892 is_connected = _dbus_transport_get_is_connected (connection->transport); 3893 3894 _dbus_verbose ("dispatch status = %s is_connected = %d\n", 3895 DISPATCH_STATUS_NAME (status), is_connected); 3896 3897 if (!is_connected) 3898 { 3899 /* It's possible this would be better done by having an explicit 3900 * notification from _dbus_transport_disconnect() that would 3901 * synchronously do this, instead of waiting for the next dispatch 3902 * status check. However, probably not good to change until it causes 3903 * a problem. 3904 */ 3905 notify_disconnected_unlocked (connection); 3906 3907 /* I'm not sure this is needed; the idea is that we want to 3908 * queue the Disconnected only after we've read all the 3909 * messages, but if we're disconnected maybe we are guaranteed 3910 * to have read them all ? 3911 */ 3912 if (status == DBUS_DISPATCH_COMPLETE) 3913 status = notify_disconnected_and_dispatch_complete_unlocked (connection); 3914 } 3915 3916 if (status != DBUS_DISPATCH_COMPLETE) 3917 return status; 3918 else if (connection->n_incoming > 0) 3919 return DBUS_DISPATCH_DATA_REMAINS; 3920 else 3921 return DBUS_DISPATCH_COMPLETE; 3922 } 3923 } 3924 3925 static void 3926 _dbus_connection_update_dispatch_status_and_unlock (DBusConnection *connection, 3927 DBusDispatchStatus new_status) 3928 { 3929 dbus_bool_t changed; 3930 DBusDispatchStatusFunction function; 3931 void *data; 3932 3933 HAVE_LOCK_CHECK (connection); 3934 3935 _dbus_connection_ref_unlocked (connection); 3936 3937 changed = new_status != connection->last_dispatch_status; 3938 3939 connection->last_dispatch_status = new_status; 3940 3941 function = connection->dispatch_status_function; 3942 data = connection->dispatch_status_data; 3943 3944 if (connection->disconnected_message_arrived && 3945 !connection->disconnected_message_processed) 3946 { 3947 connection->disconnected_message_processed = TRUE; 3948 3949 /* this does an unref, but we have a ref 3950 * so we should not run the finalizer here 3951 * inside the lock. 3952 */ 3953 connection_forget_shared_unlocked (connection); 3954 3955 if (connection->exit_on_disconnect) 3956 { 3957 CONNECTION_UNLOCK (connection); 3958 3959 _dbus_verbose ("Exiting on Disconnected signal\n"); 3960 _dbus_exit (1); 3961 _dbus_assert_not_reached ("Call to exit() returned"); 3962 } 3963 } 3964 3965 /* We drop the lock */ 3966 CONNECTION_UNLOCK (connection); 3967 3968 if (changed && function) 3969 { 3970 _dbus_verbose ("Notifying of change to dispatch status of %p now %d (%s)\n", 3971 connection, new_status, 3972 DISPATCH_STATUS_NAME (new_status)); 3973 (* function) (connection, new_status, data); 3974 } 3975 3976 dbus_connection_unref (connection); 3977 } 3978 3979 /** 3980 * Gets the current state of the incoming message queue. 3981 * #DBUS_DISPATCH_DATA_REMAINS indicates that the message queue 3982 * may contain messages. #DBUS_DISPATCH_COMPLETE indicates that the 3983 * incoming queue is empty. #DBUS_DISPATCH_NEED_MEMORY indicates that 3984 * there could be data, but we can't know for sure without more 3985 * memory. 3986 * 3987 * To process the incoming message queue, use dbus_connection_dispatch() 3988 * or (in rare cases) dbus_connection_pop_message(). 3989 * 3990 * Note, #DBUS_DISPATCH_DATA_REMAINS really means that either we 3991 * have messages in the queue, or we have raw bytes buffered up 3992 * that need to be parsed. When these bytes are parsed, they 3993 * may not add up to an entire message. Thus, it's possible 3994 * to see a status of #DBUS_DISPATCH_DATA_REMAINS but not 3995 * have a message yet. 3996 * 3997 * In particular this happens on initial connection, because all sorts 3998 * of authentication protocol stuff has to be parsed before the 3999 * first message arrives. 4000 * 4001 * @param connection the connection. 4002 * @returns current dispatch status 4003 */ 4004 DBusDispatchStatus 4005 dbus_connection_get_dispatch_status (DBusConnection *connection) 4006 { 4007 DBusDispatchStatus status; 4008 4009 _dbus_return_val_if_fail (connection != NULL, DBUS_DISPATCH_COMPLETE); 4010 4011 _dbus_verbose ("%s start\n", _DBUS_FUNCTION_NAME); 4012 4013 CONNECTION_LOCK (connection); 4014 4015 status = _dbus_connection_get_dispatch_status_unlocked (connection); 4016 4017 CONNECTION_UNLOCK (connection); 4018 4019 return status; 4020 } 4021 4022 /** 4023 * Filter funtion for handling the Peer standard interface. 4024 */ 4025 static DBusHandlerResult 4026 _dbus_connection_peer_filter_unlocked_no_update (DBusConnection *connection, 4027 DBusMessage *message) 4028 { 4029 if (connection->route_peer_messages && dbus_message_get_destination (message) != NULL) 4030 { 4031 /* This means we're letting the bus route this message */ 4032 return DBUS_HANDLER_RESULT_NOT_YET_HANDLED; 4033 } 4034 else if (dbus_message_is_method_call (message, 4035 DBUS_INTERFACE_PEER, 4036 "Ping")) 4037 { 4038 DBusMessage *ret; 4039 dbus_bool_t sent; 4040 4041 ret = dbus_message_new_method_return (message); 4042 if (ret == NULL) 4043 return DBUS_HANDLER_RESULT_NEED_MEMORY; 4044 4045 sent = _dbus_connection_send_unlocked_no_update (connection, ret, NULL); 4046 4047 dbus_message_unref (ret); 4048 4049 if (!sent) 4050 return DBUS_HANDLER_RESULT_NEED_MEMORY; 4051 4052 return DBUS_HANDLER_RESULT_HANDLED; 4053 } 4054 else if (dbus_message_is_method_call (message, 4055 DBUS_INTERFACE_PEER, 4056 "GetMachineId")) 4057 { 4058 DBusMessage *ret; 4059 dbus_bool_t sent; 4060 DBusString uuid; 4061 4062 ret = dbus_message_new_method_return (message); 4063 if (ret == NULL) 4064 return DBUS_HANDLER_RESULT_NEED_MEMORY; 4065 4066 sent = FALSE; 4067 _dbus_string_init (&uuid); 4068 if (_dbus_get_local_machine_uuid_encoded (&uuid)) 4069 { 4070 const char *v_STRING = _dbus_string_get_const_data (&uuid); 4071 if (dbus_message_append_args (ret, 4072 DBUS_TYPE_STRING, &v_STRING, 4073 DBUS_TYPE_INVALID)) 4074 { 4075 sent = _dbus_connection_send_unlocked_no_update (connection, ret, NULL); 4076 } 4077 } 4078 _dbus_string_free (&uuid); 4079 4080 dbus_message_unref (ret); 4081 4082 if (!sent) 4083 return DBUS_HANDLER_RESULT_NEED_MEMORY; 4084 4085 return DBUS_HANDLER_RESULT_HANDLED; 4086 } 4087 else if (dbus_message_has_interface (message, DBUS_INTERFACE_PEER)) 4088 { 4089 /* We need to bounce anything else with this interface, otherwise apps 4090 * could start extending the interface and when we added extensions 4091 * here to DBusConnection we'd break those apps. 4092 */ 4093 4094 DBusMessage *ret; 4095 dbus_bool_t sent; 4096 4097 ret = dbus_message_new_error (message, 4098 DBUS_ERROR_UNKNOWN_METHOD, 4099 "Unknown method invoked on org.freedesktop.DBus.Peer interface"); 4100 if (ret == NULL) 4101 return DBUS_HANDLER_RESULT_NEED_MEMORY; 4102 4103 sent = _dbus_connection_send_unlocked_no_update (connection, ret, NULL); 4104 4105 dbus_message_unref (ret); 4106 4107 if (!sent) 4108 return DBUS_HANDLER_RESULT_NEED_MEMORY; 4109 4110 return DBUS_HANDLER_RESULT_HANDLED; 4111 } 4112 else 4113 { 4114 return DBUS_HANDLER_RESULT_NOT_YET_HANDLED; 4115 } 4116 } 4117 4118 /** 4119 * Processes all builtin filter functions 4120 * 4121 * If the spec specifies a standard interface 4122 * they should be processed from this method 4123 **/ 4124 static DBusHandlerResult 4125 _dbus_connection_run_builtin_filters_unlocked_no_update (DBusConnection *connection, 4126 DBusMessage *message) 4127 { 4128 /* We just run one filter for now but have the option to run more 4129 if the spec calls for it in the future */ 4130 4131 return _dbus_connection_peer_filter_unlocked_no_update (connection, message); 4132 } 4133 4134 /** 4135 * Processes any incoming data. 4136 * 4137 * If there's incoming raw data that has not yet been parsed, it is 4138 * parsed, which may or may not result in adding messages to the 4139 * incoming queue. 4140 * 4141 * The incoming data buffer is filled when the connection reads from 4142 * its underlying transport (such as a socket). Reading usually 4143 * happens in dbus_watch_handle() or dbus_connection_read_write(). 4144 * 4145 * If there are complete messages in the incoming queue, 4146 * dbus_connection_dispatch() removes one message from the queue and 4147 * processes it. Processing has three steps. 4148 * 4149 * First, any method replies are passed to #DBusPendingCall or 4150 * dbus_connection_send_with_reply_and_block() in order to 4151 * complete the pending method call. 4152 * 4153 * Second, any filters registered with dbus_connection_add_filter() 4154 * are run. If any filter returns #DBUS_HANDLER_RESULT_HANDLED 4155 * then processing stops after that filter. 4156 * 4157 * Third, if the message is a method call it is forwarded to 4158 * any registered object path handlers added with 4159 * dbus_connection_register_object_path() or 4160 * dbus_connection_register_fallback(). 4161 * 4162 * A single call to dbus_connection_dispatch() will process at most 4163 * one message; it will not clear the entire message queue. 4164 * 4165 * Be careful about calling dbus_connection_dispatch() from inside a 4166 * message handler, i.e. calling dbus_connection_dispatch() 4167 * recursively. If threads have been initialized with a recursive 4168 * mutex function, then this will not deadlock; however, it can 4169 * certainly confuse your application. 4170 * 4171 * @todo some FIXME in here about handling DBUS_HANDLER_RESULT_NEED_MEMORY 4172 * 4173 * @param connection the connection 4174 * @returns dispatch status, see dbus_connection_get_dispatch_status() 4175 */ 4176 DBusDispatchStatus 4177 dbus_connection_dispatch (DBusConnection *connection) 4178 { 4179 DBusMessage *message; 4180 DBusList *link, *filter_list_copy, *message_link; 4181 DBusHandlerResult result; 4182 DBusPendingCall *pending; 4183 dbus_int32_t reply_serial; 4184 DBusDispatchStatus status; 4185 4186 _dbus_return_val_if_fail (connection != NULL, DBUS_DISPATCH_COMPLETE); 4187 4188 _dbus_verbose ("%s\n", _DBUS_FUNCTION_NAME); 4189 4190 CONNECTION_LOCK (connection); 4191 status = _dbus_connection_get_dispatch_status_unlocked (connection); 4192 if (status != DBUS_DISPATCH_DATA_REMAINS) 4193 { 4194 /* unlocks and calls out to user code */ 4195 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 4196 return status; 4197 } 4198 4199 /* We need to ref the connection since the callback could potentially 4200 * drop the last ref to it 4201 */ 4202 _dbus_connection_ref_unlocked (connection); 4203 4204 _dbus_connection_acquire_dispatch (connection); 4205 HAVE_LOCK_CHECK (connection); 4206 4207 message_link = _dbus_connection_pop_message_link_unlocked (connection); 4208 if (message_link == NULL) 4209 { 4210 /* another thread dispatched our stuff */ 4211 4212 _dbus_verbose ("another thread dispatched message (during acquire_dispatch above)\n"); 4213 4214 _dbus_connection_release_dispatch (connection); 4215 4216 status = _dbus_connection_get_dispatch_status_unlocked (connection); 4217 4218 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 4219 4220 dbus_connection_unref (connection); 4221 4222 return status; 4223 } 4224 4225 message = message_link->data; 4226 4227 _dbus_verbose (" dispatching message %p (%d %s %s '%s')\n", 4228 message, 4229 dbus_message_get_type (message), 4230 dbus_message_get_interface (message) ? 4231 dbus_message_get_interface (message) : 4232 "no interface", 4233 dbus_message_get_member (message) ? 4234 dbus_message_get_member (message) : 4235 "no member", 4236 dbus_message_get_signature (message)); 4237 4238 result = DBUS_HANDLER_RESULT_NOT_YET_HANDLED; 4239 4240 /* Pending call handling must be first, because if you do 4241 * dbus_connection_send_with_reply_and_block() or 4242 * dbus_pending_call_block() then no handlers/filters will be run on 4243 * the reply. We want consistent semantics in the case where we 4244 * dbus_connection_dispatch() the reply. 4245 */ 4246 4247 reply_serial = dbus_message_get_reply_serial (message); 4248 pending = _dbus_hash_table_lookup_int (connection->pending_replies, 4249 reply_serial); 4250 if (pending) 4251 { 4252 _dbus_verbose ("Dispatching a pending reply\n"); 4253 complete_pending_call_and_unlock (connection, pending, message); 4254 pending = NULL; /* it's probably unref'd */ 4255 4256 CONNECTION_LOCK (connection); 4257 _dbus_verbose ("pending call completed in dispatch\n"); 4258 result = DBUS_HANDLER_RESULT_HANDLED; 4259 goto out; 4260 } 4261 4262 result = _dbus_connection_run_builtin_filters_unlocked_no_update (connection, message); 4263 if (result != DBUS_HANDLER_RESULT_NOT_YET_HANDLED) 4264 goto out; 4265 4266 if (!_dbus_list_copy (&connection->filter_list, &filter_list_copy)) 4267 { 4268 _dbus_connection_release_dispatch (connection); 4269 HAVE_LOCK_CHECK (connection); 4270 4271 _dbus_connection_failed_pop (connection, message_link); 4272 4273 /* unlocks and calls user code */ 4274 _dbus_connection_update_dispatch_status_and_unlock (connection, 4275 DBUS_DISPATCH_NEED_MEMORY); 4276 4277 if (pending) 4278 dbus_pending_call_unref (pending); 4279 dbus_connection_unref (connection); 4280 4281 return DBUS_DISPATCH_NEED_MEMORY; 4282 } 4283 4284 _dbus_list_foreach (&filter_list_copy, 4285 (DBusForeachFunction)_dbus_message_filter_ref, 4286 NULL); 4287 4288 /* We're still protected from dispatch() reentrancy here 4289 * since we acquired the dispatcher 4290 */ 4291 CONNECTION_UNLOCK (connection); 4292 4293 link = _dbus_list_get_first_link (&filter_list_copy); 4294 while (link != NULL) 4295 { 4296 DBusMessageFilter *filter = link->data; 4297 DBusList *next = _dbus_list_get_next_link (&filter_list_copy, link); 4298 4299 if (filter->function == NULL) 4300 { 4301 _dbus_verbose (" filter was removed in a callback function\n"); 4302 link = next; 4303 continue; 4304 } 4305 4306 _dbus_verbose (" running filter on message %p\n", message); 4307 result = (* filter->function) (connection, message, filter->user_data); 4308 4309 if (result != DBUS_HANDLER_RESULT_NOT_YET_HANDLED) 4310 break; 4311 4312 link = next; 4313 } 4314 4315 _dbus_list_foreach (&filter_list_copy, 4316 (DBusForeachFunction)_dbus_message_filter_unref, 4317 NULL); 4318 _dbus_list_clear (&filter_list_copy); 4319 4320 CONNECTION_LOCK (connection); 4321 4322 if (result == DBUS_HANDLER_RESULT_NEED_MEMORY) 4323 { 4324 _dbus_verbose ("No memory in %s\n", _DBUS_FUNCTION_NAME); 4325 goto out; 4326 } 4327 else if (result == DBUS_HANDLER_RESULT_HANDLED) 4328 { 4329 _dbus_verbose ("filter handled message in dispatch\n"); 4330 goto out; 4331 } 4332 4333 /* We're still protected from dispatch() reentrancy here 4334 * since we acquired the dispatcher 4335 */ 4336 _dbus_verbose (" running object path dispatch on message %p (%d %s %s '%s')\n", 4337 message, 4338 dbus_message_get_type (message), 4339 dbus_message_get_interface (message) ? 4340 dbus_message_get_interface (message) : 4341 "no interface", 4342 dbus_message_get_member (message) ? 4343 dbus_message_get_member (message) : 4344 "no member", 4345 dbus_message_get_signature (message)); 4346 4347 HAVE_LOCK_CHECK (connection); 4348 result = _dbus_object_tree_dispatch_and_unlock (connection->objects, 4349 message); 4350 4351 CONNECTION_LOCK (connection); 4352 4353 if (result != DBUS_HANDLER_RESULT_NOT_YET_HANDLED) 4354 { 4355 _dbus_verbose ("object tree handled message in dispatch\n"); 4356 goto out; 4357 } 4358 4359 if (dbus_message_get_type (message) == DBUS_MESSAGE_TYPE_METHOD_CALL) 4360 { 4361 DBusMessage *reply; 4362 DBusString str; 4363 DBusPreallocatedSend *preallocated; 4364 4365 _dbus_verbose (" sending error %s\n", 4366 DBUS_ERROR_UNKNOWN_METHOD); 4367 4368 if (!_dbus_string_init (&str)) 4369 { 4370 result = DBUS_HANDLER_RESULT_NEED_MEMORY; 4371 _dbus_verbose ("no memory for error string in dispatch\n"); 4372 goto out; 4373 } 4374 4375 if (!_dbus_string_append_printf (&str, 4376 "Method \"%s\" with signature \"%s\" on interface \"%s\" doesn't exist\n", 4377 dbus_message_get_member (message), 4378 dbus_message_get_signature (message), 4379 dbus_message_get_interface (message))) 4380 { 4381 _dbus_string_free (&str); 4382 result = DBUS_HANDLER_RESULT_NEED_MEMORY; 4383 _dbus_verbose ("no memory for error string in dispatch\n"); 4384 goto out; 4385 } 4386 4387 reply = dbus_message_new_error (message, 4388 DBUS_ERROR_UNKNOWN_METHOD, 4389 _dbus_string_get_const_data (&str)); 4390 _dbus_string_free (&str); 4391 4392 if (reply == NULL) 4393 { 4394 result = DBUS_HANDLER_RESULT_NEED_MEMORY; 4395 _dbus_verbose ("no memory for error reply in dispatch\n"); 4396 goto out; 4397 } 4398 4399 preallocated = _dbus_connection_preallocate_send_unlocked (connection); 4400 4401 if (preallocated == NULL) 4402 { 4403 dbus_message_unref (reply); 4404 result = DBUS_HANDLER_RESULT_NEED_MEMORY; 4405 _dbus_verbose ("no memory for error send in dispatch\n"); 4406 goto out; 4407 } 4408 4409 _dbus_connection_send_preallocated_unlocked_no_update (connection, preallocated, 4410 reply, NULL); 4411 4412 dbus_message_unref (reply); 4413 4414 result = DBUS_HANDLER_RESULT_HANDLED; 4415 } 4416 4417 _dbus_verbose (" done dispatching %p (%d %s %s '%s') on connection %p\n", message, 4418 dbus_message_get_type (message), 4419 dbus_message_get_interface (message) ? 4420 dbus_message_get_interface (message) : 4421 "no interface", 4422 dbus_message_get_member (message) ? 4423 dbus_message_get_member (message) : 4424 "no member", 4425 dbus_message_get_signature (message), 4426 connection); 4427 4428 out: 4429 if (result == DBUS_HANDLER_RESULT_NEED_MEMORY) 4430 { 4431 _dbus_verbose ("out of memory in %s\n", _DBUS_FUNCTION_NAME); 4432 4433 /* Put message back, and we'll start over. 4434 * Yes this means handlers must be idempotent if they 4435 * don't return HANDLED; c'est la vie. 4436 */ 4437 _dbus_connection_putback_message_link_unlocked (connection, 4438 message_link); 4439 } 4440 else 4441 { 4442 _dbus_verbose (" ... done dispatching in %s\n", _DBUS_FUNCTION_NAME); 4443 4444 _dbus_list_free_link (message_link); 4445 dbus_message_unref (message); /* don't want the message to count in max message limits 4446 * in computing dispatch status below 4447 */ 4448 } 4449 4450 _dbus_connection_release_dispatch (connection); 4451 HAVE_LOCK_CHECK (connection); 4452 4453 _dbus_verbose ("%s before final status update\n", _DBUS_FUNCTION_NAME); 4454 status = _dbus_connection_get_dispatch_status_unlocked (connection); 4455 4456 /* unlocks and calls user code */ 4457 _dbus_connection_update_dispatch_status_and_unlock (connection, status); 4458 4459 dbus_connection_unref (connection); 4460 4461 return status; 4462 } 4463 4464 /** 4465 * Sets the watch functions for the connection. These functions are 4466 * responsible for making the application's main loop aware of file 4467 * descriptors that need to be monitored for events, using select() or 4468 * poll(). When using Qt, typically the DBusAddWatchFunction would 4469 * create a QSocketNotifier. When using GLib, the DBusAddWatchFunction 4470 * could call g_io_add_watch(), or could be used as part of a more 4471 * elaborate GSource. Note that when a watch is added, it may 4472 * not be enabled. 4473 * 4474 * The DBusWatchToggledFunction notifies the application that the 4475 * watch has been enabled or disabled. Call dbus_watch_get_enabled() 4476 * to check this. A disabled watch should have no effect, and enabled 4477 * watch should be added to the main loop. This feature is used 4478 * instead of simply adding/removing the watch because 4479 * enabling/disabling can be done without memory allocation. The 4480 * toggled function may be NULL if a main loop re-queries 4481 * dbus_watch_get_enabled() every time anyway. 4482 * 4483 * The DBusWatch can be queried for the file descriptor to watch using 4484 * dbus_watch_get_fd(), and for the events to watch for using 4485 * dbus_watch_get_flags(). The flags returned by 4486 * dbus_watch_get_flags() will only contain DBUS_WATCH_READABLE and 4487 * DBUS_WATCH_WRITABLE, never DBUS_WATCH_HANGUP or DBUS_WATCH_ERROR; 4488 * all watches implicitly include a watch for hangups, errors, and 4489 * other exceptional conditions. 4490 * 4491 * Once a file descriptor becomes readable or writable, or an exception 4492 * occurs, dbus_watch_handle() should be called to 4493 * notify the connection of the file descriptor's condition. 4494 * 4495 * dbus_watch_handle() cannot be called during the 4496 * DBusAddWatchFunction, as the connection will not be ready to handle 4497 * that watch yet. 4498 * 4499 * It is not allowed to reference a DBusWatch after it has been passed 4500 * to remove_function. 4501 * 4502 * If #FALSE is returned due to lack of memory, the failure may be due 4503 * to a #FALSE return from the new add_function. If so, the 4504 * add_function may have been called successfully one or more times, 4505 * but the remove_function will also have been called to remove any 4506 * successful adds. i.e. if #FALSE is returned the net result 4507 * should be that dbus_connection_set_watch_functions() has no effect, 4508 * but the add_function and remove_function may have been called. 4509 * 4510 * @todo We need to drop the lock when we call the 4511 * add/remove/toggled functions which can be a side effect 4512 * of setting the watch functions. 4513 * 4514 * @param connection the connection. 4515 * @param add_function function to begin monitoring a new descriptor. 4516 * @param remove_function function to stop monitoring a descriptor. 4517 * @param toggled_function function to notify of enable/disable 4518 * @param data data to pass to add_function and remove_function. 4519 * @param free_data_function function to be called to free the data. 4520 * @returns #FALSE on failure (no memory) 4521 */ 4522 dbus_bool_t 4523 dbus_connection_set_watch_functions (DBusConnection *connection, 4524 DBusAddWatchFunction add_function, 4525 DBusRemoveWatchFunction remove_function, 4526 DBusWatchToggledFunction toggled_function, 4527 void *data, 4528 DBusFreeFunction free_data_function) 4529 { 4530 dbus_bool_t retval; 4531 DBusWatchList *watches; 4532 4533 _dbus_return_val_if_fail (connection != NULL, FALSE); 4534 4535 CONNECTION_LOCK (connection); 4536 4537 #ifndef DBUS_DISABLE_CHECKS 4538 if (connection->watches == NULL) 4539 { 4540 _dbus_warn_check_failed ("Re-entrant call to %s is not allowed\n", 4541 _DBUS_FUNCTION_NAME); 4542 return FALSE; 4543 } 4544 #endif 4545 4546 /* ref connection for slightly better reentrancy */ 4547 _dbus_connection_ref_unlocked (connection); 4548 4549 /* This can call back into user code, and we need to drop the 4550 * connection lock when it does. This is kind of a lame 4551 * way to do it. 4552 */ 4553 watches = connection->watches; 4554 connection->watches = NULL; 4555 CONNECTION_UNLOCK (connection); 4556 4557 retval = _dbus_watch_list_set_functions (watches, 4558 add_function, remove_function, 4559 toggled_function, 4560 data, free_data_function); 4561 CONNECTION_LOCK (connection); 4562 connection->watches = watches; 4563 4564 CONNECTION_UNLOCK (connection); 4565 /* drop our paranoid refcount */ 4566 dbus_connection_unref (connection); 4567 4568 return retval; 4569 } 4570 4571 /** 4572 * Sets the timeout functions for the connection. These functions are 4573 * responsible for making the application's main loop aware of timeouts. 4574 * When using Qt, typically the DBusAddTimeoutFunction would create a 4575 * QTimer. When using GLib, the DBusAddTimeoutFunction would call 4576 * g_timeout_add. 4577 * 4578 * The DBusTimeoutToggledFunction notifies the application that the 4579 * timeout has been enabled or disabled. Call 4580 * dbus_timeout_get_enabled() to check this. A disabled timeout should 4581 * have no effect, and enabled timeout should be added to the main 4582 * loop. This feature is used instead of simply adding/removing the 4583 * timeout because enabling/disabling can be done without memory 4584 * allocation. With Qt, QTimer::start() and QTimer::stop() can be used 4585 * to enable and disable. The toggled function may be NULL if a main 4586 * loop re-queries dbus_timeout_get_enabled() every time anyway. 4587 * Whenever a timeout is toggled, its interval may change. 4588 * 4589 * The DBusTimeout can be queried for the timer interval using 4590 * dbus_timeout_get_interval(). dbus_timeout_handle() should be called 4591 * repeatedly, each time the interval elapses, starting after it has 4592 * elapsed once. The timeout stops firing when it is removed with the 4593 * given remove_function. The timer interval may change whenever the 4594 * timeout is added, removed, or toggled. 4595 * 4596 * @param connection the connection. 4597 * @param add_function function to add a timeout. 4598 * @param remove_function function to remove a timeout. 4599 * @param toggled_function function to notify of enable/disable 4600 * @param data data to pass to add_function and remove_function. 4601 * @param free_data_function function to be called to free the data. 4602 * @returns #FALSE on failure (no memory) 4603 */ 4604 dbus_bool_t 4605 dbus_connection_set_timeout_functions (DBusConnection *connection, 4606 DBusAddTimeoutFunction add_function, 4607 DBusRemoveTimeoutFunction remove_function, 4608 DBusTimeoutToggledFunction toggled_function, 4609 void *data, 4610 DBusFreeFunction free_data_function) 4611 { 4612 dbus_bool_t retval; 4613 DBusTimeoutList *timeouts; 4614 4615 _dbus_return_val_if_fail (connection != NULL, FALSE); 4616 4617 CONNECTION_LOCK (connection); 4618 4619 #ifndef DBUS_DISABLE_CHECKS 4620 if (connection->timeouts == NULL) 4621 { 4622 _dbus_warn_check_failed ("Re-entrant call to %s is not allowed\n", 4623 _DBUS_FUNCTION_NAME); 4624 return FALSE; 4625 } 4626 #endif 4627 4628 /* ref connection for slightly better reentrancy */ 4629 _dbus_connection_ref_unlocked (connection); 4630 4631 timeouts = connection->timeouts; 4632 connection->timeouts = NULL; 4633 CONNECTION_UNLOCK (connection); 4634 4635 retval = _dbus_timeout_list_set_functions (timeouts, 4636 add_function, remove_function, 4637 toggled_function, 4638 data, free_data_function); 4639 CONNECTION_LOCK (connection); 4640 connection->timeouts = timeouts; 4641 4642 CONNECTION_UNLOCK (connection); 4643 /* drop our paranoid refcount */ 4644 dbus_connection_unref (connection); 4645 4646 return retval; 4647 } 4648 4649 /** 4650 * Sets the mainloop wakeup function for the connection. This function 4651 * is responsible for waking up the main loop (if its sleeping in 4652 * another thread) when some some change has happened to the 4653 * connection that the mainloop needs to reconsider (e.g. a message 4654 * has been queued for writing). When using Qt, this typically 4655 * results in a call to QEventLoop::wakeUp(). When using GLib, it 4656 * would call g_main_context_wakeup(). 4657 * 4658 * @param connection the connection. 4659 * @param wakeup_main_function function to wake up the mainloop 4660 * @param data data to pass wakeup_main_function 4661 * @param free_data_function function to be called to free the data. 4662 */ 4663 void 4664 dbus_connection_set_wakeup_main_function (DBusConnection *connection, 4665 DBusWakeupMainFunction wakeup_main_function, 4666 void *data, 4667 DBusFreeFunction free_data_function) 4668 { 4669 void *old_data; 4670 DBusFreeFunction old_free_data; 4671 4672 _dbus_return_if_fail (connection != NULL); 4673 4674 CONNECTION_LOCK (connection); 4675 old_data = connection->wakeup_main_data; 4676 old_free_data = connection->free_wakeup_main_data; 4677 4678 connection->wakeup_main_function = wakeup_main_function; 4679 connection->wakeup_main_data = data; 4680 connection->free_wakeup_main_data = free_data_function; 4681 4682 CONNECTION_UNLOCK (connection); 4683 4684 /* Callback outside the lock */ 4685 if (old_free_data) 4686 (*old_free_data) (old_data); 4687 } 4688 4689 /** 4690 * Set a function to be invoked when the dispatch status changes. 4691 * If the dispatch status is #DBUS_DISPATCH_DATA_REMAINS, then 4692 * dbus_connection_dispatch() needs to be called to process incoming 4693 * messages. However, dbus_connection_dispatch() MUST NOT BE CALLED 4694 * from inside the DBusDispatchStatusFunction. Indeed, almost 4695 * any reentrancy in this function is a bad idea. Instead, 4696 * the DBusDispatchStatusFunction should simply save an indication 4697 * that messages should be dispatched later, when the main loop 4698 * is re-entered. 4699 * 4700 * If you don't set a dispatch status function, you have to be sure to 4701 * dispatch on every iteration of your main loop, especially if 4702 * dbus_watch_handle() or dbus_timeout_handle() were called. 4703 * 4704 * @param connection the connection 4705 * @param function function to call on dispatch status changes 4706 * @param data data for function 4707 * @param free_data_function free the function data 4708 */ 4709 void 4710 dbus_connection_set_dispatch_status_function (DBusConnection *connection, 4711 DBusDispatchStatusFunction function, 4712 void *data, 4713 DBusFreeFunction free_data_function) 4714 { 4715 void *old_data; 4716 DBusFreeFunction old_free_data; 4717 4718 _dbus_return_if_fail (connection != NULL); 4719 4720 CONNECTION_LOCK (connection); 4721 old_data = connection->dispatch_status_data; 4722 old_free_data = connection->free_dispatch_status_data; 4723 4724 connection->dispatch_status_function = function; 4725 connection->dispatch_status_data = data; 4726 connection->free_dispatch_status_data = free_data_function; 4727 4728 CONNECTION_UNLOCK (connection); 4729 4730 /* Callback outside the lock */ 4731 if (old_free_data) 4732 (*old_free_data) (old_data); 4733 } 4734 4735 /** 4736 * Get the UNIX file descriptor of the connection, if any. This can 4737 * be used for SELinux access control checks with getpeercon() for 4738 * example. DO NOT read or write to the file descriptor, or try to 4739 * select() on it; use DBusWatch for main loop integration. Not all 4740 * connections will have a file descriptor. So for adding descriptors 4741 * to the main loop, use dbus_watch_get_fd() and so forth. 4742 * 4743 * If the connection is socket-based, you can also use 4744 * dbus_connection_get_socket(), which will work on Windows too. 4745 * This function always fails on Windows. 4746 * 4747 * Right now the returned descriptor is always a socket, but 4748 * that is not guaranteed. 4749 * 4750 * @param connection the connection 4751 * @param fd return location for the file descriptor. 4752 * @returns #TRUE if fd is successfully obtained. 4753 */ 4754 dbus_bool_t 4755 dbus_connection_get_unix_fd (DBusConnection *connection, 4756 int *fd) 4757 { 4758 _dbus_return_val_if_fail (connection != NULL, FALSE); 4759 _dbus_return_val_if_fail (connection->transport != NULL, FALSE); 4760 4761 #ifdef DBUS_WIN 4762 /* FIXME do this on a lower level */ 4763 return FALSE; 4764 #endif 4765 4766 return dbus_connection_get_socket(connection, fd); 4767 } 4768 4769 /** 4770 * Gets the underlying Windows or UNIX socket file descriptor 4771 * of the connection, if any. DO NOT read or write to the file descriptor, or try to 4772 * select() on it; use DBusWatch for main loop integration. Not all 4773 * connections will have a socket. So for adding descriptors 4774 * to the main loop, use dbus_watch_get_fd() and so forth. 4775 * 4776 * If the connection is not socket-based, this function will return FALSE, 4777 * even if the connection does have a file descriptor of some kind. 4778 * i.e. this function always returns specifically a socket file descriptor. 4779 * 4780 * @param connection the connection 4781 * @param fd return location for the file descriptor. 4782 * @returns #TRUE if fd is successfully obtained. 4783 */ 4784 dbus_bool_t 4785 dbus_connection_get_socket(DBusConnection *connection, 4786 int *fd) 4787 { 4788 dbus_bool_t retval; 4789 4790 _dbus_return_val_if_fail (connection != NULL, FALSE); 4791 _dbus_return_val_if_fail (connection->transport != NULL, FALSE); 4792 4793 CONNECTION_LOCK (connection); 4794 4795 retval = _dbus_transport_get_socket_fd (connection->transport, 4796 fd); 4797 4798 CONNECTION_UNLOCK (connection); 4799 4800 return retval; 4801 } 4802 4803 4804 /** 4805 * Gets the UNIX user ID of the connection if known. Returns #TRUE if 4806 * the uid is filled in. Always returns #FALSE on non-UNIX platforms. 4807 * Always returns #FALSE prior to authenticating the connection. 4808 * 4809 * The UID is only read by servers from clients; clients can't usually 4810 * get the UID of servers, because servers do not authenticate to 4811 * clients. The returned UID is the UID the connection authenticated 4812 * as. 4813 * 4814 * The message bus is a server and the apps connecting to the bus 4815 * are clients. 4816 * 4817 * You can ask the bus to tell you the UID of another connection though 4818 * if you like; this is done with dbus_bus_get_unix_user(). 4819 * 4820 * @param connection the connection 4821 * @param uid return location for the user ID 4822 * @returns #TRUE if uid is filled in with a valid user ID 4823 */ 4824 dbus_bool_t 4825 dbus_connection_get_unix_user (DBusConnection *connection, 4826 unsigned long *uid) 4827 { 4828 dbus_bool_t result; 4829 4830 _dbus_return_val_if_fail (connection != NULL, FALSE); 4831 _dbus_return_val_if_fail (uid != NULL, FALSE); 4832 4833 #ifdef DBUS_WIN 4834 /* FIXME this should be done at a lower level, but it's kind of hard, 4835 * just want to be sure we don't ship with this API returning 4836 * some weird internal fake uid for 1.0 4837 */ 4838 return FALSE; 4839 #endif 4840 4841 CONNECTION_LOCK (connection); 4842 4843 if (!_dbus_transport_get_is_authenticated (connection->transport)) 4844 result = FALSE; 4845 else 4846 result = _dbus_transport_get_unix_user (connection->transport, 4847 uid); 4848 CONNECTION_UNLOCK (connection); 4849 4850 return result; 4851 } 4852 4853 /** 4854 * Gets the process ID of the connection if any. 4855 * Returns #TRUE if the uid is filled in. 4856 * Always returns #FALSE prior to authenticating the 4857 * connection. 4858 * 4859 * @param connection the connection 4860 * @param pid return location for the process ID 4861 * @returns #TRUE if uid is filled in with a valid process ID 4862 */ 4863 dbus_bool_t 4864 dbus_connection_get_unix_process_id (DBusConnection *connection, 4865 unsigned long *pid) 4866 { 4867 dbus_bool_t result; 4868 4869 _dbus_return_val_if_fail (connection != NULL, FALSE); 4870 _dbus_return_val_if_fail (pid != NULL, FALSE); 4871 4872 #ifdef DBUS_WIN 4873 /* FIXME this should be done at a lower level, but it's kind of hard, 4874 * just want to be sure we don't ship with this API returning 4875 * some weird internal fake uid for 1.0 4876 */ 4877 return FALSE; 4878 #endif 4879 4880 CONNECTION_LOCK (connection); 4881 4882 if (!_dbus_transport_get_is_authenticated (connection->transport)) 4883 result = FALSE; 4884 else 4885 result = _dbus_transport_get_unix_process_id (connection->transport, 4886 pid); 4887 CONNECTION_UNLOCK (connection); 4888 4889 return result; 4890 } 4891 4892 /** 4893 * Sets a predicate function used to determine whether a given user ID 4894 * is allowed to connect. When an incoming connection has 4895 * authenticated with a particular user ID, this function is called; 4896 * if it returns #TRUE, the connection is allowed to proceed, 4897 * otherwise the connection is disconnected. 4898 * 4899 * If the function is set to #NULL (as it is by default), then 4900 * only the same UID as the server process will be allowed to 4901 * connect. 4902 * 4903 * On Windows, the function will be set and its free_data_function will 4904 * be invoked when the connection is freed or a new function is set. 4905 * However, the function will never be called, because there are 4906 * no UNIX user ids to pass to it. 4907 * 4908 * @todo add a Windows API analogous to dbus_connection_set_unix_user_function() 4909 * 4910 * @param connection the connection 4911 * @param function the predicate 4912 * @param data data to pass to the predicate 4913 * @param free_data_function function to free the data 4914 */ 4915 void 4916 dbus_connection_set_unix_user_function (DBusConnection *connection, 4917 DBusAllowUnixUserFunction function, 4918 void *data, 4919 DBusFreeFunction free_data_function) 4920 { 4921 void *old_data = NULL; 4922 DBusFreeFunction old_free_function = NULL; 4923 4924 _dbus_return_if_fail (connection != NULL); 4925 4926 CONNECTION_LOCK (connection); 4927 _dbus_transport_set_unix_user_function (connection->transport, 4928 function, data, free_data_function, 4929 &old_data, &old_free_function); 4930 CONNECTION_UNLOCK (connection); 4931 4932 if (old_free_function != NULL) 4933 (* old_free_function) (old_data); 4934 } 4935 4936 /** 4937 * 4938 * Normally #DBusConnection automatically handles all messages to the 4939 * org.freedesktop.DBus.Peer interface. However, the message bus wants 4940 * to be able to route methods on that interface through the bus and 4941 * to other applications. If routing peer messages is enabled, then 4942 * messages with the org.freedesktop.DBus.Peer interface that also 4943 * have a bus destination name set will not be automatically 4944 * handled by the #DBusConnection and instead will be dispatched 4945 * normally to the application. 4946 * 4947 * 4948 * If a normal application sets this flag, it can break things badly. 4949 * So don't set this unless you are the message bus. 4950 * 4951 * @param connection the connection 4952 * @param value #TRUE to pass through org.freedesktop.DBus.Peer messages with a bus name set 4953 */ 4954 void 4955 dbus_connection_set_route_peer_messages (DBusConnection *connection, 4956 dbus_bool_t value) 4957 { 4958 _dbus_return_if_fail (connection != NULL); 4959 4960 CONNECTION_LOCK (connection); 4961 connection->route_peer_messages = TRUE; 4962 CONNECTION_UNLOCK (connection); 4963 } 4964 4965 /** 4966 * Adds a message filter. Filters are handlers that are run on all 4967 * incoming messages, prior to the objects registered with 4968 * dbus_connection_register_object_path(). Filters are run in the 4969 * order that they were added. The same handler can be added as a 4970 * filter more than once, in which case it will be run more than once. 4971 * Filters added during a filter callback won't be run on the message 4972 * being processed. 4973 * 4974 * @todo we don't run filters on messages while blocking without 4975 * entering the main loop, since filters are run as part of 4976 * dbus_connection_dispatch(). This is probably a feature, as filters 4977 * could create arbitrary reentrancy. But kind of sucks if you're 4978 * trying to filter METHOD_RETURN for some reason. 4979 * 4980 * @param connection the connection 4981 * @param function function to handle messages 4982 * @param user_data user data to pass to the function 4983 * @param free_data_function function to use for freeing user data 4984 * @returns #TRUE on success, #FALSE if not enough memory. 4985 */ 4986 dbus_bool_t 4987 dbus_connection_add_filter (DBusConnection *connection, 4988 DBusHandleMessageFunction function, 4989 void *user_data, 4990 DBusFreeFunction free_data_function) 4991 { 4992 DBusMessageFilter *filter; 4993 4994 _dbus_return_val_if_fail (connection != NULL, FALSE); 4995 _dbus_return_val_if_fail (function != NULL, FALSE); 4996 4997 filter = dbus_new0 (DBusMessageFilter, 1); 4998 if (filter == NULL) 4999 return FALSE; 5000 5001 filter->refcount.value = 1; 5002 5003 CONNECTION_LOCK (connection); 5004 5005 if (!_dbus_list_append (&connection->filter_list, 5006 filter)) 5007 { 5008 _dbus_message_filter_unref (filter); 5009 CONNECTION_UNLOCK (connection); 5010 return FALSE; 5011 } 5012 5013 /* Fill in filter after all memory allocated, 5014 * so we don't run the free_user_data_function 5015 * if the add_filter() fails 5016 */ 5017 5018 filter->function = function; 5019 filter->user_data = user_data; 5020 filter->free_user_data_function = free_data_function; 5021 5022 CONNECTION_UNLOCK (connection); 5023 return TRUE; 5024 } 5025 5026 /** 5027 * Removes a previously-added message filter. It is a programming 5028 * error to call this function for a handler that has not been added 5029 * as a filter. If the given handler was added more than once, only 5030 * one instance of it will be removed (the most recently-added 5031 * instance). 5032 * 5033 * @param connection the connection 5034 * @param function the handler to remove 5035 * @param user_data user data for the handler to remove 5036 * 5037 */ 5038 void 5039 dbus_connection_remove_filter (DBusConnection *connection, 5040 DBusHandleMessageFunction function, 5041 void *user_data) 5042 { 5043 DBusList *link; 5044 DBusMessageFilter *filter; 5045 5046 _dbus_return_if_fail (connection != NULL); 5047 _dbus_return_if_fail (function != NULL); 5048 5049 CONNECTION_LOCK (connection); 5050 5051 filter = NULL; 5052 5053 link = _dbus_list_get_last_link (&connection->filter_list); 5054 while (link != NULL) 5055 { 5056 filter = link->data; 5057 5058 if (filter->function == function && 5059 filter->user_data == user_data) 5060 { 5061 _dbus_list_remove_link (&connection->filter_list, link); 5062 filter->function = NULL; 5063 5064 break; 5065 } 5066 5067 link = _dbus_list_get_prev_link (&connection->filter_list, link); 5068 } 5069 5070 CONNECTION_UNLOCK (connection); 5071 5072 #ifndef DBUS_DISABLE_CHECKS 5073 if (filter == NULL) 5074 { 5075 _dbus_warn_check_failed ("Attempt to remove filter function %p user data %p, but no such filter has been added\n", 5076 function, user_data); 5077 return; 5078 } 5079 #endif 5080 5081 /* Call application code */ 5082 if (filter->free_user_data_function) 5083 (* filter->free_user_data_function) (filter->user_data); 5084 5085 filter->free_user_data_function = NULL; 5086 filter->user_data = NULL; 5087 5088 _dbus_message_filter_unref (filter); 5089 } 5090 5091 /** 5092 * Registers a handler for a given path in the object hierarchy. 5093 * The given vtable handles messages sent to exactly the given path. 5094 * 5095 * 5096 * @param connection the connection 5097 * @param path a '/' delimited string of path elements 5098 * @param vtable the virtual table 5099 * @param user_data data to pass to functions in the vtable 5100 * @returns #FALSE if not enough memory 5101 */ 5102 dbus_bool_t 5103 dbus_connection_register_object_path (DBusConnection *connection, 5104 const char *path, 5105 const DBusObjectPathVTable *vtable, 5106 void *user_data) 5107 { 5108 char **decomposed_path; 5109 dbus_bool_t retval; 5110 5111 _dbus_return_val_if_fail (connection != NULL, FALSE); 5112 _dbus_return_val_if_fail (path != NULL, FALSE); 5113 _dbus_return_val_if_fail (path[0] == '/', FALSE); 5114 _dbus_return_val_if_fail (vtable != NULL, FALSE); 5115 5116 if (!_dbus_decompose_path (path, strlen (path), &decomposed_path, NULL)) 5117 return FALSE; 5118 5119 CONNECTION_LOCK (connection); 5120 5121 retval = _dbus_object_tree_register (connection->objects, 5122 FALSE, 5123 (const char **) decomposed_path, vtable, 5124 user_data); 5125 5126 CONNECTION_UNLOCK (connection); 5127 5128 dbus_free_string_array (decomposed_path); 5129 5130 return retval; 5131 } 5132 5133 /** 5134 * Registers a fallback handler for a given subsection of the object 5135 * hierarchy. The given vtable handles messages at or below the given 5136 * path. You can use this to establish a default message handling 5137 * policy for a whole "subdirectory." 5138 * 5139 * @param connection the connection 5140 * @param path a '/' delimited string of path elements 5141 * @param vtable the virtual table 5142 * @param user_data data to pass to functions in the vtable 5143 * @returns #FALSE if not enough memory 5144 */ 5145 dbus_bool_t 5146 dbus_connection_register_fallback (DBusConnection *connection, 5147 const char *path, 5148 const DBusObjectPathVTable *vtable, 5149 void *user_data) 5150 { 5151 char **decomposed_path; 5152 dbus_bool_t retval; 5153 5154 _dbus_return_val_if_fail (connection != NULL, FALSE); 5155 _dbus_return_val_if_fail (path != NULL, FALSE); 5156 _dbus_return_val_if_fail (path[0] == '/', FALSE); 5157 _dbus_return_val_if_fail (vtable != NULL, FALSE); 5158 5159 if (!_dbus_decompose_path (path, strlen (path), &decomposed_path, NULL)) 5160 return FALSE; 5161 5162 CONNECTION_LOCK (connection); 5163 5164 retval = _dbus_object_tree_register (connection->objects, 5165 TRUE, 5166 (const char **) decomposed_path, vtable, 5167 user_data); 5168 5169 CONNECTION_UNLOCK (connection); 5170 5171 dbus_free_string_array (decomposed_path); 5172 5173 return retval; 5174 } 5175 5176 /** 5177 * Unregisters the handler registered with exactly the given path. 5178 * It's a bug to call this function for a path that isn't registered. 5179 * Can unregister both fallback paths and object paths. 5180 * 5181 * @param connection the connection 5182 * @param path a '/' delimited string of path elements 5183 * @returns #FALSE if not enough memory 5184 */ 5185 dbus_bool_t 5186 dbus_connection_unregister_object_path (DBusConnection *connection, 5187 const char *path) 5188 { 5189 char **decomposed_path; 5190 5191 _dbus_return_val_if_fail (connection != NULL, FALSE); 5192 _dbus_return_val_if_fail (path != NULL, FALSE); 5193 _dbus_return_val_if_fail (path[0] == '/', FALSE); 5194 5195 if (!_dbus_decompose_path (path, strlen (path), &decomposed_path, NULL)) 5196 return FALSE; 5197 5198 CONNECTION_LOCK (connection); 5199 5200 _dbus_object_tree_unregister_and_unlock (connection->objects, (const char **) decomposed_path); 5201 5202 dbus_free_string_array (decomposed_path); 5203 5204 return TRUE; 5205 } 5206 5207 /** 5208 * Gets the user data passed to dbus_connection_register_object_path() 5209 * or dbus_connection_register_fallback(). If nothing was registered 5210 * at this path, the data is filled in with #NULL. 5211 * 5212 * @param connection the connection 5213 * @param path the path you registered with 5214 * @param data_p location to store the user data, or #NULL 5215 * @returns #FALSE if not enough memory 5216 */ 5217 dbus_bool_t 5218 dbus_connection_get_object_path_data (DBusConnection *connection, 5219 const char *path, 5220 void **data_p) 5221 { 5222 char **decomposed_path; 5223 5224 _dbus_return_val_if_fail (connection != NULL, FALSE); 5225 _dbus_return_val_if_fail (path != NULL, FALSE); 5226 _dbus_return_val_if_fail (data_p != NULL, FALSE); 5227 5228 *data_p = NULL; 5229 5230 if (!_dbus_decompose_path (path, strlen (path), &decomposed_path, NULL)) 5231 return FALSE; 5232 5233 CONNECTION_LOCK (connection); 5234 5235 *data_p = _dbus_object_tree_get_user_data_unlocked (connection->objects, (const char**) decomposed_path); 5236 5237 CONNECTION_UNLOCK (connection); 5238 5239 dbus_free_string_array (decomposed_path); 5240 5241 return TRUE; 5242 } 5243 5244 /** 5245 * Lists the registered fallback handlers and object path handlers at 5246 * the given parent_path. The returned array should be freed with 5247 * dbus_free_string_array(). 5248 * 5249 * @param connection the connection 5250 * @param parent_path the path to list the child handlers of 5251 * @param child_entries returns #NULL-terminated array of children 5252 * @returns #FALSE if no memory to allocate the child entries 5253 */ 5254 dbus_bool_t 5255 dbus_connection_list_registered (DBusConnection *connection, 5256 const char *parent_path, 5257 char ***child_entries) 5258 { 5259 char **decomposed_path; 5260 dbus_bool_t retval; 5261 _dbus_return_val_if_fail (connection != NULL, FALSE); 5262 _dbus_return_val_if_fail (parent_path != NULL, FALSE); 5263 _dbus_return_val_if_fail (parent_path[0] == '/', FALSE); 5264 _dbus_return_val_if_fail (child_entries != NULL, FALSE); 5265 5266 if (!_dbus_decompose_path (parent_path, strlen (parent_path), &decomposed_path, NULL)) 5267 return FALSE; 5268 5269 CONNECTION_LOCK (connection); 5270 5271 retval = _dbus_object_tree_list_registered_and_unlock (connection->objects, 5272 (const char **) decomposed_path, 5273 child_entries); 5274 dbus_free_string_array (decomposed_path); 5275 5276 return retval; 5277 } 5278 5279 static DBusDataSlotAllocator slot_allocator; 5280 _DBUS_DEFINE_GLOBAL_LOCK (connection_slots); 5281 5282 /** 5283 * Allocates an integer ID to be used for storing application-specific 5284 * data on any DBusConnection. The allocated ID may then be used 5285 * with dbus_connection_set_data() and dbus_connection_get_data(). 5286 * The passed-in slot must be initialized to -1, and is filled in 5287 * with the slot ID. If the passed-in slot is not -1, it's assumed 5288 * to be already allocated, and its refcount is incremented. 5289 * 5290 * The allocated slot is global, i.e. all DBusConnection objects will 5291 * have a slot with the given integer ID reserved. 5292 * 5293 * @param slot_p address of a global variable storing the slot 5294 * @returns #FALSE on failure (no memory) 5295 */ 5296 dbus_bool_t 5297 dbus_connection_allocate_data_slot (dbus_int32_t *slot_p) 5298 { 5299 return _dbus_data_slot_allocator_alloc (&slot_allocator, 5300 &_DBUS_LOCK_NAME (connection_slots), 5301 slot_p); 5302 } 5303 5304 /** 5305 * Deallocates a global ID for connection data slots. 5306 * dbus_connection_get_data() and dbus_connection_set_data() may no 5307 * longer be used with this slot. Existing data stored on existing 5308 * DBusConnection objects will be freed when the connection is 5309 * finalized, but may not be retrieved (and may only be replaced if 5310 * someone else reallocates the slot). When the refcount on the 5311 * passed-in slot reaches 0, it is set to -1. 5312 * 5313 * @param slot_p address storing the slot to deallocate 5314 */ 5315 void 5316 dbus_connection_free_data_slot (dbus_int32_t *slot_p) 5317 { 5318 _dbus_return_if_fail (*slot_p >= 0); 5319 5320 _dbus_data_slot_allocator_free (&slot_allocator, slot_p); 5321 } 5322 5323 /** 5324 * Stores a pointer on a DBusConnection, along 5325 * with an optional function to be used for freeing 5326 * the data when the data is set again, or when 5327 * the connection is finalized. The slot number 5328 * must have been allocated with dbus_connection_allocate_data_slot(). 5329 * 5330 * @param connection the connection 5331 * @param slot the slot number 5332 * @param data the data to store 5333 * @param free_data_func finalizer function for the data 5334 * @returns #TRUE if there was enough memory to store the data 5335 */ 5336 dbus_bool_t 5337 dbus_connection_set_data (DBusConnection *connection, 5338 dbus_int32_t slot, 5339 void *data, 5340 DBusFreeFunction free_data_func) 5341 { 5342 DBusFreeFunction old_free_func; 5343 void *old_data; 5344 dbus_bool_t retval; 5345 5346 _dbus_return_val_if_fail (connection != NULL, FALSE); 5347 _dbus_return_val_if_fail (slot >= 0, FALSE); 5348 5349 CONNECTION_LOCK (connection); 5350 5351 retval = _dbus_data_slot_list_set (&slot_allocator, 5352 &connection->slot_list, 5353 slot, data, free_data_func, 5354 &old_free_func, &old_data); 5355 5356 CONNECTION_UNLOCK (connection); 5357 5358 if (retval) 5359 { 5360 /* Do the actual free outside the connection lock */ 5361 if (old_free_func) 5362 (* old_free_func) (old_data); 5363 } 5364 5365 return retval; 5366 } 5367 5368 /** 5369 * Retrieves data previously set with dbus_connection_set_data(). 5370 * The slot must still be allocated (must not have been freed). 5371 * 5372 * @param connection the connection 5373 * @param slot the slot to get data from 5374 * @returns the data, or #NULL if not found 5375 */ 5376 void* 5377 dbus_connection_get_data (DBusConnection *connection, 5378 dbus_int32_t slot) 5379 { 5380 void *res; 5381 5382 _dbus_return_val_if_fail (connection != NULL, NULL); 5383 5384 CONNECTION_LOCK (connection); 5385 5386 res = _dbus_data_slot_list_get (&slot_allocator, 5387 &connection->slot_list, 5388 slot); 5389 5390 CONNECTION_UNLOCK (connection); 5391 5392 return res; 5393 } 5394 5395 /** 5396 * This function sets a global flag for whether dbus_connection_new() 5397 * will set SIGPIPE behavior to SIG_IGN. 5398 * 5399 * @param will_modify_sigpipe #TRUE to allow sigpipe to be set to SIG_IGN 5400 */ 5401 void 5402 dbus_connection_set_change_sigpipe (dbus_bool_t will_modify_sigpipe) 5403 { 5404 _dbus_modify_sigpipe = will_modify_sigpipe != FALSE; 5405 } 5406 5407 /** 5408 * Specifies the maximum size message this connection is allowed to 5409 * receive. Larger messages will result in disconnecting the 5410 * connection. 5411 * 5412 * @param connection a #DBusConnection 5413 * @param size maximum message size the connection can receive, in bytes 5414 */ 5415 void 5416 dbus_connection_set_max_message_size (DBusConnection *connection, 5417 long size) 5418 { 5419 _dbus_return_if_fail (connection != NULL); 5420 5421 CONNECTION_LOCK (connection); 5422 _dbus_transport_set_max_message_size (connection->transport, 5423 size); 5424 CONNECTION_UNLOCK (connection); 5425 } 5426 5427 /** 5428 * Gets the value set by dbus_connection_set_max_message_size(). 5429 * 5430 * @param connection the connection 5431 * @returns the max size of a single message 5432 */ 5433 long 5434 dbus_connection_get_max_message_size (DBusConnection *connection) 5435 { 5436 long res; 5437 5438 _dbus_return_val_if_fail (connection != NULL, 0); 5439 5440 CONNECTION_LOCK (connection); 5441 res = _dbus_transport_get_max_message_size (connection->transport); 5442 CONNECTION_UNLOCK (connection); 5443 return res; 5444 } 5445 5446 /** 5447 * Sets the maximum total number of bytes that can be used for all messages 5448 * received on this connection. Messages count toward the maximum until 5449 * they are finalized. When the maximum is reached, the connection will 5450 * not read more data until some messages are finalized. 5451 * 5452 * The semantics of the maximum are: if outstanding messages are 5453 * already above the maximum, additional messages will not be read. 5454 * The semantics are not: if the next message would cause us to exceed 5455 * the maximum, we don't read it. The reason is that we don't know the 5456 * size of a message until after we read it. 5457 * 5458 * Thus, the max live messages size can actually be exceeded 5459 * by up to the maximum size of a single message. 5460 * 5461 * Also, if we read say 1024 bytes off the wire in a single read(), 5462 * and that contains a half-dozen small messages, we may exceed the 5463 * size max by that amount. But this should be inconsequential. 5464 * 5465 * This does imply that we can't call read() with a buffer larger 5466 * than we're willing to exceed this limit by. 5467 * 5468 * @param connection the connection 5469 * @param size the maximum size in bytes of all outstanding messages 5470 */ 5471 void 5472 dbus_connection_set_max_received_size (DBusConnection *connection, 5473 long size) 5474 { 5475 _dbus_return_if_fail (connection != NULL); 5476 5477 CONNECTION_LOCK (connection); 5478 _dbus_transport_set_max_received_size (connection->transport, 5479 size); 5480 CONNECTION_UNLOCK (connection); 5481 } 5482 5483 /** 5484 * Gets the value set by dbus_connection_set_max_received_size(). 5485 * 5486 * @param connection the connection 5487 * @returns the max size of all live messages 5488 */ 5489 long 5490 dbus_connection_get_max_received_size (DBusConnection *connection) 5491 { 5492 long res; 5493 5494 _dbus_return_val_if_fail (connection != NULL, 0); 5495 5496 CONNECTION_LOCK (connection); 5497 res = _dbus_transport_get_max_received_size (connection->transport); 5498 CONNECTION_UNLOCK (connection); 5499 return res; 5500 } 5501 5502 /** 5503 * Gets the approximate size in bytes of all messages in the outgoing 5504 * message queue. The size is approximate in that you shouldn't use 5505 * it to decide how many bytes to read off the network or anything 5506 * of that nature, as optimizations may choose to tell small white lies 5507 * to avoid performance overhead. 5508 * 5509 * @param connection the connection 5510 * @returns the number of bytes that have been queued up but not sent 5511 */ 5512 long 5513 dbus_connection_get_outgoing_size (DBusConnection *connection) 5514 { 5515 long res; 5516 5517 _dbus_return_val_if_fail (connection != NULL, 0); 5518 5519 CONNECTION_LOCK (connection); 5520 res = _dbus_counter_get_value (connection->outgoing_counter); 5521 CONNECTION_UNLOCK (connection); 5522 return res; 5523 } 5524 5525 /** @} */ 5526