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      1 /* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
      2 /* dbus-message.c  DBusMessage object
      3  *
      4  * Copyright (C) 2002, 2003, 2004, 2005  Red Hat Inc.
      5  * Copyright (C) 2002, 2003  CodeFactory AB
      6  *
      7  * Licensed under the Academic Free License version 2.1
      8  *
      9  * This program is free software; you can redistribute it and/or modify
     10  * it under the terms of the GNU General Public License as published by
     11  * the Free Software Foundation; either version 2 of the License, or
     12  * (at your option) any later version.
     13  *
     14  * This program is distributed in the hope that it will be useful,
     15  * but WITHOUT ANY WARRANTY; without even the implied warranty of
     16  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     17  * GNU General Public License for more details.
     18  *
     19  * You should have received a copy of the GNU General Public License
     20  * along with this program; if not, write to the Free Software
     21  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
     22  *
     23  */
     24 
     25 #include <config.h>
     26 #include "dbus-internals.h"
     27 #include "dbus-marshal-recursive.h"
     28 #include "dbus-marshal-validate.h"
     29 #include "dbus-marshal-byteswap.h"
     30 #include "dbus-marshal-header.h"
     31 #include "dbus-signature.h"
     32 #include "dbus-message-private.h"
     33 #include "dbus-object-tree.h"
     34 #include "dbus-memory.h"
     35 #include "dbus-list.h"
     36 #include "dbus-threads-internal.h"
     37 #ifdef HAVE_UNIX_FD_PASSING
     38 #include "dbus-sysdeps-unix.h"
     39 #endif
     40 
     41 #include <string.h>
     42 
     43 static void dbus_message_finalize (DBusMessage *message);
     44 
     45 /**
     46  * @defgroup DBusMessageInternals DBusMessage implementation details
     47  * @ingroup DBusInternals
     48  * @brief DBusMessage private implementation details.
     49  *
     50  * The guts of DBusMessage and its methods.
     51  *
     52  * @{
     53  */
     54 
     55 /* Not thread locked, but strictly const/read-only so should be OK
     56  */
     57 /** An static string representing an empty signature */
     58 _DBUS_STRING_DEFINE_STATIC(_dbus_empty_signature_str,  "");
     59 
     60 /* these have wacky values to help trap uninitialized iterators;
     61  * but has to fit in 3 bits
     62  */
     63 enum {
     64   DBUS_MESSAGE_ITER_TYPE_READER = 3,
     65   DBUS_MESSAGE_ITER_TYPE_WRITER = 7
     66 };
     67 
     68 /** typedef for internals of message iterator */
     69 typedef struct DBusMessageRealIter DBusMessageRealIter;
     70 
     71 /**
     72  * @brief Internals of DBusMessageIter
     73  *
     74  * Object representing a position in a message. All fields are internal.
     75  */
     76 struct DBusMessageRealIter
     77 {
     78   DBusMessage *message; /**< Message used */
     79   dbus_uint32_t changed_stamp : CHANGED_STAMP_BITS; /**< stamp to detect invalid iters */
     80   dbus_uint32_t iter_type : 3;      /**< whether this is a reader or writer iter */
     81   dbus_uint32_t sig_refcount : 8;   /**< depth of open_signature() */
     82   union
     83   {
     84     DBusTypeWriter writer; /**< writer */
     85     DBusTypeReader reader; /**< reader */
     86   } u; /**< the type writer or reader that does all the work */
     87 };
     88 
     89 static void
     90 get_const_signature (DBusHeader        *header,
     91                      const DBusString **type_str_p,
     92                      int               *type_pos_p)
     93 {
     94   if (_dbus_header_get_field_raw (header,
     95                                   DBUS_HEADER_FIELD_SIGNATURE,
     96                                   type_str_p,
     97                                   type_pos_p))
     98     {
     99       *type_pos_p += 1; /* skip the signature length which is 1 byte */
    100     }
    101   else
    102     {
    103       *type_str_p = &_dbus_empty_signature_str;
    104       *type_pos_p = 0;
    105     }
    106 }
    107 
    108 /**
    109  * Swaps the message to compiler byte order if required
    110  *
    111  * @param message the message
    112  */
    113 static void
    114 _dbus_message_byteswap (DBusMessage *message)
    115 {
    116   const DBusString *type_str;
    117   int type_pos;
    118 
    119   if (message->byte_order == DBUS_COMPILER_BYTE_ORDER)
    120     return;
    121 
    122   _dbus_verbose ("Swapping message into compiler byte order\n");
    123 
    124   get_const_signature (&message->header, &type_str, &type_pos);
    125 
    126   _dbus_marshal_byteswap (type_str, type_pos,
    127                           message->byte_order,
    128                           DBUS_COMPILER_BYTE_ORDER,
    129                           &message->body, 0);
    130 
    131   message->byte_order = DBUS_COMPILER_BYTE_ORDER;
    132 
    133   _dbus_header_byteswap (&message->header, DBUS_COMPILER_BYTE_ORDER);
    134 }
    135 
    136 /** byte-swap the message if it doesn't match our byte order.
    137  *  Called only when we need the message in our own byte order,
    138  *  normally when reading arrays of integers or doubles.
    139  *  Otherwise should not be called since it would do needless
    140  *  work.
    141  */
    142 #define ensure_byte_order(message)                      \
    143  if (message->byte_order != DBUS_COMPILER_BYTE_ORDER)   \
    144    _dbus_message_byteswap (message)
    145 
    146 /**
    147  * Gets the data to be sent over the network for this message.
    148  * The header and then the body should be written out.
    149  * This function is guaranteed to always return the same
    150  * data once a message is locked (with dbus_message_lock()).
    151  *
    152  * @param message the message.
    153  * @param header return location for message header data.
    154  * @param body return location for message body data.
    155  */
    156 void
    157 _dbus_message_get_network_data (DBusMessage          *message,
    158                                 const DBusString    **header,
    159                                 const DBusString    **body)
    160 {
    161   _dbus_assert (message->locked);
    162 
    163   *header = &message->header.data;
    164   *body = &message->body;
    165 }
    166 
    167 /**
    168  * Gets the unix fds to be sent over the network for this message.
    169  * This function is guaranteed to always return the same data once a
    170  * message is locked (with dbus_message_lock()).
    171  *
    172  * @param message the message.
    173  * @param fds return location of unix fd array
    174  * @param n_fds return number of entries in array
    175  */
    176 void _dbus_message_get_unix_fds(DBusMessage *message,
    177                                 const int  **fds,
    178                                 unsigned    *n_fds)
    179 {
    180   _dbus_assert (message->locked);
    181 
    182 #ifdef HAVE_UNIX_FD_PASSING
    183   *fds = message->unix_fds;
    184   *n_fds = message->n_unix_fds;
    185 #else
    186   *fds = NULL;
    187   *n_fds = 0;
    188 #endif
    189 }
    190 
    191 /**
    192  * Sets the serial number of a message.
    193  * This can only be done once on a message.
    194  *
    195  * DBusConnection will automatically set the serial to an appropriate value
    196  * when the message is sent; this function is only needed when encapsulating
    197  * messages in another protocol, or otherwise bypassing DBusConnection.
    198  *
    199  * @param message the message
    200  * @param serial the serial
    201  */
    202 void
    203 dbus_message_set_serial (DBusMessage   *message,
    204                          dbus_uint32_t  serial)
    205 {
    206   _dbus_return_if_fail (message != NULL);
    207   _dbus_return_if_fail (!message->locked);
    208 
    209   _dbus_header_set_serial (&message->header, serial);
    210 }
    211 
    212 /**
    213  * Adds a counter to be incremented immediately with the size/unix fds
    214  * of this message, and decremented by the size/unix fds of this
    215  * message when this message if finalized.  The link contains a
    216  * counter with its refcount already incremented, but the counter
    217  * itself not incremented.  Ownership of link and counter refcount is
    218  * passed to the message.
    219  *
    220  * @param message the message
    221  * @param link link with counter as data
    222  */
    223 void
    224 _dbus_message_add_counter_link (DBusMessage  *message,
    225                                 DBusList     *link)
    226 {
    227   /* right now we don't recompute the delta when message
    228    * size changes, and that's OK for current purposes
    229    * I think, but could be important to change later.
    230    * Do recompute it whenever there are no outstanding counters,
    231    * since it's basically free.
    232    */
    233   if (message->counters == NULL)
    234     {
    235       message->size_counter_delta =
    236         _dbus_string_get_length (&message->header.data) +
    237         _dbus_string_get_length (&message->body);
    238 
    239 #ifdef HAVE_UNIX_FD_PASSING
    240       message->unix_fd_counter_delta = message->n_unix_fds;
    241 #endif
    242 
    243 #if 0
    244       _dbus_verbose ("message has size %ld\n",
    245                      message->size_counter_delta);
    246 #endif
    247     }
    248 
    249   _dbus_list_append_link (&message->counters, link);
    250 
    251   _dbus_counter_adjust_size (link->data, message->size_counter_delta);
    252 
    253 #ifdef HAVE_UNIX_FD_PASSING
    254   _dbus_counter_adjust_unix_fd (link->data, message->unix_fd_counter_delta);
    255 #endif
    256 }
    257 
    258 /**
    259  * Adds a counter to be incremented immediately with the size/unix fds
    260  * of this message, and decremented by the size/unix fds of this
    261  * message when this message if finalized.
    262  *
    263  * @param message the message
    264  * @param counter the counter
    265  * @returns #FALSE if no memory
    266  */
    267 dbus_bool_t
    268 _dbus_message_add_counter (DBusMessage *message,
    269                            DBusCounter *counter)
    270 {
    271   DBusList *link;
    272 
    273   link = _dbus_list_alloc_link (counter);
    274   if (link == NULL)
    275     return FALSE;
    276 
    277   _dbus_counter_ref (counter);
    278   _dbus_message_add_counter_link (message, link);
    279 
    280   return TRUE;
    281 }
    282 
    283 /**
    284  * Removes a counter tracking the size/unix fds of this message, and
    285  * decrements the counter by the size/unix fds of this message.
    286  *
    287  * @param message the message
    288  * @param link_return return the link used
    289  * @param counter the counter
    290  */
    291 void
    292 _dbus_message_remove_counter (DBusMessage  *message,
    293                               DBusCounter  *counter,
    294                               DBusList    **link_return)
    295 {
    296   DBusList *link;
    297 
    298   link = _dbus_list_find_last (&message->counters,
    299                                counter);
    300   _dbus_assert (link != NULL);
    301 
    302   _dbus_list_unlink (&message->counters,
    303                      link);
    304   if (link_return)
    305     *link_return = link;
    306   else
    307     _dbus_list_free_link (link);
    308 
    309   _dbus_counter_adjust_size (counter, - message->size_counter_delta);
    310 
    311 #ifdef HAVE_UNIX_FD_PASSING
    312   _dbus_counter_adjust_unix_fd (counter, - message->unix_fd_counter_delta);
    313 #endif
    314 
    315   _dbus_counter_unref (counter);
    316 }
    317 
    318 /**
    319  * Locks a message. Allows checking that applications don't keep a
    320  * reference to a message in the outgoing queue and change it
    321  * underneath us. Messages are locked when they enter the outgoing
    322  * queue (dbus_connection_send_message()), and the library complains
    323  * if the message is modified while locked. This function may also
    324  * called externally, for applications wrapping D-Bus in another protocol.
    325  *
    326  * @param message the message to lock.
    327  */
    328 void
    329 dbus_message_lock (DBusMessage  *message)
    330 {
    331   if (!message->locked)
    332     {
    333       _dbus_header_update_lengths (&message->header,
    334                                    _dbus_string_get_length (&message->body));
    335 
    336       /* must have a signature if you have a body */
    337       _dbus_assert (_dbus_string_get_length (&message->body) == 0 ||
    338                     dbus_message_get_signature (message) != NULL);
    339 
    340       message->locked = TRUE;
    341     }
    342 }
    343 
    344 static dbus_bool_t
    345 set_or_delete_string_field (DBusMessage *message,
    346                             int          field,
    347                             int          typecode,
    348                             const char  *value)
    349 {
    350   if (value == NULL)
    351     return _dbus_header_delete_field (&message->header, field);
    352   else
    353     return _dbus_header_set_field_basic (&message->header,
    354                                          field,
    355                                          typecode,
    356                                          &value);
    357 }
    358 
    359 #if 0
    360 /* Probably we don't need to use this */
    361 /**
    362  * Sets the signature of the message, i.e. the arguments in the
    363  * message payload. The signature includes only "in" arguments for
    364  * #DBUS_MESSAGE_TYPE_METHOD_CALL and only "out" arguments for
    365  * #DBUS_MESSAGE_TYPE_METHOD_RETURN, so is slightly different from
    366  * what you might expect (it does not include the signature of the
    367  * entire C++-style method).
    368  *
    369  * The signature is a string made up of type codes such as
    370  * #DBUS_TYPE_INT32. The string is terminated with nul (nul is also
    371  * the value of #DBUS_TYPE_INVALID). The macros such as
    372  * #DBUS_TYPE_INT32 evaluate to integers; to assemble a signature you
    373  * may find it useful to use the string forms, such as
    374  * #DBUS_TYPE_INT32_AS_STRING.
    375  *
    376  * An "unset" or #NULL signature is considered the same as an empty
    377  * signature. In fact dbus_message_get_signature() will never return
    378  * #NULL.
    379  *
    380  * @param message the message
    381  * @param signature the type signature or #NULL to unset
    382  * @returns #FALSE if no memory
    383  */
    384 static dbus_bool_t
    385 _dbus_message_set_signature (DBusMessage *message,
    386                              const char  *signature)
    387 {
    388   _dbus_return_val_if_fail (message != NULL, FALSE);
    389   _dbus_return_val_if_fail (!message->locked, FALSE);
    390   _dbus_return_val_if_fail (signature == NULL ||
    391                             _dbus_check_is_valid_signature (signature));
    392   /* can't delete the signature if you have a message body */
    393   _dbus_return_val_if_fail (_dbus_string_get_length (&message->body) == 0 ||
    394                             signature != NULL);
    395 
    396   return set_or_delete_string_field (message,
    397                                      DBUS_HEADER_FIELD_SIGNATURE,
    398                                      DBUS_TYPE_SIGNATURE,
    399                                      signature);
    400 }
    401 #endif
    402 
    403 /* Message Cache
    404  *
    405  * We cache some DBusMessage to reduce the overhead of allocating
    406  * them.  In my profiling this consistently made about an 8%
    407  * difference.  It avoids the malloc for the message, the malloc for
    408  * the slot list, the malloc for the header string and body string,
    409  * and the associated free() calls. It does introduce another global
    410  * lock which could be a performance issue in certain cases.
    411  *
    412  * For the echo client/server the round trip time goes from around
    413  * .000077 to .000069 with the message cache on my laptop. The sysprof
    414  * change is as follows (numbers are cumulative percentage):
    415  *
    416  *  with message cache implemented as array as it is now (0.000069 per):
    417  *    new_empty_header           1.46
    418  *      mutex_lock               0.56    # i.e. _DBUS_LOCK(message_cache)
    419  *      mutex_unlock             0.25
    420  *      self                     0.41
    421  *    unref                      2.24
    422  *      self                     0.68
    423  *      list_clear               0.43
    424  *      mutex_lock               0.33    # i.e. _DBUS_LOCK(message_cache)
    425  *      mutex_unlock             0.25
    426  *
    427  *  with message cache implemented as list (0.000070 per roundtrip):
    428  *    new_empty_header           2.72
    429  *      list_pop_first           1.88
    430  *    unref                      3.3
    431  *      list_prepend             1.63
    432  *
    433  * without cache (0.000077 per roundtrip):
    434  *    new_empty_header           6.7
    435  *      string_init_preallocated 3.43
    436  *        dbus_malloc            2.43
    437  *      dbus_malloc0             2.59
    438  *
    439  *    unref                      4.02
    440  *      string_free              1.82
    441  *        dbus_free              1.63
    442  *      dbus_free                0.71
    443  *
    444  * If you implement the message_cache with a list, the primary reason
    445  * it's slower is that you add another thread lock (on the DBusList
    446  * mempool).
    447  */
    448 
    449 /** Avoid caching huge messages */
    450 #define MAX_MESSAGE_SIZE_TO_CACHE 10 * _DBUS_ONE_KILOBYTE
    451 
    452 /** Avoid caching too many messages */
    453 #define MAX_MESSAGE_CACHE_SIZE    5
    454 
    455 _DBUS_DEFINE_GLOBAL_LOCK (message_cache);
    456 static DBusMessage *message_cache[MAX_MESSAGE_CACHE_SIZE];
    457 static int message_cache_count = 0;
    458 static dbus_bool_t message_cache_shutdown_registered = FALSE;
    459 
    460 static void
    461 dbus_message_cache_shutdown (void *data)
    462 {
    463   int i;
    464 
    465   _DBUS_LOCK (message_cache);
    466 
    467   i = 0;
    468   while (i < MAX_MESSAGE_CACHE_SIZE)
    469     {
    470       if (message_cache[i])
    471         dbus_message_finalize (message_cache[i]);
    472 
    473       ++i;
    474     }
    475 
    476   message_cache_count = 0;
    477   message_cache_shutdown_registered = FALSE;
    478 
    479   _DBUS_UNLOCK (message_cache);
    480 }
    481 
    482 /**
    483  * Tries to get a message from the message cache.  The retrieved
    484  * message will have junk in it, so it still needs to be cleared out
    485  * in dbus_message_new_empty_header()
    486  *
    487  * @returns the message, or #NULL if none cached
    488  */
    489 static DBusMessage*
    490 dbus_message_get_cached (void)
    491 {
    492   DBusMessage *message;
    493   int i;
    494 
    495   message = NULL;
    496 
    497   _DBUS_LOCK (message_cache);
    498 
    499   _dbus_assert (message_cache_count >= 0);
    500 
    501   if (message_cache_count == 0)
    502     {
    503       _DBUS_UNLOCK (message_cache);
    504       return NULL;
    505     }
    506 
    507   /* This is not necessarily true unless count > 0, and
    508    * message_cache is uninitialized until the shutdown is
    509    * registered
    510    */
    511   _dbus_assert (message_cache_shutdown_registered);
    512 
    513   i = 0;
    514   while (i < MAX_MESSAGE_CACHE_SIZE)
    515     {
    516       if (message_cache[i])
    517         {
    518           message = message_cache[i];
    519           message_cache[i] = NULL;
    520           message_cache_count -= 1;
    521           break;
    522         }
    523       ++i;
    524     }
    525   _dbus_assert (message_cache_count >= 0);
    526   _dbus_assert (i < MAX_MESSAGE_CACHE_SIZE);
    527   _dbus_assert (message != NULL);
    528 
    529   _dbus_assert (message->refcount.value == 0);
    530   _dbus_assert (message->counters == NULL);
    531 
    532   _DBUS_UNLOCK (message_cache);
    533 
    534   return message;
    535 }
    536 
    537 #ifdef HAVE_UNIX_FD_PASSING
    538 static void
    539 close_unix_fds(int *fds, unsigned *n_fds)
    540 {
    541   DBusError e;
    542   int i;
    543 
    544   if (*n_fds <= 0)
    545     return;
    546 
    547   dbus_error_init(&e);
    548 
    549   for (i = 0; i < *n_fds; i++)
    550     {
    551       if (!_dbus_close(fds[i], &e))
    552         {
    553           _dbus_warn("Failed to close file descriptor: %s\n", e.message);
    554           dbus_error_free(&e);
    555         }
    556     }
    557 
    558   *n_fds = 0;
    559 
    560   /* We don't free the array here, in case we can recycle it later */
    561 }
    562 #endif
    563 
    564 static void
    565 free_counter (void *element,
    566               void *data)
    567 {
    568   DBusCounter *counter = element;
    569   DBusMessage *message = data;
    570 
    571   _dbus_counter_adjust_size (counter, - message->size_counter_delta);
    572 #ifdef HAVE_UNIX_FD_PASSING
    573   _dbus_counter_adjust_unix_fd (counter, - message->unix_fd_counter_delta);
    574 #endif
    575 
    576   _dbus_counter_unref (counter);
    577 }
    578 
    579 /**
    580  * Tries to cache a message, otherwise finalize it.
    581  *
    582  * @param message the message
    583  */
    584 static void
    585 dbus_message_cache_or_finalize (DBusMessage *message)
    586 {
    587   dbus_bool_t was_cached;
    588   int i;
    589 
    590   _dbus_assert (message->refcount.value == 0);
    591 
    592   /* This calls application code and has to be done first thing
    593    * without holding the lock
    594    */
    595   _dbus_data_slot_list_clear (&message->slot_list);
    596 
    597   _dbus_list_foreach (&message->counters,
    598                       free_counter, message);
    599   _dbus_list_clear (&message->counters);
    600 
    601 #ifdef HAVE_UNIX_FD_PASSING
    602   close_unix_fds(message->unix_fds, &message->n_unix_fds);
    603 #endif
    604 
    605   was_cached = FALSE;
    606 
    607   _DBUS_LOCK (message_cache);
    608 
    609   if (!message_cache_shutdown_registered)
    610     {
    611       _dbus_assert (message_cache_count == 0);
    612 
    613       if (!_dbus_register_shutdown_func (dbus_message_cache_shutdown, NULL))
    614         goto out;
    615 
    616       i = 0;
    617       while (i < MAX_MESSAGE_CACHE_SIZE)
    618         {
    619           message_cache[i] = NULL;
    620           ++i;
    621         }
    622 
    623       message_cache_shutdown_registered = TRUE;
    624     }
    625 
    626   _dbus_assert (message_cache_count >= 0);
    627 
    628   if ((_dbus_string_get_length (&message->header.data) +
    629        _dbus_string_get_length (&message->body)) >
    630       MAX_MESSAGE_SIZE_TO_CACHE)
    631     goto out;
    632 
    633   if (message_cache_count >= MAX_MESSAGE_CACHE_SIZE)
    634     goto out;
    635 
    636   /* Find empty slot */
    637   i = 0;
    638   while (message_cache[i] != NULL)
    639     ++i;
    640 
    641   _dbus_assert (i < MAX_MESSAGE_CACHE_SIZE);
    642 
    643   _dbus_assert (message_cache[i] == NULL);
    644   message_cache[i] = message;
    645   message_cache_count += 1;
    646   was_cached = TRUE;
    647 #ifndef DBUS_DISABLE_CHECKS
    648   message->in_cache = TRUE;
    649 #endif
    650 
    651  out:
    652   _dbus_assert (message->refcount.value == 0);
    653 
    654   _DBUS_UNLOCK (message_cache);
    655 
    656   if (!was_cached)
    657     dbus_message_finalize (message);
    658 }
    659 
    660 #ifndef DBUS_DISABLE_CHECKS
    661 static dbus_bool_t
    662 _dbus_message_iter_check (DBusMessageRealIter *iter)
    663 {
    664   if (iter == NULL)
    665     {
    666       _dbus_warn_check_failed ("dbus message iterator is NULL\n");
    667       return FALSE;
    668     }
    669 
    670   if (iter->iter_type == DBUS_MESSAGE_ITER_TYPE_READER)
    671     {
    672       if (iter->u.reader.byte_order != iter->message->byte_order)
    673         {
    674           _dbus_warn_check_failed ("dbus message changed byte order since iterator was created\n");
    675           return FALSE;
    676         }
    677       /* because we swap the message into compiler order when you init an iter */
    678       _dbus_assert (iter->u.reader.byte_order == DBUS_COMPILER_BYTE_ORDER);
    679     }
    680   else if (iter->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER)
    681     {
    682       if (iter->u.writer.byte_order != iter->message->byte_order)
    683         {
    684           _dbus_warn_check_failed ("dbus message changed byte order since append iterator was created\n");
    685           return FALSE;
    686         }
    687       /* because we swap the message into compiler order when you init an iter */
    688       _dbus_assert (iter->u.writer.byte_order == DBUS_COMPILER_BYTE_ORDER);
    689     }
    690   else
    691     {
    692       _dbus_warn_check_failed ("dbus message iterator looks uninitialized or corrupted\n");
    693       return FALSE;
    694     }
    695 
    696   if (iter->changed_stamp != iter->message->changed_stamp)
    697     {
    698       _dbus_warn_check_failed ("dbus message iterator invalid because the message has been modified (or perhaps the iterator is just uninitialized)\n");
    699       return FALSE;
    700     }
    701 
    702   return TRUE;
    703 }
    704 #endif /* DBUS_DISABLE_CHECKS */
    705 
    706 /**
    707  * Implementation of the varargs arg-getting functions.
    708  * dbus_message_get_args() is the place to go for complete
    709  * documentation.
    710  *
    711  * @todo This may leak memory and file descriptors if parsing fails. See #21259
    712  *
    713  * @see dbus_message_get_args
    714  * @param iter the message iter
    715  * @param error error to be filled in
    716  * @param first_arg_type type of the first argument
    717  * @param var_args return location for first argument, followed by list of type/location pairs
    718  * @returns #FALSE if error was set
    719  */
    720 dbus_bool_t
    721 _dbus_message_iter_get_args_valist (DBusMessageIter *iter,
    722                                     DBusError       *error,
    723                                     int              first_arg_type,
    724                                     va_list          var_args)
    725 {
    726   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
    727   int spec_type, msg_type, i;
    728   dbus_bool_t retval;
    729 
    730   _dbus_assert (_dbus_message_iter_check (real));
    731 
    732   retval = FALSE;
    733 
    734   spec_type = first_arg_type;
    735   i = 0;
    736 
    737   while (spec_type != DBUS_TYPE_INVALID)
    738     {
    739       msg_type = dbus_message_iter_get_arg_type (iter);
    740 
    741       if (msg_type != spec_type)
    742 	{
    743           dbus_set_error (error, DBUS_ERROR_INVALID_ARGS,
    744                           "Argument %d is specified to be of type \"%s\", but "
    745                           "is actually of type \"%s\"\n", i,
    746                           _dbus_type_to_string (spec_type),
    747                           _dbus_type_to_string (msg_type));
    748 
    749           goto out;
    750 	}
    751 
    752       if (spec_type == DBUS_TYPE_UNIX_FD)
    753         {
    754 #ifdef HAVE_UNIX_FD_PASSING
    755           DBusBasicValue idx;
    756           int *pfd, nfd;
    757 
    758           pfd = va_arg (var_args, int*);
    759           _dbus_assert(pfd);
    760 
    761           _dbus_type_reader_read_basic(&real->u.reader, &idx);
    762 
    763           if (idx.u32 >= real->message->n_unix_fds)
    764             {
    765               dbus_set_error (error, DBUS_ERROR_INCONSISTENT_MESSAGE,
    766                               "Message refers to file descriptor at index %i,"
    767                               "but has only %i descriptors attached.\n",
    768                               idx.u32,
    769                               real->message->n_unix_fds);
    770               goto out;
    771             }
    772 
    773           if ((nfd = _dbus_dup(real->message->unix_fds[idx.u32], error)) < 0)
    774             goto out;
    775 
    776           *pfd = nfd;
    777 #else
    778           dbus_set_error (error, DBUS_ERROR_NOT_SUPPORTED,
    779                           "Platform does not support file desciptor passing.\n");
    780           goto out;
    781 #endif
    782         }
    783       else if (dbus_type_is_basic (spec_type))
    784         {
    785           DBusBasicValue *ptr;
    786 
    787           ptr = va_arg (var_args, DBusBasicValue*);
    788 
    789           _dbus_assert (ptr != NULL);
    790 
    791           _dbus_type_reader_read_basic (&real->u.reader,
    792                                         ptr);
    793         }
    794       else if (spec_type == DBUS_TYPE_ARRAY)
    795         {
    796           int element_type;
    797           int spec_element_type;
    798           const DBusBasicValue **ptr;
    799           int *n_elements_p;
    800           DBusTypeReader array;
    801 
    802           spec_element_type = va_arg (var_args, int);
    803           element_type = _dbus_type_reader_get_element_type (&real->u.reader);
    804 
    805           if (spec_element_type != element_type)
    806             {
    807               dbus_set_error (error, DBUS_ERROR_INVALID_ARGS,
    808                               "Argument %d is specified to be an array of \"%s\", but "
    809                               "is actually an array of \"%s\"\n",
    810                               i,
    811                               _dbus_type_to_string (spec_element_type),
    812                               _dbus_type_to_string (element_type));
    813 
    814               goto out;
    815             }
    816 
    817           if (dbus_type_is_fixed (spec_element_type) &&
    818               element_type != DBUS_TYPE_UNIX_FD)
    819             {
    820               ptr = va_arg (var_args, const DBusBasicValue**);
    821               n_elements_p = va_arg (var_args, int*);
    822 
    823               _dbus_assert (ptr != NULL);
    824               _dbus_assert (n_elements_p != NULL);
    825 
    826               _dbus_type_reader_recurse (&real->u.reader, &array);
    827 
    828               _dbus_type_reader_read_fixed_multi (&array,
    829                                                   (void *) ptr, n_elements_p);
    830             }
    831           else if (spec_element_type == DBUS_TYPE_STRING ||
    832                    spec_element_type == DBUS_TYPE_SIGNATURE ||
    833                    spec_element_type == DBUS_TYPE_OBJECT_PATH)
    834             {
    835               char ***str_array_p;
    836               int n_elements;
    837               char **str_array;
    838 
    839               str_array_p = va_arg (var_args, char***);
    840               n_elements_p = va_arg (var_args, int*);
    841 
    842               _dbus_assert (str_array_p != NULL);
    843               _dbus_assert (n_elements_p != NULL);
    844 
    845               /* Count elements in the array */
    846               _dbus_type_reader_recurse (&real->u.reader, &array);
    847 
    848               n_elements = 0;
    849               while (_dbus_type_reader_get_current_type (&array) != DBUS_TYPE_INVALID)
    850                 {
    851                   ++n_elements;
    852                   _dbus_type_reader_next (&array);
    853                 }
    854 
    855               str_array = dbus_new0 (char*, n_elements + 1);
    856               if (str_array == NULL)
    857                 {
    858                   _DBUS_SET_OOM (error);
    859                   goto out;
    860                 }
    861 
    862               /* Now go through and dup each string */
    863               _dbus_type_reader_recurse (&real->u.reader, &array);
    864 
    865               i = 0;
    866               while (i < n_elements)
    867                 {
    868                   const char *s;
    869                   _dbus_type_reader_read_basic (&array,
    870                                                 (void *) &s);
    871 
    872                   str_array[i] = _dbus_strdup (s);
    873                   if (str_array[i] == NULL)
    874                     {
    875                       dbus_free_string_array (str_array);
    876                       _DBUS_SET_OOM (error);
    877                       goto out;
    878                     }
    879 
    880                   ++i;
    881 
    882                   if (!_dbus_type_reader_next (&array))
    883                     _dbus_assert (i == n_elements);
    884                 }
    885 
    886               _dbus_assert (_dbus_type_reader_get_current_type (&array) == DBUS_TYPE_INVALID);
    887               _dbus_assert (i == n_elements);
    888               _dbus_assert (str_array[i] == NULL);
    889 
    890               *str_array_p = str_array;
    891               *n_elements_p = n_elements;
    892             }
    893 #ifndef DBUS_DISABLE_CHECKS
    894           else
    895             {
    896               _dbus_warn ("you can't read arrays of container types (struct, variant, array) with %s for now\n",
    897                           _DBUS_FUNCTION_NAME);
    898               goto out;
    899             }
    900 #endif
    901         }
    902 #ifndef DBUS_DISABLE_CHECKS
    903       else
    904         {
    905           _dbus_warn ("you can only read arrays and basic types with %s for now\n",
    906                       _DBUS_FUNCTION_NAME);
    907           goto out;
    908         }
    909 #endif
    910 
    911       spec_type = va_arg (var_args, int);
    912       if (!_dbus_type_reader_next (&real->u.reader) && spec_type != DBUS_TYPE_INVALID)
    913         {
    914           dbus_set_error (error, DBUS_ERROR_INVALID_ARGS,
    915                           "Message has only %d arguments, but more were expected", i);
    916           goto out;
    917         }
    918 
    919       i++;
    920     }
    921 
    922   retval = TRUE;
    923 
    924  out:
    925 
    926   return retval;
    927 }
    928 
    929 /** @} */
    930 
    931 /**
    932  * @defgroup DBusMessage DBusMessage
    933  * @ingroup  DBus
    934  * @brief Message to be sent or received over a #DBusConnection.
    935  *
    936  * A DBusMessage is the most basic unit of communication over a
    937  * DBusConnection. A DBusConnection represents a stream of messages
    938  * received from a remote application, and a stream of messages
    939  * sent to a remote application.
    940  *
    941  * A message has a message type, returned from
    942  * dbus_message_get_type().  This indicates whether the message is a
    943  * method call, a reply to a method call, a signal, or an error reply.
    944  *
    945  * A message has header fields such as the sender, destination, method
    946  * or signal name, and so forth. DBusMessage has accessor functions for
    947  * these, such as dbus_message_get_member().
    948  *
    949  * Convenience functions dbus_message_is_method_call(), dbus_message_is_signal(),
    950  * and dbus_message_is_error() check several header fields at once and are
    951  * slightly more efficient than checking the header fields with individual
    952  * accessor functions.
    953  *
    954  * Finally, a message has arguments. The number and types of arguments
    955  * are in the message's signature header field (accessed with
    956  * dbus_message_get_signature()).  Simple argument values are usually
    957  * retrieved with dbus_message_get_args() but more complex values such
    958  * as structs may require the use of #DBusMessageIter.
    959  *
    960  * The D-Bus specification goes into some more detail about header fields and
    961  * message types.
    962  *
    963  * @{
    964  */
    965 
    966 /**
    967  * @typedef DBusMessage
    968  *
    969  * Opaque data type representing a message received from or to be
    970  * sent to another application.
    971  */
    972 
    973 /**
    974  * Returns the serial of a message or 0 if none has been specified.
    975  * The message's serial number is provided by the application sending
    976  * the message and is used to identify replies to this message.
    977  *
    978  * All messages received on a connection will have a serial provided
    979  * by the remote application.
    980  *
    981  * For messages you're sending, dbus_connection_send() will assign a
    982  * serial and return it to you.
    983  *
    984  * @param message the message
    985  * @returns the serial
    986  */
    987 dbus_uint32_t
    988 dbus_message_get_serial (DBusMessage *message)
    989 {
    990   _dbus_return_val_if_fail (message != NULL, 0);
    991 
    992   return _dbus_header_get_serial (&message->header);
    993 }
    994 
    995 /**
    996  * Sets the reply serial of a message (the serial of the message this
    997  * is a reply to).
    998  *
    999  * @param message the message
   1000  * @param reply_serial the serial we're replying to
   1001  * @returns #FALSE if not enough memory
   1002  */
   1003 dbus_bool_t
   1004 dbus_message_set_reply_serial (DBusMessage   *message,
   1005                                dbus_uint32_t  reply_serial)
   1006 {
   1007   _dbus_return_val_if_fail (message != NULL, FALSE);
   1008   _dbus_return_val_if_fail (!message->locked, FALSE);
   1009   _dbus_return_val_if_fail (reply_serial != 0, FALSE); /* 0 is invalid */
   1010 
   1011   return _dbus_header_set_field_basic (&message->header,
   1012                                        DBUS_HEADER_FIELD_REPLY_SERIAL,
   1013                                        DBUS_TYPE_UINT32,
   1014                                        &reply_serial);
   1015 }
   1016 
   1017 /**
   1018  * Returns the serial that the message is a reply to or 0 if none.
   1019  *
   1020  * @param message the message
   1021  * @returns the reply serial
   1022  */
   1023 dbus_uint32_t
   1024 dbus_message_get_reply_serial  (DBusMessage *message)
   1025 {
   1026   dbus_uint32_t v_UINT32;
   1027 
   1028   _dbus_return_val_if_fail (message != NULL, 0);
   1029 
   1030   if (_dbus_header_get_field_basic (&message->header,
   1031                                     DBUS_HEADER_FIELD_REPLY_SERIAL,
   1032                                     DBUS_TYPE_UINT32,
   1033                                     &v_UINT32))
   1034     return v_UINT32;
   1035   else
   1036     return 0;
   1037 }
   1038 
   1039 static void
   1040 dbus_message_finalize (DBusMessage *message)
   1041 {
   1042   _dbus_assert (message->refcount.value == 0);
   1043 
   1044   /* This calls application callbacks! */
   1045   _dbus_data_slot_list_free (&message->slot_list);
   1046 
   1047   _dbus_list_foreach (&message->counters,
   1048                       free_counter, message);
   1049   _dbus_list_clear (&message->counters);
   1050 
   1051   _dbus_header_free (&message->header);
   1052   _dbus_string_free (&message->body);
   1053 
   1054 #ifdef HAVE_UNIX_FD_PASSING
   1055   close_unix_fds(message->unix_fds, &message->n_unix_fds);
   1056   dbus_free(message->unix_fds);
   1057 #endif
   1058 
   1059   _dbus_assert (message->refcount.value == 0);
   1060 
   1061   dbus_free (message);
   1062 }
   1063 
   1064 static DBusMessage*
   1065 dbus_message_new_empty_header (void)
   1066 {
   1067   DBusMessage *message;
   1068   dbus_bool_t from_cache;
   1069 
   1070   message = dbus_message_get_cached ();
   1071 
   1072   if (message != NULL)
   1073     {
   1074       from_cache = TRUE;
   1075     }
   1076   else
   1077     {
   1078       from_cache = FALSE;
   1079       message = dbus_new (DBusMessage, 1);
   1080       if (message == NULL)
   1081         return NULL;
   1082 #ifndef DBUS_DISABLE_CHECKS
   1083       message->generation = _dbus_current_generation;
   1084 #endif
   1085 
   1086 #ifdef HAVE_UNIX_FD_PASSING
   1087       message->unix_fds = NULL;
   1088       message->n_unix_fds_allocated = 0;
   1089 #endif
   1090     }
   1091 
   1092   message->refcount.value = 1;
   1093   message->byte_order = DBUS_COMPILER_BYTE_ORDER;
   1094   message->locked = FALSE;
   1095 #ifndef DBUS_DISABLE_CHECKS
   1096   message->in_cache = FALSE;
   1097 #endif
   1098   message->counters = NULL;
   1099   message->size_counter_delta = 0;
   1100   message->changed_stamp = 0;
   1101 
   1102 #ifdef HAVE_UNIX_FD_PASSING
   1103   message->n_unix_fds = 0;
   1104   message->n_unix_fds_allocated = 0;
   1105   message->unix_fd_counter_delta = 0;
   1106 #endif
   1107 
   1108   if (!from_cache)
   1109     _dbus_data_slot_list_init (&message->slot_list);
   1110 
   1111   if (from_cache)
   1112     {
   1113       _dbus_header_reinit (&message->header, message->byte_order);
   1114       _dbus_string_set_length (&message->body, 0);
   1115     }
   1116   else
   1117     {
   1118       if (!_dbus_header_init (&message->header, message->byte_order))
   1119         {
   1120           dbus_free (message);
   1121           return NULL;
   1122         }
   1123 
   1124       if (!_dbus_string_init_preallocated (&message->body, 32))
   1125         {
   1126           _dbus_header_free (&message->header);
   1127           dbus_free (message);
   1128           return NULL;
   1129         }
   1130     }
   1131 
   1132   return message;
   1133 }
   1134 
   1135 /**
   1136  * Constructs a new message of the given message type.
   1137  * Types include #DBUS_MESSAGE_TYPE_METHOD_CALL,
   1138  * #DBUS_MESSAGE_TYPE_SIGNAL, and so forth.
   1139  *
   1140  * Usually you want to use dbus_message_new_method_call(),
   1141  * dbus_message_new_method_return(), dbus_message_new_signal(),
   1142  * or dbus_message_new_error() instead.
   1143  *
   1144  * @param message_type type of message
   1145  * @returns new message or #NULL if no memory
   1146  */
   1147 DBusMessage*
   1148 dbus_message_new (int message_type)
   1149 {
   1150   DBusMessage *message;
   1151 
   1152   _dbus_return_val_if_fail (message_type != DBUS_MESSAGE_TYPE_INVALID, NULL);
   1153 
   1154   message = dbus_message_new_empty_header ();
   1155   if (message == NULL)
   1156     return NULL;
   1157 
   1158   if (!_dbus_header_create (&message->header,
   1159                             message_type,
   1160                             NULL, NULL, NULL, NULL, NULL))
   1161     {
   1162       dbus_message_unref (message);
   1163       return NULL;
   1164     }
   1165 
   1166   return message;
   1167 }
   1168 
   1169 /**
   1170  * Constructs a new message to invoke a method on a remote
   1171  * object. Returns #NULL if memory can't be allocated for the
   1172  * message. The destination may be #NULL in which case no destination
   1173  * is set; this is appropriate when using D-Bus in a peer-to-peer
   1174  * context (no message bus). The interface may be #NULL, which means
   1175  * that if multiple methods with the given name exist it is undefined
   1176  * which one will be invoked.
   1177  *
   1178  * The path and method names may not be #NULL.
   1179  *
   1180  * Destination, path, interface, and method name can't contain
   1181  * any invalid characters (see the D-Bus specification).
   1182  *
   1183  * @param destination name that the message should be sent to or #NULL
   1184  * @param path object path the message should be sent to
   1185  * @param interface interface to invoke method on, or #NULL
   1186  * @param method method to invoke
   1187  *
   1188  * @returns a new DBusMessage, free with dbus_message_unref()
   1189  */
   1190 DBusMessage*
   1191 dbus_message_new_method_call (const char *destination,
   1192                               const char *path,
   1193                               const char *interface,
   1194                               const char *method)
   1195 {
   1196   DBusMessage *message;
   1197 
   1198   _dbus_return_val_if_fail (path != NULL, NULL);
   1199   _dbus_return_val_if_fail (method != NULL, NULL);
   1200   _dbus_return_val_if_fail (destination == NULL ||
   1201                             _dbus_check_is_valid_bus_name (destination), NULL);
   1202   _dbus_return_val_if_fail (_dbus_check_is_valid_path (path), NULL);
   1203   _dbus_return_val_if_fail (interface == NULL ||
   1204                             _dbus_check_is_valid_interface (interface), NULL);
   1205   _dbus_return_val_if_fail (_dbus_check_is_valid_member (method), NULL);
   1206 
   1207   message = dbus_message_new_empty_header ();
   1208   if (message == NULL)
   1209     return NULL;
   1210 
   1211   if (!_dbus_header_create (&message->header,
   1212                             DBUS_MESSAGE_TYPE_METHOD_CALL,
   1213                             destination, path, interface, method, NULL))
   1214     {
   1215       dbus_message_unref (message);
   1216       return NULL;
   1217     }
   1218 
   1219   return message;
   1220 }
   1221 
   1222 /**
   1223  * Constructs a message that is a reply to a method call. Returns
   1224  * #NULL if memory can't be allocated for the message.
   1225  *
   1226  * @param method_call the message being replied to
   1227  * @returns a new DBusMessage, free with dbus_message_unref()
   1228  */
   1229 DBusMessage*
   1230 dbus_message_new_method_return (DBusMessage *method_call)
   1231 {
   1232   DBusMessage *message;
   1233   const char *sender;
   1234 
   1235   _dbus_return_val_if_fail (method_call != NULL, NULL);
   1236 
   1237   sender = dbus_message_get_sender (method_call);
   1238 
   1239   /* sender is allowed to be null here in peer-to-peer case */
   1240 
   1241   message = dbus_message_new_empty_header ();
   1242   if (message == NULL)
   1243     return NULL;
   1244 
   1245   if (!_dbus_header_create (&message->header,
   1246                             DBUS_MESSAGE_TYPE_METHOD_RETURN,
   1247                             sender, NULL, NULL, NULL, NULL))
   1248     {
   1249       dbus_message_unref (message);
   1250       return NULL;
   1251     }
   1252 
   1253   dbus_message_set_no_reply (message, TRUE);
   1254 
   1255   if (!dbus_message_set_reply_serial (message,
   1256                                       dbus_message_get_serial (method_call)))
   1257     {
   1258       dbus_message_unref (message);
   1259       return NULL;
   1260     }
   1261 
   1262   return message;
   1263 }
   1264 
   1265 /**
   1266  * Constructs a new message representing a signal emission. Returns
   1267  * #NULL if memory can't be allocated for the message.  A signal is
   1268  * identified by its originating object path, interface, and the name
   1269  * of the signal.
   1270  *
   1271  * Path, interface, and signal name must all be valid (the D-Bus
   1272  * specification defines the syntax of these fields).
   1273  *
   1274  * @param path the path to the object emitting the signal
   1275  * @param interface the interface the signal is emitted from
   1276  * @param name name of the signal
   1277  * @returns a new DBusMessage, free with dbus_message_unref()
   1278  */
   1279 DBusMessage*
   1280 dbus_message_new_signal (const char *path,
   1281                          const char *interface,
   1282                          const char *name)
   1283 {
   1284   DBusMessage *message;
   1285 
   1286   _dbus_return_val_if_fail (path != NULL, NULL);
   1287   _dbus_return_val_if_fail (interface != NULL, NULL);
   1288   _dbus_return_val_if_fail (name != NULL, NULL);
   1289   _dbus_return_val_if_fail (_dbus_check_is_valid_path (path), NULL);
   1290   _dbus_return_val_if_fail (_dbus_check_is_valid_interface (interface), NULL);
   1291   _dbus_return_val_if_fail (_dbus_check_is_valid_member (name), NULL);
   1292 
   1293   message = dbus_message_new_empty_header ();
   1294   if (message == NULL)
   1295     return NULL;
   1296 
   1297   if (!_dbus_header_create (&message->header,
   1298                             DBUS_MESSAGE_TYPE_SIGNAL,
   1299                             NULL, path, interface, name, NULL))
   1300     {
   1301       dbus_message_unref (message);
   1302       return NULL;
   1303     }
   1304 
   1305   dbus_message_set_no_reply (message, TRUE);
   1306 
   1307   return message;
   1308 }
   1309 
   1310 /**
   1311  * Creates a new message that is an error reply to another message.
   1312  * Error replies are most common in response to method calls, but
   1313  * can be returned in reply to any message.
   1314  *
   1315  * The error name must be a valid error name according to the syntax
   1316  * given in the D-Bus specification. If you don't want to make
   1317  * up an error name just use #DBUS_ERROR_FAILED.
   1318  *
   1319  * @param reply_to the message we're replying to
   1320  * @param error_name the error name
   1321  * @param error_message the error message string (or #NULL for none, but please give a message)
   1322  * @returns a new error message object, free with dbus_message_unref()
   1323  */
   1324 DBusMessage*
   1325 dbus_message_new_error (DBusMessage *reply_to,
   1326                         const char  *error_name,
   1327                         const char  *error_message)
   1328 {
   1329   DBusMessage *message;
   1330   const char *sender;
   1331   DBusMessageIter iter;
   1332 
   1333   _dbus_return_val_if_fail (reply_to != NULL, NULL);
   1334   _dbus_return_val_if_fail (error_name != NULL, NULL);
   1335   _dbus_return_val_if_fail (_dbus_check_is_valid_error_name (error_name), NULL);
   1336 
   1337   sender = dbus_message_get_sender (reply_to);
   1338 
   1339   /* sender may be NULL for non-message-bus case or
   1340    * when the message bus is dealing with an unregistered
   1341    * connection.
   1342    */
   1343   message = dbus_message_new_empty_header ();
   1344   if (message == NULL)
   1345     return NULL;
   1346 
   1347   if (!_dbus_header_create (&message->header,
   1348                             DBUS_MESSAGE_TYPE_ERROR,
   1349                             sender, NULL, NULL, NULL, error_name))
   1350     {
   1351       dbus_message_unref (message);
   1352       return NULL;
   1353     }
   1354 
   1355   dbus_message_set_no_reply (message, TRUE);
   1356 
   1357   if (!dbus_message_set_reply_serial (message,
   1358                                       dbus_message_get_serial (reply_to)))
   1359     {
   1360       dbus_message_unref (message);
   1361       return NULL;
   1362     }
   1363 
   1364   if (error_message != NULL)
   1365     {
   1366       dbus_message_iter_init_append (message, &iter);
   1367       if (!dbus_message_iter_append_basic (&iter,
   1368                                            DBUS_TYPE_STRING,
   1369                                            &error_message))
   1370         {
   1371           dbus_message_unref (message);
   1372           return NULL;
   1373         }
   1374     }
   1375 
   1376   return message;
   1377 }
   1378 
   1379 /**
   1380  * Creates a new message that is an error reply to another message, allowing
   1381  * you to use printf formatting.
   1382  *
   1383  * See dbus_message_new_error() for details - this function is the same
   1384  * aside from the printf formatting.
   1385  *
   1386  * @todo add _DBUS_GNUC_PRINTF to this (requires moving _DBUS_GNUC_PRINTF to
   1387  * public header, see DBUS_DEPRECATED for an example)
   1388  *
   1389  * @param reply_to the original message
   1390  * @param error_name the error name
   1391  * @param error_format the error message format as with printf
   1392  * @param ... format string arguments
   1393  * @returns a new error message
   1394  */
   1395 DBusMessage*
   1396 dbus_message_new_error_printf (DBusMessage *reply_to,
   1397 			       const char  *error_name,
   1398 			       const char  *error_format,
   1399 			       ...)
   1400 {
   1401   va_list args;
   1402   DBusString str;
   1403   DBusMessage *message;
   1404 
   1405   _dbus_return_val_if_fail (reply_to != NULL, NULL);
   1406   _dbus_return_val_if_fail (error_name != NULL, NULL);
   1407   _dbus_return_val_if_fail (_dbus_check_is_valid_error_name (error_name), NULL);
   1408 
   1409   if (!_dbus_string_init (&str))
   1410     return NULL;
   1411 
   1412   va_start (args, error_format);
   1413 
   1414   if (_dbus_string_append_printf_valist (&str, error_format, args))
   1415     message = dbus_message_new_error (reply_to, error_name,
   1416 				      _dbus_string_get_const_data (&str));
   1417   else
   1418     message = NULL;
   1419 
   1420   _dbus_string_free (&str);
   1421 
   1422   va_end (args);
   1423 
   1424   return message;
   1425 }
   1426 
   1427 
   1428 /**
   1429  * Creates a new message that is an exact replica of the message
   1430  * specified, except that its refcount is set to 1, its message serial
   1431  * is reset to 0, and if the original message was "locked" (in the
   1432  * outgoing message queue and thus not modifiable) the new message
   1433  * will not be locked.
   1434  *
   1435  * @todo This function can't be used in programs that try to recover from OOM errors.
   1436  *
   1437  * @param message the message
   1438  * @returns the new message.or #NULL if not enough memory or Unix file descriptors (in case the message to copy includes Unix file descriptors) can be allocated.
   1439  */
   1440 DBusMessage *
   1441 dbus_message_copy (const DBusMessage *message)
   1442 {
   1443   DBusMessage *retval;
   1444 
   1445   _dbus_return_val_if_fail (message != NULL, NULL);
   1446 
   1447   retval = dbus_new0 (DBusMessage, 1);
   1448   if (retval == NULL)
   1449     return NULL;
   1450 
   1451   retval->refcount.value = 1;
   1452   retval->byte_order = message->byte_order;
   1453   retval->locked = FALSE;
   1454 #ifndef DBUS_DISABLE_CHECKS
   1455   retval->generation = message->generation;
   1456 #endif
   1457 
   1458   if (!_dbus_header_copy (&message->header, &retval->header))
   1459     {
   1460       dbus_free (retval);
   1461       return NULL;
   1462     }
   1463 
   1464   if (!_dbus_string_init_preallocated (&retval->body,
   1465                                        _dbus_string_get_length (&message->body)))
   1466     {
   1467       _dbus_header_free (&retval->header);
   1468       dbus_free (retval);
   1469       return NULL;
   1470     }
   1471 
   1472   if (!_dbus_string_copy (&message->body, 0,
   1473 			  &retval->body, 0))
   1474     goto failed_copy;
   1475 
   1476 #ifdef HAVE_UNIX_FD_PASSING
   1477   retval->unix_fds = dbus_new(int, message->n_unix_fds);
   1478   if (retval->unix_fds == NULL && message->n_unix_fds > 0)
   1479     goto failed_copy;
   1480 
   1481   retval->n_unix_fds_allocated = message->n_unix_fds;
   1482 
   1483   for (retval->n_unix_fds = 0;
   1484        retval->n_unix_fds < message->n_unix_fds;
   1485        retval->n_unix_fds++)
   1486     {
   1487       retval->unix_fds[retval->n_unix_fds] = _dbus_dup(message->unix_fds[retval->n_unix_fds], NULL);
   1488 
   1489       if (retval->unix_fds[retval->n_unix_fds] < 0)
   1490         goto failed_copy;
   1491     }
   1492 
   1493 #endif
   1494 
   1495   return retval;
   1496 
   1497  failed_copy:
   1498   _dbus_header_free (&retval->header);
   1499   _dbus_string_free (&retval->body);
   1500 
   1501 #ifdef HAVE_UNIX_FD_PASSING
   1502   close_unix_fds(retval->unix_fds, &retval->n_unix_fds);
   1503   dbus_free(retval->unix_fds);
   1504 #endif
   1505 
   1506   dbus_free (retval);
   1507 
   1508   return NULL;
   1509 }
   1510 
   1511 
   1512 /**
   1513  * Increments the reference count of a DBusMessage.
   1514  *
   1515  * @param message the message
   1516  * @returns the message
   1517  * @see dbus_message_unref
   1518  */
   1519 DBusMessage *
   1520 dbus_message_ref (DBusMessage *message)
   1521 {
   1522   dbus_int32_t old_refcount;
   1523 
   1524   _dbus_return_val_if_fail (message != NULL, NULL);
   1525   _dbus_return_val_if_fail (message->generation == _dbus_current_generation, NULL);
   1526   _dbus_return_val_if_fail (!message->in_cache, NULL);
   1527 
   1528   old_refcount = _dbus_atomic_inc (&message->refcount);
   1529   _dbus_assert (old_refcount >= 1);
   1530 
   1531   return message;
   1532 }
   1533 
   1534 /**
   1535  * Decrements the reference count of a DBusMessage, freeing the
   1536  * message if the count reaches 0.
   1537  *
   1538  * @param message the message
   1539  * @see dbus_message_ref
   1540  */
   1541 void
   1542 dbus_message_unref (DBusMessage *message)
   1543 {
   1544  dbus_int32_t old_refcount;
   1545 
   1546   _dbus_return_if_fail (message != NULL);
   1547   _dbus_return_if_fail (message->generation == _dbus_current_generation);
   1548   _dbus_return_if_fail (!message->in_cache);
   1549 
   1550   old_refcount = _dbus_atomic_dec (&message->refcount);
   1551 
   1552   _dbus_assert (old_refcount >= 0);
   1553 
   1554   if (old_refcount == 1)
   1555     {
   1556       /* Calls application callbacks! */
   1557       dbus_message_cache_or_finalize (message);
   1558     }
   1559 }
   1560 
   1561 /**
   1562  * Gets the type of a message. Types include
   1563  * #DBUS_MESSAGE_TYPE_METHOD_CALL, #DBUS_MESSAGE_TYPE_METHOD_RETURN,
   1564  * #DBUS_MESSAGE_TYPE_ERROR, #DBUS_MESSAGE_TYPE_SIGNAL, but other
   1565  * types are allowed and all code must silently ignore messages of
   1566  * unknown type. #DBUS_MESSAGE_TYPE_INVALID will never be returned.
   1567  *
   1568  * @param message the message
   1569  * @returns the type of the message
   1570  */
   1571 int
   1572 dbus_message_get_type (DBusMessage *message)
   1573 {
   1574   _dbus_return_val_if_fail (message != NULL, DBUS_MESSAGE_TYPE_INVALID);
   1575 
   1576   return _dbus_header_get_message_type (&message->header);
   1577 }
   1578 
   1579 /**
   1580  * Appends fields to a message given a variable argument list. The
   1581  * variable argument list should contain the type of each argument
   1582  * followed by the value to append. Appendable types are basic types,
   1583  * and arrays of fixed-length basic types (except arrays of Unix file
   1584  * descriptors). To append variable-length basic types, or any more
   1585  * complex value, you have to use an iterator rather than this
   1586  * function.
   1587  *
   1588  * To append a basic type, specify its type code followed by the
   1589  * address of the value. For example:
   1590  *
   1591  * @code
   1592  *
   1593  * dbus_int32_t v_INT32 = 42;
   1594  * const char *v_STRING = "Hello World";
   1595  * dbus_message_append_args (message,
   1596  *                           DBUS_TYPE_INT32, &v_INT32,
   1597  *                           DBUS_TYPE_STRING, &v_STRING,
   1598  *                           DBUS_TYPE_INVALID);
   1599  * @endcode
   1600  *
   1601  * To append an array of fixed-length basic types (except Unix file
   1602  * descriptors), pass in the DBUS_TYPE_ARRAY typecode, the element
   1603  * typecode, the address of the array pointer, and a 32-bit integer
   1604  * giving the number of elements in the array. So for example: @code
   1605  * const dbus_int32_t array[] = { 1, 2, 3 }; const dbus_int32_t
   1606  * *v_ARRAY = array; dbus_message_append_args (message,
   1607  * DBUS_TYPE_ARRAY, DBUS_TYPE_INT32, &v_ARRAY, 3, DBUS_TYPE_INVALID);
   1608  * @endcode
   1609  *
   1610  * This function does not support arrays of Unix file descriptors. If
   1611  * you need those you need to manually recurse into the array.
   1612  *
   1613  * For Unix file descriptors this function will internally duplicate
   1614  * the descriptor you passed in. Hence you may close the descriptor
   1615  * immediately after this call.
   1616  *
   1617  * @warning in C, given "int array[]", "&array == array" (the
   1618  * comp.lang.c FAQ says otherwise, but gcc and the FAQ don't agree).
   1619  * So if you're using an array instead of a pointer you have to create
   1620  * a pointer variable, assign the array to it, then take the address
   1621  * of the pointer variable. For strings it works to write
   1622  * const char *array = "Hello" and then use &array though.
   1623  *
   1624  * The last argument to this function must be #DBUS_TYPE_INVALID,
   1625  * marking the end of the argument list. If you don't do this
   1626  * then libdbus won't know to stop and will read invalid memory.
   1627  *
   1628  * String/signature/path arrays should be passed in as "const char***
   1629  * address_of_array" and "int n_elements"
   1630  *
   1631  * @todo support DBUS_TYPE_STRUCT and DBUS_TYPE_VARIANT and complex arrays
   1632  *
   1633  * @todo If this fails due to lack of memory, the message is hosed and
   1634  * you have to start over building the whole message.
   1635  *
   1636  * @param message the message
   1637  * @param first_arg_type type of the first argument
   1638  * @param ... value of first argument, list of additional type-value pairs
   1639  * @returns #TRUE on success
   1640  */
   1641 dbus_bool_t
   1642 dbus_message_append_args (DBusMessage *message,
   1643 			  int          first_arg_type,
   1644 			  ...)
   1645 {
   1646   dbus_bool_t retval;
   1647   va_list var_args;
   1648 
   1649   _dbus_return_val_if_fail (message != NULL, FALSE);
   1650 
   1651   va_start (var_args, first_arg_type);
   1652   retval = dbus_message_append_args_valist (message,
   1653 					    first_arg_type,
   1654 					    var_args);
   1655   va_end (var_args);
   1656 
   1657   return retval;
   1658 }
   1659 
   1660 /**
   1661  * Like dbus_message_append_args() but takes a va_list for use by language bindings.
   1662  *
   1663  * @todo for now, if this function fails due to OOM it will leave
   1664  * the message half-written and you have to discard the message
   1665  * and start over.
   1666  *
   1667  * @see dbus_message_append_args.
   1668  * @param message the message
   1669  * @param first_arg_type type of first argument
   1670  * @param var_args value of first argument, then list of type/value pairs
   1671  * @returns #TRUE on success
   1672  */
   1673 dbus_bool_t
   1674 dbus_message_append_args_valist (DBusMessage *message,
   1675 				 int          first_arg_type,
   1676 				 va_list      var_args)
   1677 {
   1678   int type;
   1679   DBusMessageIter iter;
   1680 
   1681   _dbus_return_val_if_fail (message != NULL, FALSE);
   1682 
   1683   type = first_arg_type;
   1684 
   1685   dbus_message_iter_init_append (message, &iter);
   1686 
   1687   while (type != DBUS_TYPE_INVALID)
   1688     {
   1689       if (dbus_type_is_basic (type))
   1690         {
   1691           const DBusBasicValue *value;
   1692           value = va_arg (var_args, const DBusBasicValue*);
   1693 
   1694           if (!dbus_message_iter_append_basic (&iter,
   1695                                                type,
   1696                                                value))
   1697             goto failed;
   1698         }
   1699       else if (type == DBUS_TYPE_ARRAY)
   1700         {
   1701           int element_type;
   1702           DBusMessageIter array;
   1703           char buf[2];
   1704 
   1705           element_type = va_arg (var_args, int);
   1706 
   1707           buf[0] = element_type;
   1708           buf[1] = '\0';
   1709           if (!dbus_message_iter_open_container (&iter,
   1710                                                  DBUS_TYPE_ARRAY,
   1711                                                  buf,
   1712                                                  &array))
   1713             goto failed;
   1714 
   1715           if (dbus_type_is_fixed (element_type) &&
   1716               element_type != DBUS_TYPE_UNIX_FD)
   1717             {
   1718               const DBusBasicValue **value;
   1719               int n_elements;
   1720 
   1721               value = va_arg (var_args, const DBusBasicValue**);
   1722               n_elements = va_arg (var_args, int);
   1723 
   1724               if (!dbus_message_iter_append_fixed_array (&array,
   1725                                                          element_type,
   1726                                                          value,
   1727                                                          n_elements)) {
   1728                 dbus_message_iter_abandon_container (&iter, &array);
   1729                 goto failed;
   1730               }
   1731             }
   1732           else if (element_type == DBUS_TYPE_STRING ||
   1733                    element_type == DBUS_TYPE_SIGNATURE ||
   1734                    element_type == DBUS_TYPE_OBJECT_PATH)
   1735             {
   1736               const char ***value_p;
   1737               const char **value;
   1738               int n_elements;
   1739               int i;
   1740 
   1741               value_p = va_arg (var_args, const char***);
   1742               n_elements = va_arg (var_args, int);
   1743 
   1744               value = *value_p;
   1745 
   1746               i = 0;
   1747               while (i < n_elements)
   1748                 {
   1749                   if (!dbus_message_iter_append_basic (&array,
   1750                                                        element_type,
   1751                                                        &value[i])) {
   1752                     dbus_message_iter_abandon_container (&iter, &array);
   1753                     goto failed;
   1754                   }
   1755                   ++i;
   1756                 }
   1757             }
   1758           else
   1759             {
   1760               _dbus_warn ("arrays of %s can't be appended with %s for now\n",
   1761                           _dbus_type_to_string (element_type),
   1762                           _DBUS_FUNCTION_NAME);
   1763               goto failed;
   1764             }
   1765 
   1766           if (!dbus_message_iter_close_container (&iter, &array))
   1767             goto failed;
   1768         }
   1769 #ifndef DBUS_DISABLE_CHECKS
   1770       else
   1771         {
   1772           _dbus_warn ("type %s isn't supported yet in %s\n",
   1773                       _dbus_type_to_string (type), _DBUS_FUNCTION_NAME);
   1774           goto failed;
   1775         }
   1776 #endif
   1777 
   1778       type = va_arg (var_args, int);
   1779     }
   1780 
   1781   return TRUE;
   1782 
   1783  failed:
   1784   return FALSE;
   1785 }
   1786 
   1787 /**
   1788  * Gets arguments from a message given a variable argument list.  The
   1789  * supported types include those supported by
   1790  * dbus_message_append_args(); that is, basic types and arrays of
   1791  * fixed-length basic types.  The arguments are the same as they would
   1792  * be for dbus_message_iter_get_basic() or
   1793  * dbus_message_iter_get_fixed_array().
   1794  *
   1795  * In addition to those types, arrays of string, object path, and
   1796  * signature are supported; but these are returned as allocated memory
   1797  * and must be freed with dbus_free_string_array(), while the other
   1798  * types are returned as const references. To get a string array
   1799  * pass in "char ***array_location" and "int *n_elements".
   1800  *
   1801  * Similar to dbus_message_get_fixed_array() this function does not
   1802  * support arrays of type DBUS_TYPE_UNIX_FD. If you need to parse
   1803  * messages with arrays of Unix file descriptors you need to recurse
   1804  * into the array manually.
   1805  *
   1806  * Unix file descriptors that are read with this function will have
   1807  * the FD_CLOEXEC flag set. If you need them without this flag set,
   1808  * make sure to unset it with fcntl().
   1809  *
   1810  * The variable argument list should contain the type of the argument
   1811  * followed by a pointer to where the value should be stored. The list
   1812  * is terminated with #DBUS_TYPE_INVALID.
   1813  *
   1814  * Except for string arrays, the returned values are constant; do not
   1815  * free them. They point into the #DBusMessage.
   1816  *
   1817  * If the requested arguments are not present, or do not have the
   1818  * requested types, then an error will be set.
   1819  *
   1820  * If more arguments than requested are present, the requested
   1821  * arguments are returned and the extra arguments are ignored.
   1822  *
   1823  * @todo support DBUS_TYPE_STRUCT and DBUS_TYPE_VARIANT and complex arrays
   1824  *
   1825  * @param message the message
   1826  * @param error error to be filled in on failure
   1827  * @param first_arg_type the first argument type
   1828  * @param ... location for first argument value, then list of type-location pairs
   1829  * @returns #FALSE if the error was set
   1830  */
   1831 dbus_bool_t
   1832 dbus_message_get_args (DBusMessage     *message,
   1833                        DBusError       *error,
   1834 		       int              first_arg_type,
   1835 		       ...)
   1836 {
   1837   dbus_bool_t retval;
   1838   va_list var_args;
   1839 
   1840   _dbus_return_val_if_fail (message != NULL, FALSE);
   1841   _dbus_return_val_if_error_is_set (error, FALSE);
   1842 
   1843   va_start (var_args, first_arg_type);
   1844   retval = dbus_message_get_args_valist (message, error, first_arg_type, var_args);
   1845   va_end (var_args);
   1846 
   1847   return retval;
   1848 }
   1849 
   1850 /**
   1851  * Like dbus_message_get_args but takes a va_list for use by language bindings.
   1852  *
   1853  * @see dbus_message_get_args
   1854  * @param message the message
   1855  * @param error error to be filled in
   1856  * @param first_arg_type type of the first argument
   1857  * @param var_args return location for first argument, followed by list of type/location pairs
   1858  * @returns #FALSE if error was set
   1859  */
   1860 dbus_bool_t
   1861 dbus_message_get_args_valist (DBusMessage     *message,
   1862                               DBusError       *error,
   1863 			      int              first_arg_type,
   1864 			      va_list          var_args)
   1865 {
   1866   DBusMessageIter iter;
   1867 
   1868   _dbus_return_val_if_fail (message != NULL, FALSE);
   1869   _dbus_return_val_if_error_is_set (error, FALSE);
   1870 
   1871   dbus_message_iter_init (message, &iter);
   1872   return _dbus_message_iter_get_args_valist (&iter, error, first_arg_type, var_args);
   1873 }
   1874 
   1875 static void
   1876 _dbus_message_iter_init_common (DBusMessage         *message,
   1877                                 DBusMessageRealIter *real,
   1878                                 int                  iter_type)
   1879 {
   1880   _dbus_assert (sizeof (DBusMessageRealIter) <= sizeof (DBusMessageIter));
   1881 
   1882   /* Since the iterator will read or write who-knows-what from the
   1883    * message, we need to get in the right byte order
   1884    */
   1885   ensure_byte_order (message);
   1886 
   1887   real->message = message;
   1888   real->changed_stamp = message->changed_stamp;
   1889   real->iter_type = iter_type;
   1890   real->sig_refcount = 0;
   1891 }
   1892 
   1893 /**
   1894  * Initializes a #DBusMessageIter for reading the arguments of the
   1895  * message passed in.
   1896  *
   1897  * When possible, dbus_message_get_args() is much more convenient.
   1898  * Some types of argument can only be read with #DBusMessageIter
   1899  * however.
   1900  *
   1901  * The easiest way to iterate is like this:
   1902  * @code
   1903  * dbus_message_iter_init (message, &iter);
   1904  * while ((current_type = dbus_message_iter_get_arg_type (&iter)) != DBUS_TYPE_INVALID)
   1905  *   dbus_message_iter_next (&iter);
   1906  * @endcode
   1907  *
   1908  * #DBusMessageIter contains no allocated memory; it need not be
   1909  * freed, and can be copied by assignment or memcpy().
   1910  *
   1911  * @param message the message
   1912  * @param iter pointer to an iterator to initialize
   1913  * @returns #FALSE if the message has no arguments
   1914  */
   1915 dbus_bool_t
   1916 dbus_message_iter_init (DBusMessage     *message,
   1917 			DBusMessageIter *iter)
   1918 {
   1919   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   1920   const DBusString *type_str;
   1921   int type_pos;
   1922 
   1923   _dbus_return_val_if_fail (message != NULL, FALSE);
   1924   _dbus_return_val_if_fail (iter != NULL, FALSE);
   1925 
   1926   get_const_signature (&message->header, &type_str, &type_pos);
   1927 
   1928   _dbus_message_iter_init_common (message, real,
   1929                                   DBUS_MESSAGE_ITER_TYPE_READER);
   1930 
   1931   _dbus_type_reader_init (&real->u.reader,
   1932                           message->byte_order,
   1933                           type_str, type_pos,
   1934                           &message->body,
   1935                           0);
   1936 
   1937   return _dbus_type_reader_get_current_type (&real->u.reader) != DBUS_TYPE_INVALID;
   1938 }
   1939 
   1940 /**
   1941  * Checks if an iterator has any more fields.
   1942  *
   1943  * @param iter the message iter
   1944  * @returns #TRUE if there are more fields following
   1945  */
   1946 dbus_bool_t
   1947 dbus_message_iter_has_next (DBusMessageIter *iter)
   1948 {
   1949   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   1950 
   1951   _dbus_return_val_if_fail (_dbus_message_iter_check (real), FALSE);
   1952   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_READER, FALSE);
   1953 
   1954   return _dbus_type_reader_has_next (&real->u.reader);
   1955 }
   1956 
   1957 /**
   1958  * Moves the iterator to the next field, if any. If there's no next
   1959  * field, returns #FALSE. If the iterator moves forward, returns
   1960  * #TRUE.
   1961  *
   1962  * @param iter the message iter
   1963  * @returns #TRUE if the iterator was moved to the next field
   1964  */
   1965 dbus_bool_t
   1966 dbus_message_iter_next (DBusMessageIter *iter)
   1967 {
   1968   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   1969 
   1970   _dbus_return_val_if_fail (_dbus_message_iter_check (real), FALSE);
   1971   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_READER, FALSE);
   1972 
   1973   return _dbus_type_reader_next (&real->u.reader);
   1974 }
   1975 
   1976 /**
   1977  * Returns the argument type of the argument that the message iterator
   1978  * points to. If the iterator is at the end of the message, returns
   1979  * #DBUS_TYPE_INVALID. You can thus write a loop as follows:
   1980  *
   1981  * @code
   1982  * dbus_message_iter_init (&iter);
   1983  * while ((current_type = dbus_message_iter_get_arg_type (&iter)) != DBUS_TYPE_INVALID)
   1984  *   dbus_message_iter_next (&iter);
   1985  * @endcode
   1986  *
   1987  * @param iter the message iter
   1988  * @returns the argument type
   1989  */
   1990 int
   1991 dbus_message_iter_get_arg_type (DBusMessageIter *iter)
   1992 {
   1993   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   1994 
   1995   _dbus_return_val_if_fail (_dbus_message_iter_check (real), DBUS_TYPE_INVALID);
   1996   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_READER, FALSE);
   1997 
   1998   return _dbus_type_reader_get_current_type (&real->u.reader);
   1999 }
   2000 
   2001 /**
   2002  * Returns the element type of the array that the message iterator
   2003  * points to. Note that you need to check that the iterator points to
   2004  * an array prior to using this function.
   2005  *
   2006  * @param iter the message iter
   2007  * @returns the array element type
   2008  */
   2009 int
   2010 dbus_message_iter_get_element_type (DBusMessageIter *iter)
   2011 {
   2012   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2013 
   2014   _dbus_return_val_if_fail (_dbus_message_iter_check (real), DBUS_TYPE_INVALID);
   2015   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_READER, DBUS_TYPE_INVALID);
   2016   _dbus_return_val_if_fail (dbus_message_iter_get_arg_type (iter) == DBUS_TYPE_ARRAY, DBUS_TYPE_INVALID);
   2017 
   2018   return _dbus_type_reader_get_element_type (&real->u.reader);
   2019 }
   2020 
   2021 /**
   2022  * Recurses into a container value when reading values from a message,
   2023  * initializing a sub-iterator to use for traversing the child values
   2024  * of the container.
   2025  *
   2026  * Note that this recurses into a value, not a type, so you can only
   2027  * recurse if the value exists. The main implication of this is that
   2028  * if you have for example an empty array of array of int32, you can
   2029  * recurse into the outermost array, but it will have no values, so
   2030  * you won't be able to recurse further. There's no array of int32 to
   2031  * recurse into.
   2032  *
   2033  * If a container is an array of fixed-length types (except Unix file
   2034  * descriptors), it is much more efficient to use
   2035  * dbus_message_iter_get_fixed_array() to get the whole array in one
   2036  * shot, rather than individually walking over the array elements.
   2037  *
   2038  * Be sure you have somehow checked that
   2039  * dbus_message_iter_get_arg_type() matches the type you are expecting
   2040  * to recurse into. Results of this function are undefined if there is
   2041  * no container to recurse into at the current iterator position.
   2042  *
   2043  * @param iter the message iterator
   2044  * @param sub the sub-iterator to initialize
   2045  */
   2046 void
   2047 dbus_message_iter_recurse (DBusMessageIter  *iter,
   2048                            DBusMessageIter  *sub)
   2049 {
   2050   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2051   DBusMessageRealIter *real_sub = (DBusMessageRealIter *)sub;
   2052 
   2053   _dbus_return_if_fail (_dbus_message_iter_check (real));
   2054   _dbus_return_if_fail (sub != NULL);
   2055 
   2056   *real_sub = *real;
   2057   _dbus_type_reader_recurse (&real->u.reader, &real_sub->u.reader);
   2058 }
   2059 
   2060 /**
   2061  * Returns the current signature of a message iterator.  This
   2062  * is useful primarily for dealing with variants; one can
   2063  * recurse into a variant and determine the signature of
   2064  * the variant's value.
   2065  *
   2066  * The returned string must be freed with dbus_free().
   2067  *
   2068  * @param iter the message iterator
   2069  * @returns the contained signature, or NULL if out of memory
   2070  */
   2071 char *
   2072 dbus_message_iter_get_signature (DBusMessageIter *iter)
   2073 {
   2074   const DBusString *sig;
   2075   DBusString retstr;
   2076   char *ret;
   2077   int start, len;
   2078   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2079 
   2080   _dbus_return_val_if_fail (_dbus_message_iter_check (real), NULL);
   2081 
   2082   if (!_dbus_string_init (&retstr))
   2083     return NULL;
   2084 
   2085   _dbus_type_reader_get_signature (&real->u.reader, &sig,
   2086 				   &start, &len);
   2087   if (!_dbus_string_append_len (&retstr,
   2088 				_dbus_string_get_const_data (sig) + start,
   2089 				len))
   2090     return NULL;
   2091   if (!_dbus_string_steal_data (&retstr, &ret))
   2092     return NULL;
   2093   _dbus_string_free (&retstr);
   2094   return ret;
   2095 }
   2096 
   2097 /**
   2098  * Reads a basic-typed value from the message iterator.
   2099  * Basic types are the non-containers such as integer and string.
   2100  *
   2101  * The value argument should be the address of a location to store
   2102  * the returned value. So for int32 it should be a "dbus_int32_t*"
   2103  * and for string a "const char**". The returned value is
   2104  * by reference and should not be freed.
   2105  *
   2106  * This call duplicates Unix file descriptors when reading them. It is
   2107  * your job to close them when you don't need them anymore.
   2108  *
   2109  * Unix file descriptors that are read with this function will have
   2110  * the FD_CLOEXEC flag set. If you need them without this flag set,
   2111  * make sure to unset it with fcntl().
   2112  *
   2113  * Be sure you have somehow checked that
   2114  * dbus_message_iter_get_arg_type() matches the type you are
   2115  * expecting, or you'll crash when you try to use an integer as a
   2116  * string or something.
   2117  *
   2118  * To read any container type (array, struct, dict) you will need to
   2119  * recurse into the container with dbus_message_iter_recurse().  If
   2120  * the container is an array of fixed-length values (except Unix file
   2121  * descriptors), you can get all the array elements at once with
   2122  * dbus_message_iter_get_fixed_array(). Otherwise, you have to iterate
   2123  * over the container's contents one value at a time.
   2124  *
   2125  * All basic-typed values are guaranteed to fit in 8 bytes. So you can
   2126  * write code like this:
   2127  *
   2128  * @code
   2129  * dbus_uint64_t value;
   2130  * int type;
   2131  * dbus_message_iter_get_basic (&read_iter, &value);
   2132  * type = dbus_message_iter_get_arg_type (&read_iter);
   2133  * dbus_message_iter_append_basic (&write_iter, type, &value);
   2134  * @endcode
   2135  *
   2136  * On some really obscure platforms dbus_uint64_t might not exist, if
   2137  * you need to worry about this you will know.  dbus_uint64_t is just
   2138  * one example of a type that's large enough to hold any possible
   2139  * value, you could use a struct or char[8] instead if you like.
   2140  *
   2141  * @param iter the iterator
   2142  * @param value location to store the value
   2143  */
   2144 void
   2145 dbus_message_iter_get_basic (DBusMessageIter  *iter,
   2146                              void             *value)
   2147 {
   2148   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2149 
   2150   _dbus_return_if_fail (_dbus_message_iter_check (real));
   2151   _dbus_return_if_fail (value != NULL);
   2152 
   2153   if (dbus_message_iter_get_arg_type (iter) == DBUS_TYPE_UNIX_FD)
   2154     {
   2155 #ifdef HAVE_UNIX_FD_PASSING
   2156       DBusBasicValue idx;
   2157 
   2158       _dbus_type_reader_read_basic(&real->u.reader, &idx);
   2159 
   2160       if (idx.u32 >= real->message->n_unix_fds) {
   2161         /* Hmm, we cannot really signal an error here, so let's make
   2162            sure to return an invalid fd. */
   2163         *((int*) value) = -1;
   2164         return;
   2165       }
   2166 
   2167       *((int*) value) = _dbus_dup(real->message->unix_fds[idx.u32], NULL);
   2168 #else
   2169       *((int*) value) = -1;
   2170 #endif
   2171     }
   2172   else
   2173     {
   2174       _dbus_type_reader_read_basic (&real->u.reader,
   2175                                     value);
   2176     }
   2177 }
   2178 
   2179 /**
   2180  * Returns the number of bytes in the array as marshaled in the wire
   2181  * protocol. The iterator must currently be inside an array-typed
   2182  * value.
   2183  *
   2184  * This function is deprecated on the grounds that it is stupid.  Why
   2185  * would you want to know how many bytes are in the array as marshaled
   2186  * in the wire protocol?  For now, use the n_elements returned from
   2187  * dbus_message_iter_get_fixed_array() instead, or iterate over the
   2188  * array values and count them.
   2189  *
   2190  * @todo introduce a variant of this get_n_elements that returns
   2191  * the number of elements, though with a non-fixed array it will not
   2192  * be very efficient, so maybe it's not good.
   2193  *
   2194  * @param iter the iterator
   2195  * @returns the number of bytes in the array
   2196  */
   2197 int
   2198 dbus_message_iter_get_array_len (DBusMessageIter *iter)
   2199 {
   2200   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2201 
   2202   _dbus_return_val_if_fail (_dbus_message_iter_check (real), 0);
   2203 
   2204   return _dbus_type_reader_get_array_length (&real->u.reader);
   2205 }
   2206 
   2207 /**
   2208  * Reads a block of fixed-length values from the message iterator.
   2209  * Fixed-length values are those basic types that are not string-like,
   2210  * such as integers, bool, double. The returned block will be from the
   2211  * current position in the array until the end of the array.
   2212  *
   2213  * There is one exception here: although DBUS_TYPE_UNIX_FD is
   2214  * considered a 'fixed' type arrays of this type may not be read with
   2215  * this function.
   2216  *
   2217  * The message iter should be "in" the array (that is, you recurse into the
   2218  * array, and then you call dbus_message_iter_get_fixed_array() on the
   2219  * "sub-iterator" created by dbus_message_iter_recurse()).
   2220  *
   2221  * The value argument should be the address of a location to store the
   2222  * returned array. So for int32 it should be a "const dbus_int32_t**"
   2223  * The returned value is by reference and should not be freed.
   2224  *
   2225  * This function should only be used if dbus_type_is_fixed() returns
   2226  * #TRUE for the element type.
   2227  *
   2228  * If an array's elements are not fixed in size, you have to recurse
   2229  * into the array with dbus_message_iter_recurse() and read the
   2230  * elements one by one.
   2231  *
   2232  * Because the array is not copied, this function runs in constant
   2233  * time and is fast; it's much preferred over walking the entire array
   2234  * with an iterator. (However, you can always use
   2235  * dbus_message_iter_recurse(), even for fixed-length types;
   2236  * dbus_message_iter_get_fixed_array() is just an optimization.)
   2237  *
   2238  * @param iter the iterator
   2239  * @param value location to store the block
   2240  * @param n_elements number of elements in the block
   2241  */
   2242 void
   2243 dbus_message_iter_get_fixed_array (DBusMessageIter  *iter,
   2244                                    void             *value,
   2245                                    int              *n_elements)
   2246 {
   2247   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2248   int subtype = _dbus_type_reader_get_current_type(&real->u.reader);
   2249 
   2250   _dbus_return_if_fail (_dbus_message_iter_check (real));
   2251   _dbus_return_if_fail (value != NULL);
   2252   _dbus_return_if_fail ((subtype == DBUS_TYPE_INVALID) ||
   2253                         (dbus_type_is_fixed (subtype) && subtype != DBUS_TYPE_UNIX_FD));
   2254 
   2255   _dbus_type_reader_read_fixed_multi (&real->u.reader,
   2256                                       value, n_elements);
   2257 }
   2258 
   2259 /**
   2260  * Initializes a #DBusMessageIter for appending arguments to the end
   2261  * of a message.
   2262  *
   2263  * @todo If appending any of the arguments fails due to lack of
   2264  * memory, the message is hosed and you have to start over building
   2265  * the whole message.
   2266  *
   2267  * @param message the message
   2268  * @param iter pointer to an iterator to initialize
   2269  */
   2270 void
   2271 dbus_message_iter_init_append (DBusMessage     *message,
   2272 			       DBusMessageIter *iter)
   2273 {
   2274   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2275 
   2276   _dbus_return_if_fail (message != NULL);
   2277   _dbus_return_if_fail (iter != NULL);
   2278 
   2279   _dbus_message_iter_init_common (message, real,
   2280                                   DBUS_MESSAGE_ITER_TYPE_WRITER);
   2281 
   2282   /* We create the signature string and point iterators at it "on demand"
   2283    * when a value is actually appended. That means that init() never fails
   2284    * due to OOM.
   2285    */
   2286   _dbus_type_writer_init_types_delayed (&real->u.writer,
   2287                                         message->byte_order,
   2288                                         &message->body,
   2289                                         _dbus_string_get_length (&message->body));
   2290 }
   2291 
   2292 /**
   2293  * Creates a temporary signature string containing the current
   2294  * signature, stores it in the iterator, and points the iterator to
   2295  * the end of it. Used any time we write to the message.
   2296  *
   2297  * @param real an iterator without a type_str
   2298  * @returns #FALSE if no memory
   2299  */
   2300 static dbus_bool_t
   2301 _dbus_message_iter_open_signature (DBusMessageRealIter *real)
   2302 {
   2303   DBusString *str;
   2304   const DBusString *current_sig;
   2305   int current_sig_pos;
   2306 
   2307   _dbus_assert (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER);
   2308 
   2309   if (real->u.writer.type_str != NULL)
   2310     {
   2311       _dbus_assert (real->sig_refcount > 0);
   2312       real->sig_refcount += 1;
   2313       return TRUE;
   2314     }
   2315 
   2316   str = dbus_new (DBusString, 1);
   2317   if (str == NULL)
   2318     return FALSE;
   2319 
   2320   if (!_dbus_header_get_field_raw (&real->message->header,
   2321                                    DBUS_HEADER_FIELD_SIGNATURE,
   2322                                    &current_sig, &current_sig_pos))
   2323     current_sig = NULL;
   2324 
   2325   if (current_sig)
   2326     {
   2327       int current_len;
   2328 
   2329       current_len = _dbus_string_get_byte (current_sig, current_sig_pos);
   2330       current_sig_pos += 1; /* move on to sig data */
   2331 
   2332       if (!_dbus_string_init_preallocated (str, current_len + 4))
   2333         {
   2334           dbus_free (str);
   2335           return FALSE;
   2336         }
   2337 
   2338       if (!_dbus_string_copy_len (current_sig, current_sig_pos, current_len,
   2339                                   str, 0))
   2340         {
   2341           _dbus_string_free (str);
   2342           dbus_free (str);
   2343           return FALSE;
   2344         }
   2345     }
   2346   else
   2347     {
   2348       if (!_dbus_string_init_preallocated (str, 4))
   2349         {
   2350           dbus_free (str);
   2351           return FALSE;
   2352         }
   2353     }
   2354 
   2355   real->sig_refcount = 1;
   2356 
   2357   _dbus_type_writer_add_types (&real->u.writer,
   2358                                str, _dbus_string_get_length (str));
   2359   return TRUE;
   2360 }
   2361 
   2362 /**
   2363  * Sets the new signature as the message signature, frees the
   2364  * signature string, and marks the iterator as not having a type_str
   2365  * anymore. Frees the signature even if it fails, so you can't
   2366  * really recover from failure. Kinda busted.
   2367  *
   2368  * @param real an iterator without a type_str
   2369  * @returns #FALSE if no memory
   2370  */
   2371 static dbus_bool_t
   2372 _dbus_message_iter_close_signature (DBusMessageRealIter *real)
   2373 {
   2374   DBusString *str;
   2375   const char *v_STRING;
   2376   dbus_bool_t retval;
   2377 
   2378   _dbus_assert (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER);
   2379   _dbus_assert (real->u.writer.type_str != NULL);
   2380   _dbus_assert (real->sig_refcount > 0);
   2381 
   2382   real->sig_refcount -= 1;
   2383 
   2384   if (real->sig_refcount > 0)
   2385     return TRUE;
   2386   _dbus_assert (real->sig_refcount == 0);
   2387 
   2388   retval = TRUE;
   2389 
   2390   str = real->u.writer.type_str;
   2391 
   2392   v_STRING = _dbus_string_get_const_data (str);
   2393   if (!_dbus_header_set_field_basic (&real->message->header,
   2394                                      DBUS_HEADER_FIELD_SIGNATURE,
   2395                                      DBUS_TYPE_SIGNATURE,
   2396                                      &v_STRING))
   2397     retval = FALSE;
   2398 
   2399   _dbus_type_writer_remove_types (&real->u.writer);
   2400   _dbus_string_free (str);
   2401   dbus_free (str);
   2402 
   2403   return retval;
   2404 }
   2405 
   2406 /**
   2407  * Frees the signature string and marks the iterator as not having a
   2408  * type_str anymore.  Since the new signature is not set, the message
   2409  * will generally be hosed after this is called.
   2410  *
   2411  * @param real an iterator without a type_str
   2412  */
   2413 static void
   2414 _dbus_message_iter_abandon_signature (DBusMessageRealIter *real)
   2415 {
   2416   DBusString *str;
   2417 
   2418   _dbus_assert (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER);
   2419   _dbus_assert (real->u.writer.type_str != NULL);
   2420   _dbus_assert (real->sig_refcount > 0);
   2421 
   2422   real->sig_refcount -= 1;
   2423 
   2424   if (real->sig_refcount > 0)
   2425     return;
   2426   _dbus_assert (real->sig_refcount == 0);
   2427 
   2428   str = real->u.writer.type_str;
   2429 
   2430   _dbus_type_writer_remove_types (&real->u.writer);
   2431   _dbus_string_free (str);
   2432   dbus_free (str);
   2433 }
   2434 
   2435 #ifndef DBUS_DISABLE_CHECKS
   2436 static dbus_bool_t
   2437 _dbus_message_iter_append_check (DBusMessageRealIter *iter)
   2438 {
   2439   if (!_dbus_message_iter_check (iter))
   2440     return FALSE;
   2441 
   2442   if (iter->message->locked)
   2443     {
   2444       _dbus_warn_check_failed ("dbus append iterator can't be used: message is locked (has already been sent)\n");
   2445       return FALSE;
   2446     }
   2447 
   2448   return TRUE;
   2449 }
   2450 #endif /* DBUS_DISABLE_CHECKS */
   2451 
   2452 #ifdef HAVE_UNIX_FD_PASSING
   2453 static int *
   2454 expand_fd_array(DBusMessage *m,
   2455                 unsigned     n)
   2456 {
   2457   _dbus_assert(m);
   2458 
   2459   /* This makes space for adding n new fds to the array and returns a
   2460      pointer to the place were the first fd should be put. */
   2461 
   2462   if (m->n_unix_fds + n > m->n_unix_fds_allocated)
   2463     {
   2464       unsigned k;
   2465       int *p;
   2466 
   2467       /* Make twice as much space as necessary */
   2468       k = (m->n_unix_fds + n) * 2;
   2469 
   2470       /* Allocate at least four */
   2471       if (k < 4)
   2472         k = 4;
   2473 
   2474       p = dbus_realloc(m->unix_fds, k * sizeof(int));
   2475       if (p == NULL)
   2476         return NULL;
   2477 
   2478       m->unix_fds = p;
   2479       m->n_unix_fds_allocated = k;
   2480     }
   2481 
   2482   return m->unix_fds + m->n_unix_fds;
   2483 }
   2484 #endif
   2485 
   2486 /**
   2487  * Appends a basic-typed value to the message. The basic types are the
   2488  * non-container types such as integer and string.
   2489  *
   2490  * The "value" argument should be the address of a basic-typed value.
   2491  * So for string, const char**. For integer, dbus_int32_t*.
   2492  *
   2493  * For Unix file descriptors this function will internally duplicate
   2494  * the descriptor you passed in. Hence you may close the descriptor
   2495  * immediately after this call.
   2496  *
   2497  * @todo If this fails due to lack of memory, the message is hosed and
   2498  * you have to start over building the whole message.
   2499  *
   2500  * @param iter the append iterator
   2501  * @param type the type of the value
   2502  * @param value the address of the value
   2503  * @returns #FALSE if not enough memory
   2504  */
   2505 dbus_bool_t
   2506 dbus_message_iter_append_basic (DBusMessageIter *iter,
   2507                                 int              type,
   2508                                 const void      *value)
   2509 {
   2510   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2511   dbus_bool_t ret;
   2512 
   2513   _dbus_return_val_if_fail (_dbus_message_iter_append_check (real), FALSE);
   2514   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER, FALSE);
   2515   _dbus_return_val_if_fail (dbus_type_is_basic (type), FALSE);
   2516   _dbus_return_val_if_fail (value != NULL, FALSE);
   2517 
   2518   if (!_dbus_message_iter_open_signature (real))
   2519     return FALSE;
   2520 
   2521   if (type == DBUS_TYPE_UNIX_FD)
   2522     {
   2523 #ifdef HAVE_UNIX_FD_PASSING
   2524       int *fds;
   2525       dbus_uint32_t u;
   2526 
   2527       /* First step, include the fd in the fd list of this message */
   2528       if (!(fds = expand_fd_array(real->message, 1)))
   2529         return FALSE;
   2530 
   2531       *fds = _dbus_dup(*(int*) value, NULL);
   2532       if (*fds < 0)
   2533         return FALSE;
   2534 
   2535       u = real->message->n_unix_fds;
   2536 
   2537       /* Second step, write the index to the fd */
   2538       if (!(ret = _dbus_type_writer_write_basic (&real->u.writer, DBUS_TYPE_UNIX_FD, &u))) {
   2539         _dbus_close(*fds, NULL);
   2540         return FALSE;
   2541       }
   2542 
   2543       real->message->n_unix_fds += 1;
   2544       u += 1;
   2545 
   2546       /* Final step, update the header accordingly */
   2547       ret = _dbus_header_set_field_basic (&real->message->header,
   2548                                           DBUS_HEADER_FIELD_UNIX_FDS,
   2549                                           DBUS_TYPE_UINT32,
   2550                                           &u);
   2551 
   2552       /* If any of these operations fail the message is
   2553          hosed. However, no memory or fds should be leaked since what
   2554          has been added to message has been added to the message, and
   2555          can hence be accounted for when the message is being
   2556          freed. */
   2557 #else
   2558       ret = FALSE;
   2559 #endif
   2560     }
   2561   else
   2562     {
   2563       ret = _dbus_type_writer_write_basic (&real->u.writer, type, value);
   2564     }
   2565 
   2566   if (!_dbus_message_iter_close_signature (real))
   2567     ret = FALSE;
   2568 
   2569   return ret;
   2570 }
   2571 
   2572 /**
   2573  * Appends a block of fixed-length values to an array. The
   2574  * fixed-length types are all basic types that are not string-like. So
   2575  * int32, double, bool, etc. (Unix file descriptors however are not
   2576  * supported.) You must call dbus_message_iter_open_container() to
   2577  * open an array of values before calling this function. You may call
   2578  * this function multiple times (and intermixed with calls to
   2579  * dbus_message_iter_append_basic()) for the same array.
   2580  *
   2581  * The "value" argument should be the address of the array.  So for
   2582  * integer, "dbus_int32_t**" is expected for example.
   2583  *
   2584  * @warning in C, given "int array[]", "&array == array" (the
   2585  * comp.lang.c FAQ says otherwise, but gcc and the FAQ don't agree).
   2586  * So if you're using an array instead of a pointer you have to create
   2587  * a pointer variable, assign the array to it, then take the address
   2588  * of the pointer variable.
   2589  * @code
   2590  * const dbus_int32_t array[] = { 1, 2, 3 };
   2591  * const dbus_int32_t *v_ARRAY = array;
   2592  * if (!dbus_message_iter_append_fixed_array (&iter, DBUS_TYPE_INT32, &v_ARRAY, 3))
   2593  *   fprintf (stderr, "No memory!\n");
   2594  * @endcode
   2595  * For strings it works to write const char *array = "Hello" and then
   2596  * use &array though.
   2597  *
   2598  * @todo If this fails due to lack of memory, the message is hosed and
   2599  * you have to start over building the whole message.
   2600  *
   2601  * For Unix file descriptors this function will internally duplicate
   2602  * the descriptor you passed in. Hence you may close the descriptor
   2603  * immediately after this call.
   2604  *
   2605  * @param iter the append iterator
   2606  * @param element_type the type of the array elements
   2607  * @param value the address of the array
   2608  * @param n_elements the number of elements to append
   2609  * @returns #FALSE if not enough memory
   2610  */
   2611 dbus_bool_t
   2612 dbus_message_iter_append_fixed_array (DBusMessageIter *iter,
   2613                                       int              element_type,
   2614                                       const void      *value,
   2615                                       int              n_elements)
   2616 {
   2617   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2618   dbus_bool_t ret;
   2619 
   2620   _dbus_return_val_if_fail (_dbus_message_iter_append_check (real), FALSE);
   2621   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER, FALSE);
   2622   _dbus_return_val_if_fail (dbus_type_is_fixed (element_type) && element_type != DBUS_TYPE_UNIX_FD, FALSE);
   2623   _dbus_return_val_if_fail (real->u.writer.container_type == DBUS_TYPE_ARRAY, FALSE);
   2624   _dbus_return_val_if_fail (value != NULL, FALSE);
   2625   _dbus_return_val_if_fail (n_elements >= 0, FALSE);
   2626   _dbus_return_val_if_fail (n_elements <=
   2627                             DBUS_MAXIMUM_ARRAY_LENGTH / _dbus_type_get_alignment (element_type),
   2628                             FALSE);
   2629 
   2630   ret = _dbus_type_writer_write_fixed_multi (&real->u.writer, element_type, value, n_elements);
   2631 
   2632   return ret;
   2633 }
   2634 
   2635 /**
   2636  * Appends a container-typed value to the message; you are required to
   2637  * append the contents of the container using the returned
   2638  * sub-iterator, and then call
   2639  * dbus_message_iter_close_container(). Container types are for
   2640  * example struct, variant, and array. For variants, the
   2641  * contained_signature should be the type of the single value inside
   2642  * the variant. For structs and dict entries, contained_signature
   2643  * should be #NULL; it will be set to whatever types you write into
   2644  * the struct.  For arrays, contained_signature should be the type of
   2645  * the array elements.
   2646  *
   2647  * @todo If this fails due to lack of memory, the message is hosed and
   2648  * you have to start over building the whole message.
   2649  *
   2650  * @param iter the append iterator
   2651  * @param type the type of the value
   2652  * @param contained_signature the type of container contents
   2653  * @param sub sub-iterator to initialize
   2654  * @returns #FALSE if not enough memory
   2655  */
   2656 dbus_bool_t
   2657 dbus_message_iter_open_container (DBusMessageIter *iter,
   2658                                   int              type,
   2659                                   const char      *contained_signature,
   2660                                   DBusMessageIter *sub)
   2661 {
   2662   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2663   DBusMessageRealIter *real_sub = (DBusMessageRealIter *)sub;
   2664   DBusString contained_str;
   2665 
   2666   _dbus_return_val_if_fail (_dbus_message_iter_append_check (real), FALSE);
   2667   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER, FALSE);
   2668   _dbus_return_val_if_fail (dbus_type_is_container (type), FALSE);
   2669   _dbus_return_val_if_fail (sub != NULL, FALSE);
   2670   _dbus_return_val_if_fail ((type == DBUS_TYPE_STRUCT &&
   2671                              contained_signature == NULL) ||
   2672                             (type == DBUS_TYPE_DICT_ENTRY &&
   2673                              contained_signature == NULL) ||
   2674                             (type == DBUS_TYPE_VARIANT &&
   2675                              contained_signature != NULL) ||
   2676                             (type == DBUS_TYPE_ARRAY &&
   2677                              contained_signature != NULL), FALSE);
   2678 
   2679   /* this would fail if the contained_signature is a dict entry, since
   2680    * dict entries are invalid signatures standalone (they must be in
   2681    * an array)
   2682    */
   2683   _dbus_return_val_if_fail ((type == DBUS_TYPE_ARRAY && contained_signature && *contained_signature == DBUS_DICT_ENTRY_BEGIN_CHAR) ||
   2684                             (contained_signature == NULL ||
   2685                              _dbus_check_is_valid_signature (contained_signature)),
   2686                             FALSE);
   2687 
   2688   if (!_dbus_message_iter_open_signature (real))
   2689     return FALSE;
   2690 
   2691   *real_sub = *real;
   2692 
   2693   if (contained_signature != NULL)
   2694     {
   2695       _dbus_string_init_const (&contained_str, contained_signature);
   2696 
   2697       return _dbus_type_writer_recurse (&real->u.writer,
   2698                                         type,
   2699                                         &contained_str, 0,
   2700                                         &real_sub->u.writer);
   2701     }
   2702   else
   2703     {
   2704       return _dbus_type_writer_recurse (&real->u.writer,
   2705                                         type,
   2706                                         NULL, 0,
   2707                                         &real_sub->u.writer);
   2708     }
   2709 }
   2710 
   2711 
   2712 /**
   2713  * Closes a container-typed value appended to the message; may write
   2714  * out more information to the message known only after the entire
   2715  * container is written, and may free resources created by
   2716  * dbus_message_iter_open_container().
   2717  *
   2718  * @todo If this fails due to lack of memory, the message is hosed and
   2719  * you have to start over building the whole message.
   2720  *
   2721  * @param iter the append iterator
   2722  * @param sub sub-iterator to close
   2723  * @returns #FALSE if not enough memory
   2724  */
   2725 dbus_bool_t
   2726 dbus_message_iter_close_container (DBusMessageIter *iter,
   2727                                    DBusMessageIter *sub)
   2728 {
   2729   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2730   DBusMessageRealIter *real_sub = (DBusMessageRealIter *)sub;
   2731   dbus_bool_t ret;
   2732 
   2733   _dbus_return_val_if_fail (_dbus_message_iter_append_check (real), FALSE);
   2734   _dbus_return_val_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER, FALSE);
   2735   _dbus_return_val_if_fail (_dbus_message_iter_append_check (real_sub), FALSE);
   2736   _dbus_return_val_if_fail (real_sub->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER, FALSE);
   2737 
   2738   ret = _dbus_type_writer_unrecurse (&real->u.writer,
   2739                                      &real_sub->u.writer);
   2740 
   2741   if (!_dbus_message_iter_close_signature (real))
   2742     ret = FALSE;
   2743 
   2744   return ret;
   2745 }
   2746 
   2747 /**
   2748  * Abandons creation of a contained-typed value and frees resources created
   2749  * by dbus_message_iter_open_container().  Once this returns, the message
   2750  * is hosed and you have to start over building the whole message.
   2751  *
   2752  * This should only be used to abandon creation of a message when you have
   2753  * open containers.
   2754  *
   2755  * @param iter the append iterator
   2756  * @param sub sub-iterator to close
   2757  */
   2758 void
   2759 dbus_message_iter_abandon_container (DBusMessageIter *iter,
   2760                                      DBusMessageIter *sub)
   2761 {
   2762   DBusMessageRealIter *real = (DBusMessageRealIter *)iter;
   2763   DBusMessageRealIter *real_sub = (DBusMessageRealIter *)sub;
   2764 
   2765   _dbus_return_if_fail (_dbus_message_iter_append_check (real));
   2766   _dbus_return_if_fail (real->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER);
   2767   _dbus_return_if_fail (_dbus_message_iter_append_check (real_sub));
   2768   _dbus_return_if_fail (real_sub->iter_type == DBUS_MESSAGE_ITER_TYPE_WRITER);
   2769 
   2770   _dbus_message_iter_abandon_signature (real);
   2771 }
   2772 
   2773 /**
   2774  * Sets a flag indicating that the message does not want a reply; if
   2775  * this flag is set, the other end of the connection may (but is not
   2776  * required to) optimize by not sending method return or error
   2777  * replies. If this flag is set, there is no way to know whether the
   2778  * message successfully arrived at the remote end. Normally you know a
   2779  * message was received when you receive the reply to it.
   2780  *
   2781  * The flag is #FALSE by default, that is by default the other end is
   2782  * required to reply.
   2783  *
   2784  * On the protocol level this toggles #DBUS_HEADER_FLAG_NO_REPLY_EXPECTED
   2785  *
   2786  * @param message the message
   2787  * @param no_reply #TRUE if no reply is desired
   2788  */
   2789 void
   2790 dbus_message_set_no_reply (DBusMessage *message,
   2791                            dbus_bool_t  no_reply)
   2792 {
   2793   _dbus_return_if_fail (message != NULL);
   2794   _dbus_return_if_fail (!message->locked);
   2795 
   2796   _dbus_header_toggle_flag (&message->header,
   2797                             DBUS_HEADER_FLAG_NO_REPLY_EXPECTED,
   2798                             no_reply);
   2799 }
   2800 
   2801 /**
   2802  * Returns #TRUE if the message does not expect
   2803  * a reply.
   2804  *
   2805  * @param message the message
   2806  * @returns #TRUE if the message sender isn't waiting for a reply
   2807  */
   2808 dbus_bool_t
   2809 dbus_message_get_no_reply (DBusMessage *message)
   2810 {
   2811   _dbus_return_val_if_fail (message != NULL, FALSE);
   2812 
   2813   return _dbus_header_get_flag (&message->header,
   2814                                 DBUS_HEADER_FLAG_NO_REPLY_EXPECTED);
   2815 }
   2816 
   2817 /**
   2818  * Sets a flag indicating that an owner for the destination name will
   2819  * be automatically started before the message is delivered. When this
   2820  * flag is set, the message is held until a name owner finishes
   2821  * starting up, or fails to start up. In case of failure, the reply
   2822  * will be an error.
   2823  *
   2824  * The flag is set to #TRUE by default, i.e. auto starting is the default.
   2825  *
   2826  * On the protocol level this toggles #DBUS_HEADER_FLAG_NO_AUTO_START
   2827  *
   2828  * @param message the message
   2829  * @param auto_start #TRUE if auto-starting is desired
   2830  */
   2831 void
   2832 dbus_message_set_auto_start (DBusMessage *message,
   2833                              dbus_bool_t  auto_start)
   2834 {
   2835   _dbus_return_if_fail (message != NULL);
   2836   _dbus_return_if_fail (!message->locked);
   2837 
   2838   _dbus_header_toggle_flag (&message->header,
   2839                             DBUS_HEADER_FLAG_NO_AUTO_START,
   2840                             !auto_start);
   2841 }
   2842 
   2843 /**
   2844  * Returns #TRUE if the message will cause an owner for
   2845  * destination name to be auto-started.
   2846  *
   2847  * @param message the message
   2848  * @returns #TRUE if the message will use auto-start
   2849  */
   2850 dbus_bool_t
   2851 dbus_message_get_auto_start (DBusMessage *message)
   2852 {
   2853   _dbus_return_val_if_fail (message != NULL, FALSE);
   2854 
   2855   return !_dbus_header_get_flag (&message->header,
   2856                                  DBUS_HEADER_FLAG_NO_AUTO_START);
   2857 }
   2858 
   2859 
   2860 /**
   2861  * Sets the object path this message is being sent to (for
   2862  * DBUS_MESSAGE_TYPE_METHOD_CALL) or the one a signal is being
   2863  * emitted from (for DBUS_MESSAGE_TYPE_SIGNAL).
   2864  *
   2865  * The path must contain only valid characters as defined
   2866  * in the D-Bus specification.
   2867  *
   2868  * @param message the message
   2869  * @param object_path the path or #NULL to unset
   2870  * @returns #FALSE if not enough memory
   2871  */
   2872 dbus_bool_t
   2873 dbus_message_set_path (DBusMessage   *message,
   2874                        const char    *object_path)
   2875 {
   2876   _dbus_return_val_if_fail (message != NULL, FALSE);
   2877   _dbus_return_val_if_fail (!message->locked, FALSE);
   2878   _dbus_return_val_if_fail (object_path == NULL ||
   2879                             _dbus_check_is_valid_path (object_path),
   2880                             FALSE);
   2881 
   2882   return set_or_delete_string_field (message,
   2883                                      DBUS_HEADER_FIELD_PATH,
   2884                                      DBUS_TYPE_OBJECT_PATH,
   2885                                      object_path);
   2886 }
   2887 
   2888 /**
   2889  * Gets the object path this message is being sent to (for
   2890  * DBUS_MESSAGE_TYPE_METHOD_CALL) or being emitted from (for
   2891  * DBUS_MESSAGE_TYPE_SIGNAL). Returns #NULL if none.
   2892  *
   2893  * See also dbus_message_get_path_decomposed().
   2894  *
   2895  * The returned string becomes invalid if the message is
   2896  * modified, since it points into the wire-marshaled message data.
   2897  *
   2898  * @param message the message
   2899  * @returns the path (should not be freed) or #NULL
   2900  */
   2901 const char*
   2902 dbus_message_get_path (DBusMessage   *message)
   2903 {
   2904   const char *v;
   2905 
   2906   _dbus_return_val_if_fail (message != NULL, NULL);
   2907 
   2908   v = NULL; /* in case field doesn't exist */
   2909   _dbus_header_get_field_basic (&message->header,
   2910                                 DBUS_HEADER_FIELD_PATH,
   2911                                 DBUS_TYPE_OBJECT_PATH,
   2912                                 (void *) &v);
   2913   return v;
   2914 }
   2915 
   2916 /**
   2917  * Checks if the message has a particular object path.  The object
   2918  * path is the destination object for a method call or the emitting
   2919  * object for a signal.
   2920  *
   2921  * @param message the message
   2922  * @param path the path name
   2923  * @returns #TRUE if there is a path field in the header
   2924  */
   2925 dbus_bool_t
   2926 dbus_message_has_path (DBusMessage   *message,
   2927                        const char    *path)
   2928 {
   2929   const char *msg_path;
   2930   msg_path = dbus_message_get_path (message);
   2931 
   2932   if (msg_path == NULL)
   2933     {
   2934       if (path == NULL)
   2935         return TRUE;
   2936       else
   2937         return FALSE;
   2938     }
   2939 
   2940   if (path == NULL)
   2941     return FALSE;
   2942 
   2943   if (strcmp (msg_path, path) == 0)
   2944     return TRUE;
   2945 
   2946   return FALSE;
   2947 }
   2948 
   2949 /**
   2950  * Gets the object path this message is being sent to
   2951  * (for DBUS_MESSAGE_TYPE_METHOD_CALL) or being emitted
   2952  * from (for DBUS_MESSAGE_TYPE_SIGNAL) in a decomposed
   2953  * format (one array element per path component).
   2954  * Free the returned array with dbus_free_string_array().
   2955  *
   2956  * An empty but non-NULL path array means the path "/".
   2957  * So the path "/foo/bar" becomes { "foo", "bar", NULL }
   2958  * and the path "/" becomes { NULL }.
   2959  *
   2960  * See also dbus_message_get_path().
   2961  *
   2962  * @todo this could be optimized by using the len from the message
   2963  * instead of calling strlen() again
   2964  *
   2965  * @param message the message
   2966  * @param path place to store allocated array of path components; #NULL set here if no path field exists
   2967  * @returns #FALSE if no memory to allocate the array
   2968  */
   2969 dbus_bool_t
   2970 dbus_message_get_path_decomposed (DBusMessage   *message,
   2971                                   char        ***path)
   2972 {
   2973   const char *v;
   2974 
   2975   _dbus_return_val_if_fail (message != NULL, FALSE);
   2976   _dbus_return_val_if_fail (path != NULL, FALSE);
   2977 
   2978   *path = NULL;
   2979 
   2980   v = dbus_message_get_path (message);
   2981   if (v != NULL)
   2982     {
   2983       if (!_dbus_decompose_path (v, strlen (v),
   2984                                  path, NULL))
   2985         return FALSE;
   2986     }
   2987   return TRUE;
   2988 }
   2989 
   2990 /**
   2991  * Sets the interface this message is being sent to
   2992  * (for DBUS_MESSAGE_TYPE_METHOD_CALL) or
   2993  * the interface a signal is being emitted from
   2994  * (for DBUS_MESSAGE_TYPE_SIGNAL).
   2995  *
   2996  * The interface name must contain only valid characters as defined
   2997  * in the D-Bus specification.
   2998  *
   2999  * @param message the message
   3000  * @param interface the interface or #NULL to unset
   3001  * @returns #FALSE if not enough memory
   3002  */
   3003 dbus_bool_t
   3004 dbus_message_set_interface (DBusMessage  *message,
   3005                             const char   *interface)
   3006 {
   3007   _dbus_return_val_if_fail (message != NULL, FALSE);
   3008   _dbus_return_val_if_fail (!message->locked, FALSE);
   3009   _dbus_return_val_if_fail (interface == NULL ||
   3010                             _dbus_check_is_valid_interface (interface),
   3011                             FALSE);
   3012 
   3013   return set_or_delete_string_field (message,
   3014                                      DBUS_HEADER_FIELD_INTERFACE,
   3015                                      DBUS_TYPE_STRING,
   3016                                      interface);
   3017 }
   3018 
   3019 /**
   3020  * Gets the interface this message is being sent to
   3021  * (for DBUS_MESSAGE_TYPE_METHOD_CALL) or being emitted
   3022  * from (for DBUS_MESSAGE_TYPE_SIGNAL).
   3023  * The interface name is fully-qualified (namespaced).
   3024  * Returns #NULL if none.
   3025  *
   3026  * The returned string becomes invalid if the message is
   3027  * modified, since it points into the wire-marshaled message data.
   3028  *
   3029  * @param message the message
   3030  * @returns the message interface (should not be freed) or #NULL
   3031  */
   3032 const char*
   3033 dbus_message_get_interface (DBusMessage *message)
   3034 {
   3035   const char *v;
   3036 
   3037   _dbus_return_val_if_fail (message != NULL, NULL);
   3038 
   3039   v = NULL; /* in case field doesn't exist */
   3040   _dbus_header_get_field_basic (&message->header,
   3041                                 DBUS_HEADER_FIELD_INTERFACE,
   3042                                 DBUS_TYPE_STRING,
   3043                                 (void *) &v);
   3044   return v;
   3045 }
   3046 
   3047 /**
   3048  * Checks if the message has an interface
   3049  *
   3050  * @param message the message
   3051  * @param interface the interface name
   3052  * @returns #TRUE if the interface field in the header matches
   3053  */
   3054 dbus_bool_t
   3055 dbus_message_has_interface (DBusMessage   *message,
   3056                             const char    *interface)
   3057 {
   3058   const char *msg_interface;
   3059   msg_interface = dbus_message_get_interface (message);
   3060 
   3061   if (msg_interface == NULL)
   3062     {
   3063       if (interface == NULL)
   3064         return TRUE;
   3065       else
   3066         return FALSE;
   3067     }
   3068 
   3069   if (interface == NULL)
   3070     return FALSE;
   3071 
   3072   if (strcmp (msg_interface, interface) == 0)
   3073     return TRUE;
   3074 
   3075   return FALSE;
   3076 
   3077 }
   3078 
   3079 /**
   3080  * Sets the interface member being invoked
   3081  * (DBUS_MESSAGE_TYPE_METHOD_CALL) or emitted
   3082  * (DBUS_MESSAGE_TYPE_SIGNAL).
   3083  *
   3084  * The member name must contain only valid characters as defined
   3085  * in the D-Bus specification.
   3086  *
   3087  * @param message the message
   3088  * @param member the member or #NULL to unset
   3089  * @returns #FALSE if not enough memory
   3090  */
   3091 dbus_bool_t
   3092 dbus_message_set_member (DBusMessage  *message,
   3093                          const char   *member)
   3094 {
   3095   _dbus_return_val_if_fail (message != NULL, FALSE);
   3096   _dbus_return_val_if_fail (!message->locked, FALSE);
   3097   _dbus_return_val_if_fail (member == NULL ||
   3098                             _dbus_check_is_valid_member (member),
   3099                             FALSE);
   3100 
   3101   return set_or_delete_string_field (message,
   3102                                      DBUS_HEADER_FIELD_MEMBER,
   3103                                      DBUS_TYPE_STRING,
   3104                                      member);
   3105 }
   3106 
   3107 /**
   3108  * Gets the interface member being invoked
   3109  * (DBUS_MESSAGE_TYPE_METHOD_CALL) or emitted
   3110  * (DBUS_MESSAGE_TYPE_SIGNAL). Returns #NULL if none.
   3111  *
   3112  * The returned string becomes invalid if the message is
   3113  * modified, since it points into the wire-marshaled message data.
   3114  *
   3115  * @param message the message
   3116  * @returns the member name (should not be freed) or #NULL
   3117  */
   3118 const char*
   3119 dbus_message_get_member (DBusMessage *message)
   3120 {
   3121   const char *v;
   3122 
   3123   _dbus_return_val_if_fail (message != NULL, NULL);
   3124 
   3125   v = NULL; /* in case field doesn't exist */
   3126   _dbus_header_get_field_basic (&message->header,
   3127                                 DBUS_HEADER_FIELD_MEMBER,
   3128                                 DBUS_TYPE_STRING,
   3129                                 (void *) &v);
   3130   return v;
   3131 }
   3132 
   3133 /**
   3134  * Checks if the message has an interface member
   3135  *
   3136  * @param message the message
   3137  * @param member the member name
   3138  * @returns #TRUE if there is a member field in the header
   3139  */
   3140 dbus_bool_t
   3141 dbus_message_has_member (DBusMessage   *message,
   3142                          const char    *member)
   3143 {
   3144   const char *msg_member;
   3145   msg_member = dbus_message_get_member (message);
   3146 
   3147   if (msg_member == NULL)
   3148     {
   3149       if (member == NULL)
   3150         return TRUE;
   3151       else
   3152         return FALSE;
   3153     }
   3154 
   3155   if (member == NULL)
   3156     return FALSE;
   3157 
   3158   if (strcmp (msg_member, member) == 0)
   3159     return TRUE;
   3160 
   3161   return FALSE;
   3162 
   3163 }
   3164 
   3165 /**
   3166  * Sets the name of the error (DBUS_MESSAGE_TYPE_ERROR).
   3167  * The name is fully-qualified (namespaced).
   3168  *
   3169  * The error name must contain only valid characters as defined
   3170  * in the D-Bus specification.
   3171  *
   3172  * @param message the message
   3173  * @param error_name the name or #NULL to unset
   3174  * @returns #FALSE if not enough memory
   3175  */
   3176 dbus_bool_t
   3177 dbus_message_set_error_name (DBusMessage  *message,
   3178                              const char   *error_name)
   3179 {
   3180   _dbus_return_val_if_fail (message != NULL, FALSE);
   3181   _dbus_return_val_if_fail (!message->locked, FALSE);
   3182   _dbus_return_val_if_fail (error_name == NULL ||
   3183                             _dbus_check_is_valid_error_name (error_name),
   3184                             FALSE);
   3185 
   3186   return set_or_delete_string_field (message,
   3187                                      DBUS_HEADER_FIELD_ERROR_NAME,
   3188                                      DBUS_TYPE_STRING,
   3189                                      error_name);
   3190 }
   3191 
   3192 /**
   3193  * Gets the error name (DBUS_MESSAGE_TYPE_ERROR only)
   3194  * or #NULL if none.
   3195  *
   3196  * The returned string becomes invalid if the message is
   3197  * modified, since it points into the wire-marshaled message data.
   3198  *
   3199  * @param message the message
   3200  * @returns the error name (should not be freed) or #NULL
   3201  */
   3202 const char*
   3203 dbus_message_get_error_name (DBusMessage *message)
   3204 {
   3205   const char *v;
   3206 
   3207   _dbus_return_val_if_fail (message != NULL, NULL);
   3208 
   3209   v = NULL; /* in case field doesn't exist */
   3210   _dbus_header_get_field_basic (&message->header,
   3211                                 DBUS_HEADER_FIELD_ERROR_NAME,
   3212                                 DBUS_TYPE_STRING,
   3213                                 (void *) &v);
   3214   return v;
   3215 }
   3216 
   3217 /**
   3218  * Sets the message's destination. The destination is the name of
   3219  * another connection on the bus and may be either the unique name
   3220  * assigned by the bus to each connection, or a well-known name
   3221  * specified in advance.
   3222  *
   3223  * The destination name must contain only valid characters as defined
   3224  * in the D-Bus specification.
   3225  *
   3226  * @param message the message
   3227  * @param destination the destination name or #NULL to unset
   3228  * @returns #FALSE if not enough memory
   3229  */
   3230 dbus_bool_t
   3231 dbus_message_set_destination (DBusMessage  *message,
   3232                               const char   *destination)
   3233 {
   3234   _dbus_return_val_if_fail (message != NULL, FALSE);
   3235   _dbus_return_val_if_fail (!message->locked, FALSE);
   3236   _dbus_return_val_if_fail (destination == NULL ||
   3237                             _dbus_check_is_valid_bus_name (destination),
   3238                             FALSE);
   3239 
   3240   return set_or_delete_string_field (message,
   3241                                      DBUS_HEADER_FIELD_DESTINATION,
   3242                                      DBUS_TYPE_STRING,
   3243                                      destination);
   3244 }
   3245 
   3246 /**
   3247  * Gets the destination of a message or #NULL if there is none set.
   3248  *
   3249  * The returned string becomes invalid if the message is
   3250  * modified, since it points into the wire-marshaled message data.
   3251  *
   3252  * @param message the message
   3253  * @returns the message destination (should not be freed) or #NULL
   3254  */
   3255 const char*
   3256 dbus_message_get_destination (DBusMessage *message)
   3257 {
   3258   const char *v;
   3259 
   3260   _dbus_return_val_if_fail (message != NULL, NULL);
   3261 
   3262   v = NULL; /* in case field doesn't exist */
   3263   _dbus_header_get_field_basic (&message->header,
   3264                                 DBUS_HEADER_FIELD_DESTINATION,
   3265                                 DBUS_TYPE_STRING,
   3266                                 (void *) &v);
   3267   return v;
   3268 }
   3269 
   3270 /**
   3271  * Sets the message sender.
   3272  *
   3273  * The sender must be a valid bus name as defined in the D-Bus
   3274  * specification.
   3275  *
   3276  * Usually you don't want to call this. The message bus daemon will
   3277  * call it to set the origin of each message. If you aren't implementing
   3278  * a message bus daemon you shouldn't need to set the sender.
   3279  *
   3280  * @param message the message
   3281  * @param sender the sender or #NULL to unset
   3282  * @returns #FALSE if not enough memory
   3283  */
   3284 dbus_bool_t
   3285 dbus_message_set_sender (DBusMessage  *message,
   3286                          const char   *sender)
   3287 {
   3288   _dbus_return_val_if_fail (message != NULL, FALSE);
   3289   _dbus_return_val_if_fail (!message->locked, FALSE);
   3290   _dbus_return_val_if_fail (sender == NULL ||
   3291                             _dbus_check_is_valid_bus_name (sender),
   3292                             FALSE);
   3293 
   3294   return set_or_delete_string_field (message,
   3295                                      DBUS_HEADER_FIELD_SENDER,
   3296                                      DBUS_TYPE_STRING,
   3297                                      sender);
   3298 }
   3299 
   3300 /**
   3301  * Gets the unique name of the connection which originated this
   3302  * message, or #NULL if unknown or inapplicable. The sender is filled
   3303  * in by the message bus.
   3304  *
   3305  * Note, the returned sender is always the unique bus name.
   3306  * Connections may own multiple other bus names, but those
   3307  * are not found in the sender field.
   3308  *
   3309  * The returned string becomes invalid if the message is
   3310  * modified, since it points into the wire-marshaled message data.
   3311  *
   3312  * @param message the message
   3313  * @returns the unique name of the sender or #NULL
   3314  */
   3315 const char*
   3316 dbus_message_get_sender (DBusMessage *message)
   3317 {
   3318   const char *v;
   3319 
   3320   _dbus_return_val_if_fail (message != NULL, NULL);
   3321 
   3322   v = NULL; /* in case field doesn't exist */
   3323   _dbus_header_get_field_basic (&message->header,
   3324                                 DBUS_HEADER_FIELD_SENDER,
   3325                                 DBUS_TYPE_STRING,
   3326                                 (void *) &v);
   3327   return v;
   3328 }
   3329 
   3330 /**
   3331  * Gets the type signature of the message, i.e. the arguments in the
   3332  * message payload. The signature includes only "in" arguments for
   3333  * #DBUS_MESSAGE_TYPE_METHOD_CALL and only "out" arguments for
   3334  * #DBUS_MESSAGE_TYPE_METHOD_RETURN, so is slightly different from
   3335  * what you might expect (that is, it does not include the signature of the
   3336  * entire C++-style method).
   3337  *
   3338  * The signature is a string made up of type codes such as
   3339  * #DBUS_TYPE_INT32. The string is terminated with nul (nul is also
   3340  * the value of #DBUS_TYPE_INVALID).
   3341  *
   3342  * The returned string becomes invalid if the message is
   3343  * modified, since it points into the wire-marshaled message data.
   3344  *
   3345  * @param message the message
   3346  * @returns the type signature
   3347  */
   3348 const char*
   3349 dbus_message_get_signature (DBusMessage *message)
   3350 {
   3351   const DBusString *type_str;
   3352   int type_pos;
   3353 
   3354   _dbus_return_val_if_fail (message != NULL, NULL);
   3355 
   3356   get_const_signature (&message->header, &type_str, &type_pos);
   3357 
   3358   return _dbus_string_get_const_data_len (type_str, type_pos, 0);
   3359 }
   3360 
   3361 static dbus_bool_t
   3362 _dbus_message_has_type_interface_member (DBusMessage *message,
   3363                                          int          type,
   3364                                          const char  *interface,
   3365                                          const char  *member)
   3366 {
   3367   const char *n;
   3368 
   3369   _dbus_assert (message != NULL);
   3370   _dbus_assert (interface != NULL);
   3371   _dbus_assert (member != NULL);
   3372 
   3373   if (dbus_message_get_type (message) != type)
   3374     return FALSE;
   3375 
   3376   /* Optimize by checking the short member name first
   3377    * instead of the longer interface name
   3378    */
   3379 
   3380   n = dbus_message_get_member (message);
   3381 
   3382   if (n && strcmp (n, member) == 0)
   3383     {
   3384       n = dbus_message_get_interface (message);
   3385 
   3386       if (n == NULL || strcmp (n, interface) == 0)
   3387         return TRUE;
   3388     }
   3389 
   3390   return FALSE;
   3391 }
   3392 
   3393 /**
   3394  * Checks whether the message is a method call with the given
   3395  * interface and member fields.  If the message is not
   3396  * #DBUS_MESSAGE_TYPE_METHOD_CALL, or has a different interface or
   3397  * member field, returns #FALSE. If the interface field is missing,
   3398  * then it will be assumed equal to the provided interface.  The D-Bus
   3399  * protocol allows method callers to leave out the interface name.
   3400  *
   3401  * @param message the message
   3402  * @param interface the name to check (must not be #NULL)
   3403  * @param method the name to check (must not be #NULL)
   3404  *
   3405  * @returns #TRUE if the message is the specified method call
   3406  */
   3407 dbus_bool_t
   3408 dbus_message_is_method_call (DBusMessage *message,
   3409                              const char  *interface,
   3410                              const char  *method)
   3411 {
   3412   _dbus_return_val_if_fail (message != NULL, FALSE);
   3413   _dbus_return_val_if_fail (interface != NULL, FALSE);
   3414   _dbus_return_val_if_fail (method != NULL, FALSE);
   3415   /* don't check that interface/method are valid since it would be
   3416    * expensive, and not catch many common errors
   3417    */
   3418 
   3419   return _dbus_message_has_type_interface_member (message,
   3420                                                   DBUS_MESSAGE_TYPE_METHOD_CALL,
   3421                                                   interface, method);
   3422 }
   3423 
   3424 /**
   3425  * Checks whether the message is a signal with the given interface and
   3426  * member fields.  If the message is not #DBUS_MESSAGE_TYPE_SIGNAL, or
   3427  * has a different interface or member field, returns #FALSE.
   3428  *
   3429  * @param message the message
   3430  * @param interface the name to check (must not be #NULL)
   3431  * @param signal_name the name to check (must not be #NULL)
   3432  *
   3433  * @returns #TRUE if the message is the specified signal
   3434  */
   3435 dbus_bool_t
   3436 dbus_message_is_signal (DBusMessage *message,
   3437                         const char  *interface,
   3438                         const char  *signal_name)
   3439 {
   3440   _dbus_return_val_if_fail (message != NULL, FALSE);
   3441   _dbus_return_val_if_fail (interface != NULL, FALSE);
   3442   _dbus_return_val_if_fail (signal_name != NULL, FALSE);
   3443   /* don't check that interface/name are valid since it would be
   3444    * expensive, and not catch many common errors
   3445    */
   3446 
   3447   return _dbus_message_has_type_interface_member (message,
   3448                                                   DBUS_MESSAGE_TYPE_SIGNAL,
   3449                                                   interface, signal_name);
   3450 }
   3451 
   3452 /**
   3453  * Checks whether the message is an error reply with the given error
   3454  * name.  If the message is not #DBUS_MESSAGE_TYPE_ERROR, or has a
   3455  * different name, returns #FALSE.
   3456  *
   3457  * @param message the message
   3458  * @param error_name the name to check (must not be #NULL)
   3459  *
   3460  * @returns #TRUE if the message is the specified error
   3461  */
   3462 dbus_bool_t
   3463 dbus_message_is_error (DBusMessage *message,
   3464                        const char  *error_name)
   3465 {
   3466   const char *n;
   3467 
   3468   _dbus_return_val_if_fail (message != NULL, FALSE);
   3469   _dbus_return_val_if_fail (error_name != NULL, FALSE);
   3470   /* don't check that error_name is valid since it would be expensive,
   3471    * and not catch many common errors
   3472    */
   3473 
   3474   if (dbus_message_get_type (message) != DBUS_MESSAGE_TYPE_ERROR)
   3475     return FALSE;
   3476 
   3477   n = dbus_message_get_error_name (message);
   3478 
   3479   if (n && strcmp (n, error_name) == 0)
   3480     return TRUE;
   3481   else
   3482     return FALSE;
   3483 }
   3484 
   3485 /**
   3486  * Checks whether the message was sent to the given name.  If the
   3487  * message has no destination specified or has a different
   3488  * destination, returns #FALSE.
   3489  *
   3490  * @param message the message
   3491  * @param name the name to check (must not be #NULL)
   3492  *
   3493  * @returns #TRUE if the message has the given destination name
   3494  */
   3495 dbus_bool_t
   3496 dbus_message_has_destination (DBusMessage  *message,
   3497                               const char   *name)
   3498 {
   3499   const char *s;
   3500 
   3501   _dbus_return_val_if_fail (message != NULL, FALSE);
   3502   _dbus_return_val_if_fail (name != NULL, FALSE);
   3503   /* don't check that name is valid since it would be expensive, and
   3504    * not catch many common errors
   3505    */
   3506 
   3507   s = dbus_message_get_destination (message);
   3508 
   3509   if (s && strcmp (s, name) == 0)
   3510     return TRUE;
   3511   else
   3512     return FALSE;
   3513 }
   3514 
   3515 /**
   3516  * Checks whether the message has the given unique name as its sender.
   3517  * If the message has no sender specified or has a different sender,
   3518  * returns #FALSE. Note that a peer application will always have the
   3519  * unique name of the connection as the sender. So you can't use this
   3520  * function to see whether a sender owned a well-known name.
   3521  *
   3522  * Messages from the bus itself will have #DBUS_SERVICE_DBUS
   3523  * as the sender.
   3524  *
   3525  * @param message the message
   3526  * @param name the name to check (must not be #NULL)
   3527  *
   3528  * @returns #TRUE if the message has the given sender
   3529  */
   3530 dbus_bool_t
   3531 dbus_message_has_sender (DBusMessage  *message,
   3532                          const char   *name)
   3533 {
   3534   const char *s;
   3535 
   3536   _dbus_return_val_if_fail (message != NULL, FALSE);
   3537   _dbus_return_val_if_fail (name != NULL, FALSE);
   3538   /* don't check that name is valid since it would be expensive, and
   3539    * not catch many common errors
   3540    */
   3541 
   3542   s = dbus_message_get_sender (message);
   3543 
   3544   if (s && strcmp (s, name) == 0)
   3545     return TRUE;
   3546   else
   3547     return FALSE;
   3548 }
   3549 
   3550 /**
   3551  * Checks whether the message has the given signature; see
   3552  * dbus_message_get_signature() for more details on what the signature
   3553  * looks like.
   3554  *
   3555  * @param message the message
   3556  * @param signature typecode array
   3557  * @returns #TRUE if message has the given signature
   3558 */
   3559 dbus_bool_t
   3560 dbus_message_has_signature (DBusMessage   *message,
   3561                             const char    *signature)
   3562 {
   3563   const char *s;
   3564 
   3565   _dbus_return_val_if_fail (message != NULL, FALSE);
   3566   _dbus_return_val_if_fail (signature != NULL, FALSE);
   3567   /* don't check that signature is valid since it would be expensive,
   3568    * and not catch many common errors
   3569    */
   3570 
   3571   s = dbus_message_get_signature (message);
   3572 
   3573   if (s && strcmp (s, signature) == 0)
   3574     return TRUE;
   3575   else
   3576     return FALSE;
   3577 }
   3578 
   3579 /**
   3580  * Sets a #DBusError based on the contents of the given
   3581  * message. The error is only set if the message
   3582  * is an error message, as in #DBUS_MESSAGE_TYPE_ERROR.
   3583  * The name of the error is set to the name of the message,
   3584  * and the error message is set to the first argument
   3585  * if the argument exists and is a string.
   3586  *
   3587  * The return value indicates whether the error was set (the error is
   3588  * set if and only if the message is an error message).  So you can
   3589  * check for an error reply and convert it to DBusError in one go:
   3590  * @code
   3591  *  if (dbus_set_error_from_message (error, reply))
   3592  *    return error;
   3593  *  else
   3594  *    process reply;
   3595  * @endcode
   3596  *
   3597  * @param error the error to set
   3598  * @param message the message to set it from
   3599  * @returns #TRUE if the message had type #DBUS_MESSAGE_TYPE_ERROR
   3600  */
   3601 dbus_bool_t
   3602 dbus_set_error_from_message (DBusError   *error,
   3603                              DBusMessage *message)
   3604 {
   3605   const char *str;
   3606 
   3607   _dbus_return_val_if_fail (message != NULL, FALSE);
   3608   _dbus_return_val_if_error_is_set (error, FALSE);
   3609 
   3610   if (dbus_message_get_type (message) != DBUS_MESSAGE_TYPE_ERROR)
   3611     return FALSE;
   3612 
   3613   str = NULL;
   3614   dbus_message_get_args (message, NULL,
   3615                          DBUS_TYPE_STRING, &str,
   3616                          DBUS_TYPE_INVALID);
   3617 
   3618   dbus_set_error (error, dbus_message_get_error_name (message),
   3619                   str ? "%s" : NULL, str);
   3620 
   3621   return TRUE;
   3622 }
   3623 
   3624 /**
   3625  * Checks whether a message contains unix fds
   3626  *
   3627  * @param message the message
   3628  * @returns #TRUE if the message contains unix fds
   3629  */
   3630 dbus_bool_t
   3631 dbus_message_contains_unix_fds(DBusMessage *message)
   3632 {
   3633 #ifdef HAVE_UNIX_FD_PASSING
   3634   _dbus_assert(message);
   3635 
   3636   return message->n_unix_fds > 0;
   3637 #else
   3638   return FALSE;
   3639 #endif
   3640 }
   3641 
   3642 /** @} */
   3643 
   3644 /**
   3645  * @addtogroup DBusMessageInternals
   3646  *
   3647  * @{
   3648  */
   3649 
   3650 /**
   3651  * The initial buffer size of the message loader.
   3652  *
   3653  * @todo this should be based on min header size plus some average
   3654  * body size, or something. Or rather, the min header size only, if we
   3655  * want to try to read only the header, store that in a DBusMessage,
   3656  * then read only the body and store that, etc., depends on
   3657  * how we optimize _dbus_message_loader_get_buffer() and what
   3658  * the exact message format is.
   3659  */
   3660 #define INITIAL_LOADER_DATA_LEN 32
   3661 
   3662 /**
   3663  * Creates a new message loader. Returns #NULL if memory can't
   3664  * be allocated.
   3665  *
   3666  * @returns new loader, or #NULL.
   3667  */
   3668 DBusMessageLoader*
   3669 _dbus_message_loader_new (void)
   3670 {
   3671   DBusMessageLoader *loader;
   3672 
   3673   loader = dbus_new0 (DBusMessageLoader, 1);
   3674   if (loader == NULL)
   3675     return NULL;
   3676 
   3677   loader->refcount = 1;
   3678 
   3679   loader->corrupted = FALSE;
   3680   loader->corruption_reason = DBUS_VALID;
   3681 
   3682   /* this can be configured by the app, but defaults to the protocol max */
   3683   loader->max_message_size = DBUS_MAXIMUM_MESSAGE_LENGTH;
   3684 
   3685   /* We set a very relatively conservative default here since due to how
   3686   SCM_RIGHTS works we need to preallocate an fd array of the maximum
   3687   number of unix fds we want to receive in advance. A
   3688   try-and-reallocate loop is not possible. */
   3689   loader->max_message_unix_fds = 1024;
   3690 
   3691   if (!_dbus_string_init (&loader->data))
   3692     {
   3693       dbus_free (loader);
   3694       return NULL;
   3695     }
   3696 
   3697   /* preallocate the buffer for speed, ignore failure */
   3698   _dbus_string_set_length (&loader->data, INITIAL_LOADER_DATA_LEN);
   3699   _dbus_string_set_length (&loader->data, 0);
   3700 
   3701 #ifdef HAVE_UNIX_FD_PASSING
   3702   loader->unix_fds = NULL;
   3703   loader->n_unix_fds = loader->n_unix_fds_allocated = 0;
   3704   loader->unix_fds_outstanding = FALSE;
   3705 #endif
   3706 
   3707   return loader;
   3708 }
   3709 
   3710 /**
   3711  * Increments the reference count of the loader.
   3712  *
   3713  * @param loader the loader.
   3714  * @returns the loader
   3715  */
   3716 DBusMessageLoader *
   3717 _dbus_message_loader_ref (DBusMessageLoader *loader)
   3718 {
   3719   loader->refcount += 1;
   3720 
   3721   return loader;
   3722 }
   3723 
   3724 /**
   3725  * Decrements the reference count of the loader and finalizes the
   3726  * loader when the count reaches zero.
   3727  *
   3728  * @param loader the loader.
   3729  */
   3730 void
   3731 _dbus_message_loader_unref (DBusMessageLoader *loader)
   3732 {
   3733   loader->refcount -= 1;
   3734   if (loader->refcount == 0)
   3735     {
   3736 #ifdef HAVE_UNIX_FD_PASSING
   3737       close_unix_fds(loader->unix_fds, &loader->n_unix_fds);
   3738       dbus_free(loader->unix_fds);
   3739 #endif
   3740       _dbus_list_foreach (&loader->messages,
   3741                           (DBusForeachFunction) dbus_message_unref,
   3742                           NULL);
   3743       _dbus_list_clear (&loader->messages);
   3744       _dbus_string_free (&loader->data);
   3745       dbus_free (loader);
   3746     }
   3747 }
   3748 
   3749 /**
   3750  * Gets the buffer to use for reading data from the network.  Network
   3751  * data is read directly into an allocated buffer, which is then used
   3752  * in the DBusMessage, to avoid as many extra memcpy's as possible.
   3753  * The buffer must always be returned immediately using
   3754  * _dbus_message_loader_return_buffer(), even if no bytes are
   3755  * successfully read.
   3756  *
   3757  * @todo this function can be a lot more clever. For example
   3758  * it can probably always return a buffer size to read exactly
   3759  * the body of the next message, thus avoiding any memory wastage
   3760  * or reallocs.
   3761  *
   3762  * @todo we need to enforce a max length on strings in header fields.
   3763  *
   3764  * @param loader the message loader.
   3765  * @param buffer the buffer
   3766  */
   3767 void
   3768 _dbus_message_loader_get_buffer (DBusMessageLoader  *loader,
   3769                                  DBusString        **buffer)
   3770 {
   3771   _dbus_assert (!loader->buffer_outstanding);
   3772 
   3773   *buffer = &loader->data;
   3774 
   3775   loader->buffer_outstanding = TRUE;
   3776 }
   3777 
   3778 /**
   3779  * Returns a buffer obtained from _dbus_message_loader_get_buffer(),
   3780  * indicating to the loader how many bytes of the buffer were filled
   3781  * in. This function must always be called, even if no bytes were
   3782  * successfully read.
   3783  *
   3784  * @param loader the loader.
   3785  * @param buffer the buffer.
   3786  * @param bytes_read number of bytes that were read into the buffer.
   3787  */
   3788 void
   3789 _dbus_message_loader_return_buffer (DBusMessageLoader  *loader,
   3790                                     DBusString         *buffer,
   3791                                     int                 bytes_read)
   3792 {
   3793   _dbus_assert (loader->buffer_outstanding);
   3794   _dbus_assert (buffer == &loader->data);
   3795 
   3796   loader->buffer_outstanding = FALSE;
   3797 }
   3798 
   3799 /**
   3800  * Gets the buffer to use for reading unix fds from the network.
   3801  *
   3802  * This works similar to _dbus_message_loader_get_buffer()
   3803  *
   3804  * @param loader the message loader.
   3805  * @param fds the array to read fds into
   3806  * @param max_n_fds how many fds to read at most
   3807  * @return TRUE on success, FALSE on OOM
   3808  */
   3809 dbus_bool_t
   3810 _dbus_message_loader_get_unix_fds(DBusMessageLoader  *loader,
   3811                                   int               **fds,
   3812                                   unsigned           *max_n_fds)
   3813 {
   3814 #ifdef HAVE_UNIX_FD_PASSING
   3815   _dbus_assert (!loader->unix_fds_outstanding);
   3816 
   3817   /* Allocate space where we can put the fds we read. We allocate
   3818      space for max_message_unix_fds since this is an
   3819      upper limit how many fds can be received within a single
   3820      message. Since SCM_RIGHTS doesn't allow a reallocate+retry logic
   3821      we are allocating the maximum possible array size right from the
   3822      beginning. This sucks a bit, however unless SCM_RIGHTS is fixed
   3823      there is no better way. */
   3824 
   3825   if (loader->n_unix_fds_allocated < loader->max_message_unix_fds)
   3826     {
   3827       int *a = dbus_realloc(loader->unix_fds,
   3828                             loader->max_message_unix_fds * sizeof(loader->unix_fds[0]));
   3829 
   3830       if (!a)
   3831         return FALSE;
   3832 
   3833       loader->unix_fds = a;
   3834       loader->n_unix_fds_allocated = loader->max_message_unix_fds;
   3835     }
   3836 
   3837   *fds = loader->unix_fds + loader->n_unix_fds;
   3838   *max_n_fds = loader->n_unix_fds_allocated - loader->n_unix_fds;
   3839 
   3840   loader->unix_fds_outstanding = TRUE;
   3841   return TRUE;
   3842 #else
   3843   _dbus_assert_not_reached("Platform doesn't support unix fd passing");
   3844   return FALSE;
   3845 #endif
   3846 }
   3847 
   3848 /**
   3849  * Returns a buffer obtained from _dbus_message_loader_get_unix_fds().
   3850  *
   3851  * This works similar to _dbus_message_loader_return_buffer()
   3852  *
   3853  * @param loader the message loader.
   3854  * @param fds the array fds were read into
   3855  * @param max_n_fds how many fds were read
   3856  */
   3857 
   3858 void
   3859 _dbus_message_loader_return_unix_fds(DBusMessageLoader  *loader,
   3860                                      int                *fds,
   3861                                      unsigned            n_fds)
   3862 {
   3863 #ifdef HAVE_UNIX_FD_PASSING
   3864   _dbus_assert(loader->unix_fds_outstanding);
   3865   _dbus_assert(loader->unix_fds + loader->n_unix_fds == fds);
   3866   _dbus_assert(loader->n_unix_fds + n_fds <= loader->n_unix_fds_allocated);
   3867 
   3868   loader->n_unix_fds += n_fds;
   3869   loader->unix_fds_outstanding = FALSE;
   3870 #else
   3871   _dbus_assert_not_reached("Platform doesn't support unix fd passing");
   3872 #endif
   3873 }
   3874 
   3875 /*
   3876  * FIXME when we move the header out of the buffer, that memmoves all
   3877  * buffered messages. Kind of crappy.
   3878  *
   3879  * Also we copy the header and body, which is kind of crappy.  To
   3880  * avoid this, we have to allow header and body to be in a single
   3881  * memory block, which is good for messages we read and bad for
   3882  * messages we are creating. But we could move_len() the buffer into
   3883  * this single memory block, and move_len() will just swap the buffers
   3884  * if you're moving the entire buffer replacing the dest string.
   3885  *
   3886  * We could also have the message loader tell the transport how many
   3887  * bytes to read; so it would first ask for some arbitrary number like
   3888  * 256, then if the message was incomplete it would use the
   3889  * header/body len to ask for exactly the size of the message (or
   3890  * blocks the size of a typical kernel buffer for the socket). That
   3891  * way we don't get trailing bytes in the buffer that have to be
   3892  * memmoved. Though I suppose we also don't have a chance of reading a
   3893  * bunch of small messages at once, so the optimization may be stupid.
   3894  *
   3895  * Another approach would be to keep a "start" index into
   3896  * loader->data and only delete it occasionally, instead of after
   3897  * each message is loaded.
   3898  *
   3899  * load_message() returns FALSE if not enough memory OR the loader was corrupted
   3900  */
   3901 static dbus_bool_t
   3902 load_message (DBusMessageLoader *loader,
   3903               DBusMessage       *message,
   3904               int                byte_order,
   3905               int                fields_array_len,
   3906               int                header_len,
   3907               int                body_len)
   3908 {
   3909   dbus_bool_t oom;
   3910   DBusValidity validity;
   3911   const DBusString *type_str;
   3912   int type_pos;
   3913   DBusValidationMode mode;
   3914   dbus_uint32_t n_unix_fds = 0;
   3915 
   3916   mode = DBUS_VALIDATION_MODE_DATA_IS_UNTRUSTED;
   3917 
   3918   oom = FALSE;
   3919 
   3920 #if 0
   3921   _dbus_verbose_bytes_of_string (&loader->data, 0, header_len /* + body_len */);
   3922 #endif
   3923 
   3924   /* 1. VALIDATE AND COPY OVER HEADER */
   3925   _dbus_assert (_dbus_string_get_length (&message->header.data) == 0);
   3926   _dbus_assert ((header_len + body_len) <= _dbus_string_get_length (&loader->data));
   3927 
   3928   if (!_dbus_header_load (&message->header,
   3929                           mode,
   3930                           &validity,
   3931                           byte_order,
   3932                           fields_array_len,
   3933                           header_len,
   3934                           body_len,
   3935                           &loader->data, 0,
   3936                           _dbus_string_get_length (&loader->data)))
   3937     {
   3938       _dbus_verbose ("Failed to load header for new message code %d\n", validity);
   3939 
   3940       /* assert here so we can catch any code that still uses DBUS_VALID to indicate
   3941          oom errors.  They should use DBUS_VALIDITY_UNKNOWN_OOM_ERROR instead */
   3942       _dbus_assert (validity != DBUS_VALID);
   3943 
   3944       if (validity == DBUS_VALIDITY_UNKNOWN_OOM_ERROR)
   3945         oom = TRUE;
   3946       else
   3947         {
   3948           loader->corrupted = TRUE;
   3949           loader->corruption_reason = validity;
   3950         }
   3951       goto failed;
   3952     }
   3953 
   3954   _dbus_assert (validity == DBUS_VALID);
   3955 
   3956   message->byte_order = byte_order;
   3957 
   3958   /* 2. VALIDATE BODY */
   3959   if (mode != DBUS_VALIDATION_MODE_WE_TRUST_THIS_DATA_ABSOLUTELY)
   3960     {
   3961       get_const_signature (&message->header, &type_str, &type_pos);
   3962 
   3963       /* Because the bytes_remaining arg is NULL, this validates that the
   3964        * body is the right length
   3965        */
   3966       validity = _dbus_validate_body_with_reason (type_str,
   3967                                                   type_pos,
   3968                                                   byte_order,
   3969                                                   NULL,
   3970                                                   &loader->data,
   3971                                                   header_len,
   3972                                                   body_len);
   3973       if (validity != DBUS_VALID)
   3974         {
   3975           _dbus_verbose ("Failed to validate message body code %d\n", validity);
   3976 
   3977           loader->corrupted = TRUE;
   3978           loader->corruption_reason = validity;
   3979 
   3980           goto failed;
   3981         }
   3982     }
   3983 
   3984   /* 3. COPY OVER UNIX FDS */
   3985   _dbus_header_get_field_basic(&message->header,
   3986                                DBUS_HEADER_FIELD_UNIX_FDS,
   3987                                DBUS_TYPE_UINT32,
   3988                                &n_unix_fds);
   3989 
   3990 #ifdef HAVE_UNIX_FD_PASSING
   3991 
   3992   if (n_unix_fds > loader->n_unix_fds)
   3993     {
   3994       _dbus_verbose("Message contains references to more unix fds than were sent %u != %u\n",
   3995                     n_unix_fds, loader->n_unix_fds);
   3996 
   3997       loader->corrupted = TRUE;
   3998       loader->corruption_reason = DBUS_INVALID_MISSING_UNIX_FDS;
   3999       goto failed;
   4000     }
   4001 
   4002   /* If this was a recycled message there might still be
   4003      some memory allocated for the fds */
   4004   dbus_free(message->unix_fds);
   4005 
   4006   if (n_unix_fds > 0)
   4007     {
   4008       message->unix_fds = _dbus_memdup(loader->unix_fds, n_unix_fds * sizeof(message->unix_fds[0]));
   4009       if (message->unix_fds == NULL)
   4010         {
   4011           _dbus_verbose ("Failed to allocate file descriptor array\n");
   4012           oom = TRUE;
   4013           goto failed;
   4014         }
   4015 
   4016       message->n_unix_fds_allocated = message->n_unix_fds = n_unix_fds;
   4017       loader->n_unix_fds -= n_unix_fds;
   4018       memmove(loader->unix_fds + n_unix_fds, loader->unix_fds, loader->n_unix_fds);
   4019     }
   4020   else
   4021     message->unix_fds = NULL;
   4022 
   4023 #else
   4024 
   4025   if (n_unix_fds > 0)
   4026     {
   4027       _dbus_verbose ("Hmm, message claims to come with file descriptors "
   4028                      "but that's not supported on our platform, disconnecting.\n");
   4029 
   4030       loader->corrupted = TRUE;
   4031       loader->corruption_reason = DBUS_INVALID_MISSING_UNIX_FDS;
   4032       goto failed;
   4033     }
   4034 
   4035 #endif
   4036 
   4037   /* 3. COPY OVER BODY AND QUEUE MESSAGE */
   4038 
   4039   if (!_dbus_list_append (&loader->messages, message))
   4040     {
   4041       _dbus_verbose ("Failed to append new message to loader queue\n");
   4042       oom = TRUE;
   4043       goto failed;
   4044     }
   4045 
   4046   _dbus_assert (_dbus_string_get_length (&message->body) == 0);
   4047   _dbus_assert (_dbus_string_get_length (&loader->data) >=
   4048                 (header_len + body_len));
   4049 
   4050   if (!_dbus_string_copy_len (&loader->data, header_len, body_len, &message->body, 0))
   4051     {
   4052       _dbus_verbose ("Failed to move body into new message\n");
   4053       oom = TRUE;
   4054       goto failed;
   4055     }
   4056 
   4057   _dbus_string_delete (&loader->data, 0, header_len + body_len);
   4058 
   4059   /* don't waste more than 2k of memory */
   4060   _dbus_string_compact (&loader->data, 2048);
   4061 
   4062   _dbus_assert (_dbus_string_get_length (&message->header.data) == header_len);
   4063   _dbus_assert (_dbus_string_get_length (&message->body) == body_len);
   4064 
   4065   _dbus_verbose ("Loaded message %p\n", message);
   4066 
   4067   _dbus_assert (!oom);
   4068   _dbus_assert (!loader->corrupted);
   4069   _dbus_assert (loader->messages != NULL);
   4070   _dbus_assert (_dbus_list_find_last (&loader->messages, message) != NULL);
   4071 
   4072   return TRUE;
   4073 
   4074  failed:
   4075 
   4076   /* Clean up */
   4077 
   4078   /* does nothing if the message isn't in the list */
   4079   _dbus_list_remove_last (&loader->messages, message);
   4080 
   4081   if (oom)
   4082     _dbus_assert (!loader->corrupted);
   4083   else
   4084     _dbus_assert (loader->corrupted);
   4085 
   4086   _dbus_verbose_bytes_of_string (&loader->data, 0, _dbus_string_get_length (&loader->data));
   4087 
   4088   return FALSE;
   4089 }
   4090 
   4091 /**
   4092  * Converts buffered data into messages, if we have enough data.  If
   4093  * we don't have enough data, does nothing.
   4094  *
   4095  * @todo we need to check that the proper named header fields exist
   4096  * for each message type.
   4097  *
   4098  * @todo If a message has unknown type, we should probably eat it
   4099  * right here rather than passing it out to applications.  However
   4100  * it's not an error to see messages of unknown type.
   4101  *
   4102  * @param loader the loader.
   4103  * @returns #TRUE if we had enough memory to finish.
   4104  */
   4105 dbus_bool_t
   4106 _dbus_message_loader_queue_messages (DBusMessageLoader *loader)
   4107 {
   4108   while (!loader->corrupted &&
   4109          _dbus_string_get_length (&loader->data) >= DBUS_MINIMUM_HEADER_SIZE)
   4110     {
   4111       DBusValidity validity;
   4112       int byte_order, fields_array_len, header_len, body_len;
   4113 
   4114       if (_dbus_header_have_message_untrusted (loader->max_message_size,
   4115                                                &validity,
   4116                                                &byte_order,
   4117                                                &fields_array_len,
   4118                                                &header_len,
   4119                                                &body_len,
   4120                                                &loader->data, 0,
   4121                                                _dbus_string_get_length (&loader->data)))
   4122         {
   4123           DBusMessage *message;
   4124 
   4125           _dbus_assert (validity == DBUS_VALID);
   4126 
   4127           message = dbus_message_new_empty_header ();
   4128           if (message == NULL)
   4129             return FALSE;
   4130 
   4131           if (!load_message (loader, message,
   4132                              byte_order, fields_array_len,
   4133                              header_len, body_len))
   4134             {
   4135               dbus_message_unref (message);
   4136               /* load_message() returns false if corrupted or OOM; if
   4137                * corrupted then return TRUE for not OOM
   4138                */
   4139               return loader->corrupted;
   4140             }
   4141 
   4142           _dbus_assert (loader->messages != NULL);
   4143           _dbus_assert (_dbus_list_find_last (&loader->messages, message) != NULL);
   4144 	}
   4145       else
   4146         {
   4147           _dbus_verbose ("Initial peek at header says we don't have a whole message yet, or data broken with invalid code %d\n",
   4148                          validity);
   4149           if (validity != DBUS_VALID)
   4150             {
   4151               loader->corrupted = TRUE;
   4152               loader->corruption_reason = validity;
   4153             }
   4154           return TRUE;
   4155         }
   4156     }
   4157 
   4158   return TRUE;
   4159 }
   4160 
   4161 /**
   4162  * Peeks at first loaded message, returns #NULL if no messages have
   4163  * been queued.
   4164  *
   4165  * @param loader the loader.
   4166  * @returns the next message, or #NULL if none.
   4167  */
   4168 DBusMessage*
   4169 _dbus_message_loader_peek_message (DBusMessageLoader *loader)
   4170 {
   4171   if (loader->messages)
   4172     return loader->messages->data;
   4173   else
   4174     return NULL;
   4175 }
   4176 
   4177 /**
   4178  * Pops a loaded message (passing ownership of the message
   4179  * to the caller). Returns #NULL if no messages have been
   4180  * queued.
   4181  *
   4182  * @param loader the loader.
   4183  * @returns the next message, or #NULL if none.
   4184  */
   4185 DBusMessage*
   4186 _dbus_message_loader_pop_message (DBusMessageLoader *loader)
   4187 {
   4188   return _dbus_list_pop_first (&loader->messages);
   4189 }
   4190 
   4191 /**
   4192  * Pops a loaded message inside a list link (passing ownership of the
   4193  * message and link to the caller). Returns #NULL if no messages have
   4194  * been loaded.
   4195  *
   4196  * @param loader the loader.
   4197  * @returns the next message link, or #NULL if none.
   4198  */
   4199 DBusList*
   4200 _dbus_message_loader_pop_message_link (DBusMessageLoader *loader)
   4201 {
   4202   return _dbus_list_pop_first_link (&loader->messages);
   4203 }
   4204 
   4205 /**
   4206  * Returns a popped message link, used to undo a pop.
   4207  *
   4208  * @param loader the loader
   4209  * @param link the link with a message in it
   4210  */
   4211 void
   4212 _dbus_message_loader_putback_message_link (DBusMessageLoader  *loader,
   4213                                            DBusList           *link)
   4214 {
   4215   _dbus_list_prepend_link (&loader->messages, link);
   4216 }
   4217 
   4218 /**
   4219  * Checks whether the loader is confused due to bad data.
   4220  * If messages are received that are invalid, the
   4221  * loader gets confused and gives up permanently.
   4222  * This state is called "corrupted."
   4223  *
   4224  * @param loader the loader
   4225  * @returns #TRUE if the loader is hosed.
   4226  */
   4227 dbus_bool_t
   4228 _dbus_message_loader_get_is_corrupted (DBusMessageLoader *loader)
   4229 {
   4230   _dbus_assert ((loader->corrupted && loader->corruption_reason != DBUS_VALID) ||
   4231                 (!loader->corrupted && loader->corruption_reason == DBUS_VALID));
   4232   return loader->corrupted;
   4233 }
   4234 
   4235 /**
   4236  * Checks what kind of bad data confused the loader.
   4237  *
   4238  * @param loader the loader
   4239  * @returns why the loader is hosed, or DBUS_VALID if it isn't.
   4240  */
   4241 DBusValidity
   4242 _dbus_message_loader_get_corruption_reason (DBusMessageLoader *loader)
   4243 {
   4244   _dbus_assert ((loader->corrupted && loader->corruption_reason != DBUS_VALID) ||
   4245                 (!loader->corrupted && loader->corruption_reason == DBUS_VALID));
   4246 
   4247   return loader->corruption_reason;
   4248 }
   4249 
   4250 /**
   4251  * Sets the maximum size message we allow.
   4252  *
   4253  * @param loader the loader
   4254  * @param size the max message size in bytes
   4255  */
   4256 void
   4257 _dbus_message_loader_set_max_message_size (DBusMessageLoader  *loader,
   4258                                            long                size)
   4259 {
   4260   if (size > DBUS_MAXIMUM_MESSAGE_LENGTH)
   4261     {
   4262       _dbus_verbose ("clamping requested max message size %ld to %d\n",
   4263                      size, DBUS_MAXIMUM_MESSAGE_LENGTH);
   4264       size = DBUS_MAXIMUM_MESSAGE_LENGTH;
   4265     }
   4266   loader->max_message_size = size;
   4267 }
   4268 
   4269 /**
   4270  * Gets the maximum allowed message size in bytes.
   4271  *
   4272  * @param loader the loader
   4273  * @returns max size in bytes
   4274  */
   4275 long
   4276 _dbus_message_loader_get_max_message_size (DBusMessageLoader  *loader)
   4277 {
   4278   return loader->max_message_size;
   4279 }
   4280 
   4281 /**
   4282  * Sets the maximum unix fds per message we allow.
   4283  *
   4284  * @param loader the loader
   4285  * @param size the max number of unix fds in a message
   4286  */
   4287 void
   4288 _dbus_message_loader_set_max_message_unix_fds (DBusMessageLoader  *loader,
   4289                                                long                n)
   4290 {
   4291   if (n > DBUS_MAXIMUM_MESSAGE_UNIX_FDS)
   4292     {
   4293       _dbus_verbose ("clamping requested max message unix_fds %ld to %d\n",
   4294                      n, DBUS_MAXIMUM_MESSAGE_UNIX_FDS);
   4295       n = DBUS_MAXIMUM_MESSAGE_UNIX_FDS;
   4296     }
   4297   loader->max_message_unix_fds = n;
   4298 }
   4299 
   4300 /**
   4301  * Gets the maximum allowed number of unix fds per message
   4302  *
   4303  * @param loader the loader
   4304  * @returns max unix fds
   4305  */
   4306 long
   4307 _dbus_message_loader_get_max_message_unix_fds (DBusMessageLoader  *loader)
   4308 {
   4309   return loader->max_message_unix_fds;
   4310 }
   4311 
   4312 static DBusDataSlotAllocator slot_allocator;
   4313 _DBUS_DEFINE_GLOBAL_LOCK (message_slots);
   4314 
   4315 /**
   4316  * Allocates an integer ID to be used for storing application-specific
   4317  * data on any DBusMessage. The allocated ID may then be used
   4318  * with dbus_message_set_data() and dbus_message_get_data().
   4319  * The passed-in slot must be initialized to -1, and is filled in
   4320  * with the slot ID. If the passed-in slot is not -1, it's assumed
   4321  * to be already allocated, and its refcount is incremented.
   4322  *
   4323  * The allocated slot is global, i.e. all DBusMessage objects will
   4324  * have a slot with the given integer ID reserved.
   4325  *
   4326  * @param slot_p address of a global variable storing the slot
   4327  * @returns #FALSE on failure (no memory)
   4328  */
   4329 dbus_bool_t
   4330 dbus_message_allocate_data_slot (dbus_int32_t *slot_p)
   4331 {
   4332   return _dbus_data_slot_allocator_alloc (&slot_allocator,
   4333                                           &_DBUS_LOCK_NAME (message_slots),
   4334                                           slot_p);
   4335 }
   4336 
   4337 /**
   4338  * Deallocates a global ID for message data slots.
   4339  * dbus_message_get_data() and dbus_message_set_data() may no
   4340  * longer be used with this slot.  Existing data stored on existing
   4341  * DBusMessage objects will be freed when the message is
   4342  * finalized, but may not be retrieved (and may only be replaced if
   4343  * someone else reallocates the slot).  When the refcount on the
   4344  * passed-in slot reaches 0, it is set to -1.
   4345  *
   4346  * @param slot_p address storing the slot to deallocate
   4347  */
   4348 void
   4349 dbus_message_free_data_slot (dbus_int32_t *slot_p)
   4350 {
   4351   _dbus_return_if_fail (*slot_p >= 0);
   4352 
   4353   _dbus_data_slot_allocator_free (&slot_allocator, slot_p);
   4354 }
   4355 
   4356 /**
   4357  * Stores a pointer on a DBusMessage, along
   4358  * with an optional function to be used for freeing
   4359  * the data when the data is set again, or when
   4360  * the message is finalized. The slot number
   4361  * must have been allocated with dbus_message_allocate_data_slot().
   4362  *
   4363  * @param message the message
   4364  * @param slot the slot number
   4365  * @param data the data to store
   4366  * @param free_data_func finalizer function for the data
   4367  * @returns #TRUE if there was enough memory to store the data
   4368  */
   4369 dbus_bool_t
   4370 dbus_message_set_data (DBusMessage     *message,
   4371                        dbus_int32_t     slot,
   4372                        void            *data,
   4373                        DBusFreeFunction free_data_func)
   4374 {
   4375   DBusFreeFunction old_free_func;
   4376   void *old_data;
   4377   dbus_bool_t retval;
   4378 
   4379   _dbus_return_val_if_fail (message != NULL, FALSE);
   4380   _dbus_return_val_if_fail (slot >= 0, FALSE);
   4381 
   4382   retval = _dbus_data_slot_list_set (&slot_allocator,
   4383                                      &message->slot_list,
   4384                                      slot, data, free_data_func,
   4385                                      &old_free_func, &old_data);
   4386 
   4387   if (retval)
   4388     {
   4389       /* Do the actual free outside the message lock */
   4390       if (old_free_func)
   4391         (* old_free_func) (old_data);
   4392     }
   4393 
   4394   return retval;
   4395 }
   4396 
   4397 /**
   4398  * Retrieves data previously set with dbus_message_set_data().
   4399  * The slot must still be allocated (must not have been freed).
   4400  *
   4401  * @param message the message
   4402  * @param slot the slot to get data from
   4403  * @returns the data, or #NULL if not found
   4404  */
   4405 void*
   4406 dbus_message_get_data (DBusMessage   *message,
   4407                        dbus_int32_t   slot)
   4408 {
   4409   void *res;
   4410 
   4411   _dbus_return_val_if_fail (message != NULL, NULL);
   4412 
   4413   res = _dbus_data_slot_list_get (&slot_allocator,
   4414                                   &message->slot_list,
   4415                                   slot);
   4416 
   4417   return res;
   4418 }
   4419 
   4420 /**
   4421  * Utility function to convert a machine-readable (not translated)
   4422  * string into a D-Bus message type.
   4423  *
   4424  * @code
   4425  *   "method_call"    -> DBUS_MESSAGE_TYPE_METHOD_CALL
   4426  *   "method_return"  -> DBUS_MESSAGE_TYPE_METHOD_RETURN
   4427  *   "signal"         -> DBUS_MESSAGE_TYPE_SIGNAL
   4428  *   "error"          -> DBUS_MESSAGE_TYPE_ERROR
   4429  *   anything else    -> DBUS_MESSAGE_TYPE_INVALID
   4430  * @endcode
   4431  *
   4432  */
   4433 int
   4434 dbus_message_type_from_string (const char *type_str)
   4435 {
   4436   if (strcmp (type_str, "method_call") == 0)
   4437     return DBUS_MESSAGE_TYPE_METHOD_CALL;
   4438   if (strcmp (type_str, "method_return") == 0)
   4439     return DBUS_MESSAGE_TYPE_METHOD_RETURN;
   4440   else if (strcmp (type_str, "signal") == 0)
   4441     return DBUS_MESSAGE_TYPE_SIGNAL;
   4442   else if (strcmp (type_str, "error") == 0)
   4443     return DBUS_MESSAGE_TYPE_ERROR;
   4444   else
   4445     return DBUS_MESSAGE_TYPE_INVALID;
   4446 }
   4447 
   4448 /**
   4449  * Utility function to convert a D-Bus message type into a
   4450  * machine-readable string (not translated).
   4451  *
   4452  * @code
   4453  *   DBUS_MESSAGE_TYPE_METHOD_CALL    -> "method_call"
   4454  *   DBUS_MESSAGE_TYPE_METHOD_RETURN  -> "method_return"
   4455  *   DBUS_MESSAGE_TYPE_SIGNAL         -> "signal"
   4456  *   DBUS_MESSAGE_TYPE_ERROR          -> "error"
   4457  *   DBUS_MESSAGE_TYPE_INVALID        -> "invalid"
   4458  * @endcode
   4459  *
   4460  */
   4461 const char *
   4462 dbus_message_type_to_string (int type)
   4463 {
   4464   switch (type)
   4465     {
   4466     case DBUS_MESSAGE_TYPE_METHOD_CALL:
   4467       return "method_call";
   4468     case DBUS_MESSAGE_TYPE_METHOD_RETURN:
   4469       return "method_return";
   4470     case DBUS_MESSAGE_TYPE_SIGNAL:
   4471       return "signal";
   4472     case DBUS_MESSAGE_TYPE_ERROR:
   4473       return "error";
   4474     default:
   4475       return "invalid";
   4476     }
   4477 }
   4478 
   4479 /**
   4480  * Turn a DBusMessage into the marshalled form as described in the D-Bus
   4481  * specification.
   4482  *
   4483  * Generally, this function is only useful for encapsulating D-Bus messages in
   4484  * a different protocol.
   4485  *
   4486  * @param msg the DBusMessage
   4487  * @param marshalled_data_p the location to save the marshalled form to
   4488  * @param len_p the location to save the length of the marshalled form to
   4489  * @returns #FALSE if there was not enough memory
   4490  */
   4491 dbus_bool_t
   4492 dbus_message_marshal (DBusMessage  *msg,
   4493                       char        **marshalled_data_p,
   4494                       int          *len_p)
   4495 {
   4496   DBusString tmp;
   4497   dbus_bool_t was_locked;
   4498 
   4499   _dbus_return_val_if_fail (msg != NULL, FALSE);
   4500   _dbus_return_val_if_fail (marshalled_data_p != NULL, FALSE);
   4501   _dbus_return_val_if_fail (len_p != NULL, FALSE);
   4502 
   4503   if (!_dbus_string_init (&tmp))
   4504     return FALSE;
   4505 
   4506   /* Ensure the message is locked, to ensure the length header is filled in. */
   4507   was_locked = msg->locked;
   4508 
   4509   if (!was_locked)
   4510     dbus_message_lock (msg);
   4511 
   4512   if (!_dbus_string_copy (&(msg->header.data), 0, &tmp, 0))
   4513     goto fail;
   4514 
   4515   *len_p = _dbus_string_get_length (&tmp);
   4516 
   4517   if (!_dbus_string_copy (&(msg->body), 0, &tmp, *len_p))
   4518     goto fail;
   4519 
   4520   *len_p = _dbus_string_get_length (&tmp);
   4521 
   4522   if (!_dbus_string_steal_data (&tmp, marshalled_data_p))
   4523     goto fail;
   4524 
   4525   _dbus_string_free (&tmp);
   4526 
   4527   if (!was_locked)
   4528     msg->locked = FALSE;
   4529 
   4530   return TRUE;
   4531 
   4532  fail:
   4533   _dbus_string_free (&tmp);
   4534 
   4535   if (!was_locked)
   4536     msg->locked = FALSE;
   4537 
   4538   return FALSE;
   4539 }
   4540 
   4541 /**
   4542  * Demarshal a D-Bus message from the format described in the D-Bus
   4543  * specification.
   4544  *
   4545  * Generally, this function is only useful for encapsulating D-Bus messages in
   4546  * a different protocol.
   4547  *
   4548  * @param str the marshalled DBusMessage
   4549  * @param len the length of str
   4550  * @param error the location to save errors to
   4551  * @returns #NULL if there was an error
   4552  */
   4553 DBusMessage *
   4554 dbus_message_demarshal (const char *str,
   4555                         int         len,
   4556                         DBusError  *error)
   4557 {
   4558   DBusMessageLoader *loader;
   4559   DBusString *buffer;
   4560   DBusMessage *msg;
   4561 
   4562   _dbus_return_val_if_fail (str != NULL, NULL);
   4563 
   4564   loader = _dbus_message_loader_new ();
   4565 
   4566   if (loader == NULL)
   4567     return NULL;
   4568 
   4569   _dbus_message_loader_get_buffer (loader, &buffer);
   4570   _dbus_string_append_len (buffer, str, len);
   4571   _dbus_message_loader_return_buffer (loader, buffer, len);
   4572 
   4573   if (!_dbus_message_loader_queue_messages (loader))
   4574     goto fail_oom;
   4575 
   4576   if (_dbus_message_loader_get_is_corrupted (loader))
   4577     goto fail_corrupt;
   4578 
   4579   msg = _dbus_message_loader_pop_message (loader);
   4580 
   4581   if (!msg)
   4582     goto fail_oom;
   4583 
   4584   _dbus_message_loader_unref (loader);
   4585   return msg;
   4586 
   4587  fail_corrupt:
   4588   dbus_set_error (error, DBUS_ERROR_INVALID_ARGS, "Message is corrupted (%s)",
   4589                   _dbus_validity_to_error_message (loader->corruption_reason));
   4590   _dbus_message_loader_unref (loader);
   4591   return NULL;
   4592 
   4593  fail_oom:
   4594   _DBUS_SET_OOM (error);
   4595   _dbus_message_loader_unref (loader);
   4596   return NULL;
   4597 }
   4598 
   4599 /**
   4600  * Returns the number of bytes required to be in the buffer to demarshal a
   4601  * D-Bus message.
   4602  *
   4603  * Generally, this function is only useful for encapsulating D-Bus messages in
   4604  * a different protocol.
   4605  *
   4606  * @param str data to be marshalled
   4607  * @param len the length of str
   4608  * @param error the location to save errors to
   4609  * @returns -1 if there was no valid data to be demarshalled, 0 if there wasn't enough data to determine how much should be demarshalled. Otherwise returns the number of bytes to be demarshalled
   4610  *
   4611  */
   4612 int
   4613 dbus_message_demarshal_bytes_needed(const char *buf,
   4614                                     int         len)
   4615 {
   4616   DBusString str;
   4617   int byte_order, fields_array_len, header_len, body_len;
   4618   DBusValidity validity = DBUS_VALID;
   4619   int have_message;
   4620 
   4621   if (!buf || len < DBUS_MINIMUM_HEADER_SIZE)
   4622     return 0;
   4623 
   4624   if (len > DBUS_MAXIMUM_MESSAGE_LENGTH)
   4625     len = DBUS_MAXIMUM_MESSAGE_LENGTH;
   4626   _dbus_string_init_const_len (&str, buf, len);
   4627 
   4628   validity = DBUS_VALID;
   4629   have_message
   4630     = _dbus_header_have_message_untrusted(DBUS_MAXIMUM_MESSAGE_LENGTH,
   4631                                           &validity, &byte_order,
   4632                                           &fields_array_len,
   4633                                           &header_len,
   4634                                           &body_len,
   4635                                           &str, 0,
   4636                                           len);
   4637   _dbus_string_free (&str);
   4638 
   4639   if (validity == DBUS_VALID)
   4640     {
   4641       _dbus_assert(have_message);
   4642       return header_len + body_len;
   4643     }
   4644   else
   4645     {
   4646       return -1; /* broken! */
   4647     }
   4648 }
   4649 
   4650 /** @} */
   4651 
   4652 /* tests in dbus-message-util.c */
   4653