glib/gio/gdbusprivate.c

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/* GDBus - GLib D-Bus Library
*
2010-05-09 19:14:55 +02:00
* Copyright (C) 2008-2010 Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
2014-01-23 12:58:29 +01:00
* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
*
* Author: David Zeuthen <davidz@redhat.com>
*/
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include "giotypes.h"
#include "gioenumtypes.h"
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#include "gsocket.h"
#include "gdbusauthobserver.h"
#include "gdbusprivate.h"
#include "gdbusmessage.h"
#include "gdbusconnection.h"
#include "gdbusproxy.h"
#include "gdbuserror.h"
#include "gdbusintrospection.h"
#include "gdbusdaemon.h"
#include "giomodule-priv.h"
#include "gtask.h"
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#include "ginputstream.h"
#include "gmemoryinputstream.h"
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#include "giostream.h"
#include "glib/gstdio.h"
#include "gsocketaddress.h"
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#include "gsocketcontrolmessage.h"
#include "gsocketconnection.h"
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
#include "gsocketoutputstream.h"
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#ifdef G_OS_UNIX
#include "gunixfdmessage.h"
#include "gunixconnection.h"
#include "gunixcredentialsmessage.h"
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#endif
#ifdef G_OS_WIN32
#include <windows.h>
#include <io.h>
#include <conio.h>
#endif
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#include "glibintl.h"
static gboolean _g_dbus_worker_do_initial_read (gpointer data);
static void schedule_pending_close (GDBusWorker *worker);
/* ---------------------------------------------------------------------------------------------------- */
GDBusMessage: Fix bug when deserializing a message See https://bugzilla.gnome.org/show_bug.cgi?id=621838 for the whole story. The problem was that we ended up reading data from arrays of arrays when we were just supposed to be aligning the buffers. Also add a host of debug infrastructure that was needed to find the root cause. For now it can be turned on only via defining DEBUG_SERIALIZER. In the future we might want to make it work via G_DBUS_DEBUG. In a nutshell, the added debug info looks like this Parsing blob (blob_len = 0x0084 bytes) 0000: 6c 01 00 01 3c 00 00 00 41 00 00 00 37 00 00 00 l...<...A...7... 0010: 08 01 67 00 08 61 61 79 61 7b 73 76 7d 00 00 00 ..g..aaya{sv}... 0020: 01 01 6f 00 08 00 00 00 2f 66 6f 6f 2f 62 61 72 ..o...../foo/bar 0030: 00 00 00 00 00 00 00 00 03 01 73 00 06 00 00 00 ..........s..... 0040: 4d 65 6d 62 65 72 00 00 00 00 00 00 34 00 00 00 Member......4... 0050: 03 00 00 00 63 77 64 00 01 73 00 00 23 00 00 00 ....cwd..s..#... 0060: 2f 68 6f 6d 65 2f 64 61 76 69 64 7a 2f 48 61 63 /home/davidz/Hac 0070: 6b 69 6e 67 2f 67 6c 69 62 2f 67 69 6f 2f 74 65 king/glib/gio/te 0080: 73 74 73 00 sts. Parsing headers (blob_len = 0x0084 bytes) Reading type a{yv} from offset 0x000c: array spans 0x0037 bytes Reading type {yv} from offset 0x0010 Reading type y from offset 0x0010: 0x08 ' Reading type v from offset 0x0011 Reading type g from offset 0x0014: 'aaya{sv}' Reading type {yv} from offset 0x001e Reading type y from offset 0x0020: 0x01 '' Reading type v from offset 0x0021 Reading type o from offset 0x0024: '/foo/bar' Reading type {yv} from offset 0x0031 Reading type y from offset 0x0038: 0x03 '' Reading type v from offset 0x0039 Reading type s from offset 0x003c: 'Member' Parsing body (blob_len = 0x0084 bytes) Reading type (aaya{sv}) from offset 0x0047 Reading type aay from offset 0x0048: array spans 0x0000 bytes Reading type a{sv} from offset 0x004c: array spans 0x0034 bytes Reading type {sv} from offset 0x0050 Reading type s from offset 0x0050: 'cwd' Reading type v from offset 0x0058 Reading type s from offset 0x005b: '/home/davidz/Hacking/glib/gio/tests' OK Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-06-17 23:58:25 +02:00
gchar *
_g_dbus_hexdump (const gchar *data, gsize len, guint indent)
{
guint n, m;
GString *ret;
ret = g_string_new (NULL);
for (n = 0; n < len; n += 16)
{
g_string_append_printf (ret, "%*s%04x: ", indent, "", n);
for (m = n; m < n + 16; m++)
{
if (m > n && (m%4) == 0)
g_string_append_c (ret, ' ');
if (m < len)
g_string_append_printf (ret, "%02x ", (guchar) data[m]);
else
g_string_append (ret, " ");
}
g_string_append (ret, " ");
for (m = n; m < len && m < n + 16; m++)
g_string_append_c (ret, g_ascii_isprint (data[m]) ? data[m] : '.');
g_string_append_c (ret, '\n');
}
return g_string_free (ret, FALSE);
}
/* ---------------------------------------------------------------------------------------------------- */
/* Unfortunately ancillary messages are discarded when reading from a
* socket using the GSocketInputStream abstraction. So we provide a
* very GInputStream-ish API that uses GSocket in this case (very
* similar to GSocketInputStream).
*/
typedef struct
{
void *buffer;
gsize count;
GSocketControlMessage ***messages;
gint *num_messages;
} ReadWithControlData;
static void
read_with_control_data_free (ReadWithControlData *data)
{
g_slice_free (ReadWithControlData, data);
}
static gboolean
_g_socket_read_with_control_messages_ready (GSocket *socket,
GIOCondition condition,
gpointer user_data)
{
GTask *task = user_data;
ReadWithControlData *data = g_task_get_task_data (task);
GError *error;
gssize result;
GInputVector vector;
error = NULL;
vector.buffer = data->buffer;
vector.size = data->count;
result = g_socket_receive_message (socket,
NULL, /* address */
&vector,
1,
data->messages,
data->num_messages,
NULL,
g_task_get_cancellable (task),
&error);
if (g_error_matches (error, G_IO_ERROR, G_IO_ERROR_WOULD_BLOCK))
{
g_error_free (error);
return TRUE;
}
g_assert (result >= 0 || error != NULL);
if (result >= 0)
g_task_return_int (task, result);
else
g_task_return_error (task, error);
g_object_unref (task);
return FALSE;
}
static void
_g_socket_read_with_control_messages (GSocket *socket,
void *buffer,
gsize count,
GSocketControlMessage ***messages,
gint *num_messages,
gint io_priority,
GCancellable *cancellable,
GAsyncReadyCallback callback,
gpointer user_data)
{
GTask *task;
ReadWithControlData *data;
GSource *source;
data = g_slice_new0 (ReadWithControlData);
data->buffer = buffer;
data->count = count;
data->messages = messages;
data->num_messages = num_messages;
task = g_task_new (socket, cancellable, callback, user_data);
g_task_set_source_tag (task, _g_socket_read_with_control_messages);
g_task_set_task_data (task, data, (GDestroyNotify) read_with_control_data_free);
if (g_socket_condition_check (socket, G_IO_IN))
{
if (!_g_socket_read_with_control_messages_ready (socket, G_IO_IN, task))
return;
}
source = g_socket_create_source (socket,
G_IO_IN | G_IO_HUP | G_IO_ERR,
cancellable);
g_task_attach_source (task, source, (GSourceFunc) _g_socket_read_with_control_messages_ready);
g_source_unref (source);
}
static gssize
_g_socket_read_with_control_messages_finish (GSocket *socket,
GAsyncResult *result,
GError **error)
{
g_return_val_if_fail (G_IS_SOCKET (socket), -1);
g_return_val_if_fail (g_task_is_valid (result, socket), -1);
return g_task_propagate_int (G_TASK (result), error);
}
/* ---------------------------------------------------------------------------------------------------- */
/* Work-around for https://bugzilla.gnome.org/show_bug.cgi?id=674885
and see also the original https://bugzilla.gnome.org/show_bug.cgi?id=627724 */
static GPtrArray *ensured_classes = NULL;
static void
ensure_type (GType gtype)
{
g_ptr_array_add (ensured_classes, g_type_class_ref (gtype));
}
static void
release_required_types (void)
{
g_ptr_array_foreach (ensured_classes, (GFunc) g_type_class_unref, NULL);
g_ptr_array_unref (ensured_classes);
ensured_classes = NULL;
}
static void
ensure_required_types (void)
{
g_assert (ensured_classes == NULL);
ensured_classes = g_ptr_array_new ();
/* Generally in this list, you should initialize types which are used as
* properties first, then the class which has them. For example, GDBusProxy
* has a type of GDBusConnection, so we initialize GDBusConnection first.
* And because GDBusConnection has a property of type GDBusConnectionFlags,
* we initialize that first.
*
* Similarly, GSocket has a type of GSocketAddress.
*
* We don't fill out the whole dependency tree right now because in practice
* it tends to be just types that GDBus use that cause pain, and there
* is work on a more general approach in https://bugzilla.gnome.org/show_bug.cgi?id=674885
*/
ensure_type (G_TYPE_TASK);
ensure_type (G_TYPE_MEMORY_INPUT_STREAM);
ensure_type (G_TYPE_DBUS_CONNECTION_FLAGS);
ensure_type (G_TYPE_DBUS_CAPABILITY_FLAGS);
ensure_type (G_TYPE_DBUS_AUTH_OBSERVER);
ensure_type (G_TYPE_DBUS_CONNECTION);
ensure_type (G_TYPE_DBUS_PROXY);
ensure_type (G_TYPE_SOCKET_FAMILY);
ensure_type (G_TYPE_SOCKET_TYPE);
ensure_type (G_TYPE_SOCKET_PROTOCOL);
ensure_type (G_TYPE_SOCKET_ADDRESS);
ensure_type (G_TYPE_SOCKET);
}
/* ---------------------------------------------------------------------------------------------------- */
typedef struct
{
volatile gint refcount;
GThread *thread;
GMainContext *context;
GMainLoop *loop;
} SharedThreadData;
static gpointer
gdbus_shared_thread_func (gpointer user_data)
{
SharedThreadData *data = user_data;
g_main_context_push_thread_default (data->context);
g_main_loop_run (data->loop);
g_main_context_pop_thread_default (data->context);
release_required_types ();
return NULL;
}
/* ---------------------------------------------------------------------------------------------------- */
static SharedThreadData *
_g_dbus_shared_thread_ref (void)
{
static gsize shared_thread_data = 0;
SharedThreadData *ret;
if (g_once_init_enter (&shared_thread_data))
{
SharedThreadData *data;
data = g_new0 (SharedThreadData, 1);
data->refcount = 0;
data->context = g_main_context_new ();
data->loop = g_main_loop_new (data->context, FALSE);
data->thread = g_thread_new ("gdbus",
gdbus_shared_thread_func,
data);
/* We can cast between gsize and gpointer safely */
g_once_init_leave (&shared_thread_data, (gsize) data);
}
ret = (SharedThreadData*) shared_thread_data;
g_atomic_int_inc (&ret->refcount);
return ret;
}
static void
_g_dbus_shared_thread_unref (SharedThreadData *data)
{
/* TODO: actually destroy the shared thread here */
#if 0
g_assert (data != NULL);
if (g_atomic_int_dec_and_test (&data->refcount))
{
g_main_loop_quit (data->loop);
//g_thread_join (data->thread);
g_main_loop_unref (data->loop);
g_main_context_unref (data->context);
}
#endif
}
/* ---------------------------------------------------------------------------------------------------- */
typedef enum {
PENDING_NONE = 0,
PENDING_WRITE,
PENDING_FLUSH,
PENDING_CLOSE
} OutputPending;
struct GDBusWorker
{
volatile gint ref_count;
SharedThreadData *shared_thread_data;
/* really a boolean, but GLib 2.28 lacks atomic boolean ops */
volatile gint stopped;
/* TODO: frozen (e.g. G_DBUS_CONNECTION_FLAGS_DELAY_MESSAGE_PROCESSING) currently
* only affects messages received from the other peer (since GDBusServer is the
* only user) - we might want it to affect messages sent to the other peer too?
*/
gboolean frozen;
2011-04-12 16:00:03 +02:00
GDBusCapabilityFlags capabilities;
GQueue *received_messages_while_frozen;
GIOStream *stream;
GCancellable *cancellable;
GDBusWorkerMessageReceivedCallback message_received_callback;
GDBusWorkerMessageAboutToBeSentCallback message_about_to_be_sent_callback;
GDBusWorkerDisconnectedCallback disconnected_callback;
gpointer user_data;
/* if not NULL, stream is GSocketConnection */
GSocket *socket;
/* used for reading */
GMutex read_lock;
gchar *read_buffer;
gsize read_buffer_allocated_size;
gsize read_buffer_cur_size;
gsize read_buffer_bytes_wanted;
GUnixFDList *read_fd_list;
GSocketControlMessage **read_ancillary_messages;
gint read_num_ancillary_messages;
/* Whether an async write, flush or close, or none of those, is pending.
* Only the worker thread may change its value, and only with the write_lock.
* Other threads may read its value when holding the write_lock.
* The worker thread may read its value at any time.
*/
OutputPending output_pending;
/* used for writing */
GMutex write_lock;
/* queue of MessageToWriteData, protected by write_lock */
GQueue *write_queue;
/* protected by write_lock */
guint64 write_num_messages_written;
/* number of messages we'd written out last time we flushed;
* protected by write_lock
*/
guint64 write_num_messages_flushed;
/* list of FlushData, protected by write_lock */
GList *write_pending_flushes;
/* list of CloseData, protected by write_lock */
GList *pending_close_attempts;
/* no lock - only used from the worker thread */
gboolean close_expected;
};
static void _g_dbus_worker_unref (GDBusWorker *worker);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* ---------------------------------------------------------------------------------------------------- */
typedef struct
{
GMutex mutex;
GCond cond;
guint64 number_to_wait_for;
gboolean finished;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
GError *error;
} FlushData;
struct _MessageToWriteData ;
typedef struct _MessageToWriteData MessageToWriteData;
static void message_to_write_data_free (MessageToWriteData *data);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void read_message_print_transport_debug (gssize bytes_read,
GDBusWorker *worker);
static void write_message_print_transport_debug (gssize bytes_written,
MessageToWriteData *data);
typedef struct {
GDBusWorker *worker;
GTask *task;
} CloseData;
static void close_data_free (CloseData *close_data)
{
g_clear_object (&close_data->task);
_g_dbus_worker_unref (close_data->worker);
g_slice_free (CloseData, close_data);
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* ---------------------------------------------------------------------------------------------------- */
static GDBusWorker *
_g_dbus_worker_ref (GDBusWorker *worker)
{
g_atomic_int_inc (&worker->ref_count);
return worker;
}
static void
_g_dbus_worker_unref (GDBusWorker *worker)
{
if (g_atomic_int_dec_and_test (&worker->ref_count))
{
g_assert (worker->write_pending_flushes == NULL);
_g_dbus_shared_thread_unref (worker->shared_thread_data);
g_object_unref (worker->stream);
g_mutex_clear (&worker->read_lock);
g_object_unref (worker->cancellable);
if (worker->read_fd_list != NULL)
g_object_unref (worker->read_fd_list);
g_queue_free_full (worker->received_messages_while_frozen, (GDestroyNotify) g_object_unref);
g_mutex_clear (&worker->write_lock);
g_queue_free_full (worker->write_queue, (GDestroyNotify) message_to_write_data_free);
g_free (worker->read_buffer);
g_free (worker);
}
}
static void
_g_dbus_worker_emit_disconnected (GDBusWorker *worker,
gboolean remote_peer_vanished,
GError *error)
{
if (!g_atomic_int_get (&worker->stopped))
worker->disconnected_callback (worker, remote_peer_vanished, error, worker->user_data);
}
static void
_g_dbus_worker_emit_message_received (GDBusWorker *worker,
GDBusMessage *message)
{
if (!g_atomic_int_get (&worker->stopped))
worker->message_received_callback (worker, message, worker->user_data);
}
static GDBusMessage *
_g_dbus_worker_emit_message_about_to_be_sent (GDBusWorker *worker,
GDBusMessage *message)
{
GDBusMessage *ret;
if (!g_atomic_int_get (&worker->stopped))
ret = worker->message_about_to_be_sent_callback (worker, g_steal_pointer (&message), worker->user_data);
else
ret = g_steal_pointer (&message);
return ret;
}
/* can only be called from private thread with read-lock held - takes ownership of @message */
static void
_g_dbus_worker_queue_or_deliver_received_message (GDBusWorker *worker,
GDBusMessage *message)
{
if (worker->frozen || g_queue_get_length (worker->received_messages_while_frozen) > 0)
{
/* queue up */
g_queue_push_tail (worker->received_messages_while_frozen, g_steal_pointer (&message));
}
else
{
/* not frozen, nor anything in queue */
_g_dbus_worker_emit_message_received (worker, message);
g_clear_object (&message);
}
}
/* called in private thread shared by all GDBusConnection instances (without read-lock held) */
static gboolean
unfreeze_in_idle_cb (gpointer user_data)
{
GDBusWorker *worker = user_data;
GDBusMessage *message;
g_mutex_lock (&worker->read_lock);
if (worker->frozen)
{
while ((message = g_queue_pop_head (worker->received_messages_while_frozen)) != NULL)
{
_g_dbus_worker_emit_message_received (worker, message);
g_clear_object (&message);
}
worker->frozen = FALSE;
}
else
{
g_assert (g_queue_get_length (worker->received_messages_while_frozen) == 0);
}
g_mutex_unlock (&worker->read_lock);
return FALSE;
}
/* can be called from any thread */
void
_g_dbus_worker_unfreeze (GDBusWorker *worker)
{
GSource *idle_source;
idle_source = g_idle_source_new ();
g_source_set_priority (idle_source, G_PRIORITY_DEFAULT);
g_source_set_callback (idle_source,
unfreeze_in_idle_cb,
_g_dbus_worker_ref (worker),
(GDestroyNotify) _g_dbus_worker_unref);
g_source_set_name (idle_source, "[gio] unfreeze_in_idle_cb");
g_source_attach (idle_source, worker->shared_thread_data->context);
g_source_unref (idle_source);
}
/* ---------------------------------------------------------------------------------------------------- */
static void _g_dbus_worker_do_read_unlocked (GDBusWorker *worker);
/* called in private thread shared by all GDBusConnection instances (without read-lock held) */
static void
_g_dbus_worker_do_read_cb (GInputStream *input_stream,
GAsyncResult *res,
gpointer user_data)
{
GDBusWorker *worker = user_data;
GError *error;
gssize bytes_read;
g_mutex_lock (&worker->read_lock);
/* If already stopped, don't even process the reply */
if (g_atomic_int_get (&worker->stopped))
goto out;
error = NULL;
if (worker->socket == NULL)
bytes_read = g_input_stream_read_finish (g_io_stream_get_input_stream (worker->stream),
res,
&error);
else
bytes_read = _g_socket_read_with_control_messages_finish (worker->socket,
res,
&error);
if (worker->read_num_ancillary_messages > 0)
{
gint n;
for (n = 0; n < worker->read_num_ancillary_messages; n++)
{
GSocketControlMessage *control_message = G_SOCKET_CONTROL_MESSAGE (worker->read_ancillary_messages[n]);
if (FALSE)
{
}
#ifdef G_OS_UNIX
else if (G_IS_UNIX_FD_MESSAGE (control_message))
{
GUnixFDMessage *fd_message;
gint *fds;
gint num_fds;
fd_message = G_UNIX_FD_MESSAGE (control_message);
fds = g_unix_fd_message_steal_fds (fd_message, &num_fds);
if (worker->read_fd_list == NULL)
{
worker->read_fd_list = g_unix_fd_list_new_from_array (fds, num_fds);
}
else
{
gint n;
for (n = 0; n < num_fds; n++)
{
/* TODO: really want a append_steal() */
g_unix_fd_list_append (worker->read_fd_list, fds[n], NULL);
(void) g_close (fds[n], NULL);
}
}
g_free (fds);
}
else if (G_IS_UNIX_CREDENTIALS_MESSAGE (control_message))
{
/* do nothing */
}
#endif
else
{
if (error == NULL)
{
g_set_error (&error,
G_IO_ERROR,
G_IO_ERROR_FAILED,
"Unexpected ancillary message of type %s received from peer",
g_type_name (G_TYPE_FROM_INSTANCE (control_message)));
_g_dbus_worker_emit_disconnected (worker, TRUE, error);
g_error_free (error);
g_object_unref (control_message);
n++;
while (n < worker->read_num_ancillary_messages)
g_object_unref (worker->read_ancillary_messages[n++]);
g_free (worker->read_ancillary_messages);
goto out;
}
}
g_object_unref (control_message);
}
g_free (worker->read_ancillary_messages);
}
if (bytes_read == -1)
{
if (G_UNLIKELY (_g_dbus_debug_transport ()))
{
_g_dbus_debug_print_lock ();
g_print ("========================================================================\n"
"GDBus-debug:Transport:\n"
" ---- READ ERROR on stream of type %s:\n"
" ---- %s %d: %s\n",
g_type_name (G_TYPE_FROM_INSTANCE (g_io_stream_get_input_stream (worker->stream))),
g_quark_to_string (error->domain), error->code,
error->message);
_g_dbus_debug_print_unlock ();
}
/* Every async read that uses this callback uses worker->cancellable
* as its GCancellable. worker->cancellable gets cancelled if and only
* if the GDBusConnection tells us to close (either via
* _g_dbus_worker_stop, which is called on last-unref, or directly),
* so a cancelled read must mean our connection was closed locally.
*
* If we're closing, other errors are possible - notably,
* G_IO_ERROR_CLOSED can be seen if we close the stream with an async
* read in-flight. It seems sensible to treat all read errors during
* closing as an expected thing that doesn't trip exit-on-close.
*
* Because close_expected can't be set until we get into the worker
* thread, but the cancellable is signalled sooner (from another
* thread), we do still need to check the error.
*/
if (worker->close_expected ||
g_error_matches (error, G_IO_ERROR, G_IO_ERROR_CANCELLED))
_g_dbus_worker_emit_disconnected (worker, FALSE, NULL);
else
_g_dbus_worker_emit_disconnected (worker, TRUE, error);
g_error_free (error);
goto out;
}
#if 0
g_debug ("read %d bytes (is_closed=%d blocking=%d condition=0x%02x) stream %p, %p",
(gint) bytes_read,
g_socket_is_closed (g_socket_connection_get_socket (G_SOCKET_CONNECTION (worker->stream))),
g_socket_get_blocking (g_socket_connection_get_socket (G_SOCKET_CONNECTION (worker->stream))),
g_socket_condition_check (g_socket_connection_get_socket (G_SOCKET_CONNECTION (worker->stream)),
G_IO_IN | G_IO_OUT | G_IO_HUP),
worker->stream,
worker);
#endif
/* The read failed, which could mean the dbus-daemon was sent SIGTERM. */
if (bytes_read == 0)
{
g_set_error (&error,
G_IO_ERROR,
G_IO_ERROR_FAILED,
"Underlying GIOStream returned 0 bytes on an async read");
_g_dbus_worker_emit_disconnected (worker, TRUE, error);
g_error_free (error);
goto out;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
read_message_print_transport_debug (bytes_read, worker);
worker->read_buffer_cur_size += bytes_read;
if (worker->read_buffer_bytes_wanted == worker->read_buffer_cur_size)
{
/* OK, got what we asked for! */
if (worker->read_buffer_bytes_wanted == 16)
{
gssize message_len;
/* OK, got the header - determine how many more bytes are needed */
error = NULL;
message_len = g_dbus_message_bytes_needed ((guchar *) worker->read_buffer,
16,
&error);
if (message_len == -1)
{
g_warning ("_g_dbus_worker_do_read_cb: error determining bytes needed: %s", error->message);
_g_dbus_worker_emit_disconnected (worker, FALSE, error);
g_error_free (error);
goto out;
}
worker->read_buffer_bytes_wanted = message_len;
_g_dbus_worker_do_read_unlocked (worker);
}
else
{
GDBusMessage *message;
error = NULL;
/* TODO: use connection->priv->auth to decode the message */
message = g_dbus_message_new_from_blob ((guchar *) worker->read_buffer,
worker->read_buffer_cur_size,
worker->capabilities,
&error);
if (message == NULL)
{
gchar *s;
GDBusMessage: Fix bug when deserializing a message See https://bugzilla.gnome.org/show_bug.cgi?id=621838 for the whole story. The problem was that we ended up reading data from arrays of arrays when we were just supposed to be aligning the buffers. Also add a host of debug infrastructure that was needed to find the root cause. For now it can be turned on only via defining DEBUG_SERIALIZER. In the future we might want to make it work via G_DBUS_DEBUG. In a nutshell, the added debug info looks like this Parsing blob (blob_len = 0x0084 bytes) 0000: 6c 01 00 01 3c 00 00 00 41 00 00 00 37 00 00 00 l...<...A...7... 0010: 08 01 67 00 08 61 61 79 61 7b 73 76 7d 00 00 00 ..g..aaya{sv}... 0020: 01 01 6f 00 08 00 00 00 2f 66 6f 6f 2f 62 61 72 ..o...../foo/bar 0030: 00 00 00 00 00 00 00 00 03 01 73 00 06 00 00 00 ..........s..... 0040: 4d 65 6d 62 65 72 00 00 00 00 00 00 34 00 00 00 Member......4... 0050: 03 00 00 00 63 77 64 00 01 73 00 00 23 00 00 00 ....cwd..s..#... 0060: 2f 68 6f 6d 65 2f 64 61 76 69 64 7a 2f 48 61 63 /home/davidz/Hac 0070: 6b 69 6e 67 2f 67 6c 69 62 2f 67 69 6f 2f 74 65 king/glib/gio/te 0080: 73 74 73 00 sts. Parsing headers (blob_len = 0x0084 bytes) Reading type a{yv} from offset 0x000c: array spans 0x0037 bytes Reading type {yv} from offset 0x0010 Reading type y from offset 0x0010: 0x08 ' Reading type v from offset 0x0011 Reading type g from offset 0x0014: 'aaya{sv}' Reading type {yv} from offset 0x001e Reading type y from offset 0x0020: 0x01 '' Reading type v from offset 0x0021 Reading type o from offset 0x0024: '/foo/bar' Reading type {yv} from offset 0x0031 Reading type y from offset 0x0038: 0x03 '' Reading type v from offset 0x0039 Reading type s from offset 0x003c: 'Member' Parsing body (blob_len = 0x0084 bytes) Reading type (aaya{sv}) from offset 0x0047 Reading type aay from offset 0x0048: array spans 0x0000 bytes Reading type a{sv} from offset 0x004c: array spans 0x0034 bytes Reading type {sv} from offset 0x0050 Reading type s from offset 0x0050: 'cwd' Reading type v from offset 0x0058 Reading type s from offset 0x005b: '/home/davidz/Hacking/glib/gio/tests' OK Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-06-17 23:58:25 +02:00
s = _g_dbus_hexdump (worker->read_buffer, worker->read_buffer_cur_size, 2);
g_warning ("Error decoding D-Bus message of %" G_GSIZE_FORMAT " bytes\n"
"The error is: %s\n"
"The payload is as follows:\n"
"%s",
worker->read_buffer_cur_size,
error->message,
s);
g_free (s);
_g_dbus_worker_emit_disconnected (worker, FALSE, error);
g_error_free (error);
goto out;
}
#ifdef G_OS_UNIX
if (worker->read_fd_list != NULL)
{
g_dbus_message_set_unix_fd_list (message, worker->read_fd_list);
g_object_unref (worker->read_fd_list);
worker->read_fd_list = NULL;
}
#endif
if (G_UNLIKELY (_g_dbus_debug_message ()))
{
gchar *s;
_g_dbus_debug_print_lock ();
g_print ("========================================================================\n"
"GDBus-debug:Message:\n"
" <<<< RECEIVED D-Bus message (%" G_GSIZE_FORMAT " bytes)\n",
worker->read_buffer_cur_size);
s = g_dbus_message_print (message, 2);
g_print ("%s", s);
g_free (s);
if (G_UNLIKELY (_g_dbus_debug_payload ()))
{
s = _g_dbus_hexdump (worker->read_buffer, worker->read_buffer_cur_size, 2);
g_print ("%s\n", s);
g_free (s);
}
_g_dbus_debug_print_unlock ();
}
/* yay, got a message, go deliver it */
_g_dbus_worker_queue_or_deliver_received_message (worker, g_steal_pointer (&message));
/* start reading another message! */
worker->read_buffer_bytes_wanted = 0;
worker->read_buffer_cur_size = 0;
_g_dbus_worker_do_read_unlocked (worker);
}
}
else
{
/* didn't get all the bytes we requested - so repeat the request... */
_g_dbus_worker_do_read_unlocked (worker);
}
out:
g_mutex_unlock (&worker->read_lock);
/* check if there is any pending close */
schedule_pending_close (worker);
/* gives up the reference acquired when calling g_input_stream_read_async() */
_g_dbus_worker_unref (worker);
}
/* called in private thread shared by all GDBusConnection instances (with read-lock held) */
static void
_g_dbus_worker_do_read_unlocked (GDBusWorker *worker)
{
/* Note that we do need to keep trying to read even if close_expected is
* true, because only failing a read causes us to signal 'closed'.
*/
/* if bytes_wanted is zero, it means start reading a message */
if (worker->read_buffer_bytes_wanted == 0)
{
worker->read_buffer_cur_size = 0;
worker->read_buffer_bytes_wanted = 16;
}
/* ensure we have a (big enough) buffer */
if (worker->read_buffer == NULL || worker->read_buffer_bytes_wanted > worker->read_buffer_allocated_size)
{
/* TODO: 4096 is randomly chosen; might want a better chosen default minimum */
worker->read_buffer_allocated_size = MAX (worker->read_buffer_bytes_wanted, 4096);
worker->read_buffer = g_realloc (worker->read_buffer, worker->read_buffer_allocated_size);
}
if (worker->socket == NULL)
g_input_stream_read_async (g_io_stream_get_input_stream (worker->stream),
worker->read_buffer + worker->read_buffer_cur_size,
worker->read_buffer_bytes_wanted - worker->read_buffer_cur_size,
G_PRIORITY_DEFAULT,
worker->cancellable,
(GAsyncReadyCallback) _g_dbus_worker_do_read_cb,
_g_dbus_worker_ref (worker));
else
{
worker->read_ancillary_messages = NULL;
worker->read_num_ancillary_messages = 0;
_g_socket_read_with_control_messages (worker->socket,
worker->read_buffer + worker->read_buffer_cur_size,
worker->read_buffer_bytes_wanted - worker->read_buffer_cur_size,
&worker->read_ancillary_messages,
&worker->read_num_ancillary_messages,
G_PRIORITY_DEFAULT,
worker->cancellable,
(GAsyncReadyCallback) _g_dbus_worker_do_read_cb,
_g_dbus_worker_ref (worker));
}
}
/* called in private thread shared by all GDBusConnection instances (without read-lock held) */
static gboolean
_g_dbus_worker_do_initial_read (gpointer data)
{
GDBusWorker *worker = data;
g_mutex_lock (&worker->read_lock);
_g_dbus_worker_do_read_unlocked (worker);
g_mutex_unlock (&worker->read_lock);
return FALSE;
}
/* ---------------------------------------------------------------------------------------------------- */
struct _MessageToWriteData
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
GDBusWorker *worker;
GDBusMessage *message;
gchar *blob;
gsize blob_size;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
gsize total_written;
GTask *task;
};
static void
message_to_write_data_free (MessageToWriteData *data)
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
_g_dbus_worker_unref (data->worker);
if (data->message)
g_object_unref (data->message);
g_free (data->blob);
g_slice_free (MessageToWriteData, data);
}
/* ---------------------------------------------------------------------------------------------------- */
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void write_message_continue_writing (MessageToWriteData *data);
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_WRITE on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
write_message_async_cb (GObject *source_object,
GAsyncResult *res,
gpointer user_data)
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
MessageToWriteData *data = user_data;
GTask *task;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
gssize bytes_written;
GError *error;
/* Note: we can't access data->task after calling g_task_return_* () because the
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
* callback can free @data and we're not completing in idle. So use a copy of the pointer.
*/
task = data->task;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
error = NULL;
bytes_written = g_output_stream_write_finish (G_OUTPUT_STREAM (source_object),
res,
&error);
if (bytes_written == -1)
{
g_task_return_error (task, error);
g_object_unref (task);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
goto out;
}
g_assert (bytes_written > 0); /* zero is never returned */
write_message_print_transport_debug (bytes_written, data);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
data->total_written += bytes_written;
g_assert (data->total_written <= data->blob_size);
if (data->total_written == data->blob_size)
{
g_task_return_boolean (task, TRUE);
g_object_unref (task);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
goto out;
}
write_message_continue_writing (data);
out:
;
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_WRITE on entry
*/
#ifdef G_OS_UNIX
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static gboolean
on_socket_ready (GSocket *socket,
GIOCondition condition,
gpointer user_data)
{
MessageToWriteData *data = user_data;
write_message_continue_writing (data);
return FALSE; /* remove source */
}
#endif
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_WRITE on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
write_message_continue_writing (MessageToWriteData *data)
{
GOutputStream *ostream;
#ifdef G_OS_UNIX
GTask *task;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
GUnixFDList *fd_list;
#endif
#ifdef G_OS_UNIX
/* Note: we can't access data->task after calling g_task_return_* () because the
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
* callback can free @data and we're not completing in idle. So use a copy of the pointer.
*/
task = data->task;
#endif
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
ostream = g_io_stream_get_output_stream (data->worker->stream);
#ifdef G_OS_UNIX
fd_list = g_dbus_message_get_unix_fd_list (data->message);
#endif
g_assert (!g_output_stream_has_pending (ostream));
g_assert_cmpint (data->total_written, <, data->blob_size);
if (FALSE)
{
}
#ifdef G_OS_UNIX
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
else if (G_IS_SOCKET_OUTPUT_STREAM (ostream) && data->total_written == 0)
{
GOutputVector vector;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
GSocketControlMessage *control_message;
gssize bytes_written;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
GError *error;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
vector.buffer = data->blob;
vector.size = data->blob_size;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
control_message = NULL;
if (fd_list != NULL && g_unix_fd_list_get_length (fd_list) > 0)
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
if (!(data->worker->capabilities & G_DBUS_CAPABILITY_FLAGS_UNIX_FD_PASSING))
{
g_task_return_new_error (task,
G_IO_ERROR,
G_IO_ERROR_FAILED,
"Tried sending a file descriptor but remote peer does not support this capability");
g_object_unref (task);
goto out;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
control_message = g_unix_fd_message_new_with_fd_list (fd_list);
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
error = NULL;
bytes_written = g_socket_send_message (data->worker->socket,
NULL, /* address */
&vector,
1,
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
control_message != NULL ? &control_message : NULL,
control_message != NULL ? 1 : 0,
G_SOCKET_MSG_NONE,
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
data->worker->cancellable,
&error);
if (control_message != NULL)
g_object_unref (control_message);
if (bytes_written == -1)
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* Handle WOULD_BLOCK by waiting until there's room in the buffer */
if (g_error_matches (error, G_IO_ERROR, G_IO_ERROR_WOULD_BLOCK))
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
{
GSource *source;
source = g_socket_create_source (data->worker->socket,
G_IO_OUT | G_IO_HUP | G_IO_ERR,
data->worker->cancellable);
g_source_set_callback (source,
(GSourceFunc) on_socket_ready,
data,
NULL); /* GDestroyNotify */
g_source_attach (source, g_main_context_get_thread_default ());
g_source_unref (source);
g_error_free (error);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
goto out;
}
g_task_return_error (task, error);
g_object_unref (task);
goto out;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
g_assert (bytes_written > 0); /* zero is never returned */
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
write_message_print_transport_debug (bytes_written, data);
data->total_written += bytes_written;
g_assert (data->total_written <= data->blob_size);
if (data->total_written == data->blob_size)
{
g_task_return_boolean (task, TRUE);
g_object_unref (task);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
goto out;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
write_message_continue_writing (data);
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
#endif
else
{
#ifdef G_OS_UNIX
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
if (fd_list != NULL)
{
g_task_return_new_error (task,
G_IO_ERROR,
G_IO_ERROR_FAILED,
"Tried sending a file descriptor on unsupported stream of type %s",
g_type_name (G_TYPE_FROM_INSTANCE (ostream)));
g_object_unref (task);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
goto out;
}
#endif
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
g_output_stream_write_async (ostream,
(const gchar *) data->blob + data->total_written,
data->blob_size - data->total_written,
G_PRIORITY_DEFAULT,
data->worker->cancellable,
write_message_async_cb,
data);
}
#ifdef G_OS_UNIX
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
out:
#endif
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
;
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_WRITE on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
write_message_async (GDBusWorker *worker,
MessageToWriteData *data,
GAsyncReadyCallback callback,
gpointer user_data)
{
data->task = g_task_new (NULL, NULL, callback, user_data);
g_task_set_source_tag (data->task, write_message_async);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
data->total_written = 0;
write_message_continue_writing (data);
}
/* called in private thread shared by all GDBusConnection instances (with write-lock held) */
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static gboolean
write_message_finish (GAsyncResult *res,
GError **error)
{
g_return_val_if_fail (g_task_is_valid (res, NULL), FALSE);
return g_task_propagate_boolean (G_TASK (res), error);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
}
/* ---------------------------------------------------------------------------------------------------- */
static void continue_writing (GDBusWorker *worker);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
typedef struct
{
GDBusWorker *worker;
GList *flushers;
} FlushAsyncData;
static void
flush_data_list_complete (const GList *flushers,
const GError *error)
{
const GList *l;
for (l = flushers; l != NULL; l = l->next)
{
FlushData *f = l->data;
f->error = error != NULL ? g_error_copy (error) : NULL;
g_mutex_lock (&f->mutex);
f->finished = TRUE;
g_cond_signal (&f->cond);
g_mutex_unlock (&f->mutex);
}
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_FLUSH on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
ostream_flush_cb (GObject *source_object,
GAsyncResult *res,
gpointer user_data)
{
FlushAsyncData *data = user_data;
GError *error;
error = NULL;
g_output_stream_flush_finish (G_OUTPUT_STREAM (source_object),
res,
&error);
if (error == NULL)
{
if (G_UNLIKELY (_g_dbus_debug_transport ()))
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
_g_dbus_debug_print_lock ();
g_print ("========================================================================\n"
"GDBus-debug:Transport:\n"
" ---- FLUSHED stream of type %s\n",
g_type_name (G_TYPE_FROM_INSTANCE (g_io_stream_get_output_stream (data->worker->stream))));
_g_dbus_debug_print_unlock ();
}
}
/* Make sure we tell folks that we don't have additional
flushes pending */
g_mutex_lock (&data->worker->write_lock);
data->worker->write_num_messages_flushed = data->worker->write_num_messages_written;
g_assert (data->worker->output_pending == PENDING_FLUSH);
data->worker->output_pending = PENDING_NONE;
g_mutex_unlock (&data->worker->write_lock);
g_assert (data->flushers != NULL);
flush_data_list_complete (data->flushers, error);
g_list_free (data->flushers);
if (error != NULL)
g_error_free (error);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* OK, cool, finally kick off the next write */
continue_writing (data->worker);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
_g_dbus_worker_unref (data->worker);
g_free (data);
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_FLUSH on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
start_flush (FlushAsyncData *data)
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
{
g_output_stream_flush_async (g_io_stream_get_output_stream (data->worker->stream),
G_PRIORITY_DEFAULT,
data->worker->cancellable,
ostream_flush_cb,
data);
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is held on entry
* output_pending is PENDING_NONE on entry
*/
static void
message_written_unlocked (GDBusWorker *worker,
MessageToWriteData *message_data)
{
if (G_UNLIKELY (_g_dbus_debug_message ()))
{
gchar *s;
_g_dbus_debug_print_lock ();
g_print ("========================================================================\n"
"GDBus-debug:Message:\n"
" >>>> SENT D-Bus message (%" G_GSIZE_FORMAT " bytes)\n",
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
message_data->blob_size);
s = g_dbus_message_print (message_data->message, 2);
g_print ("%s", s);
g_free (s);
if (G_UNLIKELY (_g_dbus_debug_payload ()))
{
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
s = _g_dbus_hexdump (message_data->blob, message_data->blob_size, 2);
g_print ("%s\n", s);
g_free (s);
}
_g_dbus_debug_print_unlock ();
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
worker->write_num_messages_written += 1;
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is held on entry
* output_pending is PENDING_NONE on entry
*
* Returns: non-%NULL, setting @output_pending, if we need to flush now
*/
static FlushAsyncData *
prepare_flush_unlocked (GDBusWorker *worker)
{
GList *l;
GList *ll;
GList *flushers;
flushers = NULL;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
for (l = worker->write_pending_flushes; l != NULL; l = ll)
{
FlushData *f = l->data;
ll = l->next;
if (f->number_to_wait_for == worker->write_num_messages_written)
{
flushers = g_list_append (flushers, f);
worker->write_pending_flushes = g_list_delete_link (worker->write_pending_flushes, l);
}
}
if (flushers != NULL)
{
g_assert (worker->output_pending == PENDING_NONE);
worker->output_pending = PENDING_FLUSH;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
if (flushers != NULL)
{
FlushAsyncData *data;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
data = g_new0 (FlushAsyncData, 1);
data->worker = _g_dbus_worker_ref (worker);
data->flushers = flushers;
return data;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
}
return NULL;
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_WRITE on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
write_message_cb (GObject *source_object,
GAsyncResult *res,
gpointer user_data)
{
MessageToWriteData *data = user_data;
GError *error;
g_mutex_lock (&data->worker->write_lock);
g_assert (data->worker->output_pending == PENDING_WRITE);
data->worker->output_pending = PENDING_NONE;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
error = NULL;
if (!write_message_finish (res, &error))
{
g_mutex_unlock (&data->worker->write_lock);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
/* TODO: handle */
_g_dbus_worker_emit_disconnected (data->worker, TRUE, error);
g_error_free (error);
g_mutex_lock (&data->worker->write_lock);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
}
message_written_unlocked (data->worker, data);
g_mutex_unlock (&data->worker->write_lock);
continue_writing (data->worker);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
message_to_write_data_free (data);
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending is PENDING_CLOSE on entry
*/
static void
iostream_close_cb (GObject *source_object,
GAsyncResult *res,
gpointer user_data)
{
GDBusWorker *worker = user_data;
GError *error = NULL;
GList *pending_close_attempts, *pending_flush_attempts;
GQueue *send_queue;
g_io_stream_close_finish (worker->stream, res, &error);
g_mutex_lock (&worker->write_lock);
pending_close_attempts = worker->pending_close_attempts;
worker->pending_close_attempts = NULL;
pending_flush_attempts = worker->write_pending_flushes;
worker->write_pending_flushes = NULL;
send_queue = worker->write_queue;
worker->write_queue = g_queue_new ();
g_assert (worker->output_pending == PENDING_CLOSE);
worker->output_pending = PENDING_NONE;
/* Ensure threads waiting for pending flushes to finish will be unblocked. */
worker->write_num_messages_flushed =
worker->write_num_messages_written + g_list_length(pending_flush_attempts);
g_mutex_unlock (&worker->write_lock);
while (pending_close_attempts != NULL)
{
CloseData *close_data = pending_close_attempts->data;
pending_close_attempts = g_list_delete_link (pending_close_attempts,
pending_close_attempts);
if (close_data->task != NULL)
{
if (error != NULL)
g_task_return_error (close_data->task, g_error_copy (error));
else
g_task_return_boolean (close_data->task, TRUE);
}
close_data_free (close_data);
}
g_clear_error (&error);
/* all messages queued for sending are discarded */
g_queue_free_full (send_queue, (GDestroyNotify) message_to_write_data_free);
/* all queued flushes fail */
error = g_error_new (G_IO_ERROR, G_IO_ERROR_CANCELLED,
_("Operation was cancelled"));
flush_data_list_complete (pending_flush_attempts, error);
g_list_free (pending_flush_attempts);
g_clear_error (&error);
_g_dbus_worker_unref (worker);
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending must be PENDING_NONE on entry
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
continue_writing (GDBusWorker *worker)
{
MessageToWriteData *data;
FlushAsyncData *flush_async_data;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
write_next:
/* we mustn't try to write two things at once */
g_assert (worker->output_pending == PENDING_NONE);
g_mutex_lock (&worker->write_lock);
data = NULL;
flush_async_data = NULL;
/* if we want to close the connection, that takes precedence */
if (worker->pending_close_attempts != NULL)
{
GInputStream *input = g_io_stream_get_input_stream (worker->stream);
if (!g_input_stream_has_pending (input))
{
worker->close_expected = TRUE;
worker->output_pending = PENDING_CLOSE;
g_io_stream_close_async (worker->stream, G_PRIORITY_DEFAULT,
NULL, iostream_close_cb,
_g_dbus_worker_ref (worker));
}
}
else
{
flush_async_data = prepare_flush_unlocked (worker);
if (flush_async_data == NULL)
{
data = g_queue_pop_head (worker->write_queue);
if (data != NULL)
worker->output_pending = PENDING_WRITE;
}
}
g_mutex_unlock (&worker->write_lock);
/* Note that write_lock is only used for protecting the @write_queue
* and @output_pending fields of the GDBusWorker struct ... which we
* need to modify from arbitrary threads in _g_dbus_worker_send_message().
*
* Therefore, it's fine to drop it here when calling back into user
* code and then writing the message out onto the GIOStream since this
* function only runs on the worker thread.
*/
if (flush_async_data != NULL)
{
start_flush (flush_async_data);
g_assert (data == NULL);
}
else if (data != NULL)
{
GDBusMessage *old_message;
guchar *new_blob;
gsize new_blob_size;
GError *error;
old_message = data->message;
data->message = _g_dbus_worker_emit_message_about_to_be_sent (worker, data->message);
if (data->message == old_message)
{
/* filters had no effect - do nothing */
}
else if (data->message == NULL)
{
/* filters dropped message */
g_mutex_lock (&worker->write_lock);
worker->output_pending = PENDING_NONE;
g_mutex_unlock (&worker->write_lock);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
message_to_write_data_free (data);
goto write_next;
}
else
{
/* filters altered the message -> re-encode */
error = NULL;
new_blob = g_dbus_message_to_blob (data->message,
&new_blob_size,
worker->capabilities,
&error);
if (new_blob == NULL)
{
/* if filter make the GDBusMessage unencodeable, just complain on stderr and send
* the old message instead
*/
g_warning ("Error encoding GDBusMessage with serial %d altered by filter function: %s",
g_dbus_message_get_serial (data->message),
error->message);
g_error_free (error);
}
else
{
g_free (data->blob);
data->blob = (gchar *) new_blob;
data->blob_size = new_blob_size;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
}
write_message_async (worker,
data,
write_message_cb,
data);
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
}
/* called in private thread shared by all GDBusConnection instances
*
* write-lock is not held on entry
* output_pending may be anything
*/
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static gboolean
continue_writing_in_idle_cb (gpointer user_data)
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
{
GDBusWorker *worker = user_data;
/* Because this is the worker thread, we can read this struct member
* without holding the lock: no other thread ever modifies it.
*/
if (worker->output_pending == PENDING_NONE)
continue_writing (worker);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
return FALSE;
}
2015-03-12 21:43:02 +01:00
/*
* @write_data: (transfer full) (nullable):
* @flush_data: (transfer full) (nullable):
* @close_data: (transfer full) (nullable):
*
* Can be called from any thread
*
* write_lock is held on entry
* output_pending may be anything
*/
static void
schedule_writing_unlocked (GDBusWorker *worker,
MessageToWriteData *write_data,
FlushData *flush_data,
CloseData *close_data)
{
if (write_data != NULL)
g_queue_push_tail (worker->write_queue, write_data);
if (flush_data != NULL)
worker->write_pending_flushes = g_list_prepend (worker->write_pending_flushes, flush_data);
if (close_data != NULL)
worker->pending_close_attempts = g_list_prepend (worker->pending_close_attempts,
close_data);
/* If we had output pending, the next bit of output will happen
* automatically when it finishes, so we only need to do this
* if nothing was pending.
*
* The idle callback will re-check that output_pending is still
* PENDING_NONE, to guard against output starting before the idle.
*/
if (worker->output_pending == PENDING_NONE)
{
GSource *idle_source;
idle_source = g_idle_source_new ();
g_source_set_priority (idle_source, G_PRIORITY_DEFAULT);
g_source_set_callback (idle_source,
continue_writing_in_idle_cb,
_g_dbus_worker_ref (worker),
(GDestroyNotify) _g_dbus_worker_unref);
g_source_set_name (idle_source, "[gio] continue_writing_in_idle_cb");
g_source_attach (idle_source, worker->shared_thread_data->context);
g_source_unref (idle_source);
}
}
static void
schedule_pending_close (GDBusWorker *worker)
{
g_mutex_lock (&worker->write_lock);
if (worker->pending_close_attempts)
schedule_writing_unlocked (worker, NULL, NULL, NULL);
g_mutex_unlock (&worker->write_lock);
}
/* ---------------------------------------------------------------------------------------------------- */
/* can be called from any thread - steals blob
*
* write_lock is not held on entry
* output_pending may be anything
*/
void
_g_dbus_worker_send_message (GDBusWorker *worker,
GDBusMessage *message,
gchar *blob,
gsize blob_len)
{
MessageToWriteData *data;
g_return_if_fail (G_IS_DBUS_MESSAGE (message));
g_return_if_fail (blob != NULL);
g_return_if_fail (blob_len > 16);
data = g_slice_new0 (MessageToWriteData);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
data->worker = _g_dbus_worker_ref (worker);
data->message = g_object_ref (message);
data->blob = blob; /* steal! */
data->blob_size = blob_len;
g_mutex_lock (&worker->write_lock);
schedule_writing_unlocked (worker, data, NULL, NULL);
g_mutex_unlock (&worker->write_lock);
}
/* ---------------------------------------------------------------------------------------------------- */
GDBusWorker *
_g_dbus_worker_new (GIOStream *stream,
GDBusCapabilityFlags capabilities,
gboolean initially_frozen,
GDBusWorkerMessageReceivedCallback message_received_callback,
GDBusWorkerMessageAboutToBeSentCallback message_about_to_be_sent_callback,
GDBusWorkerDisconnectedCallback disconnected_callback,
gpointer user_data)
{
GDBusWorker *worker;
GSource *idle_source;
g_return_val_if_fail (G_IS_IO_STREAM (stream), NULL);
g_return_val_if_fail (message_received_callback != NULL, NULL);
g_return_val_if_fail (message_about_to_be_sent_callback != NULL, NULL);
g_return_val_if_fail (disconnected_callback != NULL, NULL);
worker = g_new0 (GDBusWorker, 1);
worker->ref_count = 1;
g_mutex_init (&worker->read_lock);
worker->message_received_callback = message_received_callback;
worker->message_about_to_be_sent_callback = message_about_to_be_sent_callback;
worker->disconnected_callback = disconnected_callback;
worker->user_data = user_data;
worker->stream = g_object_ref (stream);
worker->capabilities = capabilities;
worker->cancellable = g_cancellable_new ();
worker->output_pending = PENDING_NONE;
worker->frozen = initially_frozen;
worker->received_messages_while_frozen = g_queue_new ();
g_mutex_init (&worker->write_lock);
worker->write_queue = g_queue_new ();
if (G_IS_SOCKET_CONNECTION (worker->stream))
worker->socket = g_socket_connection_get_socket (G_SOCKET_CONNECTION (worker->stream));
worker->shared_thread_data = _g_dbus_shared_thread_ref ();
/* begin reading */
idle_source = g_idle_source_new ();
g_source_set_priority (idle_source, G_PRIORITY_DEFAULT);
g_source_set_callback (idle_source,
_g_dbus_worker_do_initial_read,
_g_dbus_worker_ref (worker),
(GDestroyNotify) _g_dbus_worker_unref);
g_source_set_name (idle_source, "[gio] _g_dbus_worker_do_initial_read");
g_source_attach (idle_source, worker->shared_thread_data->context);
g_source_unref (idle_source);
return worker;
}
/* ---------------------------------------------------------------------------------------------------- */
/* can be called from any thread
*
* write_lock is not held on entry
* output_pending may be anything
*/
void
_g_dbus_worker_close (GDBusWorker *worker,
GTask *task)
{
CloseData *close_data;
close_data = g_slice_new0 (CloseData);
close_data->worker = _g_dbus_worker_ref (worker);
close_data->task = (task == NULL ? NULL : g_object_ref (task));
/* Don't set worker->close_expected here - we're in the wrong thread.
* It'll be set before the actual close happens.
*/
g_cancellable_cancel (worker->cancellable);
g_mutex_lock (&worker->write_lock);
schedule_writing_unlocked (worker, NULL, NULL, close_data);
g_mutex_unlock (&worker->write_lock);
}
/* This can be called from any thread - frees worker. Note that
* callbacks might still happen if called from another thread than the
* worker - use your own synchronization primitive in the callbacks.
*
* write_lock is not held on entry
* output_pending may be anything
*/
void
_g_dbus_worker_stop (GDBusWorker *worker)
{
g_atomic_int_set (&worker->stopped, TRUE);
/* Cancel any pending operations and schedule a close of the underlying I/O
* stream in the worker thread
*/
_g_dbus_worker_close (worker, NULL);
2012-08-19 05:15:58 +02:00
/* _g_dbus_worker_close holds a ref until after an idle in the worker
* thread has run, so we no longer need to unref in an idle like in
* commit 322e25b535
*/
_g_dbus_worker_unref (worker);
}
/* ---------------------------------------------------------------------------------------------------- */
/* can be called from any thread (except the worker thread) - blocks
* calling thread until all queued outgoing messages are written and
* the transport has been flushed
*
* write_lock is not held on entry
* output_pending may be anything
*/
gboolean
_g_dbus_worker_flush_sync (GDBusWorker *worker,
GCancellable *cancellable,
GError **error)
{
gboolean ret;
FlushData *data;
guint64 pending_writes;
data = NULL;
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
ret = TRUE;
g_mutex_lock (&worker->write_lock);
/* if the queue is empty, no write is in-flight and we haven't written
* anything since the last flush, then there's nothing to wait for
*/
pending_writes = g_queue_get_length (worker->write_queue);
/* if a write is in-flight, we shouldn't be satisfied until the first
* flush operation that follows it
*/
if (worker->output_pending == PENDING_WRITE)
pending_writes += 1;
if (pending_writes > 0 ||
worker->write_num_messages_written != worker->write_num_messages_flushed)
{
data = g_new0 (FlushData, 1);
g_mutex_init (&data->mutex);
g_cond_init (&data->cond);
data->number_to_wait_for = worker->write_num_messages_written + pending_writes;
data->finished = FALSE;
g_mutex_lock (&data->mutex);
schedule_writing_unlocked (worker, NULL, data, NULL);
}
g_mutex_unlock (&worker->write_lock);
if (data != NULL)
{
/* Wait for flush operations to finish. */
while (!data->finished)
{
g_cond_wait (&data->cond, &data->mutex);
}
g_mutex_unlock (&data->mutex);
g_cond_clear (&data->cond);
g_mutex_clear (&data->mutex);
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
if (data->error != NULL)
{
ret = FALSE;
g_propagate_error (error, data->error);
}
g_free (data);
}
return ret;
}
/* ---------------------------------------------------------------------------------------------------- */
#define G_DBUS_DEBUG_AUTHENTICATION (1<<0)
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
#define G_DBUS_DEBUG_TRANSPORT (1<<1)
#define G_DBUS_DEBUG_MESSAGE (1<<2)
#define G_DBUS_DEBUG_PAYLOAD (1<<3)
#define G_DBUS_DEBUG_CALL (1<<4)
#define G_DBUS_DEBUG_SIGNAL (1<<5)
#define G_DBUS_DEBUG_INCOMING (1<<6)
#define G_DBUS_DEBUG_RETURN (1<<7)
#define G_DBUS_DEBUG_EMISSION (1<<8)
#define G_DBUS_DEBUG_ADDRESS (1<<9)
#define G_DBUS_DEBUG_PROXY (1<<10)
static gint _gdbus_debug_flags = 0;
gboolean
_g_dbus_debug_authentication (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_AUTHENTICATION) != 0;
}
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
gboolean
_g_dbus_debug_transport (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_TRANSPORT) != 0;
}
gboolean
_g_dbus_debug_message (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_MESSAGE) != 0;
}
gboolean
_g_dbus_debug_payload (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_PAYLOAD) != 0;
}
gboolean
_g_dbus_debug_call (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_CALL) != 0;
}
gboolean
_g_dbus_debug_signal (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_SIGNAL) != 0;
}
gboolean
_g_dbus_debug_incoming (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_INCOMING) != 0;
}
GDBus: Add `return' debug option This prints all GDBusMethodInvocation API usage and is normally used with the `incoming' option. Example: # G_DBUS_DEBUG=incoming,return ./polkitd --replace Entering main event loop Connected to the system bus Registering null backend at priority -10 [...] Acquired the name org.freedesktop.PolicyKit1 [...] ======================================================================== GDBus-debug:Incoming: <<<< METHOD INVOCATION org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority invoked by name :1.26 serial 299 ======================================================================== GDBus-debug:Return: >>>> METHOD ERROR org.freedesktop.PolicyKit1.Error.Failed message `Cannot determine session the caller is in' in response to org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority to name :1.26 reply-serial 299 [...] ======================================================================== GDBus-debug:Incoming: <<<< METHOD INVOCATION org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority invoked by name :1.2402 serial 25 ======================================================================== GDBus-debug:Return: >>>> METHOD RETURN in response to org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority to name :1.2402 reply-serial 25 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-04 22:59:26 +02:00
gboolean
_g_dbus_debug_return (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_RETURN) != 0;
}
gboolean
_g_dbus_debug_emission (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_EMISSION) != 0;
}
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
gboolean
_g_dbus_debug_address (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_ADDRESS) != 0;
}
gboolean
_g_dbus_debug_proxy (void)
{
_g_dbus_initialize ();
return (_gdbus_debug_flags & G_DBUS_DEBUG_PROXY) != 0;
}
G_LOCK_DEFINE_STATIC (print_lock);
void
_g_dbus_debug_print_lock (void)
{
G_LOCK (print_lock);
}
void
_g_dbus_debug_print_unlock (void)
{
G_UNLOCK (print_lock);
}
2014-08-18 14:08:41 +02:00
/**
* _g_dbus_initialize:
*
* Does various one-time init things such as
*
* - registering the G_DBUS_ERROR error domain
* - parses the G_DBUS_DEBUG environment variable
*/
void
_g_dbus_initialize (void)
{
static volatile gsize initialized = 0;
if (g_once_init_enter (&initialized))
{
volatile GQuark g_dbus_error_domain;
const gchar *debug;
g_dbus_error_domain = G_DBUS_ERROR;
(g_dbus_error_domain); /* To avoid -Wunused-but-set-variable */
debug = g_getenv ("G_DBUS_DEBUG");
if (debug != NULL)
{
const GDebugKey keys[] = {
{ "authentication", G_DBUS_DEBUG_AUTHENTICATION },
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
{ "transport", G_DBUS_DEBUG_TRANSPORT },
{ "message", G_DBUS_DEBUG_MESSAGE },
{ "payload", G_DBUS_DEBUG_PAYLOAD },
{ "call", G_DBUS_DEBUG_CALL },
{ "signal", G_DBUS_DEBUG_SIGNAL },
{ "incoming", G_DBUS_DEBUG_INCOMING },
GDBus: Add `return' debug option This prints all GDBusMethodInvocation API usage and is normally used with the `incoming' option. Example: # G_DBUS_DEBUG=incoming,return ./polkitd --replace Entering main event loop Connected to the system bus Registering null backend at priority -10 [...] Acquired the name org.freedesktop.PolicyKit1 [...] ======================================================================== GDBus-debug:Incoming: <<<< METHOD INVOCATION org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority invoked by name :1.26 serial 299 ======================================================================== GDBus-debug:Return: >>>> METHOD ERROR org.freedesktop.PolicyKit1.Error.Failed message `Cannot determine session the caller is in' in response to org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority to name :1.26 reply-serial 299 [...] ======================================================================== GDBus-debug:Incoming: <<<< METHOD INVOCATION org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority invoked by name :1.2402 serial 25 ======================================================================== GDBus-debug:Return: >>>> METHOD RETURN in response to org.freedesktop.PolicyKit1.Authority.RegisterAuthenticationAgent() on object /org/freedesktop/PolicyKit1/Authority to name :1.2402 reply-serial 25 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-04 22:59:26 +02:00
{ "return", G_DBUS_DEBUG_RETURN },
{ "emission", G_DBUS_DEBUG_EMISSION },
{ "address", G_DBUS_DEBUG_ADDRESS },
{ "proxy", G_DBUS_DEBUG_PROXY }
};
_gdbus_debug_flags = g_parse_debug_string (debug, keys, G_N_ELEMENTS (keys));
if (_gdbus_debug_flags & G_DBUS_DEBUG_PAYLOAD)
_gdbus_debug_flags |= G_DBUS_DEBUG_MESSAGE;
}
/* Work-around for https://bugzilla.gnome.org/show_bug.cgi?id=627724 */
ensure_required_types ();
g_once_init_leave (&initialized, 1);
}
}
/* ---------------------------------------------------------------------------------------------------- */
GVariantType *
_g_dbus_compute_complete_signature (GDBusArgInfo **args)
{
const GVariantType *arg_types[256];
guint n;
if (args)
for (n = 0; args[n] != NULL; n++)
{
/* DBus places a hard limit of 255 on signature length.
* therefore number of args must be less than 256.
*/
g_assert (n < 256);
arg_types[n] = G_VARIANT_TYPE (args[n]->signature);
if G_UNLIKELY (arg_types[n] == NULL)
return NULL;
}
else
n = 0;
return g_variant_type_new_tuple (arg_types, n);
}
2010-05-06 23:31:51 +02:00
/* ---------------------------------------------------------------------------------------------------- */
#ifdef G_OS_WIN32
extern BOOL WINAPI ConvertSidToStringSidA (PSID Sid, LPSTR *StringSid);
gchar *
_g_dbus_win32_get_user_sid (void)
{
HANDLE h;
TOKEN_USER *user;
DWORD token_information_len;
PSID psid;
gchar *sid;
gchar *ret;
ret = NULL;
user = NULL;
h = INVALID_HANDLE_VALUE;
if (!OpenProcessToken (GetCurrentProcess (), TOKEN_QUERY, &h))
{
g_warning ("OpenProcessToken failed with error code %d", (gint) GetLastError ());
goto out;
}
/* Get length of buffer */
token_information_len = 0;
if (!GetTokenInformation (h, TokenUser, NULL, 0, &token_information_len))
{
if (GetLastError () != ERROR_INSUFFICIENT_BUFFER)
{
g_warning ("GetTokenInformation() failed with error code %d", (gint) GetLastError ());
goto out;
}
}
user = g_malloc (token_information_len);
if (!GetTokenInformation (h, TokenUser, user, token_information_len, &token_information_len))
{
g_warning ("GetTokenInformation() failed with error code %d", (gint) GetLastError ());
goto out;
}
psid = user->User.Sid;
if (!IsValidSid (psid))
{
g_warning ("Invalid SID");
goto out;
}
if (!ConvertSidToStringSidA (psid, &sid))
{
g_warning ("Invalid SID");
goto out;
}
ret = g_strdup (sid);
LocalFree (sid);
out:
g_free (user);
if (h != INVALID_HANDLE_VALUE)
CloseHandle (h);
return ret;
}
#define DBUS_DAEMON_ADDRESS_INFO "DBusDaemonAddressInfo"
#define DBUS_DAEMON_MUTEX "DBusDaemonMutex"
#define UNIQUE_DBUS_INIT_MUTEX "UniqueDBusInitMutex"
#define DBUS_AUTOLAUNCH_MUTEX "DBusAutolaunchMutex"
static void
release_mutex (HANDLE mutex)
{
ReleaseMutex (mutex);
CloseHandle (mutex);
}
static HANDLE
acquire_mutex (const char *mutexname)
{
HANDLE mutex;
DWORD res;
mutex = CreateMutexA (NULL, FALSE, mutexname);
if (!mutex)
return 0;
res = WaitForSingleObject (mutex, INFINITE);
switch (res)
{
case WAIT_ABANDONED:
release_mutex (mutex);
return 0;
case WAIT_FAILED:
case WAIT_TIMEOUT:
return 0;
}
return mutex;
}
static gboolean
is_mutex_owned (const char *mutexname)
{
HANDLE mutex;
gboolean res = FALSE;
mutex = CreateMutexA (NULL, FALSE, mutexname);
if (WaitForSingleObject (mutex, 10) == WAIT_TIMEOUT)
res = TRUE;
else
ReleaseMutex (mutex);
CloseHandle (mutex);
return res;
}
static char *
read_shm (const char *shm_name)
{
HANDLE shared_mem;
char *shared_data;
char *res;
int i;
res = NULL;
for (i = 0; i < 20; i++)
{
shared_mem = OpenFileMappingA (FILE_MAP_READ, FALSE, shm_name);
if (shared_mem != 0)
break;
Sleep (100);
}
if (shared_mem != 0)
{
shared_data = MapViewOfFile (shared_mem, FILE_MAP_READ, 0, 0, 0);
/* It looks that a race is possible here:
* if the dbus process already created mapping but didn't fill it
* the code below may read incorrect address.
* Also this is a bit complicated by the fact that
* any change in the "synchronization contract" between processes
* should be accompanied with renaming all of used win32 named objects:
* otherwise libgio-2.0-0.dll of different versions shipped with
* different apps may break each other due to protocol difference.
*/
if (shared_data != NULL)
{
res = g_strdup (shared_data);
UnmapViewOfFile (shared_data);
}
CloseHandle (shared_mem);
}
return res;
}
static HANDLE
set_shm (const char *shm_name, const char *value)
{
HANDLE shared_mem;
char *shared_data;
shared_mem = CreateFileMappingA (INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE,
0, strlen (value) + 1, shm_name);
if (shared_mem == 0)
return 0;
shared_data = MapViewOfFile (shared_mem, FILE_MAP_WRITE, 0, 0, 0 );
if (shared_data == NULL)
return 0;
strcpy (shared_data, value);
UnmapViewOfFile (shared_data);
return shared_mem;
}
/* These keep state between publish_session_bus and unpublish_session_bus */
static HANDLE published_daemon_mutex;
static HANDLE published_shared_mem;
static gboolean
publish_session_bus (const char *address)
{
HANDLE init_mutex;
init_mutex = acquire_mutex (UNIQUE_DBUS_INIT_MUTEX);
published_daemon_mutex = CreateMutexA (NULL, FALSE, DBUS_DAEMON_MUTEX);
if (WaitForSingleObject (published_daemon_mutex, 10 ) != WAIT_OBJECT_0)
{
release_mutex (init_mutex);
CloseHandle (published_daemon_mutex);
published_daemon_mutex = NULL;
return FALSE;
}
published_shared_mem = set_shm (DBUS_DAEMON_ADDRESS_INFO, address);
if (!published_shared_mem)
{
release_mutex (init_mutex);
CloseHandle (published_daemon_mutex);
published_daemon_mutex = NULL;
return FALSE;
}
release_mutex (init_mutex);
return TRUE;
}
static void
unpublish_session_bus (void)
{
HANDLE init_mutex;
init_mutex = acquire_mutex (UNIQUE_DBUS_INIT_MUTEX);
CloseHandle (published_shared_mem);
published_shared_mem = NULL;
release_mutex (published_daemon_mutex);
published_daemon_mutex = NULL;
release_mutex (init_mutex);
}
static void
wait_console_window (void)
{
FILE *console = fopen ("CONOUT$", "w");
SetConsoleTitleW (L"gdbus-daemon output. Type any character to close this window.");
fprintf (console, _("(Type any character to close this window)\n"));
fflush (console);
_getch ();
}
static void
open_console_window (void)
{
if (((HANDLE) _get_osfhandle (fileno (stdout)) == INVALID_HANDLE_VALUE ||
(HANDLE) _get_osfhandle (fileno (stderr)) == INVALID_HANDLE_VALUE) && AllocConsole ())
{
if ((HANDLE) _get_osfhandle (fileno (stdout)) == INVALID_HANDLE_VALUE)
freopen ("CONOUT$", "w", stdout);
if ((HANDLE) _get_osfhandle (fileno (stderr)) == INVALID_HANDLE_VALUE)
freopen ("CONOUT$", "w", stderr);
SetConsoleTitleW (L"gdbus-daemon debug output.");
atexit (wait_console_window);
}
}
static void
idle_timeout_cb (GDBusDaemon *daemon, gpointer user_data)
{
GMainLoop *loop = user_data;
g_main_loop_quit (loop);
}
/* Satisfies STARTF_FORCEONFEEDBACK */
static void
turn_off_the_starting_cursor (void)
{
MSG msg;
BOOL bRet;
PostQuitMessage (0);
while ((bRet = GetMessage (&msg, 0, 0, 0)) != 0)
{
if (bRet == -1)
continue;
TranslateMessage (&msg);
DispatchMessage (&msg);
}
}
__declspec(dllexport) void __stdcall
g_win32_run_session_bus (void* hwnd, void* hinst, const char* cmdline, int cmdshow)
{
GDBusDaemon *daemon;
GMainLoop *loop;
const char *address;
GError *error = NULL;
turn_off_the_starting_cursor ();
if (g_getenv ("GDBUS_DAEMON_DEBUG") != NULL)
open_console_window ();
address = "nonce-tcp:";
daemon = _g_dbus_daemon_new (address, NULL, &error);
if (daemon == NULL)
{
g_printerr ("Can't init bus: %s\n", error->message);
g_error_free (error);
return;
}
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
loop = g_main_loop_new (NULL, FALSE);
/* There is a subtle detail with "idle-timeout" signal of dbus daemon:
* It is fired on idle after last client disconnection,
* but (at least with glib 2.59.1) it is NEVER fired
* if no clients connect to daemon at all.
* This may lead to infinite run of this daemon process.
*/
g_signal_connect (daemon, "idle-timeout", G_CALLBACK (idle_timeout_cb), loop);
if (publish_session_bus (_g_dbus_daemon_get_address (daemon)))
{
g_main_loop_run (loop);
unpublish_session_bus ();
}
g_main_loop_unref (loop);
g_object_unref (daemon);
}
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
static gboolean autolaunch_binary_absent = FALSE;
gchar *
_g_dbus_win32_get_session_address_dbus_launch (GError **error)
{
HANDLE autolaunch_mutex, init_mutex;
char *address = NULL;
autolaunch_mutex = acquire_mutex (DBUS_AUTOLAUNCH_MUTEX);
init_mutex = acquire_mutex (UNIQUE_DBUS_INIT_MUTEX);
if (is_mutex_owned (DBUS_DAEMON_MUTEX))
address = read_shm (DBUS_DAEMON_ADDRESS_INFO);
release_mutex (init_mutex);
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
if (address == NULL && !autolaunch_binary_absent)
{
wchar_t gio_path[MAX_PATH + 2] = { 0 };
int gio_path_len = GetModuleFileNameW (_g_io_win32_get_module (), gio_path, MAX_PATH + 1);
/* The <= MAX_PATH check prevents truncated path usage */
if (gio_path_len > 0 && gio_path_len <= MAX_PATH)
{
PROCESS_INFORMATION pi = { 0 };
STARTUPINFOW si = { 0 };
BOOL res = FALSE;
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
wchar_t exe_path[MAX_PATH + 100] = { 0 };
/* calculate index of first char of dll file name inside full path */
int gio_name_index = gio_path_len;
for (; gio_name_index > 0; --gio_name_index)
{
wchar_t prev_char = gio_path[gio_name_index - 1];
if (prev_char == L'\\' || prev_char == L'/')
break;
}
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
gio_path[gio_name_index] = L'\0';
wcscpy (exe_path, gio_path);
wcscat (exe_path, L"\\gdbus.exe");
if (GetFileAttributesW (exe_path) == INVALID_FILE_ATTRIBUTES)
{
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
/* warning won't be raised another time
* since autolaunch_binary_absent would be already set.
*/
autolaunch_binary_absent = TRUE;
g_warning ("win32 session dbus binary not found: %S", exe_path );
}
else
{
wchar_t args[MAX_PATH*2 + 100] = { 0 };
wcscpy (args, L"\"");
wcscat (args, exe_path);
wcscat (args, L"\" ");
#define _L_PREFIX_FOR_EXPANDED(arg) L##arg
#define _L_PREFIX(arg) _L_PREFIX_FOR_EXPANDED (arg)
wcscat (args, _L_PREFIX (_GDBUS_ARG_WIN32_RUN_SESSION_BUS));
#undef _L_PREFIX
#undef _L_PREFIX_FOR_EXPANDED
res = CreateProcessW (exe_path, args,
0, 0, FALSE,
NORMAL_PRIORITY_CLASS | CREATE_NO_WINDOW | DETACHED_PROCESS,
0, gio_path,
&si, &pi);
}
if (res)
gdbus, win32: autolaunch bus with gdbus.exe instead of rundll32 This is a bit of breaking change: After this commit the apps relying of win32 dbus autolaunching, need to install gdbus.exe alongside with libgio-2.0-0.dll. A new command for gdbus tool is used for running server: gdbus.exe _win32_run_session_bus To implement it gdbus.exe uses the same exported function g_win32_run_session_bus that earlier was used by rundll. So (private) ABI was not changed. It runs the bus syncronously, exiting after inactivity timeout - all exactly like it was runed earlier with the help of rundll32. While private exported function may have _some_ version compatibility issues between gdbus.exe and libgio-2.0-0.dll compiling dbus server registration logic directly into gdbus.exe can lead to _more hidden and more complex_ compatibility issues since the names and behaviour of syncronization objects used to publish server address would be required compatible between gdbus.exe and libgio-2.0-0.dll. So using "private" exported function to call looks like more safe behaviour. gdbus.exe binary was selected for this task since it has corresponding name and at least for msys2 is shippied in same package with libgio-2.0-0.dll turn_off_the_starting_cursor function is also kept as is, however it is not obvious if it is still needed (by now I failed reproducing original issue). Explicit g_warnings added to help with possible problematic cases for absent or incompatible gdbus.exe Mainloop is created after successful daemon creation Before this change the function leaked mainloop on daemon creation fail
2019-02-28 21:12:47 +01:00
{
address = read_shm (DBUS_DAEMON_ADDRESS_INFO);
if (address == NULL)
g_warning ("%S dbus binary failed to launch bus, maybe incompatible version", exe_path );
}
}
}
release_mutex (autolaunch_mutex);
if (address == NULL)
g_set_error (error,
G_IO_ERROR,
G_IO_ERROR_FAILED,
_("Session dbus not running, and autolaunch failed"));
return address;
}
#endif
/* ---------------------------------------------------------------------------------------------------- */
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
gchar *
_g_dbus_get_machine_id (GError **error)
{
#ifdef G_OS_WIN32
HW_PROFILE_INFOA info;
char *src, *dest, *res;
int i;
if (!GetCurrentHwProfileA (&info))
{
char *message = g_win32_error_message (GetLastError ());
g_set_error (error,
G_IO_ERROR,
G_IO_ERROR_FAILED,
_("Unable to get Hardware profile: %s"), message);
g_free (message);
return NULL;
}
/* Form: {12340001-4980-1920-6788-123456789012} */
src = &info.szHwProfileGuid[0];
res = g_malloc (32+1);
dest = res;
src++; /* Skip { */
for (i = 0; i < 8; i++)
*dest++ = *src++;
src++; /* Skip - */
for (i = 0; i < 4; i++)
*dest++ = *src++;
src++; /* Skip - */
for (i = 0; i < 4; i++)
*dest++ = *src++;
src++; /* Skip - */
for (i = 0; i < 4; i++)
*dest++ = *src++;
src++; /* Skip - */
for (i = 0; i < 12; i++)
*dest++ = *src++;
*dest = 0;
return res;
#else
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
gchar *ret;
GError *first_error;
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
/* TODO: use PACKAGE_LOCALSTATEDIR ? */
ret = NULL;
first_error = NULL;
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
if (!g_file_get_contents ("/var/lib/dbus/machine-id",
&ret,
NULL,
&first_error) &&
!g_file_get_contents ("/etc/machine-id",
&ret,
NULL,
NULL))
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
{
g_propagate_prefixed_error (error, first_error,
_("Unable to load /var/lib/dbus/machine-id or /etc/machine-id: "));
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
}
else
{
/* ignore the error from the first try, if any */
g_clear_error (&first_error);
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
/* TODO: validate value */
g_strstrip (ret);
}
return ret;
#endif
GDBus: Handle autolaunching on UNIX/Freedesktop OSes Also add a 'address' G_DBUS_DEBUG option that will print out useful debug information such as GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14542: Autolaunch enabled (using X11). 14542: --exit-with-session automatically enabled 14542: Connected to X11 display ':0.0' 14542: === Parent dbus-launch continues 14542: Waiting for babysitter's intermediate parent 14542: Reading address from bus 14542: Reading PID from daemon 14542: Saving x11 address 14542: Created window 88080385 14542: session file: /root/.dbus/session-bus/05e508961149264c9b750a4c494aa6f7-0 14542: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' and GDBus-debug:Address: In g_dbus_address_get_for_bus_sync() for bus type `session' GDBus-debug:Address: env var DBUS_SESSION_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_SYSTEM_BUS_ADDRESS is not set GDBus-debug:Address: env var DBUS_STARTER_BUS_TYPE is not set GDBus-debug:Address: Running `dbus-launch --autolaunch=05e508961149264c9b750a4c494aa6f7 --binary-syntax --close-stderr' to get bus address (possibly autolaunching) GDBus-debug:Address: dbus-launch output: 0000: 75 6e 69 78 3a 61 62 73 74 72 61 63 74 3d 2f 74 unix:abstract=/t 0010: 6d 70 2f 64 62 75 73 2d 77 42 41 6f 4b 59 49 52 mp/dbus-wBAoKYIR 0020: 7a 75 2c 67 75 69 64 3d 30 34 30 64 31 33 66 33 zu,guid=040d13f3 0030: 30 61 30 62 35 32 63 32 30 66 36 32 63 34 31 63 0a0b52c20f62c41c 0040: 30 30 30 30 35 30 38 64 00 d2 38 00 00 01 00 40 0000508d..8....@ 0050: 05 00 00 00 00 ..... GDBus-debug:Address: dbus-launch stderr output: 14549: Autolaunch enabled (using X11). 14549: --exit-with-session automatically enabled 14549: Connected to X11 display ':0.0' 14549: dbus-daemon is already running. Returning existing parameters. 14549: dbus-launch exiting GDBus-debug:Address: Returning address `unix:abstract=/tmp/dbus-wBAoKYIRzu,guid=040d13f30a0b52c20f62c41c0000508d' for bus type `session' Note that things work exactly like libdbus, e.g. from the dbus-launch(1) man page: Whenever an autolaunch occurs, the application that had to start a new bus will be in its own little world; it can effectively end up starting a whole new session if it tries to use a lot of bus services. This can be suboptimal or even totally broken, depending on the app and what it tries to do. [...] You can always avoid autolaunch by manually setting DBUS_SESSION_BUS_ADDRESS. Autolaunch happens because the default address if none is set is "autolaunch:", so if any other address is set there will be no autolaunch. You can however include autolaunch in an explicit session bus address as a fallback, for example DBUS_SESSION_BUS_ADDRESS="something:,autolaunch:" - in that case if the first address doesn't work, processes will autolaunch. (The bus address variable contains a comma-separated list of addresses to try.) Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-07-06 22:57:28 +02:00
}
/* ---------------------------------------------------------------------------------------------------- */
gchar *
_g_dbus_enum_to_string (GType enum_type, gint value)
{
gchar *ret;
GEnumClass *klass;
GEnumValue *enum_value;
klass = g_type_class_ref (enum_type);
enum_value = g_enum_get_value (klass, value);
if (enum_value != NULL)
ret = g_strdup (enum_value->value_nick);
else
ret = g_strdup_printf ("unknown (value %d)", value);
g_type_class_unref (klass);
return ret;
}
/* ---------------------------------------------------------------------------------------------------- */
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
static void
write_message_print_transport_debug (gssize bytes_written,
MessageToWriteData *data)
{
if (G_LIKELY (!_g_dbus_debug_transport ()))
goto out;
_g_dbus_debug_print_lock ();
g_print ("========================================================================\n"
"GDBus-debug:Transport:\n"
" >>>> WROTE %" G_GSSIZE_FORMAT " bytes of message with serial %d and\n"
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
" size %" G_GSIZE_FORMAT " from offset %" G_GSIZE_FORMAT " on a %s\n",
bytes_written,
g_dbus_message_get_serial (data->message),
data->blob_size,
data->total_written,
g_type_name (G_TYPE_FROM_INSTANCE (g_io_stream_get_output_stream (data->worker->stream))));
_g_dbus_debug_print_unlock ();
out:
;
}
/* ---------------------------------------------------------------------------------------------------- */
static void
read_message_print_transport_debug (gssize bytes_read,
GDBusWorker *worker)
{
gsize size;
gint32 serial;
gint32 message_length;
if (G_LIKELY (!_g_dbus_debug_transport ()))
goto out;
size = bytes_read + worker->read_buffer_cur_size;
serial = 0;
message_length = 0;
if (size >= 16)
message_length = g_dbus_message_bytes_needed ((guchar *) worker->read_buffer, size, NULL);
if (size >= 1)
{
switch (worker->read_buffer[0])
{
case 'l':
if (size >= 12)
serial = GUINT32_FROM_LE (((guint32 *) worker->read_buffer)[2]);
break;
case 'B':
if (size >= 12)
serial = GUINT32_FROM_BE (((guint32 *) worker->read_buffer)[2]);
break;
default:
/* an error will be set elsewhere if this happens */
goto out;
}
}
_g_dbus_debug_print_lock ();
g_print ("========================================================================\n"
"GDBus-debug:Transport:\n"
" <<<< READ %" G_GSSIZE_FORMAT " bytes of message with serial %d and\n"
Bug 626748 – Use async methods for writing and handle EAGAIN If sending a lot of data and/or the other peer is not reading it, then socket buffers can overflow. This is communicated from the kernel by returning EAGAIN. In GIO, it is modelled by g_output_stream_write() and g_socket_send_message() returning G_IO_ERROR_WOULD_BLOCK. It is also problematic that that we're using synchronous IO in the shared GDBus IO thread. It means that one GDBusConnection can lock up others. It turns out that by porting from g_output_stream_write() to g_output_stream_write_async() we fix the EAGAIN issue. For GSocket, we still need to handle things manually (by creating a GSource) as g_socket_send_message() is used. We check the new behavior in Michael's producer/consumer test case (at /gdbus/overflow in gdbus-peer.c) added in the last commit. Also add a test case that sends and receives a 20 MiB message. Also add a new `transport' G_DBUS_DEBUG option so it is easy to inspect partial writes: $ G_DBUS_DEBUG=transport ./gdbus-connection -p /gdbus/connection/large_message [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 0 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 128000 on a GSocketOutputStream ======================================================================== GDBus-debug:Transport: >>>> WROTE 128000 bytes of message with serial 4 and size 20971669 from offset 256000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: >>>> WROTE 43669 bytes of message with serial 4 and size 20971669 from offset 20928000 on a GSocketOutputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 16 bytes of message with serial 3 and size 20971620 to offset 0 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 15984 bytes of message with serial 3 and size 20971620 to offset 16 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 16000 bytes of message with serial 3 and size 20971620 to offset 16000 from a GSocketInputStream [...] ======================================================================== GDBus-debug:Transport: <<<< READ 144000 bytes of message with serial 3 and size 20971620 to offset 20720000 from a GSocketInputStream ======================================================================== GDBus-debug:Transport: <<<< READ 107620 bytes of message with serial 3 and size 20971620 to offset 20864000 from a GSocketInputStream OK https://bugzilla.gnome.org/show_bug.cgi?id=626748 Signed-off-by: David Zeuthen <davidz@redhat.com>
2010-08-16 19:43:35 +02:00
" size %d to offset %" G_GSIZE_FORMAT " from a %s\n",
bytes_read,
serial,
message_length,
worker->read_buffer_cur_size,
g_type_name (G_TYPE_FROM_INSTANCE (g_io_stream_get_input_stream (worker->stream))));
_g_dbus_debug_print_unlock ();
out:
;
}
/* ---------------------------------------------------------------------------------------------------- */
gboolean
_g_signal_accumulator_false_handled (GSignalInvocationHint *ihint,
GValue *return_accu,
const GValue *handler_return,
gpointer dummy)
{
gboolean continue_emission;
gboolean signal_return;
signal_return = g_value_get_boolean (handler_return);
g_value_set_boolean (return_accu, signal_return);
continue_emission = signal_return;
return continue_emission;
}
/* ---------------------------------------------------------------------------------------------------- */
static void
append_nibble (GString *s, gint val)
{
g_string_append_c (s, val >= 10 ? ('a' + val - 10) : ('0' + val));
}
/* ---------------------------------------------------------------------------------------------------- */
gchar *
_g_dbus_hexencode (const gchar *str,
gsize str_len)
{
gsize n;
GString *s;
s = g_string_new (NULL);
for (n = 0; n < str_len; n++)
{
gint val;
gint upper_nibble;
gint lower_nibble;
val = ((const guchar *) str)[n];
upper_nibble = val >> 4;
lower_nibble = val & 0x0f;
append_nibble (s, upper_nibble);
append_nibble (s, lower_nibble);
}
return g_string_free (s, FALSE);
}