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eb78cfeecab37ed46c34e00cacb32b3e4cc41991
glib/gio/gnetworkaddress.c
Sophie Herold 0d268c4825 Remove all nicks and blurbs from param specs 
Nicks and blurbs don't have any practical use for gio/gobject libraries.
Leaving tests untouched since this features is still used by other libraries.

Closes #2991
2023-11-29 13:41:34 +00:00

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/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
/* GIO - GLib Input, Output and Streaming Library
*
* Copyright (C) 2008 Red Hat, Inc.
* Copyright (C) 2018 Igalia S.L.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*
* 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
* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "config.h"
#include <glib.h>
#include "glibintl.h"
#include <stdlib.h>
#include "gnetworkaddress.h"
#include "gasyncresult.h"
#include "ginetaddress.h"
#include "ginetsocketaddress.h"
#include "gnetworkingprivate.h"
#include "gproxyaddressenumerator.h"
#include "gresolver.h"
#include "gtask.h"
#include "gsocketaddressenumerator.h"
#include "gioerror.h"
#include "gsocketconnectable.h"
#include <string.h>
/* As recommended by RFC 8305 this is the time it waits for a following
DNS response to come in (ipv4 waiting on ipv6 generally)
*/
#define HAPPY_EYEBALLS_RESOLUTION_DELAY_MS 50
/**
* GNetworkAddress:
*
* `GNetworkAddress` provides an easy way to resolve a hostname and
* then attempt to connect to that host, handling the possibility of
* multiple IP addresses and multiple address families.
*
* The enumeration results of resolved addresses *may* be cached as long
* as this object is kept alive which may have unexpected results if
* alive for too long.
*
* See [iface@Gio.SocketConnectable] for an example of using the connectable
* interface.
*/
struct _GNetworkAddressPrivate {
gchar *hostname;
guint16 port;
GList *cached_sockaddrs;
gchar *scheme;
gint64 resolver_serial;
};
enum {
PROP_0,
PROP_HOSTNAME,
PROP_PORT,
PROP_SCHEME,
};
static void g_network_address_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec);
static void g_network_address_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec);
static void g_network_address_connectable_iface_init (GSocketConnectableIface *iface);
static GSocketAddressEnumerator *g_network_address_connectable_enumerate (GSocketConnectable *connectable);
static GSocketAddressEnumerator *g_network_address_connectable_proxy_enumerate (GSocketConnectable *connectable);
static gchar *g_network_address_connectable_to_string (GSocketConnectable *connectable);
G_DEFINE_TYPE_WITH_CODE (GNetworkAddress, g_network_address, G_TYPE_OBJECT,
G_ADD_PRIVATE (GNetworkAddress)
G_IMPLEMENT_INTERFACE (G_TYPE_SOCKET_CONNECTABLE,
g_network_address_connectable_iface_init))
static void
g_network_address_finalize (GObject *object)
{
GNetworkAddress *addr = G_NETWORK_ADDRESS (object);
g_free (addr->priv->hostname);
g_free (addr->priv->scheme);
g_list_free_full (addr->priv->cached_sockaddrs, g_object_unref);
G_OBJECT_CLASS (g_network_address_parent_class)->finalize (object);
}
static void
g_network_address_class_init (GNetworkAddressClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
gobject_class->set_property = g_network_address_set_property;
gobject_class->get_property = g_network_address_get_property;
gobject_class->finalize = g_network_address_finalize;
/**
* GNetworkAddress:hostname:
*
* Hostname to resolve.
*
* Since: 2.22
*/
g_object_class_install_property (gobject_class, PROP_HOSTNAME,
g_param_spec_string ("hostname", NULL, NULL,
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GNetworkAddress:port:
*
* Network port.
*
* Since: 2.22
*/
g_object_class_install_property (gobject_class, PROP_PORT,
g_param_spec_uint ("port", NULL, NULL,
0, 65535, 0,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
/**
* GNetworkAddress:scheme:
*
* URI scheme.
*
* Since: 2.22
*/
g_object_class_install_property (gobject_class, PROP_SCHEME,
g_param_spec_string ("scheme", NULL, NULL,
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS));
}
static void
g_network_address_connectable_iface_init (GSocketConnectableIface *connectable_iface)
{
connectable_iface->enumerate = g_network_address_connectable_enumerate;
connectable_iface->proxy_enumerate = g_network_address_connectable_proxy_enumerate;
connectable_iface->to_string = g_network_address_connectable_to_string;
}
static void
g_network_address_init (GNetworkAddress *addr)
{
addr->priv = g_network_address_get_instance_private (addr);
}
static void
g_network_address_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
GNetworkAddress *addr = G_NETWORK_ADDRESS (object);
switch (prop_id)
{
case PROP_HOSTNAME:
g_free (addr->priv->hostname);
addr->priv->hostname = g_value_dup_string (value);
break;
case PROP_PORT:
addr->priv->port = g_value_get_uint (value);
break;
case PROP_SCHEME:
g_free (addr->priv->scheme);
addr->priv->scheme = g_value_dup_string (value);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static void
g_network_address_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
GNetworkAddress *addr = G_NETWORK_ADDRESS (object);
switch (prop_id)
{
case PROP_HOSTNAME:
g_value_set_string (value, addr->priv->hostname);
break;
case PROP_PORT:
g_value_set_uint (value, addr->priv->port);
break;
case PROP_SCHEME:
g_value_set_string (value, addr->priv->scheme);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
/*
* inet_addresses_to_inet_socket_addresses:
* @addresses: (transfer full): #GList of #GInetAddress
*
* Returns: (transfer full): #GList of #GInetSocketAddress
*/
static GList *
inet_addresses_to_inet_socket_addresses (GNetworkAddress *addr,
GList *addresses)
{
GList *a, *socket_addresses = NULL;
for (a = addresses; a; a = a->next)
{
GSocketAddress *sockaddr = g_inet_socket_address_new (a->data, addr->priv->port);
socket_addresses = g_list_append (socket_addresses, g_steal_pointer (&sockaddr));
g_object_unref (a->data);
}
g_list_free (addresses);
return socket_addresses;
}
/*
* g_network_address_set_cached_addresses:
* @addr: A #GNetworkAddress
* @addresses: (transfer full): List of #GInetAddress or #GInetSocketAddress
* @resolver_serial: Serial of #GResolver used
*
* Consumes @addresses and uses them to replace the current internal list.
*/
static void
g_network_address_set_cached_addresses (GNetworkAddress *addr,
GList *addresses,
guint64 resolver_serial)
{
g_assert (addresses != NULL);
if (addr->priv->cached_sockaddrs)
g_list_free_full (addr->priv->cached_sockaddrs, g_object_unref);
if (G_IS_INET_SOCKET_ADDRESS (addresses->data))
addr->priv->cached_sockaddrs = g_steal_pointer (&addresses);
else
addr->priv->cached_sockaddrs = inet_addresses_to_inet_socket_addresses (addr, g_steal_pointer (&addresses));
addr->priv->resolver_serial = resolver_serial;
}
static gboolean
g_network_address_parse_sockaddr (GNetworkAddress *addr)
{
GSocketAddress *sockaddr;
g_assert (addr->priv->cached_sockaddrs == NULL);
sockaddr = g_inet_socket_address_new_from_string (addr->priv->hostname,
addr->priv->port);
if (sockaddr)
{
addr->priv->cached_sockaddrs = g_list_append (addr->priv->cached_sockaddrs, sockaddr);
return TRUE;
}
else
return FALSE;
}
/**
* g_network_address_new:
* @hostname: the hostname
* @port: the port
*
* Creates a new #GSocketConnectable for connecting to the given
* @hostname and @port.
*
* Note that depending on the configuration of the machine, a
* @hostname of `localhost` may refer to the IPv4 loopback address
* only, or to both IPv4 and IPv6; use
* g_network_address_new_loopback() to create a #GNetworkAddress that
* is guaranteed to resolve to both addresses.
*
* Returns: (transfer full) (type GNetworkAddress): the new #GNetworkAddress
*
* Since: 2.22
*/
GSocketConnectable *
g_network_address_new (const gchar *hostname,
guint16 port)
{
return g_object_new (G_TYPE_NETWORK_ADDRESS,
"hostname", hostname,
"port", port,
NULL);
}
/**
* g_network_address_new_loopback:
* @port: the port
*
* Creates a new #GSocketConnectable for connecting to the local host
* over a loopback connection to the given @port. This is intended for
* use in connecting to local services which may be running on IPv4 or
* IPv6.
*
* The connectable will return IPv4 and IPv6 loopback addresses,
* regardless of how the host resolves `localhost`. By contrast,
* g_network_address_new() will often only return an IPv4 address when
* resolving `localhost`, and an IPv6 address for `localhost6`.
*
* g_network_address_get_hostname() will always return `localhost` for
* a #GNetworkAddress created with this constructor.
*
* Returns: (transfer full) (type GNetworkAddress): the new #GNetworkAddress
*
* Since: 2.44
*/
GSocketConnectable *
g_network_address_new_loopback (guint16 port)
{
GNetworkAddress *addr;
GList *addrs = NULL;
addr = g_object_new (G_TYPE_NETWORK_ADDRESS,
"hostname", "localhost",
"port", port,
NULL);
addrs = g_list_append (addrs, g_inet_address_new_loopback (AF_INET6));
addrs = g_list_append (addrs, g_inet_address_new_loopback (AF_INET));
g_network_address_set_cached_addresses (addr, g_steal_pointer (&addrs), 0);
return G_SOCKET_CONNECTABLE (addr);
}
/**
* g_network_address_parse:
* @host_and_port: the hostname and optionally a port
* @default_port: the default port if not in @host_and_port
* @error: a pointer to a #GError, or %NULL
*
* Creates a new #GSocketConnectable for connecting to the given
* @hostname and @port. May fail and return %NULL in case
* parsing @host_and_port fails.
*
* @host_and_port may be in any of a number of recognised formats; an IPv6
* address, an IPv4 address, or a domain name (in which case a DNS
* lookup is performed). Quoting with [] is supported for all address
* types. A port override may be specified in the usual way with a
* colon.
*
* If no port is specified in @host_and_port then @default_port will be
* used as the port number to connect to.
*
* In general, @host_and_port is expected to be provided by the user
* (allowing them to give the hostname, and a port override if necessary)
* and @default_port is expected to be provided by the application.
*
* (The port component of @host_and_port can also be specified as a
* service name rather than as a numeric port, but this functionality
* is deprecated, because it depends on the contents of /etc/services,
* which is generally quite sparse on platforms other than Linux.)
*
* Returns: (transfer full) (type GNetworkAddress): the new
* #GNetworkAddress, or %NULL on error
*
* Since: 2.22
*/
GSocketConnectable *
g_network_address_parse (const gchar *host_and_port,
guint16 default_port,
GError **error)
{
GSocketConnectable *connectable;
const gchar *port;
guint16 portnum;
gchar *name;
g_return_val_if_fail (host_and_port != NULL, NULL);
port = NULL;
if (host_and_port[0] == '[')
/* escaped host part (to allow, eg. "[2001:db8::1]:888") */
{
const gchar *end;
end = strchr (host_and_port, ']');
if (end == NULL)
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_INVALID_ARGUMENT,
_("Hostname “%s” contains “[” but not “]”"), host_and_port);
return NULL;
}
if (end[1] == '\0')
port = NULL;
else if (end[1] == ':')
port = &end[2];
else
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_INVALID_ARGUMENT,
"The ']' character (in hostname '%s') must come at the"
" end or be immediately followed by ':' and a port",
host_and_port);
return NULL;
}
name = g_strndup (host_and_port + 1, end - host_and_port - 1);
}
else if ((port = strchr (host_and_port, ':')))
/* string has a ':' in it */
{
/* skip ':' */
port++;
if (strchr (port, ':'))
/* more than one ':' in string */
{
/* this is actually an unescaped IPv6 address */
name = g_strdup (host_and_port);
port = NULL;
}
else
name = g_strndup (host_and_port, port - host_and_port - 1);
}
else
/* plain hostname, no port */
name = g_strdup (host_and_port);
if (port != NULL)
{
if (port[0] == '\0')
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_INVALID_ARGUMENT,
"If a ':' character is given, it must be followed by a "
"port (in hostname '%s').", host_and_port);
g_free (name);
return NULL;
}
else if ('0' <= port[0] && port[0] <= '9')
{
char *end;
long value;
value = strtol (port, &end, 10);
if (*end != '\0' || value < 0 || value > G_MAXUINT16)
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_INVALID_ARGUMENT,
"Invalid numeric port '%s' specified in hostname '%s'",
port, host_and_port);
g_free (name);
return NULL;
}
portnum = value;
}
else
{
if (!g_getservbyname_ntohs (port, "tcp", &portnum))
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_INVALID_ARGUMENT,
"Unknown service '%s' specified in hostname '%s'",
port, host_and_port);
#ifdef HAVE_ENDSERVENT
endservent ();
#endif
g_free (name);
return NULL;
}
#ifdef HAVE_ENDSERVENT
endservent ();
#endif
}
}
else
{
/* No port in host_and_port */
portnum = default_port;
}
connectable = g_network_address_new (name, portnum);
g_free (name);
return connectable;
}
/**
* g_network_address_parse_uri:
* @uri: the hostname and optionally a port
* @default_port: The default port if none is found in the URI
* @error: a pointer to a #GError, or %NULL
*
* Creates a new #GSocketConnectable for connecting to the given
* @uri. May fail and return %NULL in case parsing @uri fails.
*
* Using this rather than g_network_address_new() or
* g_network_address_parse() allows #GSocketClient to determine
* when to use application-specific proxy protocols.
*
* Returns: (transfer full) (type GNetworkAddress): the new
* #GNetworkAddress, or %NULL on error
*
* Since: 2.26
*/
GSocketConnectable *
g_network_address_parse_uri (const gchar *uri,
guint16 default_port,
GError **error)
{
GSocketConnectable *conn = NULL;
gchar *scheme = NULL;
gchar *hostname = NULL;
gint port;
if (!g_uri_split_network (uri, G_URI_FLAGS_NONE,
&scheme, &hostname, &port, NULL))
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_INVALID_ARGUMENT,
"Invalid URI %s", uri);
return NULL;
}
if (port <= 0)
port = default_port;
conn = g_object_new (G_TYPE_NETWORK_ADDRESS,
"hostname", hostname,
"port", (guint) port,
"scheme", scheme,
NULL);
g_free (scheme);
g_free (hostname);
return conn;
}
/**
* g_network_address_get_hostname:
* @addr: a #GNetworkAddress
*
* Gets @addr's hostname. This might be either UTF-8 or ASCII-encoded,
* depending on what @addr was created with.
*
* Returns: @addr's hostname
*
* Since: 2.22
*/
const gchar *
g_network_address_get_hostname (GNetworkAddress *addr)
{
g_return_val_if_fail (G_IS_NETWORK_ADDRESS (addr), NULL);
return addr->priv->hostname;
}
/**
* g_network_address_get_port:
* @addr: a #GNetworkAddress
*
* Gets @addr's port number
*
* Returns: @addr's port (which may be 0)
*
* Since: 2.22
*/
guint16
g_network_address_get_port (GNetworkAddress *addr)
{
g_return_val_if_fail (G_IS_NETWORK_ADDRESS (addr), 0);
return addr->priv->port;
}
/**
* g_network_address_get_scheme:
* @addr: a #GNetworkAddress
*
* Gets @addr's scheme
*
* Returns: (nullable): @addr's scheme (%NULL if not built from URI)
*
* Since: 2.26
*/
const gchar *
g_network_address_get_scheme (GNetworkAddress *addr)
{
g_return_val_if_fail (G_IS_NETWORK_ADDRESS (addr), NULL);
return addr->priv->scheme;
}
#define G_TYPE_NETWORK_ADDRESS_ADDRESS_ENUMERATOR (_g_network_address_address_enumerator_get_type ())
#define G_NETWORK_ADDRESS_ADDRESS_ENUMERATOR(obj) (G_TYPE_CHECK_INSTANCE_CAST ((obj), G_TYPE_NETWORK_ADDRESS_ADDRESS_ENUMERATOR, GNetworkAddressAddressEnumerator))
typedef enum {
RESOLVE_STATE_NONE = 0,
RESOLVE_STATE_WAITING_ON_IPV4 = 1 << 0,
RESOLVE_STATE_WAITING_ON_IPV6 = 1 << 1,
} ResolveState;
typedef struct {
GSocketAddressEnumerator parent_instance;
GNetworkAddress *addr; /* (owned) */
GList *addresses; /* (owned) (nullable) */
GList *current_item; /* (unowned) (nullable) */
GTask *queued_task; /* (owned) (nullable) */
GTask *waiting_task; /* (owned) (nullable) */
GError *last_error; /* (owned) (nullable) */
GSource *wait_source; /* (owned) (nullable) */
GMainContext *context; /* (owned) (nullable) */
ResolveState state;
} GNetworkAddressAddressEnumerator;
typedef struct {
GSocketAddressEnumeratorClass parent_class;
} GNetworkAddressAddressEnumeratorClass;
static GType _g_network_address_address_enumerator_get_type (void);
G_DEFINE_TYPE (GNetworkAddressAddressEnumerator, _g_network_address_address_enumerator, G_TYPE_SOCKET_ADDRESS_ENUMERATOR)
static void
g_network_address_address_enumerator_finalize (GObject *object)
{
GNetworkAddressAddressEnumerator *addr_enum =
G_NETWORK_ADDRESS_ADDRESS_ENUMERATOR (object);
if (addr_enum->wait_source)
{
g_source_destroy (addr_enum->wait_source);
g_clear_pointer (&addr_enum->wait_source, g_source_unref);
}
g_clear_object (&addr_enum->queued_task);
g_clear_object (&addr_enum->waiting_task);
g_clear_error (&addr_enum->last_error);
g_object_unref (addr_enum->addr);
g_clear_pointer (&addr_enum->context, g_main_context_unref);
g_list_free_full (addr_enum->addresses, g_object_unref);
G_OBJECT_CLASS (_g_network_address_address_enumerator_parent_class)->finalize (object);
}
static inline GSocketFamily
get_address_family (GInetSocketAddress *address)
{
return g_inet_address_get_family (g_inet_socket_address_get_address (address));
}
static void
list_split_families (GList *list,
GList **out_ipv4,
GList **out_ipv6)
{
g_assert (out_ipv4);
g_assert (out_ipv6);
while (list)
{
GSocketFamily family = get_address_family (list->data);
switch (family)
{
case G_SOCKET_FAMILY_IPV4:
*out_ipv4 = g_list_prepend (*out_ipv4, list->data);
break;
case G_SOCKET_FAMILY_IPV6:
*out_ipv6 = g_list_prepend (*out_ipv6, list->data);
break;
case G_SOCKET_FAMILY_INVALID:
case G_SOCKET_FAMILY_UNIX:
g_assert_not_reached ();
}
list = g_list_next (list);
}
*out_ipv4 = g_list_reverse (*out_ipv4);
*out_ipv6 = g_list_reverse (*out_ipv6);
}
static GList *
list_interleave_families (GList *list1,
GList *list2)
{
GList *interleaved = NULL;
while (list1 || list2)
{
if (list1)
{
interleaved = g_list_append (interleaved, list1->data);
list1 = g_list_delete_link (list1, list1);
}
if (list2)
{
interleaved = g_list_append (interleaved, list2->data);
list2 = g_list_delete_link (list2, list2);
}
}
return interleaved;
}
/* list_copy_interleaved:
* @list: (transfer container): List to copy
*
* Does a shallow copy of a list with address families interleaved.
*
* For example:
* Input: [ipv6, ipv6, ipv4, ipv4]
* Output: [ipv6, ipv4, ipv6, ipv4]
*
* Returns: (transfer container): A new list
*/
static GList *
list_copy_interleaved (GList *list)
{
GList *ipv4 = NULL, *ipv6 = NULL;
list_split_families (list, &ipv4, &ipv6);
return list_interleave_families (ipv6, ipv4);
}
/* list_concat_interleaved:
* @parent_list: (transfer container): Already existing list
* @current_item: (transfer container): Item after which to resort
* @new_list: (transfer container): New list to be interleaved and concatenated
*
* This differs from g_list_concat() + list_copy_interleaved() in that it sorts
* items in the previous list starting from @current_item and concats the results
* to @parent_list.
*
* Returns: (transfer container): New start of list
*/
static GList *
list_concat_interleaved (GList *parent_list,
GList *current_item,
GList *new_list)
{
GList *ipv4 = NULL, *ipv6 = NULL, *interleaved, *trailing = NULL;
GSocketFamily last_family = G_SOCKET_FAMILY_IPV4; /* Default to starting with ipv6 */
if (current_item)
{
last_family = get_address_family (current_item->data);
/* Unused addresses will get removed, resorted, then readded */
trailing = g_list_next (current_item);
current_item->next = NULL;
}
list_split_families (trailing, &ipv4, &ipv6);
list_split_families (new_list, &ipv4, &ipv6);
g_list_free (new_list);
if (trailing)
g_list_free (trailing);
if (last_family == G_SOCKET_FAMILY_IPV4)
interleaved = list_interleave_families (ipv6, ipv4);
else
interleaved = list_interleave_families (ipv4, ipv6);
return g_list_concat (parent_list, interleaved);
}
static void
maybe_update_address_cache (GNetworkAddressAddressEnumerator *addr_enum,
GResolver *resolver)
{
GList *addresses, *p;
/* Only cache complete results */
if (addr_enum->state & RESOLVE_STATE_WAITING_ON_IPV4 || addr_enum->state & RESOLVE_STATE_WAITING_ON_IPV6)
return;
/* The enumerators list will not necessarily be fully sorted */
addresses = list_copy_interleaved (addr_enum->addresses);
for (p = addresses; p; p = p->next)
g_object_ref (p->data);
g_network_address_set_cached_addresses (addr_enum->addr, g_steal_pointer (&addresses), g_resolver_get_serial (resolver));
}
static void
g_network_address_address_enumerator_add_addresses (GNetworkAddressAddressEnumerator *addr_enum,
GList *addresses,
GResolver *resolver)
{
GList *new_addresses = inet_addresses_to_inet_socket_addresses (addr_enum->addr, addresses);
if (addr_enum->addresses == NULL)
addr_enum->addresses = g_steal_pointer (&new_addresses);
else
addr_enum->addresses = list_concat_interleaved (addr_enum->addresses, addr_enum->current_item, g_steal_pointer (&new_addresses));
maybe_update_address_cache (addr_enum, resolver);
}
static gpointer
copy_object (gconstpointer src,
gpointer user_data)
{
return g_object_ref (G_OBJECT (src));
}
static GSocketAddress *
init_and_query_next_address (GNetworkAddressAddressEnumerator *addr_enum)
{
GList *next_item;
if (addr_enum->addresses == NULL)
addr_enum->addresses = g_list_copy_deep (addr_enum->addr->priv->cached_sockaddrs,
copy_object, NULL);
/* We always want to look at the next item at call time to get the latest results.
That means that sometimes ->next is NULL this call but is valid next call.
*/
if (addr_enum->current_item == NULL)
next_item = addr_enum->current_item = addr_enum->addresses;
else
next_item = g_list_next (addr_enum->current_item);
if (next_item)
{
addr_enum->current_item = next_item;
return g_object_ref (addr_enum->current_item->data);
}
else
return NULL;
}
static GSocketAddress *
g_network_address_address_enumerator_next (GSocketAddressEnumerator *enumerator,
GCancellable *cancellable,
GError **error)
{
GNetworkAddressAddressEnumerator *addr_enum =
G_NETWORK_ADDRESS_ADDRESS_ENUMERATOR (enumerator);
if (addr_enum->addresses == NULL)
{
GNetworkAddress *addr = addr_enum->addr;
GResolver *resolver = g_resolver_get_default ();
gint64 serial = g_resolver_get_serial (resolver);
if (addr->priv->resolver_serial != 0 &&
addr->priv->resolver_serial != serial)
{
/* Resolver has reloaded, discard cached addresses */
g_list_free_full (addr->priv->cached_sockaddrs, g_object_unref);
addr->priv->cached_sockaddrs = NULL;
}
if (!addr->priv->cached_sockaddrs)
g_network_address_parse_sockaddr (addr);
if (!addr->priv->cached_sockaddrs)
{
GList *addresses;
addresses = g_resolver_lookup_by_name (resolver,
addr->priv->hostname,
cancellable, error);
if (!addresses)
{
g_object_unref (resolver);
return NULL;
}
g_network_address_set_cached_addresses (addr, g_steal_pointer (&addresses), serial);
}
g_object_unref (resolver);
}
return init_and_query_next_address (addr_enum);
}
static void
complete_queued_task (GNetworkAddressAddressEnumerator *addr_enum,
GTask *task,
GError *error)
{
if (error)
g_task_return_error (task, error);
else
{
GSocketAddress *sockaddr = init_and_query_next_address (addr_enum);
g_task_return_pointer (task, g_steal_pointer (&sockaddr), g_object_unref);
}
g_object_unref (task);
}
static int
on_address_timeout (gpointer user_data)
{
GNetworkAddressAddressEnumerator *addr_enum = user_data;
/* Upon completion it may get unref'd by the owner */
g_object_ref (addr_enum);
if (addr_enum->queued_task != NULL)
complete_queued_task (addr_enum, g_steal_pointer (&addr_enum->queued_task),
g_steal_pointer (&addr_enum->last_error));
else if (addr_enum->waiting_task != NULL)
complete_queued_task (addr_enum, g_steal_pointer (&addr_enum->waiting_task),
NULL);
g_clear_pointer (&addr_enum->wait_source, g_source_unref);
g_object_unref (addr_enum);
return G_SOURCE_REMOVE;
}
static void
got_ipv6_addresses (GObject *source_object,
GAsyncResult *result,
gpointer user_data)
{
GNetworkAddressAddressEnumerator *addr_enum = user_data;
GResolver *resolver = G_RESOLVER (source_object);
GList *addresses;
GError *error = NULL;
addr_enum->state ^= RESOLVE_STATE_WAITING_ON_IPV6;
addresses = g_resolver_lookup_by_name_with_flags_finish (resolver, result, &error);
if (!error)
g_network_address_address_enumerator_add_addresses (addr_enum, g_steal_pointer (&addresses), resolver);
else
g_debug ("IPv6 DNS error: %s", error->message);
/* If ipv4 was first and waiting on us it can stop waiting */
if (addr_enum->wait_source)
{
g_source_destroy (addr_enum->wait_source);
g_clear_pointer (&addr_enum->wait_source, g_source_unref);
}
/* If we got an error before ipv4 then let its response handle it.
* If we get ipv6 response first or error second then
* immediately complete the task.
*/
if (error != NULL && !addr_enum->last_error && (addr_enum->state & RESOLVE_STATE_WAITING_ON_IPV4))
{
/* ipv6 lookup failed, but ipv4 is still outstanding. wait. */
addr_enum->last_error = g_steal_pointer (&error);
}
else if (addr_enum->waiting_task != NULL)
{
complete_queued_task (addr_enum, g_steal_pointer (&addr_enum->waiting_task), NULL);
}
else if (addr_enum->queued_task != NULL)
{
GError *task_error = NULL;
/* If both errored just use the ipv6 one,
but if ipv6 errored and ipv4 didn't we don't error */
if (error != NULL && addr_enum->last_error)
task_error = g_steal_pointer (&error);
g_clear_error (&addr_enum->last_error);
complete_queued_task (addr_enum, g_steal_pointer (&addr_enum->queued_task),
g_steal_pointer (&task_error));
}
g_clear_error (&error);
g_object_unref (addr_enum);
}
static void
got_ipv4_addresses (GObject *source_object,
GAsyncResult *result,
gpointer user_data)
{
GNetworkAddressAddressEnumerator *addr_enum = user_data;
GResolver *resolver = G_RESOLVER (source_object);
GList *addresses;
GError *error = NULL;
addr_enum->state ^= RESOLVE_STATE_WAITING_ON_IPV4;
addresses = g_resolver_lookup_by_name_with_flags_finish (resolver, result, &error);
if (!error)
g_network_address_address_enumerator_add_addresses (addr_enum, g_steal_pointer (&addresses), resolver);
else
g_debug ("IPv4 DNS error: %s", error->message);
if (addr_enum->wait_source)
{
g_source_destroy (addr_enum->wait_source);
g_clear_pointer (&addr_enum->wait_source, g_source_unref);
}
/* If ipv6 already came in and errored then we return.
* If ipv6 returned successfully then we don't need to do anything unless
* another enumeration was waiting on us.
* If ipv6 hasn't come we should wait a short while for it as RFC 8305 suggests.
*/
if (addr_enum->last_error)
{
g_assert (addr_enum->queued_task);
g_clear_error (&addr_enum->last_error);
complete_queued_task (addr_enum, g_steal_pointer (&addr_enum->queued_task),
g_steal_pointer (&error));
}
else if (addr_enum->waiting_task != NULL)
{
complete_queued_task (addr_enum, g_steal_pointer (&addr_enum->waiting_task), NULL);
}
else if (addr_enum->queued_task != NULL)
{
addr_enum->last_error = g_steal_pointer (&error);
addr_enum->wait_source = g_timeout_source_new (HAPPY_EYEBALLS_RESOLUTION_DELAY_MS);
g_source_set_callback (addr_enum->wait_source,
on_address_timeout,
addr_enum, NULL);
g_source_attach (addr_enum->wait_source, addr_enum->context);
}
g_clear_error (&error);
g_object_unref (addr_enum);
}
static void
g_network_address_address_enumerator_next_async (GSocketAddressEnumerator *enumerator,
GCancellable *cancellable,
GAsyncReadyCallback callback,
gpointer user_data)
{
GNetworkAddressAddressEnumerator *addr_enum =
G_NETWORK_ADDRESS_ADDRESS_ENUMERATOR (enumerator);
GSocketAddress *sockaddr;
GTask *task;
task = g_task_new (addr_enum, cancellable, callback, user_data);
g_task_set_source_tag (task, g_network_address_address_enumerator_next_async);
if (addr_enum->addresses == NULL && addr_enum->state == RESOLVE_STATE_NONE)
{
GNetworkAddress *addr = addr_enum->addr;
GResolver *resolver = g_resolver_get_default ();
gint64 serial = g_resolver_get_serial (resolver);
if (addr->priv->resolver_serial != 0 &&
addr->priv->resolver_serial != serial)
{
/* Resolver has reloaded, discard cached addresses */
g_list_free_full (addr->priv->cached_sockaddrs, g_object_unref);
addr->priv->cached_sockaddrs = NULL;
}
if (addr->priv->cached_sockaddrs == NULL)
{
if (g_network_address_parse_sockaddr (addr))
complete_queued_task (addr_enum, task, NULL);
else
{
/* It does not make sense for this to be called multiple
* times before the initial callback has been called */
g_assert (addr_enum->queued_task == NULL);
addr_enum->state = RESOLVE_STATE_WAITING_ON_IPV4 | RESOLVE_STATE_WAITING_ON_IPV6;
addr_enum->queued_task = g_steal_pointer (&task);
/* Look up in parallel as per RFC 8305 */
g_resolver_lookup_by_name_with_flags_async (resolver,
addr->priv->hostname,
G_RESOLVER_NAME_LOOKUP_FLAGS_IPV6_ONLY,
cancellable,
got_ipv6_addresses, g_object_ref (addr_enum));
g_resolver_lookup_by_name_with_flags_async (resolver,
addr->priv->hostname,
G_RESOLVER_NAME_LOOKUP_FLAGS_IPV4_ONLY,
cancellable,
got_ipv4_addresses, g_object_ref (addr_enum));
}
g_object_unref (resolver);
return;
}
g_object_unref (resolver);
}
sockaddr = init_and_query_next_address (addr_enum);
if (sockaddr == NULL && (addr_enum->state & RESOLVE_STATE_WAITING_ON_IPV4 ||
addr_enum->state & RESOLVE_STATE_WAITING_ON_IPV6))
{
addr_enum->waiting_task = task;
}
else
{
g_task_return_pointer (task, sockaddr, g_object_unref);
g_object_unref (task);
}
}
static GSocketAddress *
g_network_address_address_enumerator_next_finish (GSocketAddressEnumerator *enumerator,
GAsyncResult *result,
GError **error)
{
g_return_val_if_fail (g_task_is_valid (result, enumerator), NULL);
return g_task_propagate_pointer (G_TASK (result), error);
}
static void
_g_network_address_address_enumerator_init (GNetworkAddressAddressEnumerator *enumerator)
{
enumerator->context = g_main_context_ref_thread_default ();
}
static void
_g_network_address_address_enumerator_class_init (GNetworkAddressAddressEnumeratorClass *addrenum_class)
{
GObjectClass *object_class = G_OBJECT_CLASS (addrenum_class);
GSocketAddressEnumeratorClass *enumerator_class =
G_SOCKET_ADDRESS_ENUMERATOR_CLASS (addrenum_class);
enumerator_class->next = g_network_address_address_enumerator_next;
enumerator_class->next_async = g_network_address_address_enumerator_next_async;
enumerator_class->next_finish = g_network_address_address_enumerator_next_finish;
object_class->finalize = g_network_address_address_enumerator_finalize;
}
static GSocketAddressEnumerator *
g_network_address_connectable_enumerate (GSocketConnectable *connectable)
{
GNetworkAddressAddressEnumerator *addr_enum;
addr_enum = g_object_new (G_TYPE_NETWORK_ADDRESS_ADDRESS_ENUMERATOR, NULL);
addr_enum->addr = g_object_ref (G_NETWORK_ADDRESS (connectable));
return (GSocketAddressEnumerator *)addr_enum;
}
static GSocketAddressEnumerator *
g_network_address_connectable_proxy_enumerate (GSocketConnectable *connectable)
{
GNetworkAddress *self = G_NETWORK_ADDRESS (connectable);
GSocketAddressEnumerator *proxy_enum;
gchar *uri;
uri = g_uri_join (G_URI_FLAGS_NONE,
self->priv->scheme ? self->priv->scheme : "none",
NULL,
self->priv->hostname,
self->priv->port,
"",
NULL,
NULL);
proxy_enum = g_object_new (G_TYPE_PROXY_ADDRESS_ENUMERATOR,
"connectable", connectable,
"uri", uri,
NULL);
g_free (uri);
return proxy_enum;
}
static gchar *
g_network_address_connectable_to_string (GSocketConnectable *connectable)
{
GNetworkAddress *addr;
const gchar *scheme;
guint16 port;
GString *out; /* owned */
addr = G_NETWORK_ADDRESS (connectable);
out = g_string_new ("");
scheme = g_network_address_get_scheme (addr);
if (scheme != NULL)
g_string_append_printf (out, "%s:", scheme);
g_string_append (out, g_network_address_get_hostname (addr));
port = g_network_address_get_port (addr);
if (port != 0)
g_string_append_printf (out, ":%u", port);
return g_string_free (out, FALSE);
}
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