blob: 182eb1851043f6f5f458012fb757afc33f00dfb3 [file] [log] [blame]
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// ClientSocketPoolManager manages access to all ClientSocketPools. It's a
// simple container for all of them. Most importantly, it handles the lifetime
// and destruction order properly.
#include "net/socket/client_socket_pool_manager.h"
#include <string>
#include "base/logging.h"
#include "base/stringprintf.h"
#include "base/values.h"
#include "net/base/ssl_config_service.h"
#include "net/http/http_network_session.h"
#include "net/http/http_proxy_client_socket_pool.h"
#include "net/http/http_request_info.h"
#include "net/proxy/proxy_service.h"
#include "net/socket/client_socket_factory.h"
#include "net/socket/client_socket_handle.h"
#include "net/socket/client_socket_pool_histograms.h"
#include "net/socket/socks_client_socket_pool.h"
#include "net/socket/ssl_client_socket_pool.h"
#include "net/socket/transport_client_socket_pool.h"
namespace net {
namespace {
// Total limit of sockets.
int g_max_sockets = 256;
// Default to allow up to 6 connections per host. Experiment and tuning may
// try other values (greater than 0). Too large may cause many problems, such
// as home routers blocking the connections!?!? See http://crbug.com/12066.
int g_max_sockets_per_group = 6;
// The max number of sockets to allow per proxy server. This applies both to
// http and SOCKS proxies. See http://crbug.com/12066 and
// http://crbug.com/44501 for details about proxy server connection limits.
int g_max_sockets_per_proxy_server = 32;
// Appends information about all |socket_pools| to the end of |list|.
template <class MapType>
static void AddSocketPoolsToList(ListValue* list,
const MapType& socket_pools,
const std::string& type,
bool include_nested_pools) {
for (typename MapType::const_iterator it = socket_pools.begin();
it != socket_pools.end(); it++) {
list->Append(it->second->GetInfoAsValue(it->first.ToString(),
type,
include_nested_pools));
}
}
// The meat of the implementation for the InitSocketHandleForHttpRequest,
// InitSocketHandleForRawConnect and PreconnectSocketsForHttpRequest methods.
int InitSocketPoolHelper(const HttpRequestInfo& request_info,
HttpNetworkSession* session,
const ProxyInfo& proxy_info,
bool force_spdy_over_ssl,
bool want_spdy_over_npn,
const SSLConfig& ssl_config_for_origin,
const SSLConfig& ssl_config_for_proxy,
bool force_tunnel,
const BoundNetLog& net_log,
int num_preconnect_streams,
ClientSocketHandle* socket_handle,
CompletionCallback* callback) {
scoped_refptr<TransportSocketParams> tcp_params;
scoped_refptr<HttpProxySocketParams> http_proxy_params;
scoped_refptr<SOCKSSocketParams> socks_params;
scoped_ptr<HostPortPair> proxy_host_port;
bool using_ssl = request_info.url.SchemeIs("https") || force_spdy_over_ssl;
HostPortPair origin_host_port =
HostPortPair(request_info.url.HostNoBrackets(),
request_info.url.EffectiveIntPort());
bool disable_resolver_cache =
request_info.load_flags & LOAD_BYPASS_CACHE ||
request_info.load_flags & LOAD_VALIDATE_CACHE ||
request_info.load_flags & LOAD_DISABLE_CACHE;
int load_flags = request_info.load_flags;
if (HttpStreamFactory::ignore_certificate_errors())
load_flags |= LOAD_IGNORE_ALL_CERT_ERRORS;
// Build the string used to uniquely identify connections of this type.
// Determine the host and port to connect to.
std::string connection_group = origin_host_port.ToString();
DCHECK(!connection_group.empty());
if (using_ssl)
connection_group = base::StringPrintf("ssl/%s", connection_group.c_str());
bool ignore_limits = (request_info.load_flags & LOAD_IGNORE_LIMITS) != 0;
if (proxy_info.is_direct()) {
tcp_params = new TransportSocketParams(origin_host_port,
request_info.priority,
request_info.referrer,
disable_resolver_cache,
ignore_limits);
#ifdef ANDROID
if (request_info.valid_uid)
tcp_params->setUID(request_info.calling_uid);
#endif
} else {
ProxyServer proxy_server = proxy_info.proxy_server();
proxy_host_port.reset(new HostPortPair(proxy_server.host_port_pair()));
scoped_refptr<TransportSocketParams> proxy_tcp_params(
new TransportSocketParams(*proxy_host_port,
request_info.priority,
request_info.referrer,
disable_resolver_cache,
ignore_limits));
#ifdef ANDROID
if (request_info.valid_uid)
proxy_tcp_params->setUID(request_info.calling_uid);
#endif
if (proxy_info.is_http() || proxy_info.is_https()) {
std::string user_agent;
request_info.extra_headers.GetHeader(HttpRequestHeaders::kUserAgent,
&user_agent);
scoped_refptr<SSLSocketParams> ssl_params;
if (proxy_info.is_https()) {
// Set ssl_params, and unset proxy_tcp_params
ssl_params = new SSLSocketParams(proxy_tcp_params,
NULL,
NULL,
ProxyServer::SCHEME_DIRECT,
*proxy_host_port.get(),
ssl_config_for_proxy,
load_flags,
force_spdy_over_ssl,
want_spdy_over_npn);
proxy_tcp_params = NULL;
}
http_proxy_params =
new HttpProxySocketParams(proxy_tcp_params,
ssl_params,
request_info.url,
user_agent,
origin_host_port,
session->http_auth_cache(),
session->http_auth_handler_factory(),
session->spdy_session_pool(),
force_tunnel || using_ssl);
} else {
DCHECK(proxy_info.is_socks());
char socks_version;
if (proxy_server.scheme() == ProxyServer::SCHEME_SOCKS5)
socks_version = '5';
else
socks_version = '4';
connection_group = base::StringPrintf(
"socks%c/%s", socks_version, connection_group.c_str());
socks_params = new SOCKSSocketParams(proxy_tcp_params,
socks_version == '5',
origin_host_port,
request_info.priority,
request_info.referrer);
}
}
// Deal with SSL - which layers on top of any given proxy.
if (using_ssl) {
scoped_refptr<SSLSocketParams> ssl_params =
new SSLSocketParams(tcp_params,
socks_params,
http_proxy_params,
proxy_info.proxy_server().scheme(),
origin_host_port,
ssl_config_for_origin,
load_flags,
force_spdy_over_ssl,
want_spdy_over_npn);
SSLClientSocketPool* ssl_pool = NULL;
if (proxy_info.is_direct())
ssl_pool = session->ssl_socket_pool();
else
ssl_pool = session->GetSocketPoolForSSLWithProxy(*proxy_host_port);
if (num_preconnect_streams) {
RequestSocketsForPool(ssl_pool, connection_group, ssl_params,
num_preconnect_streams, net_log);
return OK;
}
return socket_handle->Init(connection_group, ssl_params,
request_info.priority, callback, ssl_pool,
net_log);
}
// Finally, get the connection started.
if (proxy_info.is_http() || proxy_info.is_https()) {
HttpProxyClientSocketPool* pool =
session->GetSocketPoolForHTTPProxy(*proxy_host_port);
if (num_preconnect_streams) {
RequestSocketsForPool(pool, connection_group, http_proxy_params,
num_preconnect_streams, net_log);
return OK;
}
return socket_handle->Init(connection_group, http_proxy_params,
request_info.priority, callback,
pool, net_log);
}
if (proxy_info.is_socks()) {
SOCKSClientSocketPool* pool =
session->GetSocketPoolForSOCKSProxy(*proxy_host_port);
if (num_preconnect_streams) {
RequestSocketsForPool(pool, connection_group, socks_params,
num_preconnect_streams, net_log);
return OK;
}
return socket_handle->Init(connection_group, socks_params,
request_info.priority, callback, pool,
net_log);
}
DCHECK(proxy_info.is_direct());
TransportClientSocketPool* pool = session->transport_socket_pool();
if (num_preconnect_streams) {
RequestSocketsForPool(pool, connection_group, tcp_params,
num_preconnect_streams, net_log);
return OK;
}
return socket_handle->Init(connection_group, tcp_params,
request_info.priority, callback,
pool, net_log);
}
} // namespace
ClientSocketPoolManager::ClientSocketPoolManager(
NetLog* net_log,
ClientSocketFactory* socket_factory,
HostResolver* host_resolver,
CertVerifier* cert_verifier,
DnsRRResolver* dnsrr_resolver,
DnsCertProvenanceChecker* dns_cert_checker,
SSLHostInfoFactory* ssl_host_info_factory,
ProxyService* proxy_service,
SSLConfigService* ssl_config_service)
: net_log_(net_log),
socket_factory_(socket_factory),
host_resolver_(host_resolver),
cert_verifier_(cert_verifier),
dnsrr_resolver_(dnsrr_resolver),
dns_cert_checker_(dns_cert_checker),
ssl_host_info_factory_(ssl_host_info_factory),
proxy_service_(proxy_service),
ssl_config_service_(ssl_config_service),
transport_pool_histograms_("TCP"),
transport_socket_pool_(new TransportClientSocketPool(
g_max_sockets, g_max_sockets_per_group,
&transport_pool_histograms_,
host_resolver,
socket_factory_,
net_log)),
ssl_pool_histograms_("SSL2"),
ssl_socket_pool_(new SSLClientSocketPool(
g_max_sockets, g_max_sockets_per_group,
&ssl_pool_histograms_,
host_resolver,
cert_verifier,
dnsrr_resolver,
dns_cert_checker,
ssl_host_info_factory,
socket_factory,
transport_socket_pool_.get(),
NULL /* no socks proxy */,
NULL /* no http proxy */,
ssl_config_service,
net_log)),
transport_for_socks_pool_histograms_("TCPforSOCKS"),
socks_pool_histograms_("SOCK"),
transport_for_http_proxy_pool_histograms_("TCPforHTTPProxy"),
transport_for_https_proxy_pool_histograms_("TCPforHTTPSProxy"),
ssl_for_https_proxy_pool_histograms_("SSLforHTTPSProxy"),
http_proxy_pool_histograms_("HTTPProxy"),
ssl_socket_pool_for_proxies_histograms_("SSLForProxies") {
CertDatabase::AddObserver(this);
}
ClientSocketPoolManager::~ClientSocketPoolManager() {
CertDatabase::RemoveObserver(this);
}
void ClientSocketPoolManager::FlushSocketPools() {
// Flush the highest level pools first, since higher level pools may release
// stuff to the lower level pools.
for (SSLSocketPoolMap::const_iterator it =
ssl_socket_pools_for_proxies_.begin();
it != ssl_socket_pools_for_proxies_.end();
++it)
it->second->Flush();
for (HTTPProxySocketPoolMap::const_iterator it =
http_proxy_socket_pools_.begin();
it != http_proxy_socket_pools_.end();
++it)
it->second->Flush();
for (SSLSocketPoolMap::const_iterator it =
ssl_socket_pools_for_https_proxies_.begin();
it != ssl_socket_pools_for_https_proxies_.end();
++it)
it->second->Flush();
for (TransportSocketPoolMap::const_iterator it =
transport_socket_pools_for_https_proxies_.begin();
it != transport_socket_pools_for_https_proxies_.end();
++it)
it->second->Flush();
for (TransportSocketPoolMap::const_iterator it =
transport_socket_pools_for_http_proxies_.begin();
it != transport_socket_pools_for_http_proxies_.end();
++it)
it->second->Flush();
for (SOCKSSocketPoolMap::const_iterator it =
socks_socket_pools_.begin();
it != socks_socket_pools_.end();
++it)
it->second->Flush();
for (TransportSocketPoolMap::const_iterator it =
transport_socket_pools_for_socks_proxies_.begin();
it != transport_socket_pools_for_socks_proxies_.end();
++it)
it->second->Flush();
ssl_socket_pool_->Flush();
transport_socket_pool_->Flush();
}
void ClientSocketPoolManager::CloseIdleSockets() {
// Close sockets in the highest level pools first, since higher level pools'
// sockets may release stuff to the lower level pools.
for (SSLSocketPoolMap::const_iterator it =
ssl_socket_pools_for_proxies_.begin();
it != ssl_socket_pools_for_proxies_.end();
++it)
it->second->CloseIdleSockets();
for (HTTPProxySocketPoolMap::const_iterator it =
http_proxy_socket_pools_.begin();
it != http_proxy_socket_pools_.end();
++it)
it->second->CloseIdleSockets();
for (SSLSocketPoolMap::const_iterator it =
ssl_socket_pools_for_https_proxies_.begin();
it != ssl_socket_pools_for_https_proxies_.end();
++it)
it->second->CloseIdleSockets();
for (TransportSocketPoolMap::const_iterator it =
transport_socket_pools_for_https_proxies_.begin();
it != transport_socket_pools_for_https_proxies_.end();
++it)
it->second->CloseIdleSockets();
for (TransportSocketPoolMap::const_iterator it =
transport_socket_pools_for_http_proxies_.begin();
it != transport_socket_pools_for_http_proxies_.end();
++it)
it->second->CloseIdleSockets();
for (SOCKSSocketPoolMap::const_iterator it =
socks_socket_pools_.begin();
it != socks_socket_pools_.end();
++it)
it->second->CloseIdleSockets();
for (TransportSocketPoolMap::const_iterator it =
transport_socket_pools_for_socks_proxies_.begin();
it != transport_socket_pools_for_socks_proxies_.end();
++it)
it->second->CloseIdleSockets();
ssl_socket_pool_->CloseIdleSockets();
transport_socket_pool_->CloseIdleSockets();
}
SOCKSClientSocketPool* ClientSocketPoolManager::GetSocketPoolForSOCKSProxy(
const HostPortPair& socks_proxy) {
SOCKSSocketPoolMap::const_iterator it = socks_socket_pools_.find(socks_proxy);
if (it != socks_socket_pools_.end()) {
DCHECK(ContainsKey(transport_socket_pools_for_socks_proxies_, socks_proxy));
return it->second;
}
DCHECK(!ContainsKey(transport_socket_pools_for_socks_proxies_, socks_proxy));
std::pair<TransportSocketPoolMap::iterator, bool> tcp_ret =
transport_socket_pools_for_socks_proxies_.insert(
std::make_pair(
socks_proxy,
new TransportClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&transport_for_socks_pool_histograms_,
host_resolver_,
socket_factory_,
net_log_)));
DCHECK(tcp_ret.second);
std::pair<SOCKSSocketPoolMap::iterator, bool> ret =
socks_socket_pools_.insert(
std::make_pair(socks_proxy, new SOCKSClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&socks_pool_histograms_,
host_resolver_,
tcp_ret.first->second,
net_log_)));
return ret.first->second;
}
HttpProxyClientSocketPool* ClientSocketPoolManager::GetSocketPoolForHTTPProxy(
const HostPortPair& http_proxy) {
HTTPProxySocketPoolMap::const_iterator it =
http_proxy_socket_pools_.find(http_proxy);
if (it != http_proxy_socket_pools_.end()) {
DCHECK(ContainsKey(transport_socket_pools_for_http_proxies_, http_proxy));
DCHECK(ContainsKey(transport_socket_pools_for_https_proxies_, http_proxy));
DCHECK(ContainsKey(ssl_socket_pools_for_https_proxies_, http_proxy));
return it->second;
}
DCHECK(!ContainsKey(transport_socket_pools_for_http_proxies_, http_proxy));
DCHECK(!ContainsKey(transport_socket_pools_for_https_proxies_, http_proxy));
DCHECK(!ContainsKey(ssl_socket_pools_for_https_proxies_, http_proxy));
std::pair<TransportSocketPoolMap::iterator, bool> tcp_http_ret =
transport_socket_pools_for_http_proxies_.insert(
std::make_pair(
http_proxy,
new TransportClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&transport_for_http_proxy_pool_histograms_,
host_resolver_,
socket_factory_,
net_log_)));
DCHECK(tcp_http_ret.second);
std::pair<TransportSocketPoolMap::iterator, bool> tcp_https_ret =
transport_socket_pools_for_https_proxies_.insert(
std::make_pair(
http_proxy,
new TransportClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&transport_for_https_proxy_pool_histograms_,
host_resolver_,
socket_factory_,
net_log_)));
DCHECK(tcp_https_ret.second);
std::pair<SSLSocketPoolMap::iterator, bool> ssl_https_ret =
ssl_socket_pools_for_https_proxies_.insert(
std::make_pair(
http_proxy,
new SSLClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&ssl_for_https_proxy_pool_histograms_,
host_resolver_,
cert_verifier_,
dnsrr_resolver_,
dns_cert_checker_,
ssl_host_info_factory_,
socket_factory_,
tcp_https_ret.first->second /* https proxy */,
NULL /* no socks proxy */,
NULL /* no http proxy */,
ssl_config_service_, net_log_)));
DCHECK(tcp_https_ret.second);
std::pair<HTTPProxySocketPoolMap::iterator, bool> ret =
http_proxy_socket_pools_.insert(
std::make_pair(
http_proxy,
new HttpProxyClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&http_proxy_pool_histograms_,
host_resolver_,
tcp_http_ret.first->second,
ssl_https_ret.first->second,
net_log_)));
return ret.first->second;
}
SSLClientSocketPool* ClientSocketPoolManager::GetSocketPoolForSSLWithProxy(
const HostPortPair& proxy_server) {
SSLSocketPoolMap::const_iterator it =
ssl_socket_pools_for_proxies_.find(proxy_server);
if (it != ssl_socket_pools_for_proxies_.end())
return it->second;
SSLClientSocketPool* new_pool = new SSLClientSocketPool(
g_max_sockets_per_proxy_server, g_max_sockets_per_group,
&ssl_pool_histograms_,
host_resolver_,
cert_verifier_,
dnsrr_resolver_,
dns_cert_checker_,
ssl_host_info_factory_,
socket_factory_,
NULL, /* no tcp pool, we always go through a proxy */
GetSocketPoolForSOCKSProxy(proxy_server),
GetSocketPoolForHTTPProxy(proxy_server),
ssl_config_service_,
net_log_);
std::pair<SSLSocketPoolMap::iterator, bool> ret =
ssl_socket_pools_for_proxies_.insert(std::make_pair(proxy_server,
new_pool));
return ret.first->second;
}
// static
int ClientSocketPoolManager::max_sockets_per_group() {
return g_max_sockets_per_group;
}
// static
void ClientSocketPoolManager::set_max_sockets_per_group(int socket_count) {
DCHECK_LT(0, socket_count);
// The following is a sanity check... but we should NEVER be near this value.
DCHECK_GT(100, socket_count);
g_max_sockets_per_group = socket_count;
DCHECK_GE(g_max_sockets, g_max_sockets_per_group);
DCHECK_GE(g_max_sockets_per_proxy_server, g_max_sockets_per_group);
}
// static
void ClientSocketPoolManager::set_max_sockets_per_proxy_server(
int socket_count) {
DCHECK_LT(0, socket_count);
DCHECK_GT(100, socket_count); // Sanity check.
// Assert this case early on. The max number of sockets per group cannot
// exceed the max number of sockets per proxy server.
DCHECK_LE(g_max_sockets_per_group, socket_count);
g_max_sockets_per_proxy_server = socket_count;
}
Value* ClientSocketPoolManager::SocketPoolInfoToValue() const {
ListValue* list = new ListValue();
list->Append(transport_socket_pool_->GetInfoAsValue("transport_socket_pool",
"transport_socket_pool",
false));
// Third parameter is false because |ssl_socket_pool_| uses
// |transport_socket_pool_| internally, and do not want to add it a second
// time.
list->Append(ssl_socket_pool_->GetInfoAsValue("ssl_socket_pool",
"ssl_socket_pool",
false));
AddSocketPoolsToList(list,
http_proxy_socket_pools_,
"http_proxy_socket_pool",
true);
AddSocketPoolsToList(list,
socks_socket_pools_,
"socks_socket_pool",
true);
// Third parameter is false because |ssl_socket_pools_for_proxies_| use
// socket pools in |http_proxy_socket_pools_| and |socks_socket_pools_|.
AddSocketPoolsToList(list,
ssl_socket_pools_for_proxies_,
"ssl_socket_pool_for_proxies",
false);
return list;
}
void ClientSocketPoolManager::OnUserCertAdded(const X509Certificate* cert) {
FlushSocketPools();
}
void ClientSocketPoolManager::OnCertTrustChanged(const X509Certificate* cert) {
// We should flush the socket pools if we removed trust from a
// cert, because a previously trusted server may have become
// untrusted.
//
// We should not flush the socket pools if we added trust to a
// cert.
//
// Since the OnCertTrustChanged method doesn't tell us what
// kind of trust change it is, we have to flush the socket
// pools to be safe.
FlushSocketPools();
}
// static
int ClientSocketPoolManager::InitSocketHandleForHttpRequest(
const HttpRequestInfo& request_info,
HttpNetworkSession* session,
const ProxyInfo& proxy_info,
bool force_spdy_over_ssl,
bool want_spdy_over_npn,
const SSLConfig& ssl_config_for_origin,
const SSLConfig& ssl_config_for_proxy,
const BoundNetLog& net_log,
ClientSocketHandle* socket_handle,
CompletionCallback* callback) {
DCHECK(socket_handle);
return InitSocketPoolHelper(request_info,
session,
proxy_info,
force_spdy_over_ssl,
want_spdy_over_npn,
ssl_config_for_origin,
ssl_config_for_proxy,
false,
net_log,
0,
socket_handle,
callback);
}
// static
int ClientSocketPoolManager::InitSocketHandleForRawConnect(
const HostPortPair& host_port_pair,
HttpNetworkSession* session,
const ProxyInfo& proxy_info,
const SSLConfig& ssl_config_for_origin,
const SSLConfig& ssl_config_for_proxy,
const BoundNetLog& net_log,
ClientSocketHandle* socket_handle,
CompletionCallback* callback) {
DCHECK(socket_handle);
// Synthesize an HttpRequestInfo.
HttpRequestInfo request_info;
request_info.url = GURL("http://" + host_port_pair.ToString());
return InitSocketPoolHelper(request_info,
session,
proxy_info,
false,
false,
ssl_config_for_origin,
ssl_config_for_proxy,
true,
net_log,
0,
socket_handle,
callback);
}
// static
int ClientSocketPoolManager::PreconnectSocketsForHttpRequest(
const HttpRequestInfo& request_info,
HttpNetworkSession* session,
const ProxyInfo& proxy_info,
bool force_spdy_over_ssl,
bool want_spdy_over_npn,
const SSLConfig& ssl_config_for_origin,
const SSLConfig& ssl_config_for_proxy,
const BoundNetLog& net_log,
int num_preconnect_streams) {
return InitSocketPoolHelper(request_info,
session,
proxy_info,
force_spdy_over_ssl,
want_spdy_over_npn,
ssl_config_for_origin,
ssl_config_for_proxy,
false,
net_log,
num_preconnect_streams,
NULL,
NULL);
}
} // namespace net