src/net/http/http_server_properties_impl.cc - cobalt - Git at Google

 // Copyright (c) 2012 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.

 #include "net/http/http_server_properties_impl.h"

 #include "base/logging.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/stl_util.h"
 #include "base/stringprintf.h"
 #include "net/http/http_pipelined_host_capability.h"

 namespace net {

 // TODO(simonjam): Run experiments with different values of this to see what
 // value is good at avoiding evictions without eating too much memory. Until
 // then, this is just a bad guess.
 static const int kDefaultNumHostsToRemember = 200;

 HttpServerPropertiesImpl::HttpServerPropertiesImpl()
     : pipeline_capability_map_(
         new CachedPipelineCapabilityMap(kDefaultNumHostsToRemember)) {
 }

 HttpServerPropertiesImpl::~HttpServerPropertiesImpl() {
 }

 void HttpServerPropertiesImpl::InitializeSpdyServers(
     std::vector<std::string>* spdy_servers,
     bool support_spdy) {
   DCHECK(CalledOnValidThread());
   spdy_servers_table_.clear();
   if (!spdy_servers)
     return;
   for (std::vector<std::string>::iterator it = spdy_servers->begin();
        it != spdy_servers->end(); ++it) {
     spdy_servers_table_[*it] = support_spdy;
   }
 }

 void HttpServerPropertiesImpl::InitializeAlternateProtocolServers(
     AlternateProtocolMap* alternate_protocol_map) {
   // First swap, and then add back all the ALTERNATE_PROTOCOL_BROKEN ones since
   // those don't get persisted.
   alternate_protocol_map_.swap(*alternate_protocol_map);
   for (AlternateProtocolMap::const_iterator it =
        alternate_protocol_map->begin();
        it != alternate_protocol_map->end(); ++it) {
     if (it->second.protocol == ALTERNATE_PROTOCOL_BROKEN)
       alternate_protocol_map_[it->first] = it->second;
   }
 }

 void HttpServerPropertiesImpl::InitializeSpdySettingsServers(
     SpdySettingsMap* spdy_settings_map) {
   spdy_settings_map_.swap(*spdy_settings_map);
 }

 void HttpServerPropertiesImpl::InitializePipelineCapabilities(
     const PipelineCapabilityMap* pipeline_capability_map) {
   PipelineCapabilityMap::const_iterator it;
   pipeline_capability_map_->Clear();
   for (it = pipeline_capability_map->begin();
        it != pipeline_capability_map->end(); ++it) {
     pipeline_capability_map_->Put(it->first, it->second);
   }
 }

 void HttpServerPropertiesImpl::SetNumPipelinedHostsToRemember(int max_size) {
   DCHECK(pipeline_capability_map_->empty());
   pipeline_capability_map_.reset(new CachedPipelineCapabilityMap(max_size));
 }

 void HttpServerPropertiesImpl::GetSpdyServerList(
     base::ListValue* spdy_server_list) const {
   DCHECK(CalledOnValidThread());
   DCHECK(spdy_server_list);
   spdy_server_list->Clear();
   // Get the list of servers (host/port) that support SPDY.
   for (SpdyServerHostPortTable::const_iterator it = spdy_servers_table_.begin();
        it != spdy_servers_table_.end(); ++it) {
     const std::string spdy_server_host_port = it->first;
     if (it->second)
       spdy_server_list->Append(new StringValue(spdy_server_host_port));
   }
 }

 // static
 std::string HttpServerPropertiesImpl::GetFlattenedSpdyServer(
     const net::HostPortPair& host_port_pair) {
   std::string spdy_server;
   spdy_server.append(host_port_pair.host());
   spdy_server.append(":");
   base::StringAppendF(&spdy_server, "%d", host_port_pair.port());
   return spdy_server;
 }

 static const PortAlternateProtocolPair* g_forced_alternate_protocol = NULL;

 // static
 void HttpServerPropertiesImpl::ForceAlternateProtocol(
     const PortAlternateProtocolPair& pair) {
   // Note: we're going to leak this.
   if (g_forced_alternate_protocol)
     delete g_forced_alternate_protocol;
   g_forced_alternate_protocol = new PortAlternateProtocolPair(pair);
 }

 // static
 void HttpServerPropertiesImpl::DisableForcedAlternateProtocol() {
   delete g_forced_alternate_protocol;
   g_forced_alternate_protocol = NULL;
 }

 void HttpServerPropertiesImpl::Clear() {
   DCHECK(CalledOnValidThread());
   spdy_servers_table_.clear();
   alternate_protocol_map_.clear();
   spdy_settings_map_.clear();
   pipeline_capability_map_->Clear();
 }

 bool HttpServerPropertiesImpl::SupportsSpdy(
     const net::HostPortPair& host_port_pair) const {
   DCHECK(CalledOnValidThread());
   if (host_port_pair.host().empty())
     return false;
   std::string spdy_server = GetFlattenedSpdyServer(host_port_pair);

   SpdyServerHostPortTable::const_iterator spdy_host_port =
       spdy_servers_table_.find(spdy_server);
   if (spdy_host_port != spdy_servers_table_.end())
     return spdy_host_port->second;
   return false;
 }

 void HttpServerPropertiesImpl::SetSupportsSpdy(
     const net::HostPortPair& host_port_pair,
     bool support_spdy) {
   DCHECK(CalledOnValidThread());
   if (host_port_pair.host().empty())
     return;
   std::string spdy_server = GetFlattenedSpdyServer(host_port_pair);

   SpdyServerHostPortTable::iterator spdy_host_port =
       spdy_servers_table_.find(spdy_server);
   if ((spdy_host_port != spdy_servers_table_.end()) &&
       (spdy_host_port->second == support_spdy)) {
     return;
   }
   // Cache the data.
   spdy_servers_table_[spdy_server] = support_spdy;
 }

 bool HttpServerPropertiesImpl::HasAlternateProtocol(
     const HostPortPair& server) const {
   return ContainsKey(alternate_protocol_map_, server) ||
       g_forced_alternate_protocol;
 }

 PortAlternateProtocolPair
 HttpServerPropertiesImpl::GetAlternateProtocol(
     const HostPortPair& server) const {
   DCHECK(HasAlternateProtocol(server));

   // First check the map.
   AlternateProtocolMap::const_iterator it =
       alternate_protocol_map_.find(server);
   if (it != alternate_protocol_map_.end())
     return it->second;

   // We must be forcing an alternate.
   DCHECK(g_forced_alternate_protocol);
   return *g_forced_alternate_protocol;
 }

 void HttpServerPropertiesImpl::SetAlternateProtocol(
     const HostPortPair& server,
     uint16 alternate_port,
     AlternateProtocol alternate_protocol) {
   if (alternate_protocol == ALTERNATE_PROTOCOL_BROKEN) {
     LOG(DFATAL) << "Call MarkBrokenAlternateProtocolFor() instead.";
     return;
   }

   PortAlternateProtocolPair alternate;
   alternate.port = alternate_port;
   alternate.protocol = alternate_protocol;
   if (HasAlternateProtocol(server)) {
     const PortAlternateProtocolPair existing_alternate =
         GetAlternateProtocol(server);

     if (existing_alternate.protocol == ALTERNATE_PROTOCOL_BROKEN) {
       DVLOG(1) << "Ignore alternate protocol since it's known to be broken.";
       return;
     }

     if (alternate_protocol != ALTERNATE_PROTOCOL_BROKEN &&
         !existing_alternate.Equals(alternate)) {
       LOG(WARNING) << "Changing the alternate protocol for: "
                    << server.ToString()
                    << " from [Port: " << existing_alternate.port
                    << ", Protocol: " << existing_alternate.protocol
                    << "] to [Port: " << alternate_port
                    << ", Protocol: " << alternate_protocol
                    << "].";
     }
   }

   alternate_protocol_map_[server] = alternate;
 }

 void HttpServerPropertiesImpl::SetBrokenAlternateProtocol(
     const HostPortPair& server) {
   alternate_protocol_map_[server].protocol = ALTERNATE_PROTOCOL_BROKEN;
 }

 const AlternateProtocolMap&
 HttpServerPropertiesImpl::alternate_protocol_map() const {
   return alternate_protocol_map_;
 }

 const SettingsMap& HttpServerPropertiesImpl::GetSpdySettings(
     const HostPortPair& host_port_pair) const {
   SpdySettingsMap::const_iterator it = spdy_settings_map_.find(host_port_pair);
   if (it == spdy_settings_map_.end()) {
     CR_DEFINE_STATIC_LOCAL(SettingsMap, kEmptySettingsMap, ());
     return kEmptySettingsMap;
   }
   return it->second;
 }

 bool HttpServerPropertiesImpl::SetSpdySetting(
     const HostPortPair& host_port_pair,
     SpdySettingsIds id,
     SpdySettingsFlags flags,
     uint32 value) {
   if (!(flags & SETTINGS_FLAG_PLEASE_PERSIST))
       return false;

   SettingsMap& settings_map = spdy_settings_map_[host_port_pair];
   SettingsFlagsAndValue flags_and_value(SETTINGS_FLAG_PERSISTED, value);
   settings_map[id] = flags_and_value;
   return true;
 }

 void HttpServerPropertiesImpl::ClearSpdySettings() {
   spdy_settings_map_.clear();
 }

 const SpdySettingsMap&
 HttpServerPropertiesImpl::spdy_settings_map() const {
   return spdy_settings_map_;
 }

 HttpPipelinedHostCapability HttpServerPropertiesImpl::GetPipelineCapability(
     const HostPortPair& origin) {
   HttpPipelinedHostCapability capability = PIPELINE_UNKNOWN;
   CachedPipelineCapabilityMap::const_iterator it =
       pipeline_capability_map_->Get(origin);
   if (it != pipeline_capability_map_->end()) {
     capability = it->second;
   }
   return capability;
 }

 void HttpServerPropertiesImpl::SetPipelineCapability(
       const HostPortPair& origin,
       HttpPipelinedHostCapability capability) {
   CachedPipelineCapabilityMap::iterator it =
       pipeline_capability_map_->Peek(origin);
   if (it == pipeline_capability_map_->end() ||
       it->second != PIPELINE_INCAPABLE) {
     pipeline_capability_map_->Put(origin, capability);
   }
 }

 void HttpServerPropertiesImpl::ClearPipelineCapabilities() {
   pipeline_capability_map_->Clear();
 }

 PipelineCapabilityMap
 HttpServerPropertiesImpl::GetPipelineCapabilityMap() const {
   PipelineCapabilityMap result;
   CachedPipelineCapabilityMap::const_iterator it;
   for (it = pipeline_capability_map_->begin();
        it != pipeline_capability_map_->end(); ++it) {
     result[it->first] = it->second;
   }
   return result;
 }

 }  // namespace net
	// Copyright (c) 2012 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.

	#include "net/http/http_server_properties_impl.h"

	#include "base/logging.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/stl_util.h"
	#include "base/stringprintf.h"
	#include "net/http/http_pipelined_host_capability.h"

	namespace net {

	// TODO(simonjam): Run experiments with different values of this to see what
	// value is good at avoiding evictions without eating too much memory. Until
	// then, this is just a bad guess.
	static const int kDefaultNumHostsToRemember = 200;

	HttpServerPropertiesImpl::HttpServerPropertiesImpl()
	: pipeline_capability_map_(
	new CachedPipelineCapabilityMap(kDefaultNumHostsToRemember)) {
	}

	HttpServerPropertiesImpl::~HttpServerPropertiesImpl() {
	}

	void HttpServerPropertiesImpl::InitializeSpdyServers(
	std::vector<std::string>* spdy_servers,
	bool support_spdy) {
	DCHECK(CalledOnValidThread());
	spdy_servers_table_.clear();
	if (!spdy_servers)
	return;
	for (std::vector<std::string>::iterator it = spdy_servers->begin();
	it != spdy_servers->end(); ++it) {
	spdy_servers_table_[*it] = support_spdy;
	}
	}

	void HttpServerPropertiesImpl::InitializeAlternateProtocolServers(
	AlternateProtocolMap* alternate_protocol_map) {
	// First swap, and then add back all the ALTERNATE_PROTOCOL_BROKEN ones since
	// those don't get persisted.
	alternate_protocol_map_.swap(*alternate_protocol_map);
	for (AlternateProtocolMap::const_iterator it =
	alternate_protocol_map->begin();
	it != alternate_protocol_map->end(); ++it) {
	if (it->second.protocol == ALTERNATE_PROTOCOL_BROKEN)
	alternate_protocol_map_[it->first] = it->second;
	}
	}

	void HttpServerPropertiesImpl::InitializeSpdySettingsServers(
	SpdySettingsMap* spdy_settings_map) {
	spdy_settings_map_.swap(*spdy_settings_map);
	}

	void HttpServerPropertiesImpl::InitializePipelineCapabilities(
	const PipelineCapabilityMap* pipeline_capability_map) {
	PipelineCapabilityMap::const_iterator it;
	pipeline_capability_map_->Clear();
	for (it = pipeline_capability_map->begin();
	it != pipeline_capability_map->end(); ++it) {
	pipeline_capability_map_->Put(it->first, it->second);
	}
	}

	void HttpServerPropertiesImpl::SetNumPipelinedHostsToRemember(int max_size) {
	DCHECK(pipeline_capability_map_->empty());
	pipeline_capability_map_.reset(new CachedPipelineCapabilityMap(max_size));
	}

	void HttpServerPropertiesImpl::GetSpdyServerList(
	base::ListValue* spdy_server_list) const {
	DCHECK(CalledOnValidThread());
	DCHECK(spdy_server_list);
	spdy_server_list->Clear();
	// Get the list of servers (host/port) that support SPDY.
	for (SpdyServerHostPortTable::const_iterator it = spdy_servers_table_.begin();
	it != spdy_servers_table_.end(); ++it) {
	const std::string spdy_server_host_port = it->first;
	if (it->second)
	spdy_server_list->Append(new StringValue(spdy_server_host_port));
	}
	}

	// static
	std::string HttpServerPropertiesImpl::GetFlattenedSpdyServer(
	const net::HostPortPair& host_port_pair) {
	std::string spdy_server;
	spdy_server.append(host_port_pair.host());
	spdy_server.append(":");
	base::StringAppendF(&spdy_server, "%d", host_port_pair.port());
	return spdy_server;
	}

	static const PortAlternateProtocolPair* g_forced_alternate_protocol = NULL;

	// static
	void HttpServerPropertiesImpl::ForceAlternateProtocol(
	const PortAlternateProtocolPair& pair) {
	// Note: we're going to leak this.
	if (g_forced_alternate_protocol)
	delete g_forced_alternate_protocol;
	g_forced_alternate_protocol = new PortAlternateProtocolPair(pair);
	}

	// static
	void HttpServerPropertiesImpl::DisableForcedAlternateProtocol() {
	delete g_forced_alternate_protocol;
	g_forced_alternate_protocol = NULL;
	}

	void HttpServerPropertiesImpl::Clear() {
	DCHECK(CalledOnValidThread());
	spdy_servers_table_.clear();
	alternate_protocol_map_.clear();
	spdy_settings_map_.clear();
	pipeline_capability_map_->Clear();
	}

	bool HttpServerPropertiesImpl::SupportsSpdy(
	const net::HostPortPair& host_port_pair) const {
	DCHECK(CalledOnValidThread());
	if (host_port_pair.host().empty())
	return false;
	std::string spdy_server = GetFlattenedSpdyServer(host_port_pair);

	SpdyServerHostPortTable::const_iterator spdy_host_port =
	spdy_servers_table_.find(spdy_server);
	if (spdy_host_port != spdy_servers_table_.end())
	return spdy_host_port->second;
	return false;
	}

	void HttpServerPropertiesImpl::SetSupportsSpdy(
	const net::HostPortPair& host_port_pair,
	bool support_spdy) {
	DCHECK(CalledOnValidThread());
	if (host_port_pair.host().empty())
	return;
	std::string spdy_server = GetFlattenedSpdyServer(host_port_pair);

	SpdyServerHostPortTable::iterator spdy_host_port =
	spdy_servers_table_.find(spdy_server);
	if ((spdy_host_port != spdy_servers_table_.end()) &&
	(spdy_host_port->second == support_spdy)) {
	return;
	}
	// Cache the data.
	spdy_servers_table_[spdy_server] = support_spdy;
	}

	bool HttpServerPropertiesImpl::HasAlternateProtocol(
	const HostPortPair& server) const {
	return ContainsKey(alternate_protocol_map_, server) \|\|
	g_forced_alternate_protocol;
	}

	PortAlternateProtocolPair
	HttpServerPropertiesImpl::GetAlternateProtocol(
	const HostPortPair& server) const {
	DCHECK(HasAlternateProtocol(server));

	// First check the map.
	AlternateProtocolMap::const_iterator it =
	alternate_protocol_map_.find(server);
	if (it != alternate_protocol_map_.end())
	return it->second;

	// We must be forcing an alternate.
	DCHECK(g_forced_alternate_protocol);
	return *g_forced_alternate_protocol;
	}

	void HttpServerPropertiesImpl::SetAlternateProtocol(
	const HostPortPair& server,
	uint16 alternate_port,
	AlternateProtocol alternate_protocol) {
	if (alternate_protocol == ALTERNATE_PROTOCOL_BROKEN) {
	LOG(DFATAL) << "Call MarkBrokenAlternateProtocolFor() instead.";
	return;
	}

	PortAlternateProtocolPair alternate;
	alternate.port = alternate_port;
	alternate.protocol = alternate_protocol;
	if (HasAlternateProtocol(server)) {
	const PortAlternateProtocolPair existing_alternate =
	GetAlternateProtocol(server);

	if (existing_alternate.protocol == ALTERNATE_PROTOCOL_BROKEN) {
	DVLOG(1) << "Ignore alternate protocol since it's known to be broken.";
	return;
	}

	if (alternate_protocol != ALTERNATE_PROTOCOL_BROKEN &&
	!existing_alternate.Equals(alternate)) {
	LOG(WARNING) << "Changing the alternate protocol for: "
	<< server.ToString()
	<< " from [Port: " << existing_alternate.port
	<< ", Protocol: " << existing_alternate.protocol
	<< "] to [Port: " << alternate_port
	<< ", Protocol: " << alternate_protocol
	<< "].";
	}
	}

	alternate_protocol_map_[server] = alternate;
	}

	void HttpServerPropertiesImpl::SetBrokenAlternateProtocol(
	const HostPortPair& server) {
	alternate_protocol_map_[server].protocol = ALTERNATE_PROTOCOL_BROKEN;
	}

	const AlternateProtocolMap&
	HttpServerPropertiesImpl::alternate_protocol_map() const {
	return alternate_protocol_map_;
	}

	const SettingsMap& HttpServerPropertiesImpl::GetSpdySettings(
	const HostPortPair& host_port_pair) const {
	SpdySettingsMap::const_iterator it = spdy_settings_map_.find(host_port_pair);
	if (it == spdy_settings_map_.end()) {
	CR_DEFINE_STATIC_LOCAL(SettingsMap, kEmptySettingsMap, ());
	return kEmptySettingsMap;
	}
	return it->second;
	}

	bool HttpServerPropertiesImpl::SetSpdySetting(
	const HostPortPair& host_port_pair,
	SpdySettingsIds id,
	SpdySettingsFlags flags,
	uint32 value) {
	if (!(flags & SETTINGS_FLAG_PLEASE_PERSIST))
	return false;

	SettingsMap& settings_map = spdy_settings_map_[host_port_pair];
	SettingsFlagsAndValue flags_and_value(SETTINGS_FLAG_PERSISTED, value);
	settings_map[id] = flags_and_value;
	return true;
	}

	void HttpServerPropertiesImpl::ClearSpdySettings() {
	spdy_settings_map_.clear();
	}

	const SpdySettingsMap&
	HttpServerPropertiesImpl::spdy_settings_map() const {
	return spdy_settings_map_;
	}

	HttpPipelinedHostCapability HttpServerPropertiesImpl::GetPipelineCapability(
	const HostPortPair& origin) {
	HttpPipelinedHostCapability capability = PIPELINE_UNKNOWN;
	CachedPipelineCapabilityMap::const_iterator it =
	pipeline_capability_map_->Get(origin);
	if (it != pipeline_capability_map_->end()) {
	capability = it->second;
	}
	return capability;
	}

	void HttpServerPropertiesImpl::SetPipelineCapability(
	const HostPortPair& origin,
	HttpPipelinedHostCapability capability) {
	CachedPipelineCapabilityMap::iterator it =
	pipeline_capability_map_->Peek(origin);
	if (it == pipeline_capability_map_->end() \|\|
	it->second != PIPELINE_INCAPABLE) {
	pipeline_capability_map_->Put(origin, capability);
	}
	}

	void HttpServerPropertiesImpl::ClearPipelineCapabilities() {
	pipeline_capability_map_->Clear();
	}

	PipelineCapabilityMap
	HttpServerPropertiesImpl::GetPipelineCapabilityMap() const {
	PipelineCapabilityMap result;
	CachedPipelineCapabilityMap::const_iterator it;
	for (it = pipeline_capability_map_->begin();
	it != pipeline_capability_map_->end(); ++it) {
	result[it->first] = it->second;
	}
	return result;
	}

	} // namespace net