net/quic/quic_context.h - cobalt - Git at Google

 // Copyright 2019 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef NET_QUIC_QUIC_CONTEXT_H_
 #define NET_QUIC_QUIC_CONTEXT_H_

 #include <memory>

 #include "base/containers/contains.h"
 #include "base/feature_list.h"
 #include "base/time/time.h"
 #include "net/base/features.h"
 #include "net/base/host_port_pair.h"
 #include "net/third_party/quiche/src/quiche/quic/core/quic_connection.h"

 namespace net {

 // Default QUIC supported versions used in absence of any external
 // configuration.
 inline NET_EXPORT_PRIVATE quic::ParsedQuicVersionVector
 DefaultSupportedQuicVersions() {
   // The ordering of this list does not matter for Chrome because it respects
   // the ordering received from the server via Alt-Svc. However, cronet offers
   // an addQuicHint() API which uses the first version from this list until
   // it receives Alt-Svc from the server.
   return quic::ParsedQuicVersionVector{quic::ParsedQuicVersion::RFCv1()};
 }

 // Obsolete QUIC supported versions are versions that are supported by the
 // QUIC shared code but that Chrome refuses to use because modern clients
 // should only use versions at least as recent as the oldest default version.
 inline NET_EXPORT_PRIVATE quic::ParsedQuicVersionVector ObsoleteQuicVersions() {
   return quic::ParsedQuicVersionVector{
       quic::ParsedQuicVersion::Q043(), quic::ParsedQuicVersion::Q046(),
       quic::ParsedQuicVersion::Q050(), quic::ParsedQuicVersion::Draft29()};
 }

 // All of the QUIC versions that Chrome can support. This is the subset of
 // QUIC versions that the QUIC shared code supports that are not on the list
 // of versions that Chrome considers obsolete.
 inline NET_EXPORT_PRIVATE quic::ParsedQuicVersionVector
 AllSupportedQuicVersions() {
   quic::ParsedQuicVersionVector obsolete_versions = ObsoleteQuicVersions();
   quic::ParsedQuicVersionVector all_supported_versions =
       quic::AllSupportedVersions();
   quic::ParsedQuicVersionVector filtered_versions;
   for (const auto& version : all_supported_versions) {
     if (!base::Contains(obsolete_versions, version)) {
       filtered_versions.push_back(version);
     }
   }
   return filtered_versions;
 }

 // When a connection is idle for 30 seconds it will be closed.
 constexpr base::TimeDelta kIdleConnectionTimeout = base::Seconds(30);

 // Sessions can migrate if they have been idle for less than this period.
 constexpr base::TimeDelta kDefaultIdleSessionMigrationPeriod =
     base::Seconds(30);

 // The default maximum time allowed to have no retransmittable packets on the
 // wire (after sending the first retransmittable packet) if
 // |migrate_session_early_v2_| is true. PING frames will be sent as needed to
 // enforce this.
 constexpr base::TimeDelta kDefaultRetransmittableOnWireTimeout =
     base::Milliseconds(200);

 // The default maximum time QUIC session could be on non-default network before
 // migrate back to default network.
 constexpr base::TimeDelta kMaxTimeOnNonDefaultNetwork = base::Seconds(128);

 // The default maximum number of migrations to non default network on write
 // error per network.
 const int64_t kMaxMigrationsToNonDefaultNetworkOnWriteError = 5;

 // The default maximum number of migrations to non default network on path
 // degrading per network.
 const int64_t kMaxMigrationsToNonDefaultNetworkOnPathDegrading = 5;

 // QUIC's socket receive buffer size.
 // We should adaptively set this buffer size, but for now, we'll use a size
 // that seems large enough to receive data at line rate for most connections,
 // and does not consume "too much" memory.
 const int32_t kQuicSocketReceiveBufferSize = 1024 * 1024;  // 1MB

 // Structure containing simple configuration options and experiments for QUIC.
 struct NET_EXPORT QuicParams {
   QuicParams();
   QuicParams(const QuicParams& other);
   ~QuicParams();

   // QUIC runtime configuration options.

   // Versions of QUIC which may be used.
   quic::ParsedQuicVersionVector supported_versions =
       DefaultSupportedQuicVersions();
   // User agent description to send in the QUIC handshake.
   std::string user_agent_id;
   // Limit on the size of QUIC packets.
   size_t max_packet_length = quic::kDefaultMaxPacketSize;
   // Maximum number of server configs that are to be stored in
   // HttpServerProperties, instead of the disk cache.
   size_t max_server_configs_stored_in_properties = 0u;
   // QUIC will be used for all connections in this set.
   std::set<HostPortPair> origins_to_force_quic_on;
   // Set of QUIC tags to send in the handshake's connection options.
   quic::QuicTagVector connection_options;
   // Set of QUIC tags to send in the handshake's connection options that only
   // affect the client.
   quic::QuicTagVector client_connection_options;
   // Enables experimental optimization for receiving data in UDPSocket.
   bool enable_socket_recv_optimization = false;

   // Active QUIC experiments

   // Retry requests which fail with QUIC_PROTOCOL_ERROR, and mark QUIC
   // broken if the retry succeeds.
   bool retry_without_alt_svc_on_quic_errors = true;
   // If true, all QUIC sessions are closed when any local IP address changes.
   bool close_sessions_on_ip_change = false;
   // If true, all QUIC sessions are marked as goaway when any local IP address
   // changes.
   bool goaway_sessions_on_ip_change = false;
   // Specifies QUIC idle connection state lifetime.
   base::TimeDelta idle_connection_timeout = kIdleConnectionTimeout;
   // Specifies the reduced ping timeout subsequent connections should use when
   // a connection was timed out with open streams.
   base::TimeDelta reduced_ping_timeout = base::Seconds(quic::kPingTimeoutSecs);
   // Maximum time that a session can have no retransmittable packets on the
   // wire. Set to zero if not specified and no retransmittable PING will be
   // sent to peer when the wire has no retransmittable packets.
   base::TimeDelta retransmittable_on_wire_timeout;
   // Maximum time the session can be alive before crypto handshake is
   // finished.
   base::TimeDelta max_time_before_crypto_handshake =
       base::Seconds(quic::kMaxTimeForCryptoHandshakeSecs);
   // Maximum idle time before the crypto handshake has completed.
   base::TimeDelta max_idle_time_before_crypto_handshake =
       base::Seconds(quic::kInitialIdleTimeoutSecs);
   // If true, connection migration v2 will be used to migrate existing
   // sessions to network when the platform indicates that the default network
   // is changing.
   bool migrate_sessions_on_network_change_v2 =
       base::FeatureList::IsEnabled(features::kMigrateSessionsOnNetworkChangeV2);
   // If true, connection migration v2 may be used to migrate active QUIC
   // sessions to alternative network if current network connectivity is poor.
   bool migrate_sessions_early_v2 = false;
   // If true, a new connection may be kicked off on an alternate network when
   // a connection fails on the default network before handshake is confirmed.
   bool retry_on_alternate_network_before_handshake = false;
   // If true, an idle session will be migrated within the idle migration
   // period.
   bool migrate_idle_sessions = false;
   // If true, sessions with open streams will attempt to migrate to a different
   // port when the current path is poor.
   bool allow_port_migration = true;
   // A session can be migrated if its idle time is within this period.
   base::TimeDelta idle_session_migration_period =
       kDefaultIdleSessionMigrationPeriod;
   // Maximum time the session could be on the non-default network before
   // migrates back to default network. Defaults to
   // kMaxTimeOnNonDefaultNetwork.
   base::TimeDelta max_time_on_non_default_network = kMaxTimeOnNonDefaultNetwork;
   // Maximum number of migrations to the non-default network on write error
   // per network for each session.
   int max_migrations_to_non_default_network_on_write_error =
       kMaxMigrationsToNonDefaultNetworkOnWriteError;
   // Maximum number of migrations to the non-default network on path
   // degrading per network for each session.
   int max_migrations_to_non_default_network_on_path_degrading =
       kMaxMigrationsToNonDefaultNetworkOnPathDegrading;
   // If true, allows migration of QUIC connections to a server-specified
   // alternate server address.
   bool allow_server_migration = false;
   // If true, allows QUIC to use alternative services with a different
   // hostname from the origin.
   bool allow_remote_alt_svc = true;
   // If true, the quic stream factory may race connection from stale dns
   // result with the original dns resolution
   bool race_stale_dns_on_connection = false;
   // If true, estimate the initial RTT for QUIC connections based on network.
   bool estimate_initial_rtt = false;
   // The initial rtt that will be used in crypto handshake if no cached
   // smoothed rtt is present.
   base::TimeDelta initial_rtt_for_handshake;
   // If true, QUIC with TLS will not try 0-RTT connection.
   bool disable_tls_zero_rtt = false;
   // If true, gQUIC requests will always require confirmation.
   bool disable_gquic_zero_rtt = false;
   // Network Service Type of the socket for iOS. Default is NET_SERVICE_TYPE_BE
   // (best effort).
   int ios_network_service_type = 0;
   // Delay for the 1st time the alternative service is marked broken.
   absl::optional<base::TimeDelta> initial_delay_for_broken_alternative_service;
   // If true, the delay for broke alternative service would be initial_delay *
   // (1 << broken_count). Otherwise, the delay would be initial_delay, 5min,
   // 10min and so on.
   absl::optional<bool> exponential_backoff_on_initial_delay;
   // If true, delay main job even the request can be sent immediately on an
   // available SPDY session.
   bool delay_main_job_with_available_spdy_session = false;
 };

 // QuicContext contains QUIC-related variables that are shared across all of the
 // QUIC connections, both HTTP and non-HTTP ones.
 class NET_EXPORT_PRIVATE QuicContext {
  public:
   QuicContext();
   explicit QuicContext(
       std::unique_ptr<quic::QuicConnectionHelperInterface> helper);
   ~QuicContext();

   quic::QuicConnectionHelperInterface* helper() { return helper_.get(); }
   const quic::QuicClock* clock() { return helper_->GetClock(); }
   quic::QuicRandom* random_generator() { return helper_->GetRandomGenerator(); }

   QuicParams* params() { return &params_; }
   quic::ParsedQuicVersion GetDefaultVersion() {
     return params_.supported_versions[0];
   }
   const quic::ParsedQuicVersionVector& supported_versions() {
     return params_.supported_versions;
   }

   void SetHelperForTesting(
       std::unique_ptr<quic::QuicConnectionHelperInterface> helper) {
     helper_ = std::move(helper);
   }

  private:
   std::unique_ptr<quic::QuicConnectionHelperInterface> helper_;

   QuicParams params_;
 };

 // Initializes QuicConfig based on the specified parameters.
 quic::QuicConfig InitializeQuicConfig(const QuicParams& params);

 }  // namespace net

 #endif  // NET_QUIC_QUIC_CONTEXT_H_
	// Copyright 2019 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef NET_QUIC_QUIC_CONTEXT_H_
	#define NET_QUIC_QUIC_CONTEXT_H_

	#include <memory>

	#include "base/containers/contains.h"
	#include "base/feature_list.h"
	#include "base/time/time.h"
	#include "net/base/features.h"
	#include "net/base/host_port_pair.h"
	#include "net/third_party/quiche/src/quiche/quic/core/quic_connection.h"

	namespace net {

	// Default QUIC supported versions used in absence of any external
	// configuration.
	inline NET_EXPORT_PRIVATE quic::ParsedQuicVersionVector
	DefaultSupportedQuicVersions() {
	// The ordering of this list does not matter for Chrome because it respects
	// the ordering received from the server via Alt-Svc. However, cronet offers
	// an addQuicHint() API which uses the first version from this list until
	// it receives Alt-Svc from the server.
	return quic::ParsedQuicVersionVector{quic::ParsedQuicVersion::RFCv1()};
	}

	// Obsolete QUIC supported versions are versions that are supported by the
	// QUIC shared code but that Chrome refuses to use because modern clients
	// should only use versions at least as recent as the oldest default version.
	inline NET_EXPORT_PRIVATE quic::ParsedQuicVersionVector ObsoleteQuicVersions() {
	return quic::ParsedQuicVersionVector{
	quic::ParsedQuicVersion::Q043(), quic::ParsedQuicVersion::Q046(),
	quic::ParsedQuicVersion::Q050(), quic::ParsedQuicVersion::Draft29()};
	}

	// All of the QUIC versions that Chrome can support. This is the subset of
	// QUIC versions that the QUIC shared code supports that are not on the list
	// of versions that Chrome considers obsolete.
	inline NET_EXPORT_PRIVATE quic::ParsedQuicVersionVector
	AllSupportedQuicVersions() {
	quic::ParsedQuicVersionVector obsolete_versions = ObsoleteQuicVersions();
	quic::ParsedQuicVersionVector all_supported_versions =
	quic::AllSupportedVersions();
	quic::ParsedQuicVersionVector filtered_versions;
	for (const auto& version : all_supported_versions) {
	if (!base::Contains(obsolete_versions, version)) {
	filtered_versions.push_back(version);
	}
	}
	return filtered_versions;
	}

	// When a connection is idle for 30 seconds it will be closed.
	constexpr base::TimeDelta kIdleConnectionTimeout = base::Seconds(30);

	// Sessions can migrate if they have been idle for less than this period.
	constexpr base::TimeDelta kDefaultIdleSessionMigrationPeriod =
	base::Seconds(30);

	// The default maximum time allowed to have no retransmittable packets on the
	// wire (after sending the first retransmittable packet) if
	// \|migrate_session_early_v2_\| is true. PING frames will be sent as needed to
	// enforce this.
	constexpr base::TimeDelta kDefaultRetransmittableOnWireTimeout =
	base::Milliseconds(200);

	// The default maximum time QUIC session could be on non-default network before
	// migrate back to default network.
	constexpr base::TimeDelta kMaxTimeOnNonDefaultNetwork = base::Seconds(128);

	// The default maximum number of migrations to non default network on write
	// error per network.
	const int64_t kMaxMigrationsToNonDefaultNetworkOnWriteError = 5;

	// The default maximum number of migrations to non default network on path
	// degrading per network.
	const int64_t kMaxMigrationsToNonDefaultNetworkOnPathDegrading = 5;

	// QUIC's socket receive buffer size.
	// We should adaptively set this buffer size, but for now, we'll use a size
	// that seems large enough to receive data at line rate for most connections,
	// and does not consume "too much" memory.
	const int32_t kQuicSocketReceiveBufferSize = 1024 * 1024; // 1MB

	// Structure containing simple configuration options and experiments for QUIC.
	struct NET_EXPORT QuicParams {
	QuicParams();
	QuicParams(const QuicParams& other);
	~QuicParams();

	// QUIC runtime configuration options.

	// Versions of QUIC which may be used.
	quic::ParsedQuicVersionVector supported_versions =
	DefaultSupportedQuicVersions();
	// User agent description to send in the QUIC handshake.
	std::string user_agent_id;
	// Limit on the size of QUIC packets.
	size_t max_packet_length = quic::kDefaultMaxPacketSize;
	// Maximum number of server configs that are to be stored in
	// HttpServerProperties, instead of the disk cache.
	size_t max_server_configs_stored_in_properties = 0u;
	// QUIC will be used for all connections in this set.
	std::set<HostPortPair> origins_to_force_quic_on;
	// Set of QUIC tags to send in the handshake's connection options.
	quic::QuicTagVector connection_options;
	// Set of QUIC tags to send in the handshake's connection options that only
	// affect the client.
	quic::QuicTagVector client_connection_options;
	// Enables experimental optimization for receiving data in UDPSocket.
	bool enable_socket_recv_optimization = false;

	// Active QUIC experiments

	// Retry requests which fail with QUIC_PROTOCOL_ERROR, and mark QUIC
	// broken if the retry succeeds.
	bool retry_without_alt_svc_on_quic_errors = true;
	// If true, all QUIC sessions are closed when any local IP address changes.
	bool close_sessions_on_ip_change = false;
	// If true, all QUIC sessions are marked as goaway when any local IP address
	// changes.
	bool goaway_sessions_on_ip_change = false;
	// Specifies QUIC idle connection state lifetime.
	base::TimeDelta idle_connection_timeout = kIdleConnectionTimeout;
	// Specifies the reduced ping timeout subsequent connections should use when
	// a connection was timed out with open streams.
	base::TimeDelta reduced_ping_timeout = base::Seconds(quic::kPingTimeoutSecs);
	// Maximum time that a session can have no retransmittable packets on the
	// wire. Set to zero if not specified and no retransmittable PING will be
	// sent to peer when the wire has no retransmittable packets.
	base::TimeDelta retransmittable_on_wire_timeout;
	// Maximum time the session can be alive before crypto handshake is
	// finished.
	base::TimeDelta max_time_before_crypto_handshake =
	base::Seconds(quic::kMaxTimeForCryptoHandshakeSecs);
	// Maximum idle time before the crypto handshake has completed.
	base::TimeDelta max_idle_time_before_crypto_handshake =
	base::Seconds(quic::kInitialIdleTimeoutSecs);
	// If true, connection migration v2 will be used to migrate existing
	// sessions to network when the platform indicates that the default network
	// is changing.
	bool migrate_sessions_on_network_change_v2 =
	base::FeatureList::IsEnabled(features::kMigrateSessionsOnNetworkChangeV2);
	// If true, connection migration v2 may be used to migrate active QUIC
	// sessions to alternative network if current network connectivity is poor.
	bool migrate_sessions_early_v2 = false;
	// If true, a new connection may be kicked off on an alternate network when
	// a connection fails on the default network before handshake is confirmed.
	bool retry_on_alternate_network_before_handshake = false;
	// If true, an idle session will be migrated within the idle migration
	// period.
	bool migrate_idle_sessions = false;
	// If true, sessions with open streams will attempt to migrate to a different
	// port when the current path is poor.
	bool allow_port_migration = true;
	// A session can be migrated if its idle time is within this period.
	base::TimeDelta idle_session_migration_period =
	kDefaultIdleSessionMigrationPeriod;
	// Maximum time the session could be on the non-default network before
	// migrates back to default network. Defaults to
	// kMaxTimeOnNonDefaultNetwork.
	base::TimeDelta max_time_on_non_default_network = kMaxTimeOnNonDefaultNetwork;
	// Maximum number of migrations to the non-default network on write error
	// per network for each session.
	int max_migrations_to_non_default_network_on_write_error =
	kMaxMigrationsToNonDefaultNetworkOnWriteError;
	// Maximum number of migrations to the non-default network on path
	// degrading per network for each session.
	int max_migrations_to_non_default_network_on_path_degrading =
	kMaxMigrationsToNonDefaultNetworkOnPathDegrading;
	// If true, allows migration of QUIC connections to a server-specified
	// alternate server address.
	bool allow_server_migration = false;
	// If true, allows QUIC to use alternative services with a different
	// hostname from the origin.
	bool allow_remote_alt_svc = true;
	// If true, the quic stream factory may race connection from stale dns
	// result with the original dns resolution
	bool race_stale_dns_on_connection = false;
	// If true, estimate the initial RTT for QUIC connections based on network.
	bool estimate_initial_rtt = false;
	// The initial rtt that will be used in crypto handshake if no cached
	// smoothed rtt is present.
	base::TimeDelta initial_rtt_for_handshake;
	// If true, QUIC with TLS will not try 0-RTT connection.
	bool disable_tls_zero_rtt = false;
	// If true, gQUIC requests will always require confirmation.
	bool disable_gquic_zero_rtt = false;
	// Network Service Type of the socket for iOS. Default is NET_SERVICE_TYPE_BE
	// (best effort).
	int ios_network_service_type = 0;
	// Delay for the 1st time the alternative service is marked broken.
	absl::optional<base::TimeDelta> initial_delay_for_broken_alternative_service;
	// If true, the delay for broke alternative service would be initial_delay *
	// (1 << broken_count). Otherwise, the delay would be initial_delay, 5min,
	// 10min and so on.
	absl::optional<bool> exponential_backoff_on_initial_delay;
	// If true, delay main job even the request can be sent immediately on an
	// available SPDY session.
	bool delay_main_job_with_available_spdy_session = false;
	};

	// QuicContext contains QUIC-related variables that are shared across all of the
	// QUIC connections, both HTTP and non-HTTP ones.
	class NET_EXPORT_PRIVATE QuicContext {
	public:
	QuicContext();
	explicit QuicContext(
	std::unique_ptr<quic::QuicConnectionHelperInterface> helper);
	~QuicContext();

	quic::QuicConnectionHelperInterface* helper() { return helper_.get(); }
	const quic::QuicClock* clock() { return helper_->GetClock(); }
	quic::QuicRandom* random_generator() { return helper_->GetRandomGenerator(); }

	QuicParams* params() { return &params_; }
	quic::ParsedQuicVersion GetDefaultVersion() {
	return params_.supported_versions[0];
	}
	const quic::ParsedQuicVersionVector& supported_versions() {
	return params_.supported_versions;
	}

	void SetHelperForTesting(
	std::unique_ptr<quic::QuicConnectionHelperInterface> helper) {
	helper_ = std::move(helper);
	}

	private:
	std::unique_ptr<quic::QuicConnectionHelperInterface> helper_;

	QuicParams params_;
	};

	// Initializes QuicConfig based on the specified parameters.
	quic::QuicConfig InitializeQuicConfig(const QuicParams& params);

	} // namespace net

	#endif // NET_QUIC_QUIC_CONTEXT_H_