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quiche / quiche / 55491b70d7c9d095a59b0bfb6c4abd1d6489dd9e / . / quic / core / quic_session.h
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// 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.
// A QuicSession, which demuxes a single connection to individual streams.
#ifndef QUICHE_QUIC_CORE_QUIC_SESSION_H_
#define QUICHE_QUIC_CORE_QUIC_SESSION_H_
#include <cstddef>
#include <cstdint>
#include <map>
#include <memory>
#include <string>
#include <vector>
#include "absl/container/flat_hash_map.h"
#include "absl/strings/string_view.h"
#include "absl/types/optional.h"
#include "absl/types/span.h"
#include "quic/core/crypto/tls_connection.h"
#include "quic/core/frames/quic_ack_frequency_frame.h"
#include "quic/core/frames/quic_stop_sending_frame.h"
#include "quic/core/frames/quic_window_update_frame.h"
#include "quic/core/handshaker_delegate_interface.h"
#include "quic/core/legacy_quic_stream_id_manager.h"
#include "quic/core/proto/cached_network_parameters_proto.h"
#include "quic/core/quic_connection.h"
#include "quic/core/quic_control_frame_manager.h"
#include "quic/core/quic_crypto_stream.h"
#include "quic/core/quic_datagram_queue.h"
#include "quic/core/quic_error_codes.h"
#include "quic/core/quic_packet_creator.h"
#include "quic/core/quic_packets.h"
#include "quic/core/quic_path_validator.h"
#include "quic/core/quic_stream.h"
#include "quic/core/quic_stream_frame_data_producer.h"
#include "quic/core/quic_types.h"
#include "quic/core/quic_write_blocked_list.h"
#include "quic/core/session_notifier_interface.h"
#include "quic/core/stream_delegate_interface.h"
#include "quic/core/uber_quic_stream_id_manager.h"
#include "quic/platform/api/quic_export.h"
#include "quic/platform/api/quic_flags.h"
#include "quic/platform/api/quic_mem_slice.h"
#include "quic/platform/api/quic_socket_address.h"
#include "common/quiche_linked_hash_map.h"
namespace quic {
class QuicCryptoStream;
class QuicFlowController;
class QuicStream;
class QuicStreamIdManager;
namespace test {
class QuicSessionPeer;
} // namespace test
class QUIC_EXPORT_PRIVATE QuicSession
: public QuicConnectionVisitorInterface,
public SessionNotifierInterface,
public QuicStreamFrameDataProducer,
public QuicStreamIdManager::DelegateInterface,
public HandshakerDelegateInterface,
public StreamDelegateInterface,
public QuicControlFrameManager::DelegateInterface {
public:
// An interface from the session to the entity owning the session.
// This lets the session notify its owner (the Dispatcher) when the connection
// is closed, blocked, or added/removed from the time-wait list.
class QUIC_EXPORT_PRIVATE Visitor {
public:
virtual ~Visitor() {}
// Called when the connection is closed after the streams have been closed.
virtual void OnConnectionClosed(QuicConnectionId server_connection_id,
QuicErrorCode error,
const std::string& error_details,
ConnectionCloseSource source) = 0;
// Called when the session has become write blocked.
virtual void OnWriteBlocked(QuicBlockedWriterInterface* blocked_writer) = 0;
// Called when the session receives reset on a stream from the peer.
virtual void OnRstStreamReceived(const QuicRstStreamFrame& frame) = 0;
// Called when the session receives a STOP_SENDING for a stream from the
// peer.
virtual void OnStopSendingReceived(const QuicStopSendingFrame& frame) = 0;
// Called when a NewConnectionId frame has been sent.
virtual void OnNewConnectionIdSent(
const QuicConnectionId& server_connection_id,
const QuicConnectionId& new_connection_id) = 0;
// Called when a ConnectionId has been retired.
virtual void OnConnectionIdRetired(
const QuicConnectionId& server_connection_id) = 0;
};
// Does not take ownership of |connection| or |visitor|.
QuicSession(QuicConnection* connection, Visitor* owner,
const QuicConfig& config,
const ParsedQuicVersionVector& supported_versions,
QuicStreamCount num_expected_unidirectional_static_streams);
QuicSession(QuicConnection* connection, Visitor* owner,
const QuicConfig& config,
const ParsedQuicVersionVector& supported_versions,
QuicStreamCount num_expected_unidirectional_static_streams,
std::unique_ptr<QuicDatagramQueue::Observer> datagram_observer);
QuicSession(const QuicSession&) = delete;
QuicSession& operator=(const QuicSession&) = delete;
~QuicSession() override;
virtual void Initialize();
// Return the reserved crypto stream as a constant pointer.
virtual const QuicCryptoStream* GetCryptoStream() const = 0;
// QuicConnectionVisitorInterface methods:
void OnStreamFrame(const QuicStreamFrame& frame) override;
void OnCryptoFrame(const QuicCryptoFrame& frame) override;
void OnRstStream(const QuicRstStreamFrame& frame) override;
void OnGoAway(const QuicGoAwayFrame& frame) override;
void OnMessageReceived(absl::string_view message) override;
void OnHandshakeDoneReceived() override;
void OnNewTokenReceived(absl::string_view token) override;
void OnWindowUpdateFrame(const QuicWindowUpdateFrame& frame) override;
void OnBlockedFrame(const QuicBlockedFrame& frame) override;
void OnConnectionClosed(const QuicConnectionCloseFrame& frame,
ConnectionCloseSource source) override;
void OnWriteBlocked() override;
void OnSuccessfulVersionNegotiation(
const ParsedQuicVersion& version) override;
void OnPacketReceived(const QuicSocketAddress& self_address,
const QuicSocketAddress& peer_address,
bool is_connectivity_probe) override;
void OnCanWrite() override;
bool SendProbingData() override;
bool ValidateStatelessReset(
const quic::QuicSocketAddress& /*self_address*/,
const quic::QuicSocketAddress& /*peer_address*/) override {
return true;
}
void OnCongestionWindowChange(QuicTime /*now*/) override {}
void OnConnectionMigration(AddressChangeType /*type*/) override {}
// Adds a connection level WINDOW_UPDATE frame.
void OnAckNeedsRetransmittableFrame() override;
void SendAckFrequency(const QuicAckFrequencyFrame& frame) override;
void SendNewConnectionId(const QuicNewConnectionIdFrame& frame) override;
void SendRetireConnectionId(uint64_t sequence_number) override;
void OnServerConnectionIdIssued(
const QuicConnectionId& server_connection_id) override;
void OnServerConnectionIdRetired(
const QuicConnectionId& server_connection_id) override;
bool WillingAndAbleToWrite() const override;
std::string GetStreamsInfoForLogging() const override;
void OnPathDegrading() override;
void OnForwardProgressMadeAfterPathDegrading() override;
bool AllowSelfAddressChange() const override;
HandshakeState GetHandshakeState() const override;
bool OnMaxStreamsFrame(const QuicMaxStreamsFrame& frame) override;
bool OnStreamsBlockedFrame(const QuicStreamsBlockedFrame& frame) override;
void OnStopSendingFrame(const QuicStopSendingFrame& frame) override;
void OnPacketDecrypted(EncryptionLevel level) override;
void OnOneRttPacketAcknowledged() override;
void OnHandshakePacketSent() override;
void OnKeyUpdate(KeyUpdateReason /*reason*/) override {}
std::unique_ptr<QuicDecrypter> AdvanceKeysAndCreateCurrentOneRttDecrypter()
override;
std::unique_ptr<QuicEncrypter> CreateCurrentOneRttEncrypter() override;
void BeforeConnectionCloseSent() override {}
bool ValidateToken(absl::string_view token) override;
bool MaybeSendAddressToken() override;
bool IsKnownServerAddress(
const QuicSocketAddress& /*address*/) const override {
return false;
}
// QuicStreamFrameDataProducer
WriteStreamDataResult WriteStreamData(QuicStreamId id,
QuicStreamOffset offset,
QuicByteCount data_length,
QuicDataWriter* writer) override;
bool WriteCryptoData(EncryptionLevel level, QuicStreamOffset offset,
QuicByteCount data_length,
QuicDataWriter* writer) override;
// SessionNotifierInterface methods:
bool OnFrameAcked(const QuicFrame& frame, QuicTime::Delta ack_delay_time,
QuicTime receive_timestamp) override;
void OnStreamFrameRetransmitted(const QuicStreamFrame& frame) override;
void OnFrameLost(const QuicFrame& frame) override;
void RetransmitFrames(const QuicFrames& frames,
TransmissionType type) override;
bool IsFrameOutstanding(const QuicFrame& frame) const override;
bool HasUnackedCryptoData() const override;
bool HasUnackedStreamData() const override;
void SendMaxStreams(QuicStreamCount stream_count,
bool unidirectional) override;
// The default implementation does nothing. Subclasses should override if
// for example they queue up stream requests.
virtual void OnCanCreateNewOutgoingStream(bool /*unidirectional*/) {}
// Called on every incoming packet. Passes |packet| through to |connection_|.
virtual void ProcessUdpPacket(const QuicSocketAddress& self_address,
const QuicSocketAddress& peer_address,
const QuicReceivedPacket& packet);
// Sends |message| as a QUIC DATAGRAM frame (QUIC MESSAGE frame in gQUIC).
// See <https://datatracker.ietf.org/doc/html/draft-ietf-quic-datagram> for
// more details.
//
// Returns a MessageResult struct which includes the status of the write
// operation and a message ID. The message ID (not sent on the wire) can be
// used to track the message; OnMessageAcked and OnMessageLost are called when
// a specific message gets acked or lost.
//
// If the write operation is successful, all of the slices in |message| are
// consumed, leaving them empty. If MESSAGE_STATUS_INTERNAL_ERROR is
// returned, the slices in question may or may not be consumed; it is no
// longer safe to access those. For all other status codes, |message| is kept
// intact.
//
// Note that SendMessage will fail with status = MESSAGE_STATUS_BLOCKED
// if the connection is congestion control blocked or the underlying socket is
// write blocked. In this case the caller can retry sending message again when
// connection becomes available, for example after getting OnCanWrite()
// callback.
//
// SendMessage flushes the current packet even it is not full; if the
// application needs to bundle other data in the same packet, consider using
// QuicConnection::ScopedPacketFlusher around the relevant write operations.
MessageResult SendMessage(absl::Span<QuicMemSlice> message);
// Same as above SendMessage, except caller can specify if the given |message|
// should be flushed even if the underlying connection is deemed unwritable.
MessageResult SendMessage(absl::Span<QuicMemSlice> message, bool flush);
// Single-slice version of SendMessage(). Unlike the version above, this
// version always takes ownership of the slice.
MessageResult SendMessage(QuicMemSlice message);
// Called when message with |message_id| gets acked.
virtual void OnMessageAcked(QuicMessageId message_id,
QuicTime receive_timestamp);
// Called when message with |message_id| is considered as lost.
virtual void OnMessageLost(QuicMessageId message_id);
// QuicControlFrameManager::DelegateInterface
// Close the connection on error.
void OnControlFrameManagerError(QuicErrorCode error_code,
std::string error_details) override;
// Called by control frame manager when it wants to write control frames to
// the peer. Returns true if |frame| is consumed, false otherwise. The frame
// will be sent in specified transmission |type|.
bool WriteControlFrame(const QuicFrame& frame,
TransmissionType type) override;
// Called to send RST_STREAM (and STOP_SENDING) and close stream. If stream
// |id| does not exist, just send RST_STREAM (and STOP_SENDING).
virtual void ResetStream(QuicStreamId id, QuicRstStreamErrorCode error);
// Called when the session wants to go away and not accept any new streams.
virtual void SendGoAway(QuicErrorCode error_code, const std::string& reason);
// Sends a BLOCKED frame.
virtual void SendBlocked(QuicStreamId id);
// Sends a WINDOW_UPDATE frame.
virtual void SendWindowUpdate(QuicStreamId id, QuicStreamOffset byte_offset);
// Called by stream |stream_id| when it gets closed.
virtual void OnStreamClosed(QuicStreamId stream_id);
// Returns true if outgoing packets will be encrypted, even if the server
// hasn't confirmed the handshake yet.
virtual bool IsEncryptionEstablished() const;
// Returns true if 1RTT keys are available.
bool OneRttKeysAvailable() const;
// Called by the QuicCryptoStream when a new QuicConfig has been negotiated.
virtual void OnConfigNegotiated();
// Called by the TLS handshaker when ALPS data is received.
// Returns an error message if an error has occurred, or nullopt otherwise.
virtual absl::optional<std::string> OnAlpsData(const uint8_t* alps_data,
size_t alps_length);
// From HandshakerDelegateInterface
bool OnNewDecryptionKeyAvailable(EncryptionLevel level,
std::unique_ptr<QuicDecrypter> decrypter,
bool set_alternative_decrypter,
bool latch_once_used) override;
void OnNewEncryptionKeyAvailable(
EncryptionLevel level, std::unique_ptr<QuicEncrypter> encrypter) override;
void SetDefaultEncryptionLevel(EncryptionLevel level) override;
void OnTlsHandshakeComplete() override;
void DiscardOldDecryptionKey(EncryptionLevel level) override;
void DiscardOldEncryptionKey(EncryptionLevel level) override;
void NeuterUnencryptedData() override;
void NeuterHandshakeData() override;
void OnZeroRttRejected(int reason) override;
bool FillTransportParameters(TransportParameters* params) override;
QuicErrorCode ProcessTransportParameters(const TransportParameters& params,
bool is_resumption,
std::string* error_details) override;
void OnHandshakeCallbackDone() override;
bool PacketFlusherAttached() const override;
// Implement StreamDelegateInterface.
void OnStreamError(QuicErrorCode error_code,
std::string error_details) override;
void OnStreamError(QuicErrorCode error_code,
QuicIetfTransportErrorCodes ietf_error,
std::string error_details) override;
// Sets priority in the write blocked list.
void RegisterStreamPriority(
QuicStreamId id, bool is_static,
const spdy::SpdyStreamPrecedence& precedence) override;
// Clears priority from the write blocked list.
void UnregisterStreamPriority(QuicStreamId id, bool is_static) override;
// Updates priority on the write blocked list.
void UpdateStreamPriority(
QuicStreamId id,
const spdy::SpdyStreamPrecedence& new_precedence) override;
// Called by streams when they want to write data to the peer.
// Returns a pair with the number of bytes consumed from data, and a boolean
// indicating if the fin bit was consumed. This does not indicate the data
// has been sent on the wire: it may have been turned into a packet and queued
// if the socket was unexpectedly blocked.
QuicConsumedData WritevData(QuicStreamId id, size_t write_length,
QuicStreamOffset offset, StreamSendingState state,
TransmissionType type,
EncryptionLevel level) override;
size_t SendCryptoData(EncryptionLevel level, size_t write_length,
QuicStreamOffset offset,
TransmissionType type) override;
// Called by the QuicCryptoStream when a handshake message is sent.
virtual void OnCryptoHandshakeMessageSent(
const CryptoHandshakeMessage& message);
// Called by the QuicCryptoStream when a handshake message is received.
virtual void OnCryptoHandshakeMessageReceived(
const CryptoHandshakeMessage& message);
// Returns mutable config for this session. Returned config is owned
// by QuicSession.
QuicConfig* config();
// Returns true if the stream existed previously and has been closed.
// Returns false if the stream is still active or if the stream has
// not yet been created.
bool IsClosedStream(QuicStreamId id);
QuicConnection* connection() { return connection_; }
const QuicConnection* connection() const { return connection_; }
const QuicSocketAddress& peer_address() const {
return connection_->peer_address();
}
const QuicSocketAddress& self_address() const {
return connection_->self_address();
}
QuicConnectionId connection_id() const {
return connection_->connection_id();
}
// Returns the number of currently open streams, excluding static streams, and
// never counting unfinished streams.
size_t GetNumActiveStreams() const;
// Add the stream to the session's write-blocked list because it is blocked by
// connection-level flow control but not by its own stream-level flow control.
// The stream will be given a chance to write when a connection-level
// WINDOW_UPDATE arrives.
virtual void MarkConnectionLevelWriteBlocked(QuicStreamId id);
// Called to close zombie stream |id|.
void MaybeCloseZombieStream(QuicStreamId id);
// Returns true if there is pending handshake data in the crypto stream.
// TODO(ianswett): Make this private or remove.
bool HasPendingHandshake() const;
// Returns true if the session has data to be sent, either queued in the
// connection, or in a write-blocked stream.
bool HasDataToWrite() const;
// Initiates a path validation on the path described in the given context,
// asynchronously calls |result_delegate| upon success or failure.
// The initiator should extend QuicPathValidationContext to provide the writer
// and ResultDelegate to react upon the validation result.
// Example implementations of these for path validation for connection
// migration could be:
// class QUIC_EXPORT_PRIVATE PathMigrationContext
// : public QuicPathValidationContext {
// public:
// PathMigrationContext(std::unique_ptr<QuicPacketWriter> writer,
// const QuicSocketAddress& self_address,
// const QuicSocketAddress& peer_address)
// : QuicPathValidationContext(self_address, peer_address),
// alternative_writer_(std::move(writer)) {}
//
// QuicPacketWriter* WriterToUse() override {
// return alternative_writer_.get();
// }
//
// QuicPacketWriter* ReleaseWriter() {
// return alternative_writer_.release();
// }
//
// private:
// std::unique_ptr<QuicPacketWriter> alternative_writer_;
// };
//
// class PathMigrationValidationResultDelegate
// : public QuicPathValidator::ResultDelegate {
// public:
// PathMigrationValidationResultDelegate(QuicConnection* connection)
// : QuicPathValidator::ResultDelegate(), connection_(connection) {}
//
// void OnPathValidationSuccess(
// std::unique_ptr<QuicPathValidationContext> context) override {
// // Do some work to prepare for migration.
// // ...
//
// // Actually migrate to the validated path.
// auto migration_context = std::unique_ptr<PathMigrationContext>(
// static_cast<PathMigrationContext*>(context.release()));
// connection_->MigratePath(migration_context->self_address(),
// migration_context->peer_address(),
// migration_context->ReleaseWriter(),
// /*owns_writer=*/true);
//
// // Post-migration actions
// // ...
// }
//
// void OnPathValidationFailure(
// std::unique_ptr<QuicPathValidationContext> /*context*/) override {
// // Handle validation failure.
// }
//
// private:
// QuicConnection* connection_;
// };
void ValidatePath(
std::unique_ptr<QuicPathValidationContext> context,
std::unique_ptr<QuicPathValidator::ResultDelegate> result_delegate);
// Return true if there is a path being validated.
bool HasPendingPathValidation() const;
// Switch to the path described in |context| without validating the path.
bool MigratePath(const QuicSocketAddress& self_address,
const QuicSocketAddress& peer_address,
QuicPacketWriter* writer, bool owns_writer);
// Returns the largest payload that will fit into a single MESSAGE frame.
// Because overhead can vary during a connection, this method should be
// checked for every message.
QuicPacketLength GetCurrentLargestMessagePayload() const;
// Returns the largest payload that will fit into a single MESSAGE frame at
// any point during the connection. This assumes the version and
// connection ID lengths do not change.
QuicPacketLength GetGuaranteedLargestMessagePayload() const;
bool transport_goaway_sent() const { return transport_goaway_sent_; }
bool transport_goaway_received() const { return transport_goaway_received_; }
// Returns the Google QUIC error code
QuicErrorCode error() const { return on_closed_frame_.quic_error_code; }
const std::string& error_details() const {
return on_closed_frame_.error_details;
}
uint64_t transport_close_frame_type() const {
return on_closed_frame_.transport_close_frame_type;
}
QuicConnectionCloseType close_type() const {
return on_closed_frame_.close_type;
}
Perspective perspective() const { return perspective_; }
QuicFlowController* flow_controller() { return &flow_controller_; }
// Returns true if connection is flow controller blocked.
bool IsConnectionFlowControlBlocked() const;
// Returns true if any stream is flow controller blocked.
bool IsStreamFlowControlBlocked();
size_t max_open_incoming_bidirectional_streams() const;
size_t max_open_incoming_unidirectional_streams() const;
size_t MaxAvailableBidirectionalStreams() const;
size_t MaxAvailableUnidirectionalStreams() const;
// Returns existing stream with id = |stream_id|. If no
// such stream exists, and |stream_id| is a peer-created stream id,
// then a new stream is created and returned. In all other cases, nullptr is
// returned.
// Caller does not own the returned stream.
QuicStream* GetOrCreateStream(const QuicStreamId stream_id);
// Mark a stream as draining.
void StreamDraining(QuicStreamId id, bool unidirectional);
// Returns true if this stream should yield writes to another blocked stream.
virtual bool ShouldYield(QuicStreamId stream_id);
// Clean up closed_streams_.
void CleanUpClosedStreams();
const ParsedQuicVersionVector& supported_versions() const {
return supported_versions_;
}
QuicStreamId next_outgoing_bidirectional_stream_id() const;
QuicStreamId next_outgoing_unidirectional_stream_id() const;
// Return true if given stream is peer initiated.
bool IsIncomingStream(QuicStreamId id) const;
// Record errors when a connection is closed at the server side, should only
// be called from server's perspective.
// Noop if |error| is QUIC_NO_ERROR.
static void RecordConnectionCloseAtServer(QuicErrorCode error,
ConnectionCloseSource source);
inline QuicTransportVersion transport_version() const {
return connection_->transport_version();
}
inline ParsedQuicVersion version() const { return connection_->version(); }
bool is_configured() const { return is_configured_; }
// Called to neuter crypto data of encryption |level|.
void NeuterCryptoDataOfEncryptionLevel(EncryptionLevel level);
// Returns the ALPN values to negotiate on this session.
virtual std::vector<std::string> GetAlpnsToOffer() const {
// TODO(vasilvv): this currently sets HTTP/3 by default. Switch all
// non-HTTP applications to appropriate ALPNs.
return std::vector<std::string>({AlpnForVersion(connection()->version())});
}
// Provided a list of ALPNs offered by the client, selects an ALPN from the
// list, or alpns.end() if none of the ALPNs are acceptable.
virtual std::vector<absl::string_view>::const_iterator SelectAlpn(
const std::vector<absl::string_view>& alpns) const;
// Called when the ALPN of the connection is established for a connection that
// uses TLS handshake.
virtual void OnAlpnSelected(absl::string_view alpn);
// Called on clients by the crypto handshaker to provide application state
// necessary for sending application data in 0-RTT. The state provided here is
// the same state that was provided to the crypto handshaker in
// QuicCryptoStream::SetServerApplicationStateForResumption on a previous
// connection. Application protocols that require state to be carried over
// from the previous connection to support 0-RTT data must implement this
// method to ingest this state. For example, an HTTP/3 QuicSession would
// implement this function to process the remembered server SETTINGS and apply
// those SETTINGS to 0-RTT data. This function returns true if the application
// state has been successfully processed, and false if there was an error
// processing the cached state and the connection should be closed.
virtual bool ResumeApplicationState(ApplicationState* /*cached_state*/) {
return true;
}
// Does actual work of sending RESET_STREAM, if the stream type allows.
// Also informs the connection so that pending stream frames can be flushed.
virtual void MaybeSendRstStreamFrame(QuicStreamId id,
QuicResetStreamError error,
QuicStreamOffset bytes_written);
// Sends a STOP_SENDING frame if the stream type allows.
virtual void MaybeSendStopSendingFrame(QuicStreamId id,
QuicResetStreamError error);
// Returns the encryption level to send application data.
EncryptionLevel GetEncryptionLevelToSendApplicationData() const;
const absl::optional<std::string> user_agent_id() const {
return user_agent_id_;
}
// TODO(wub): remove saving user-agent to QuicSession.
void SetUserAgentId(std::string user_agent_id) {
user_agent_id_ = std::move(user_agent_id);
connection()->OnUserAgentIdKnown(user_agent_id_.value());
}
void SetSourceAddressTokenToSend(absl::string_view token) {
connection()->SetSourceAddressTokenToSend(token);
}
const QuicClock* GetClock() const {
return connection()->helper()->GetClock();
}
bool liveness_testing_in_progress() const {
return liveness_testing_in_progress_;
}
bool permutes_tls_extensions() const { return permutes_tls_extensions_; }
virtual QuicSSLConfig GetSSLConfig() const { return QuicSSLConfig(); }
// Latched value of flag --quic_tls_server_support_client_cert.
bool support_client_cert() const { return support_client_cert_; }
// Get latched flag value.
bool add_cached_network_parameters_to_address_token() const {
return add_cached_network_parameters_to_address_token_;
}
// Try converting all pending streams to normal streams.
void ProcessAllPendingStreams();
const ParsedQuicVersionVector& client_original_supported_versions() const {
QUICHE_DCHECK_EQ(perspective_, Perspective::IS_CLIENT);
return client_original_supported_versions_;
}
void set_client_original_supported_versions(
const ParsedQuicVersionVector& client_original_supported_versions) {
QUICHE_DCHECK_EQ(perspective_, Perspective::IS_CLIENT);
client_original_supported_versions_ = client_original_supported_versions;
}
protected:
using StreamMap =
absl::flat_hash_map<QuicStreamId, std::unique_ptr<QuicStream>>;
using PendingStreamMap =
absl::flat_hash_map<QuicStreamId, std::unique_ptr<PendingStream>>;
using ClosedStreams = std::vector<std::unique_ptr<QuicStream>>;
using ZombieStreamMap =
absl::flat_hash_map<QuicStreamId, std::unique_ptr<QuicStream>>;
// Creates a new stream to handle a peer-initiated stream.
// Caller does not own the returned stream.
// Returns nullptr and does error handling if the stream can not be created.
virtual QuicStream* CreateIncomingStream(QuicStreamId id) = 0;
virtual QuicStream* CreateIncomingStream(PendingStream* pending) = 0;
// Return the reserved crypto stream.
virtual QuicCryptoStream* GetMutableCryptoStream() = 0;
// Adds |stream| to the stream map.
virtual void ActivateStream(std::unique_ptr<QuicStream> stream);
// Set transmission type of next sending packets.
void SetTransmissionType(TransmissionType type);
// Returns the stream ID for a new outgoing bidirectional/unidirectional
// stream, and increments the underlying counter.
QuicStreamId GetNextOutgoingBidirectionalStreamId();
QuicStreamId GetNextOutgoingUnidirectionalStreamId();
// Indicates whether the next outgoing bidirectional/unidirectional stream ID
// can be allocated or not. The test for version-99/IETF QUIC is whether it
// will exceed the maximum-stream-id or not. For non-version-99 (Google) QUIC
// it checks whether the next stream would exceed the limit on the number of
// open streams.
bool CanOpenNextOutgoingBidirectionalStream();
bool CanOpenNextOutgoingUnidirectionalStream();
// Returns the maximum bidirectional streams parameter sent with the handshake
// as a transport parameter, or in the most recent MAX_STREAMS frame.
QuicStreamCount GetAdvertisedMaxIncomingBidirectionalStreams() const;
// When a stream is closed locally, it may not yet know how many bytes the
// peer sent on that stream.
// When this data arrives (via stream frame w. FIN, trailing headers, or RST)
// this method is called, and correctly updates the connection level flow
// controller.
virtual void OnFinalByteOffsetReceived(QuicStreamId id,
QuicStreamOffset final_byte_offset);
// Returns true if a frame with the given type and id can be prcoessed by a
// PendingStream. However, the frame will always be processed by a QuicStream
// if one exists with the given stream_id.
virtual bool UsesPendingStreamForFrame(QuicFrameType /*type*/,
QuicStreamId /*stream_id*/) const {
return false;
}
// Returns true if a pending stream should be converted to a real stream after
// a corresponding STREAM_FRAME is received.
virtual bool ShouldProcessPendingStreamImmediately() const { return true; }
spdy::SpdyPriority GetSpdyPriorityofStream(QuicStreamId stream_id) const {
return write_blocked_streams_.GetSpdyPriorityofStream(stream_id);
}
size_t pending_streams_size() const { return pending_stream_map_.size(); }
ClosedStreams* closed_streams() { return &closed_streams_; }
void set_largest_peer_created_stream_id(
QuicStreamId largest_peer_created_stream_id);
QuicWriteBlockedList* write_blocked_streams() {
return &write_blocked_streams_;
}
// Returns true if the stream is still active.
bool IsOpenStream(QuicStreamId id);
// Returns true if the stream is a static stream.
bool IsStaticStream(QuicStreamId id) const;
// Close connection when receive a frame for a locally-created nonexistent
// stream.
// Prerequisite: IsClosedStream(stream_id) == false
// Server session might need to override this method to allow server push
// stream to be promised before creating an active stream.
virtual void HandleFrameOnNonexistentOutgoingStream(QuicStreamId stream_id);
virtual bool MaybeIncreaseLargestPeerStreamId(const QuicStreamId stream_id);
void InsertLocallyClosedStreamsHighestOffset(const QuicStreamId id,
QuicStreamOffset offset);
// If stream is a locally closed stream, this RST will update FIN offset.
// Otherwise stream is a preserved stream and the behavior of it depends on
// derived class's own implementation.
virtual void HandleRstOnValidNonexistentStream(
const QuicRstStreamFrame& frame);
// Returns a stateless reset token which will be included in the public reset
// packet.
virtual StatelessResetToken GetStatelessResetToken() const;
QuicControlFrameManager& control_frame_manager() {
return control_frame_manager_;
}
const LegacyQuicStreamIdManager& stream_id_manager() const {
return stream_id_manager_;
}
QuicDatagramQueue* datagram_queue() { return &datagram_queue_; }
size_t num_static_streams() const { return num_static_streams_; }
size_t num_zombie_streams() const { return num_zombie_streams_; }
bool was_zero_rtt_rejected() const { return was_zero_rtt_rejected_; }
size_t num_outgoing_draining_streams() const {
return num_outgoing_draining_streams_;
}
size_t num_draining_streams() const { return num_draining_streams_; }
// Processes the stream type information of |pending| depending on
// different kinds of sessions' own rules. If the pending stream has been
// converted to a normal stream, returns a pointer to the new stream;
// otherwise, returns nullptr.
virtual QuicStream* ProcessPendingStream(PendingStream* /*pending*/) {
return nullptr;
}
// Called by applications to perform |action| on active streams.
// Stream iteration will be stopped if action returns false.
void PerformActionOnActiveStreams(std::function<bool(QuicStream*)> action);
void PerformActionOnActiveStreams(
std::function<bool(QuicStream*)> action) const;
// Return the largest peer created stream id depending on directionality
// indicated by |unidirectional|.
QuicStreamId GetLargestPeerCreatedStreamId(bool unidirectional) const;
// Deletes the connection and sets it to nullptr, so calling it mulitiple
// times is safe.
void DeleteConnection();
// Call SetPriority() on stream id |id| and return true if stream is active.
bool MaybeSetStreamPriority(QuicStreamId stream_id,
const spdy::SpdyStreamPrecedence& precedence);
void SetLossDetectionTuner(
std::unique_ptr<LossDetectionTunerInterface> tuner) {
connection()->SetLossDetectionTuner(std::move(tuner));
}
// Find stream with |id|, returns nullptr if the stream does not exist or
// closed. static streams and zombie streams are not considered active
// streams.
QuicStream* GetActiveStream(QuicStreamId id) const;
const UberQuicStreamIdManager& ietf_streamid_manager() const {
QUICHE_DCHECK(VersionHasIetfQuicFrames(transport_version()));
return ietf_streamid_manager_;
}
// Only called at a server session. Generate a CachedNetworkParameters that
// can be sent to the client as part of the address token, based on the latest
// bandwidth/rtt information. If return absl::nullopt, address token will not
// contain the CachedNetworkParameters.
virtual absl::optional<CachedNetworkParameters>
GenerateCachedNetworkParameters() const {
return absl::nullopt;
}
private:
friend class test::QuicSessionPeer;
// Called in OnConfigNegotiated when we receive a new stream level flow
// control window in a negotiated config. Closes the connection if invalid.
void OnNewStreamFlowControlWindow(QuicStreamOffset new_window);
// Called in OnConfigNegotiated when we receive a new unidirectional stream
// flow control window in a negotiated config.
void OnNewStreamUnidirectionalFlowControlWindow(QuicStreamOffset new_window);
// Called in OnConfigNegotiated when we receive a new outgoing bidirectional
// stream flow control window in a negotiated config.
void OnNewStreamOutgoingBidirectionalFlowControlWindow(
QuicStreamOffset new_window);
// Called in OnConfigNegotiated when we receive a new incoming bidirectional
// stream flow control window in a negotiated config.
void OnNewStreamIncomingBidirectionalFlowControlWindow(
QuicStreamOffset new_window);
// Called in OnConfigNegotiated when we receive a new connection level flow
// control window in a negotiated config. Closes the connection if invalid.
void OnNewSessionFlowControlWindow(QuicStreamOffset new_window);
// Debug helper for |OnCanWrite()|, check that OnStreamWrite() makes
// forward progress. Returns false if busy loop detected.
bool CheckStreamNotBusyLooping(QuicStream* stream,
uint64_t previous_bytes_written,
bool previous_fin_sent);
// Debug helper for OnCanWrite. Check that after QuicStream::OnCanWrite(),
// if stream has buffered data and is not stream level flow control blocked,
// it has to be in the write blocked list.
bool CheckStreamWriteBlocked(QuicStream* stream) const;
// Called in OnConfigNegotiated for Finch trials to measure performance of
// starting with larger flow control receive windows.
void AdjustInitialFlowControlWindows(size_t stream_window);
// Find stream with |id|, returns nullptr if the stream does not exist or
// closed.
QuicStream* GetStream(QuicStreamId id) const;
// Can return NULL, e.g., if the stream has been closed before.
PendingStream* GetOrCreatePendingStream(QuicStreamId stream_id);
// Let streams and control frame managers retransmit lost data, returns true
// if all lost data is retransmitted. Returns false otherwise.
bool RetransmitLostData();
// Returns true if stream data should be written.
bool CanWriteStreamData() const;
// Closes the pending stream |stream_id| before it has been created.
void ClosePendingStream(QuicStreamId stream_id);
// Whether the frame with given type and id should be feed to a pending
// stream.
bool ShouldProcessFrameByPendingStream(QuicFrameType type,
QuicStreamId id) const;
// Process the pending stream if possible.
void MaybeProcessPendingStream(PendingStream* pending);
// Creates or gets pending stream, feeds it with |frame|, and returns the
// pending stream. Can return NULL, e.g., if the stream ID is invalid.
PendingStream* PendingStreamOnStreamFrame(const QuicStreamFrame& frame);
// Creates or gets pending strea, feed it with |frame|, and closes the pending
// stream.
void PendingStreamOnRstStream(const QuicRstStreamFrame& frame);
// Creates or gets pending stream, feeds it with |frame|, and records the
// max_data in the pending stream.
void PendingStreamOnWindowUpdateFrame(const QuicWindowUpdateFrame& frame);
// Creates or gets pending stream, feeds it with |frame|, and records the
// ietf_error_code in the pending stream.
void PendingStreamOnStopSendingFrame(const QuicStopSendingFrame& frame);
// Keep track of highest received byte offset of locally closed streams, while
// waiting for a definitive final highest offset from the peer.
absl::flat_hash_map<QuicStreamId, QuicStreamOffset>
locally_closed_streams_highest_offset_;
QuicConnection* connection_;
// Store perspective on QuicSession during the constructor as it may be needed
// during our destructor when connection_ may have already been destroyed.
Perspective perspective_;
// May be null.
Visitor* visitor_;
// A list of streams which need to write more data. Stream register
// themselves in their constructor, and unregisterm themselves in their
// destructors, so the write blocked list must outlive all streams.
QuicWriteBlockedList write_blocked_streams_;
ClosedStreams closed_streams_;
QuicConfig config_;
// Map from StreamId to pointers to streams. Owns the streams.
StreamMap stream_map_;
// Map from StreamId to PendingStreams for peer-created unidirectional streams
// which are waiting for the first byte of payload to arrive.
PendingStreamMap pending_stream_map_;
// TODO(fayang): Consider moving LegacyQuicStreamIdManager into
// UberQuicStreamIdManager.
// Manages stream IDs for Google QUIC.
LegacyQuicStreamIdManager stream_id_manager_;
// Manages stream IDs for version99/IETF QUIC
UberQuicStreamIdManager ietf_streamid_manager_;
// A counter for streams which have sent and received FIN but waiting for
// application to consume data.
size_t num_draining_streams_;
// A counter for self initiated streams which have sent and received FIN but
// waiting for application to consume data.
size_t num_outgoing_draining_streams_;
// A counter for static streams which are in stream_map_.
size_t num_static_streams_;
// A counter for streams which have done reading and writing, but are waiting
// for acks.
size_t num_zombie_streams_;
// Received information for a connection close.
QuicConnectionCloseFrame on_closed_frame_;
// Used for connection-level flow control.
QuicFlowController flow_controller_;
// The stream id which was last popped in OnCanWrite, or 0, if not under the
// call stack of OnCanWrite.
QuicStreamId currently_writing_stream_id_;
// Whether a transport layer GOAWAY frame has been sent.
// Such a frame only exists in Google QUIC, therefore |transport_goaway_sent_|
// is always false when using IETF QUIC.
bool transport_goaway_sent_;
// Whether a transport layer GOAWAY frame has been received.
// Such a frame only exists in Google QUIC, therefore
// |transport_goaway_received_| is always false when using IETF QUIC.
bool transport_goaway_received_;
QuicControlFrameManager control_frame_manager_;
// Id of latest successfully sent message.
QuicMessageId last_message_id_;
// The buffer used to queue the DATAGRAM frames.
QuicDatagramQueue datagram_queue_;
// TODO(fayang): switch to linked_hash_set when chromium supports it. The bool
// is not used here.
// List of streams with pending retransmissions.
quiche::QuicheLinkedHashMap<QuicStreamId, bool>
streams_with_pending_retransmission_;
// Clean up closed_streams_ when this alarm fires.
std::unique_ptr<QuicAlarm> closed_streams_clean_up_alarm_;
// Supported version list used by the crypto handshake only. Please note, this
// list may be a superset of the connection framer's supported versions.
ParsedQuicVersionVector supported_versions_;
// Only non-empty on the client after receiving a version negotiation packet,
// contains the configured versions from the original session before version
// negotiation was received.
ParsedQuicVersionVector client_original_supported_versions_;
absl::optional<std::string> user_agent_id_;
// Initialized to false. Set to true when the session has been properly
// configured and is ready for general operation.
bool is_configured_;
// Whether the session has received a 0-RTT rejection (QUIC+TLS only).
bool was_zero_rtt_rejected_;
// This indicates a liveness testing is in progress, and push back the
// creation of new outgoing bidirectional streams.
bool liveness_testing_in_progress_;
const bool add_cached_network_parameters_to_address_token_ =
GetQuicReloadableFlag(
quic_add_cached_network_parameters_to_address_token);
// Whether BoringSSL randomizes the order of TLS extensions.
bool permutes_tls_extensions_ = true;
const bool support_client_cert_ =
GetQuicRestartFlag(quic_tls_server_support_client_cert);
};
} // namespace quic
#endif // QUICHE_QUIC_CORE_QUIC_SESSION_H_