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// Copyright 2013 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.
#ifndef QUICHE_QUIC_CORE_CRYPTO_QUIC_CRYPTO_CLIENT_CONFIG_H_
#define QUICHE_QUIC_CORE_CRYPTO_QUIC_CRYPTO_CLIENT_CONFIG_H_
#include <cstdint>
#include <map>
#include <memory>
#include <string>
#include <vector>
#include "absl/strings/string_view.h"
#include "third_party/boringssl/src/include/openssl/base.h"
#include "third_party/boringssl/src/include/openssl/ssl.h"
#include "quic/core/crypto/crypto_handshake.h"
#include "quic/core/crypto/crypto_protocol.h"
#include "quic/core/crypto/proof_source.h"
#include "quic/core/crypto/transport_parameters.h"
#include "quic/core/quic_packets.h"
#include "quic/core/quic_server_id.h"
#include "quic/platform/api/quic_export.h"
#include "quic/platform/api/quic_reference_counted.h"
namespace quic {
class CryptoHandshakeMessage;
class ProofVerifier;
class ProofVerifyDetails;
class QuicRandom;
// QuicResumptionState stores the state a client needs for performing connection
// resumption.
struct QUIC_EXPORT_PRIVATE QuicResumptionState {
// |tls_session| holds the cryptographic state necessary for a resumption. It
// includes the ALPN negotiated on the connection where the ticket was
// received.
bssl::UniquePtr<SSL_SESSION> tls_session;
// If the application using QUIC doesn't support 0-RTT handshakes or the
// client didn't receive a 0-RTT capable session ticket from the server,
// |transport_params| will be null. Otherwise, it will contain the transport
// parameters received from the server on the original connection.
std::unique_ptr<TransportParameters> transport_params = nullptr;
// If |transport_params| is null, then |application_state| is ignored and
// should be empty. |application_state| contains serialized state that the
// client received from the server at the application layer that the client
// needs to remember when performing a 0-RTT handshake.
std::unique_ptr<ApplicationState> application_state = nullptr;
};
// SessionCache is an interface for managing storing and retrieving
// QuicResumptionState structs.
class QUIC_EXPORT_PRIVATE SessionCache {
public:
virtual ~SessionCache() {}
// Inserts |session|, |params|, and |application_states| into the cache, keyed
// by |server_id|. Insert is first called after all three values are present.
// The ownership of |session| is transferred to the cache, while other two are
// copied. Multiple sessions might need to be inserted for a connection.
// SessionCache implementations should support storing
// multiple entries per server ID.
virtual void Insert(const QuicServerId& server_id,
bssl::UniquePtr<SSL_SESSION> session,
const TransportParameters& params,
const ApplicationState* application_state) = 0;
// Lookup is called once at the beginning of each TLS handshake to potentially
// provide the saved state both for the TLS handshake and for sending 0-RTT
// data (if supported). Lookup may return a nullptr. Implementations should
// delete cache entries after returning them in Lookup so that session tickets
// are used only once.
virtual std::unique_ptr<QuicResumptionState> Lookup(
const QuicServerId& server_id,
const SSL_CTX* ctx) = 0;
// Called when 0-RTT is rejected. Disables early data for all the TLS tickets
// associated with |server_id|.
virtual void ClearEarlyData(const QuicServerId& server_id) = 0;
};
// QuicCryptoClientConfig contains crypto-related configuration settings for a
// client. Note that this object isn't thread-safe. It's designed to be used on
// a single thread at a time.
class QUIC_EXPORT_PRIVATE QuicCryptoClientConfig : public QuicCryptoConfig {
public:
// A CachedState contains the information that the client needs in order to
// perform a 0-RTT handshake with a server. This information can be reused
// over several connections to the same server.
class QUIC_EXPORT_PRIVATE CachedState {
public:
// Enum to track if the server config is valid or not. If it is not valid,
// it specifies why it is invalid.
enum ServerConfigState {
// WARNING: Do not change the numerical values of any of server config
// state. Do not remove deprecated server config states - just comment
// them as deprecated.
SERVER_CONFIG_EMPTY = 0,
SERVER_CONFIG_INVALID = 1,
SERVER_CONFIG_CORRUPTED = 2,
SERVER_CONFIG_EXPIRED = 3,
SERVER_CONFIG_INVALID_EXPIRY = 4,
SERVER_CONFIG_VALID = 5,
// NOTE: Add new server config states only immediately above this line.
// Make sure to update the QuicServerConfigState enum in
// tools/metrics/histograms/histograms.xml accordingly.
SERVER_CONFIG_COUNT
};
CachedState();
CachedState(const CachedState&) = delete;
CachedState& operator=(const CachedState&) = delete;
~CachedState();
// IsComplete returns true if this object contains enough information to
// perform a handshake with the server. |now| is used to judge whether any
// cached server config has expired.
bool IsComplete(QuicWallTime now) const;
// IsEmpty returns true if |server_config_| is empty.
bool IsEmpty() const;
// GetServerConfig returns the parsed contents of |server_config|, or
// nullptr if |server_config| is empty. The return value is owned by this
// object and is destroyed when this object is.
const CryptoHandshakeMessage* GetServerConfig() const;
// SetServerConfig checks that |server_config| parses correctly and stores
// it in |server_config_|. |now| is used to judge whether |server_config|
// has expired.
ServerConfigState SetServerConfig(absl::string_view server_config,
QuicWallTime now,
QuicWallTime expiry_time,
std::string* error_details);
// InvalidateServerConfig clears the cached server config (if any).
void InvalidateServerConfig();
// SetProof stores a cert chain, cert signed timestamp and signature.
void SetProof(const std::vector<std::string>& certs,
absl::string_view cert_sct,
absl::string_view chlo_hash,
absl::string_view signature);
// Clears all the data.
void Clear();
// Clears the certificate chain and signature and invalidates the proof.
void ClearProof();
// SetProofValid records that the certificate chain and signature have been
// validated and that it's safe to assume that the server is legitimate.
// (Note: this does not check the chain or signature.)
void SetProofValid();
// If the server config or the proof has changed then it needs to be
// revalidated. Helper function to keep server_config_valid_ and
// generation_counter_ in sync.
void SetProofInvalid();
const std::string& server_config() const;
const std::string& source_address_token() const;
const std::vector<std::string>& certs() const;
const std::string& cert_sct() const;
const std::string& chlo_hash() const;
const std::string& signature() const;
bool proof_valid() const;
uint64_t generation_counter() const;
const ProofVerifyDetails* proof_verify_details() const;
void set_source_address_token(absl::string_view token);
void set_cert_sct(absl::string_view cert_sct);
// SetProofVerifyDetails takes ownership of |details|.
void SetProofVerifyDetails(ProofVerifyDetails* details);
// Copy the |server_config_|, |source_address_token_|, |certs_|,
// |expiration_time_|, |cert_sct_|, |chlo_hash_| and |server_config_sig_|
// from the |other|. The remaining fields, |generation_counter_|,
// |proof_verify_details_|, and |scfg_| remain unchanged.
void InitializeFrom(const CachedState& other);
// Initializes this cached state based on the arguments provided.
// Returns false if there is a problem parsing the server config.
bool Initialize(absl::string_view server_config,
absl::string_view source_address_token,
const std::vector<std::string>& certs,
const std::string& cert_sct,
absl::string_view chlo_hash,
absl::string_view signature,
QuicWallTime now,
QuicWallTime expiration_time);
private:
std::string server_config_; // A serialized handshake message.
std::string source_address_token_; // An opaque proof of IP ownership.
std::vector<std::string> certs_; // A list of certificates in leaf-first
// order.
std::string cert_sct_; // Signed timestamp of the leaf cert.
std::string chlo_hash_; // Hash of the CHLO message.
std::string server_config_sig_; // A signature of |server_config_|.
bool server_config_valid_; // True if |server_config_| is correctly
// signed and |certs_| has been validated.
QuicWallTime expiration_time_; // Time when the config is no longer valid.
// Generation counter associated with the |server_config_|, |certs_| and
// |server_config_sig_| combination. It is incremented whenever we set
// server_config_valid_ to false.
uint64_t generation_counter_;
std::unique_ptr<ProofVerifyDetails> proof_verify_details_;
// scfg contains the cached, parsed value of |server_config|.
mutable std::unique_ptr<CryptoHandshakeMessage> scfg_;
};
// Used to filter server ids for partial config deletion.
class QUIC_EXPORT_PRIVATE ServerIdFilter {
public:
virtual ~ServerIdFilter() {}
// Returns true if |server_id| matches the filter.
virtual bool Matches(const QuicServerId& server_id) const = 0;
};
// DEPRECATED: Use the constructor below instead.
explicit QuicCryptoClientConfig(
std::unique_ptr<ProofVerifier> proof_verifier);
QuicCryptoClientConfig(std::unique_ptr<ProofVerifier> proof_verifier,
std::unique_ptr<SessionCache> session_cache);
QuicCryptoClientConfig(const QuicCryptoClientConfig&) = delete;
QuicCryptoClientConfig& operator=(const QuicCryptoClientConfig&) = delete;
~QuicCryptoClientConfig();
// LookupOrCreate returns a CachedState for the given |server_id|. If no such
// CachedState currently exists, it will be created and cached.
CachedState* LookupOrCreate(const QuicServerId& server_id);
// Delete CachedState objects whose server ids match |filter| from
// cached_states.
void ClearCachedStates(const ServerIdFilter& filter);
// FillInchoateClientHello sets |out| to be a CHLO message that elicits a
// source-address token or SCFG from a server. If |cached| is non-nullptr, the
// source-address token will be taken from it. |out_params| is used in order
// to store the cached certs that were sent as hints to the server in
// |out_params->cached_certs|. |preferred_version| is the version of the
// QUIC protocol that this client chose to use initially. This allows the
// server to detect downgrade attacks. If |demand_x509_proof| is true,
// then |out| will include an X509 proof demand, and the associated
// certificate related fields.
void FillInchoateClientHello(
const QuicServerId& server_id,
const ParsedQuicVersion preferred_version,
const CachedState* cached,
QuicRandom* rand,
bool demand_x509_proof,
QuicReferenceCountedPointer<QuicCryptoNegotiatedParameters> out_params,
CryptoHandshakeMessage* out) const;
// FillClientHello sets |out| to be a CHLO message based on the configuration
// of this object. This object must have cached enough information about
// the server's hostname in order to perform a handshake. This can be checked
// with the |IsComplete| member of |CachedState|.
//
// |now| and |rand| are used to generate the nonce and |out_params| is
// filled with the results of the handshake that the server is expected to
// accept. |preferred_version| is the version of the QUIC protocol that this
// client chose to use initially. This allows the server to detect downgrade
// attacks.
//
// If |channel_id_key| is not null, it is used to sign a secret value derived
// from the client and server's keys, and the Channel ID public key and the
// signature are placed in the CETV value of the CHLO.
QuicErrorCode FillClientHello(
const QuicServerId& server_id,
QuicConnectionId connection_id,
const ParsedQuicVersion preferred_version,
const ParsedQuicVersion actual_version,
const CachedState* cached,
QuicWallTime now,
QuicRandom* rand,
QuicReferenceCountedPointer<QuicCryptoNegotiatedParameters> out_params,
CryptoHandshakeMessage* out,
std::string* error_details) const;
// ProcessRejection processes a REJ message from a server and updates the
// cached information about that server. After this, |IsComplete| may return
// true for that server's CachedState. If the rejection message contains state
// about a future handshake (i.e. an nonce value from the server), then it
// will be saved in |out_params|. |now| is used to judge whether the server
// config in the rejection message has expired.
QuicErrorCode ProcessRejection(
const CryptoHandshakeMessage& rej,
QuicWallTime now,
QuicTransportVersion version,
absl::string_view chlo_hash,
CachedState* cached,
QuicReferenceCountedPointer<QuicCryptoNegotiatedParameters> out_params,
std::string* error_details);
// ProcessServerHello processes the message in |server_hello|, updates the
// cached information about that server, writes the negotiated parameters to
// |out_params| and returns QUIC_NO_ERROR. If |server_hello| is unacceptable
// then it puts an error message in |error_details| and returns an error
// code. |version| is the QUIC version for the current connection.
// |negotiated_versions| contains the list of version, if any, that were
// present in a version negotiation packet previously received from the
// server. The contents of this list will be compared against the list of
// versions provided in the VER tag of the server hello.
QuicErrorCode ProcessServerHello(
const CryptoHandshakeMessage& server_hello,
QuicConnectionId connection_id,
ParsedQuicVersion version,
const ParsedQuicVersionVector& negotiated_versions,
CachedState* cached,
QuicReferenceCountedPointer<QuicCryptoNegotiatedParameters> out_params,
std::string* error_details);
// Processes the message in |server_update|, updating the cached source
// address token, and server config.
// If |server_update| is invalid then |error_details| will contain an error
// message, and an error code will be returned. If all has gone well
// QUIC_NO_ERROR is returned.
QuicErrorCode ProcessServerConfigUpdate(
const CryptoHandshakeMessage& server_update,
QuicWallTime now,
const QuicTransportVersion version,
absl::string_view chlo_hash,
CachedState* cached,
QuicReferenceCountedPointer<QuicCryptoNegotiatedParameters> out_params,
std::string* error_details);
ProofVerifier* proof_verifier() const;
SessionCache* session_cache() const;
ProofSource* proof_source() const;
void set_proof_source(std::unique_ptr<ProofSource> proof_source);
SSL_CTX* ssl_ctx() const;
// Initialize the CachedState from |canonical_crypto_config| for the
// |canonical_server_id| as the initial CachedState for |server_id|. We will
// copy config data only if |canonical_crypto_config| has valid proof.
void InitializeFrom(const QuicServerId& server_id,
const QuicServerId& canonical_server_id,
QuicCryptoClientConfig* canonical_crypto_config);
// Adds |suffix| as a domain suffix for which the server's crypto config
// is expected to be shared among servers with the domain suffix. If a server
// matches this suffix, then the server config from another server with the
// suffix will be used to initialize the cached state for this server.
void AddCanonicalSuffix(const std::string& suffix);
// Saves the |user_agent_id| that will be passed in QUIC's CHLO message.
void set_user_agent_id(const std::string& user_agent_id) {
user_agent_id_ = user_agent_id;
}
// Returns the user_agent_id that will be provided in the client hello
// handshake message.
const std::string& user_agent_id() const { return user_agent_id_; }
void set_tls_signature_algorithms(std::string signature_algorithms) {
tls_signature_algorithms_ = std::move(signature_algorithms);
}
const absl::optional<std::string>& tls_signature_algorithms() const {
return tls_signature_algorithms_;
}
// Saves the |alpn| that will be passed in QUIC's CHLO message.
void set_alpn(const std::string& alpn) { alpn_ = alpn; }
// Saves the pre-shared key used during the handshake.
void set_pre_shared_key(absl::string_view psk) {
pre_shared_key_ = std::string(psk);
}
// Returns the pre-shared key used during the handshake.
const std::string& pre_shared_key() const { return pre_shared_key_; }
bool pad_inchoate_hello() const { return pad_inchoate_hello_; }
void set_pad_inchoate_hello(bool new_value) {
pad_inchoate_hello_ = new_value;
}
bool pad_full_hello() const { return pad_full_hello_; }
void set_pad_full_hello(bool new_value) { pad_full_hello_ = new_value; }
private:
// Sets the members to reasonable, default values.
void SetDefaults();
// CacheNewServerConfig checks for SCFG, STK, PROF, and CRT tags in |message|,
// verifies them, and stores them in the cached state if they validate.
// This is used on receipt of a REJ from a server, or when a server sends
// updated server config during a connection.
QuicErrorCode CacheNewServerConfig(
const CryptoHandshakeMessage& message,
QuicWallTime now,
QuicTransportVersion version,
absl::string_view chlo_hash,
const std::vector<std::string>& cached_certs,
CachedState* cached,
std::string* error_details);
// If the suffix of the hostname in |server_id| is in |canonical_suffixes_|,
// then populate |cached| with the canonical cached state from
// |canonical_server_map_| for that suffix. Returns true if |cached| is
// initialized with canonical cached state.
bool PopulateFromCanonicalConfig(const QuicServerId& server_id,
CachedState* cached);
// cached_states_ maps from the server_id to the cached information about
// that server.
std::map<QuicServerId, std::unique_ptr<CachedState>> cached_states_;
// Contains a map of servers which could share the same server config. Map
// from a canonical host suffix/port/scheme to a representative server with
// the canonical suffix, which has a plausible set of initial certificates
// (or at least server public key).
std::map<QuicServerId, QuicServerId> canonical_server_map_;
// Contains list of suffixes (for exmaple ".c.youtube.com",
// ".googlevideo.com") of canonical hostnames.
std::vector<std::string> canonical_suffixes_;
std::unique_ptr<ProofVerifier> proof_verifier_;
std::unique_ptr<SessionCache> session_cache_;
std::unique_ptr<ProofSource> proof_source_;
bssl::UniquePtr<SSL_CTX> ssl_ctx_;
// The |user_agent_id_| passed in QUIC's CHLO message.
std::string user_agent_id_;
// The |alpn_| passed in QUIC's CHLO message.
std::string alpn_;
// If non-empty, the client will operate in the pre-shared key mode by
// incorporating |pre_shared_key_| into the key schedule.
std::string pre_shared_key_;
// If set, configure the client to use the specified signature algorithms, via
// SSL_set1_sigalgs_list. TLS only.
absl::optional<std::string> tls_signature_algorithms_;
// In QUIC, technically, client hello should be fully padded.
// However, fully padding on slow network connection (e.g. 50kbps) can add
// 150ms latency to one roundtrip. Therefore, you can disable padding of
// individual messages. It is recommend to leave at least one message in
// each direction fully padded (e.g. full CHLO and SHLO), but if you know
// the lower-bound MTU, you don't need to pad all of them (keep in mind that
// it's not OK to do it according to the standard).
//
// Also, if you disable padding, you must disable (change) the
// anti-amplification protection. You should only do so if you have some
// other means of verifying the client.
bool pad_inchoate_hello_ = true;
bool pad_full_hello_ = true;
};
} // namespace quic
#endif // QUICHE_QUIC_CORE_CRYPTO_QUIC_CRYPTO_CLIENT_CONFIG_H_