quic/core/crypto/crypto_handshake.h - quiche - Git at Google

 // Copyright (c) 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_CRYPTO_HANDSHAKE_H_
 #define QUICHE_QUIC_CORE_CRYPTO_CRYPTO_HANDSHAKE_H_

 #include <memory>
 #include <vector>

 #include "base/macros.h"
 #include "net/third_party/quiche/src/quic/core/quic_packets.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
 #include "net/third_party/quiche/src/quic/platform/api/quic_string.h"

 namespace quic {

 class CommonCertSets;
 class KeyExchange;
 class QuicDecrypter;
 class QuicEncrypter;

 // HandshakeFailureReason enum values are uploaded to UMA, they cannot be
 // changed.
 enum HandshakeFailureReason {
   HANDSHAKE_OK = 0,

   // Failure reasons for an invalid client nonce in CHLO.
   //
   // The default error value for nonce verification failures from strike
   // register (covers old strike registers and unknown failures).
   CLIENT_NONCE_UNKNOWN_FAILURE = 1,
   // Client nonce had incorrect length.
   CLIENT_NONCE_INVALID_FAILURE = 2,
   // Client nonce is not unique.
   CLIENT_NONCE_NOT_UNIQUE_FAILURE = 3,
   // Client orbit is invalid or incorrect.
   CLIENT_NONCE_INVALID_ORBIT_FAILURE = 4,
   // Client nonce's timestamp is not in the strike register's valid time range.
   CLIENT_NONCE_INVALID_TIME_FAILURE = 5,
   // Strike register's RPC call timed out, client nonce couldn't be verified.
   CLIENT_NONCE_STRIKE_REGISTER_TIMEOUT = 6,
   // Strike register is down, client nonce couldn't be verified.
   CLIENT_NONCE_STRIKE_REGISTER_FAILURE = 7,

   // Failure reasons for an invalid server nonce in CHLO.
   //
   // Unbox of server nonce failed.
   SERVER_NONCE_DECRYPTION_FAILURE = 8,
   // Decrypted server nonce had incorrect length.
   SERVER_NONCE_INVALID_FAILURE = 9,
   // Server nonce is not unique.
   SERVER_NONCE_NOT_UNIQUE_FAILURE = 10,
   // Server nonce's timestamp is not in the strike register's valid time range.
   SERVER_NONCE_INVALID_TIME_FAILURE = 11,
   // The server requires handshake confirmation.
   SERVER_NONCE_REQUIRED_FAILURE = 20,

   // Failure reasons for an invalid server config in CHLO.
   //
   // Missing Server config id (kSCID) tag.
   SERVER_CONFIG_INCHOATE_HELLO_FAILURE = 12,
   // Couldn't find the Server config id (kSCID).
   SERVER_CONFIG_UNKNOWN_CONFIG_FAILURE = 13,

   // Failure reasons for an invalid source-address token.
   //
   // Missing Source-address token (kSourceAddressTokenTag) tag.
   SOURCE_ADDRESS_TOKEN_INVALID_FAILURE = 14,
   // Unbox of Source-address token failed.
   SOURCE_ADDRESS_TOKEN_DECRYPTION_FAILURE = 15,
   // Couldn't parse the unbox'ed Source-address token.
   SOURCE_ADDRESS_TOKEN_PARSE_FAILURE = 16,
   // Source-address token is for a different IP address.
   SOURCE_ADDRESS_TOKEN_DIFFERENT_IP_ADDRESS_FAILURE = 17,
   // The source-address token has a timestamp in the future.
   SOURCE_ADDRESS_TOKEN_CLOCK_SKEW_FAILURE = 18,
   // The source-address token has expired.
   SOURCE_ADDRESS_TOKEN_EXPIRED_FAILURE = 19,

   // The expected leaf certificate hash could not be validated.
   INVALID_EXPECTED_LEAF_CERTIFICATE = 21,

   MAX_FAILURE_REASON = 22,
 };

 // These errors will be packed into an uint32_t and we don't want to set the
 // most significant bit, which may be misinterpreted as the sign bit.
 static_assert(MAX_FAILURE_REASON <= 32, "failure reason out of sync");

 // A CrypterPair contains the encrypter and decrypter for an encryption level.
 struct QUIC_EXPORT_PRIVATE CrypterPair {
   CrypterPair();
   ~CrypterPair();
   std::unique_ptr<QuicEncrypter> encrypter;
   std::unique_ptr<QuicDecrypter> decrypter;
 };

 // Parameters negotiated by the crypto handshake.
 struct QUIC_EXPORT_PRIVATE QuicCryptoNegotiatedParameters
     : public QuicReferenceCounted {
   // Initializes the members to 0 or empty values.
   QuicCryptoNegotiatedParameters();

   QuicTag key_exchange;
   QuicTag aead;
   QuicString initial_premaster_secret;
   QuicString forward_secure_premaster_secret;
   // initial_subkey_secret is used as the PRK input to the HKDF used when
   // performing key extraction that needs to happen before forward-secure keys
   // are available.
   QuicString initial_subkey_secret;
   // subkey_secret is used as the PRK input to the HKDF used for key extraction.
   QuicString subkey_secret;
   CrypterPair initial_crypters;
   CrypterPair forward_secure_crypters;
   // Normalized SNI: converted to lower case and trailing '.' removed.
   QuicString sni;
   QuicString client_nonce;
   QuicString server_nonce;
   // hkdf_input_suffix contains the HKDF input following the label: the
   // ConnectionId, client hello and server config. This is only populated in the
   // client because only the client needs to derive the forward secure keys at a
   // later time from the initial keys.
   QuicString hkdf_input_suffix;
   // cached_certs contains the cached certificates that a client used when
   // sending a client hello.
   std::vector<QuicString> cached_certs;
   // client_key_exchange is used by clients to store the ephemeral KeyExchange
   // for the connection.
   std::unique_ptr<KeyExchange> client_key_exchange;
   // channel_id is set by servers to a ChannelID key when the client correctly
   // proves possession of the corresponding private key. It consists of 32
   // bytes of x coordinate, followed by 32 bytes of y coordinate. Both values
   // are big-endian and the pair is a P-256 public key.
   QuicString channel_id;
   QuicTag token_binding_key_param;

   // Used when generating proof signature when sending server config updates.

   // Used to generate cert chain when sending server config updates.
   QuicString client_common_set_hashes;
   QuicString client_cached_cert_hashes;

   // Default to false; set to true if the client indicates that it supports sct
   // by sending CSCT tag with an empty value in client hello.
   bool sct_supported_by_client;

  protected:
   ~QuicCryptoNegotiatedParameters() override;
 };

 // QuicCryptoConfig contains common configuration between clients and servers.
 class QUIC_EXPORT_PRIVATE QuicCryptoConfig {
  public:
   // kInitialLabel is a constant that is used when deriving the initial
   // (non-forward secure) keys for the connection in order to tie the resulting
   // key to this protocol.
   static const char kInitialLabel[];

   // kCETVLabel is a constant that is used when deriving the keys for the
   // encrypted tag/value block in the client hello.
   static const char kCETVLabel[];

   // kForwardSecureLabel is a constant that is used when deriving the forward
   // secure keys for the connection in order to tie the resulting key to this
   // protocol.
   static const char kForwardSecureLabel[];

   QuicCryptoConfig();
   QuicCryptoConfig(const QuicCryptoConfig&) = delete;
   QuicCryptoConfig& operator=(const QuicCryptoConfig&) = delete;
   ~QuicCryptoConfig();

   // Key exchange methods. The following two members' values correspond by
   // index.
   QuicTagVector kexs;
   // Authenticated encryption with associated data (AEAD) algorithms.
   QuicTagVector aead;

   // Supported Token Binding key parameters that can be negotiated in the client
   // hello.
   QuicTagVector tb_key_params;

   const CommonCertSets* common_cert_sets;
 };

 }  // namespace quic

 #endif  // QUICHE_QUIC_CORE_CRYPTO_CRYPTO_HANDSHAKE_H_
	// Copyright (c) 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_CRYPTO_HANDSHAKE_H_
	#define QUICHE_QUIC_CORE_CRYPTO_CRYPTO_HANDSHAKE_H_

	#include <memory>
	#include <vector>

	#include "base/macros.h"
	#include "net/third_party/quiche/src/quic/core/quic_packets.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
	#include "net/third_party/quiche/src/quic/platform/api/quic_string.h"

	namespace quic {

	class CommonCertSets;
	class KeyExchange;
	class QuicDecrypter;
	class QuicEncrypter;

	// HandshakeFailureReason enum values are uploaded to UMA, they cannot be
	// changed.
	enum HandshakeFailureReason {
	HANDSHAKE_OK = 0,

	// Failure reasons for an invalid client nonce in CHLO.
	//
	// The default error value for nonce verification failures from strike
	// register (covers old strike registers and unknown failures).
	CLIENT_NONCE_UNKNOWN_FAILURE = 1,
	// Client nonce had incorrect length.
	CLIENT_NONCE_INVALID_FAILURE = 2,
	// Client nonce is not unique.
	CLIENT_NONCE_NOT_UNIQUE_FAILURE = 3,
	// Client orbit is invalid or incorrect.
	CLIENT_NONCE_INVALID_ORBIT_FAILURE = 4,
	// Client nonce's timestamp is not in the strike register's valid time range.
	CLIENT_NONCE_INVALID_TIME_FAILURE = 5,
	// Strike register's RPC call timed out, client nonce couldn't be verified.
	CLIENT_NONCE_STRIKE_REGISTER_TIMEOUT = 6,
	// Strike register is down, client nonce couldn't be verified.
	CLIENT_NONCE_STRIKE_REGISTER_FAILURE = 7,

	// Failure reasons for an invalid server nonce in CHLO.
	//
	// Unbox of server nonce failed.
	SERVER_NONCE_DECRYPTION_FAILURE = 8,
	// Decrypted server nonce had incorrect length.
	SERVER_NONCE_INVALID_FAILURE = 9,
	// Server nonce is not unique.
	SERVER_NONCE_NOT_UNIQUE_FAILURE = 10,
	// Server nonce's timestamp is not in the strike register's valid time range.
	SERVER_NONCE_INVALID_TIME_FAILURE = 11,
	// The server requires handshake confirmation.
	SERVER_NONCE_REQUIRED_FAILURE = 20,

	// Failure reasons for an invalid server config in CHLO.
	//
	// Missing Server config id (kSCID) tag.
	SERVER_CONFIG_INCHOATE_HELLO_FAILURE = 12,
	// Couldn't find the Server config id (kSCID).
	SERVER_CONFIG_UNKNOWN_CONFIG_FAILURE = 13,

	// Failure reasons for an invalid source-address token.
	//
	// Missing Source-address token (kSourceAddressTokenTag) tag.
	SOURCE_ADDRESS_TOKEN_INVALID_FAILURE = 14,
	// Unbox of Source-address token failed.
	SOURCE_ADDRESS_TOKEN_DECRYPTION_FAILURE = 15,
	// Couldn't parse the unbox'ed Source-address token.
	SOURCE_ADDRESS_TOKEN_PARSE_FAILURE = 16,
	// Source-address token is for a different IP address.
	SOURCE_ADDRESS_TOKEN_DIFFERENT_IP_ADDRESS_FAILURE = 17,
	// The source-address token has a timestamp in the future.
	SOURCE_ADDRESS_TOKEN_CLOCK_SKEW_FAILURE = 18,
	// The source-address token has expired.
	SOURCE_ADDRESS_TOKEN_EXPIRED_FAILURE = 19,

	// The expected leaf certificate hash could not be validated.
	INVALID_EXPECTED_LEAF_CERTIFICATE = 21,

	MAX_FAILURE_REASON = 22,
	};

	// These errors will be packed into an uint32_t and we don't want to set the
	// most significant bit, which may be misinterpreted as the sign bit.
	static_assert(MAX_FAILURE_REASON <= 32, "failure reason out of sync");

	// A CrypterPair contains the encrypter and decrypter for an encryption level.
	struct QUIC_EXPORT_PRIVATE CrypterPair {
	CrypterPair();
	~CrypterPair();
	std::unique_ptr<QuicEncrypter> encrypter;
	std::unique_ptr<QuicDecrypter> decrypter;
	};

	// Parameters negotiated by the crypto handshake.
	struct QUIC_EXPORT_PRIVATE QuicCryptoNegotiatedParameters
	: public QuicReferenceCounted {
	// Initializes the members to 0 or empty values.
	QuicCryptoNegotiatedParameters();

	QuicTag key_exchange;
	QuicTag aead;
	QuicString initial_premaster_secret;
	QuicString forward_secure_premaster_secret;
	// initial_subkey_secret is used as the PRK input to the HKDF used when
	// performing key extraction that needs to happen before forward-secure keys
	// are available.
	QuicString initial_subkey_secret;
	// subkey_secret is used as the PRK input to the HKDF used for key extraction.
	QuicString subkey_secret;
	CrypterPair initial_crypters;
	CrypterPair forward_secure_crypters;
	// Normalized SNI: converted to lower case and trailing '.' removed.
	QuicString sni;
	QuicString client_nonce;
	QuicString server_nonce;
	// hkdf_input_suffix contains the HKDF input following the label: the
	// ConnectionId, client hello and server config. This is only populated in the
	// client because only the client needs to derive the forward secure keys at a
	// later time from the initial keys.
	QuicString hkdf_input_suffix;
	// cached_certs contains the cached certificates that a client used when
	// sending a client hello.
	std::vector<QuicString> cached_certs;
	// client_key_exchange is used by clients to store the ephemeral KeyExchange
	// for the connection.
	std::unique_ptr<KeyExchange> client_key_exchange;
	// channel_id is set by servers to a ChannelID key when the client correctly
	// proves possession of the corresponding private key. It consists of 32
	// bytes of x coordinate, followed by 32 bytes of y coordinate. Both values
	// are big-endian and the pair is a P-256 public key.
	QuicString channel_id;
	QuicTag token_binding_key_param;

	// Used when generating proof signature when sending server config updates.

	// Used to generate cert chain when sending server config updates.
	QuicString client_common_set_hashes;
	QuicString client_cached_cert_hashes;

	// Default to false; set to true if the client indicates that it supports sct
	// by sending CSCT tag with an empty value in client hello.
	bool sct_supported_by_client;

	protected:
	~QuicCryptoNegotiatedParameters() override;
	};

	// QuicCryptoConfig contains common configuration between clients and servers.
	class QUIC_EXPORT_PRIVATE QuicCryptoConfig {
	public:
	// kInitialLabel is a constant that is used when deriving the initial
	// (non-forward secure) keys for the connection in order to tie the resulting
	// key to this protocol.
	static const char kInitialLabel[];

	// kCETVLabel is a constant that is used when deriving the keys for the
	// encrypted tag/value block in the client hello.
	static const char kCETVLabel[];

	// kForwardSecureLabel is a constant that is used when deriving the forward
	// secure keys for the connection in order to tie the resulting key to this
	// protocol.
	static const char kForwardSecureLabel[];

	QuicCryptoConfig();
	QuicCryptoConfig(const QuicCryptoConfig&) = delete;
	QuicCryptoConfig& operator=(const QuicCryptoConfig&) = delete;
	~QuicCryptoConfig();

	// Key exchange methods. The following two members' values correspond by
	// index.
	QuicTagVector kexs;
	// Authenticated encryption with associated data (AEAD) algorithms.
	QuicTagVector aead;

	// Supported Token Binding key parameters that can be negotiated in the client
	// hello.
	QuicTagVector tb_key_params;

	const CommonCertSets* common_cert_sets;
	};

	} // namespace quic

	#endif // QUICHE_QUIC_CORE_CRYPTO_CRYPTO_HANDSHAKE_H_