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129 lines
4.5 KiB
C
129 lines
4.5 KiB
C
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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef CRYPTO_P224_SPAKE_H_
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#define CRYPTO_P224_SPAKE_H_
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#include <stdint.h>
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#include <string>
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#include "base/gtest_prod_util.h"
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#include "base/strings/string_piece.h"
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#include "crypto/p224.h"
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#include "crypto/sha2.h"
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namespace crypto {
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// P224EncryptedKeyExchange implements SPAKE2, a variant of Encrypted
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// Key Exchange. It allows two parties that have a secret common
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// password to establish a common secure key by exchanging messages
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// over an insecure channel without disclosing the password.
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//
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// The password can be low entropy as authenticating with an attacker only
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// gives the attacker a one-shot password oracle. No other information about
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// the password is leaked. (However, you must be sure to limit the number of
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// permitted authentication attempts otherwise they get many one-shot oracles.)
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//
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// The protocol requires several RTTs (actually two, but you shouldn't assume
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// that.) To use the object, call GetNextMessage() and pass that message to the
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// peer. Get a message from the peer and feed it into ProcessMessage. Then
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// examine the return value of ProcessMessage:
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// kResultPending: Another round is required. Call GetNextMessage and repeat.
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// kResultFailed: The authentication has failed. You can get a human readable
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// error message by calling error().
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// kResultSuccess: The authentication was successful.
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//
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// In each exchange, each peer always sends a message.
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class CRYPTO_EXPORT P224EncryptedKeyExchange {
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public:
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enum Result {
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kResultPending,
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kResultFailed,
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kResultSuccess,
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};
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// PeerType's values are named client and server due to convention. But
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// they could be called "A" and "B" as far as the protocol is concerned so
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// long as the two parties don't both get the same label.
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enum PeerType {
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kPeerTypeClient,
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kPeerTypeServer,
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};
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// peer_type: the type of the local authentication party.
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// password: secret session password. Both parties to the
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// authentication must pass the same value. For the case of a
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// TLS connection, see RFC 5705.
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P224EncryptedKeyExchange(PeerType peer_type, base::StringPiece password);
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// GetNextMessage returns a byte string which must be passed to the other
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// party in the authentication.
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const std::string& GetNextMessage();
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// ProcessMessage processes a message which must have been generated by a
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// call to GetNextMessage() by the other party.
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Result ProcessMessage(base::StringPiece message);
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// In the event that ProcessMessage() returns kResultFailed, error will
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// return a human readable error message.
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const std::string& error() const;
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// The key established as result of the key exchange. Must be called
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// at then end after ProcessMessage() returns kResultSuccess.
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const std::string& GetKey() const;
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// The key established as result of the key exchange. Can be called after
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// the first ProcessMessage()
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const std::string& GetUnverifiedKey() const;
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private:
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// The authentication state machine is very simple and each party proceeds
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// through each of these states, in order.
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enum State {
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kStateInitial,
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kStateRecvDH,
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kStateSendHash,
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kStateRecvHash,
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kStateDone,
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};
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FRIEND_TEST_ALL_PREFIXES(MutualAuth, ExpectedValues);
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void Init();
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// Sets internal random scalar. Should be used by tests only.
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void SetXForTesting(const std::string& x);
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State state_;
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const bool is_server_;
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// next_message_ contains a value for GetNextMessage() to return.
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std::string next_message_;
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std::string error_;
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// CalculateHash computes the verification hash for the given peer and writes
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// |kSHA256Length| bytes at |out_digest|.
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void CalculateHash(PeerType peer_type,
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const std::string& client_masked_dh,
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const std::string& server_masked_dh,
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const std::string& k,
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uint8_t* out_digest);
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// x_ is the secret Diffie-Hellman exponent (see paper referenced in .cc
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// file).
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uint8_t x_[p224::kScalarBytes];
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// pw_ is SHA256(P(password), P(session))[:28] where P() prepends a uint32_t,
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// big-endian length prefix (see paper referenced in .cc file).
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uint8_t pw_[p224::kScalarBytes];
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// expected_authenticator_ is used to store the hash value expected from the
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// other party.
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uint8_t expected_authenticator_[kSHA256Length];
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std::string key_;
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};
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} // namespace crypto
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#endif // CRYPTO_P224_SPAKE_H_
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