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/** | ||
* Abstraction for a combined KEM public and private key. | ||
* | ||
* (C) 2024 Jack Lloyd | ||
* 2024 Fabian Albert, René Meusel - Rohde & Schwarz Cybersecurity | ||
* | ||
* Botan is released under the Simplified BSD License (see license.txt) | ||
*/ | ||
#include <botan/hybrid_kem.h> | ||
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#include <botan/pk_algs.h> | ||
#include <botan/internal/fmt.h> | ||
#include <botan/internal/kex_to_kem_adapter.h> | ||
#include <botan/internal/pk_ops_impl.h> | ||
#include <botan/internal/stl_util.h> | ||
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namespace Botan { | ||
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Hybrid_PublicKey::Hybrid_PublicKey(std::vector<std::unique_ptr<Public_Key>> pks) : m_pks(std::move(pks)) { | ||
BOTAN_ARG_CHECK(m_pks.size() >= 2, "List of public keys must include at least two keys"); | ||
BOTAN_ARG_CHECK(std::all_of(m_pks.begin(), m_pks.end(), [](const auto& pk) { return pk != nullptr; }), | ||
"List of public keys contains a nullptr"); | ||
BOTAN_ARG_CHECK( | ||
std::all_of(m_pks.begin(), | ||
m_pks.end(), | ||
[](const auto& pk) { return pk->supports_operation(PublicKeyOperation::KeyEncapsulation); }), | ||
"Some provided public key is not compatible with this hybrid wrapper"); | ||
m_key_length = reduce(m_pks, size_t(0), [](size_t kl, const auto& key) { return std::max(kl, key->key_length()); }); | ||
m_estimated_strength = | ||
reduce(m_pks, size_t(0), [](size_t es, const auto& key) { return std::max(es, key->estimated_strength()); }); | ||
} | ||
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bool Hybrid_PublicKey::check_key(RandomNumberGenerator& rng, bool strong) const { | ||
return reduce(public_keys(), true, [&](bool ckr, const auto& key) { return ckr && key->check_key(rng, strong); }); | ||
} | ||
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std::vector<uint8_t> Hybrid_PublicKey::public_key_bits() const { | ||
return reduce(public_keys(), std::vector<uint8_t>(), [](auto pkb, const auto& key) { | ||
// Technically, this is not correct! `public_key_bits()` is meant to | ||
// return a BER-encoded public key. | ||
// | ||
// TODO: Provide something like Public_Key::raw_public_key_bits() to | ||
// reflect that difference. | ||
return concat(pkb, key->public_key_bits()); | ||
}); | ||
} | ||
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bool Hybrid_PublicKey::supports_operation(PublicKeyOperation op) const { | ||
return PublicKeyOperation::KeyEncapsulation == op; | ||
} | ||
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std::vector<std::unique_ptr<Private_Key>> Hybrid_PublicKey::generate_other_sks_from_pks( | ||
RandomNumberGenerator& rng) const { | ||
std::vector<std::unique_ptr<Private_Key>> new_private_keys; | ||
std::transform( | ||
public_keys().begin(), public_keys().end(), std::back_inserter(new_private_keys), [&](const auto& public_key) { | ||
return public_key->generate_another(rng); | ||
}); | ||
return new_private_keys; | ||
} | ||
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Hybrid_PrivateKey::Hybrid_PrivateKey(std::vector<std::unique_ptr<Private_Key>> private_keys) : | ||
m_sks(std::move(private_keys)) { | ||
BOTAN_ARG_CHECK(m_sks.size() >= 2, "List of secret keys must include at least two keys"); | ||
BOTAN_ARG_CHECK(std::all_of(m_sks.begin(), m_sks.end(), [](const auto& sk) { return sk != nullptr; }), | ||
"List of secret keys contains a nullptr"); | ||
BOTAN_ARG_CHECK( | ||
std::all_of(m_sks.begin(), | ||
m_sks.end(), | ||
[](const auto& sk) { return sk->supports_operation(PublicKeyOperation::KeyEncapsulation); }), | ||
"Some provided secret key is not compatible with this hybrid wrapper"); | ||
} | ||
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secure_vector<uint8_t> Hybrid_PrivateKey::private_key_bits() const { | ||
throw Not_Implemented("Hybrid private keys cannot be serialized"); | ||
} | ||
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bool Hybrid_PrivateKey::check_key(RandomNumberGenerator& rng, bool strong) const { | ||
return reduce(private_keys(), true, [&](bool ckr, const auto& key) { return ckr && key->check_key(rng, strong); }); | ||
} | ||
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std::vector<std::unique_ptr<Public_Key>> Hybrid_PrivateKey::extract_public_keys( | ||
const std::vector<std::unique_ptr<Private_Key>>& private_keys) { | ||
std::vector<std::unique_ptr<Public_Key>> public_keys; | ||
public_keys.reserve(private_keys.size()); | ||
for(const auto& private_key : private_keys) { | ||
BOTAN_ARG_CHECK(private_key != nullptr, "List of private keys contains a nullptr"); | ||
public_keys.push_back(private_key->public_key()); | ||
} | ||
return public_keys; | ||
} | ||
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} // namespace Botan |
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/** | ||
* Abstraction for a combined KEM public and private key. | ||
* | ||
* (C) 2024 Jack Lloyd | ||
* 2024 Fabian Albert, René Meusel - Rohde & Schwarz Cybersecurity | ||
* | ||
* Botan is released under the Simplified BSD License (see license.txt) | ||
*/ | ||
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#ifndef BOTAN_HYBRID_KEM_H_ | ||
#define BOTAN_HYBRID_KEM_H_ | ||
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#include <botan/pk_algs.h> | ||
#include <botan/pk_keys.h> | ||
#include <botan/pubkey.h> | ||
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#include <memory> | ||
#include <vector> | ||
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namespace Botan { | ||
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/** | ||
* @brief Abstraction for a combined KEM public key. | ||
* | ||
* Two or more KEM public keys are combined into a single KEM public key. Derived classes | ||
* must implement the abstract methods to provide the encryption operation, e.g. by | ||
* specifying how encryption results are combined to the ciphertext and how a KEM combiner | ||
* is applied to derive the shared secret using the individual shared secrets, ciphertexts, | ||
* and other context information. | ||
*/ | ||
class BOTAN_TEST_API Hybrid_PublicKey : public virtual Public_Key { | ||
public: | ||
/** | ||
* @brief Constructor for a list of multiple KEM public keys. | ||
* | ||
* To use KEX algorithms use the KEX_to_KEM_Adapter_PublicKey. | ||
* @param public_keys List of public keys to combine | ||
*/ | ||
explicit Hybrid_PublicKey(std::vector<std::unique_ptr<Public_Key>> public_keys); | ||
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Hybrid_PublicKey(Hybrid_PublicKey&&) = default; | ||
Hybrid_PublicKey(const Hybrid_PublicKey&) = delete; | ||
Hybrid_PublicKey& operator=(Hybrid_PublicKey&&) = default; | ||
Hybrid_PublicKey& operator=(const Hybrid_PublicKey&) = delete; | ||
~Hybrid_PublicKey() override = default; | ||
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size_t estimated_strength() const override { return m_estimated_strength; } | ||
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size_t key_length() const override { return m_key_length; } | ||
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bool check_key(RandomNumberGenerator& rng, bool strong) const override; | ||
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std::vector<uint8_t> public_key_bits() const override; | ||
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bool supports_operation(PublicKeyOperation op) const override; | ||
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/// @returns the public keys combined in this hybrid key | ||
const std::vector<std::unique_ptr<Public_Key>>& public_keys() const { return m_pks; } | ||
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protected: | ||
// Default constructor used for virtual inheritance to prevent, that the derived class | ||
// calls the constructor twice. | ||
Hybrid_PublicKey() = default; | ||
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std::vector<std::unique_ptr<Public_Key>> copy_public_keys() const; | ||
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/** | ||
* @brief Helper function for generate_another. Generate a new private key for each | ||
* public key in this hybrid key. | ||
*/ | ||
std::vector<std::unique_ptr<Private_Key>> generate_other_sks_from_pks(RandomNumberGenerator& rng) const; | ||
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private: | ||
std::vector<std::unique_ptr<Public_Key>> m_pks; | ||
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size_t m_key_length; | ||
size_t m_estimated_strength; | ||
}; | ||
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BOTAN_DIAGNOSTIC_PUSH | ||
BOTAN_DIAGNOSTIC_IGNORE_INHERITED_VIA_DOMINANCE | ||
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/** | ||
* @brief Abstraction for a combined KEM private key. | ||
* | ||
* Two or more KEM private keys are combined into a single KEM private key. Derived classes | ||
* must implement the abstract methods to provide the decryption operation, e.g. by | ||
* specifying how a KEM combiner is applied to derive the shared secret using the | ||
* individual shared secrets, ciphertexts, and other context information. | ||
*/ | ||
class BOTAN_TEST_API Hybrid_PrivateKey : virtual public Private_Key { | ||
public: | ||
Hybrid_PrivateKey(const Hybrid_PrivateKey&) = delete; | ||
Hybrid_PrivateKey& operator=(const Hybrid_PrivateKey&) = delete; | ||
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Hybrid_PrivateKey(Hybrid_PrivateKey&&) = default; | ||
Hybrid_PrivateKey& operator=(Hybrid_PrivateKey&&) = default; | ||
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~Hybrid_PrivateKey() override = default; | ||
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/** | ||
* @brief Constructor for a list of multiple KEM private keys. | ||
* | ||
* To use KEX algorithms use the KEX_to_KEM_Adapter_PrivateKey. | ||
* @param private_keys List of private keys to combine | ||
*/ | ||
Hybrid_PrivateKey(std::vector<std::unique_ptr<Private_Key>> private_keys); | ||
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/// Disabled by default | ||
secure_vector<uint8_t> private_key_bits() const override; | ||
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/// @returns the private keys combined in this hybrid key | ||
const std::vector<std::unique_ptr<Private_Key>>& private_keys() const { return m_sks; } | ||
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bool check_key(RandomNumberGenerator& rng, bool strong) const override; | ||
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protected: | ||
static std::vector<std::unique_ptr<Public_Key>> extract_public_keys( | ||
const std::vector<std::unique_ptr<Private_Key>>& private_keys); | ||
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private: | ||
std::vector<std::unique_ptr<Private_Key>> m_sks; | ||
}; | ||
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BOTAN_DIAGNOSTIC_POP | ||
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} // namespace Botan | ||
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#endif |
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#include <botan/internal/hybrid_kem_ops.h> | ||
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#include <botan/internal/stl_util.h> | ||
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namespace Botan { | ||
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KEM_Encryption_with_Combiner::KEM_Encryption_with_Combiner(const std::vector<std::unique_ptr<Public_Key>>& public_keys, | ||
std::string_view provider) : | ||
m_encapsulated_key_length(0) { | ||
m_encryptors.reserve(public_keys.size()); | ||
for(const auto& pk : public_keys) { | ||
const auto& newenc = m_encryptors.emplace_back(*pk, "Raw", provider); | ||
m_encapsulated_key_length += newenc.encapsulated_key_length(); | ||
} | ||
} | ||
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void KEM_Encryption_with_Combiner::kem_encrypt(std::span<uint8_t> out_encapsulated_key, | ||
std::span<uint8_t> out_shared_key, | ||
RandomNumberGenerator& rng, | ||
size_t desired_shared_key_len, | ||
std::span<const uint8_t> salt) { | ||
BOTAN_ARG_CHECK(out_encapsulated_key.size() == encapsulated_key_length(), | ||
"Encapsulated key output buffer has wrong size"); | ||
BOTAN_ARG_CHECK(out_shared_key.size() == shared_key_length(desired_shared_key_len), | ||
"Shared key output buffer has wrong size"); | ||
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std::vector<secure_vector<uint8_t>> shared_secrets; | ||
shared_secrets.reserve(m_encryptors.size()); | ||
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std::vector<std::vector<uint8_t>> ciphertexts; | ||
ciphertexts.reserve(m_encryptors.size()); | ||
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for(auto& encryptor : m_encryptors) { | ||
auto [ct, ss] = KEM_Encapsulation::destructure(encryptor.encrypt(rng, 0 /* no KDF */)); | ||
shared_secrets.push_back(std::move(ss)); | ||
ciphertexts.push_back(std::move(ct)); | ||
} | ||
combine_ciphertexts(out_encapsulated_key, ciphertexts, salt); | ||
combine_shared_secrets(out_shared_key, shared_secrets, ciphertexts, desired_shared_key_len, salt); | ||
} | ||
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void KEM_Encryption_with_Combiner::combine_ciphertexts(std::span<uint8_t> out_ciphertext, | ||
const std::vector<std::vector<uint8_t>>& ciphertexts, | ||
std::span<const uint8_t> salt) { | ||
BOTAN_ARG_CHECK(salt.empty(), "Salt not supported by this KEM"); | ||
BOTAN_ARG_CHECK(ciphertexts.size() == m_encryptors.size(), "Invalid number of ciphertexts"); | ||
BOTAN_ARG_CHECK(out_ciphertext.size() == encapsulated_key_length(), "Invalid output buffer size"); | ||
BufferStuffer ct_stuffer(out_ciphertext); | ||
for(size_t idx = 0; idx < ciphertexts.size(); idx++) { | ||
BOTAN_ARG_CHECK(ciphertexts.at(idx).size() == m_encryptors.at(idx).encapsulated_key_length(), | ||
"Invalid ciphertext length"); | ||
ct_stuffer.append(ciphertexts.at(idx)); | ||
} | ||
BOTAN_ASSERT_NOMSG(ct_stuffer.full()); | ||
} | ||
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KEM_Decryption_with_Combiner::KEM_Decryption_with_Combiner( | ||
const std::vector<std::unique_ptr<Private_Key>>& private_keys, | ||
RandomNumberGenerator& rng, | ||
std::string_view provider) : | ||
m_encapsulated_key_length(0) { | ||
m_decryptors.reserve(private_keys.size()); | ||
for(const auto& sk : private_keys) { | ||
const auto& newenc = m_decryptors.emplace_back(*sk, rng, "Raw", provider); | ||
m_encapsulated_key_length += newenc.encapsulated_key_length(); | ||
} | ||
} | ||
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void KEM_Decryption_with_Combiner::kem_decrypt(std::span<uint8_t> out_shared_key, | ||
std::span<const uint8_t> encapsulated_key, | ||
size_t desired_shared_key_len, | ||
std::span<const uint8_t> salt) { | ||
BOTAN_ARG_CHECK(encapsulated_key.size() == encapsulated_key_length(), "Invalid encapsulated key length"); | ||
BOTAN_ARG_CHECK(out_shared_key.size() == shared_key_length(desired_shared_key_len), "Invalid output buffer size"); | ||
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std::vector<secure_vector<uint8_t>> shared_secrets; | ||
shared_secrets.reserve(m_decryptors.size()); | ||
auto ciphertexts = split_ciphertexts(encapsulated_key); | ||
BOTAN_ASSERT(ciphertexts.size() == m_decryptors.size(), "Correct number of ciphertexts"); | ||
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for(size_t idx = 0; idx < m_decryptors.size(); idx++) { | ||
shared_secrets.push_back(m_decryptors.at(idx).decrypt(ciphertexts.at(idx), 0 /* no KDF */)); | ||
} | ||
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combine_shared_secrets(out_shared_key, shared_secrets, ciphertexts, desired_shared_key_len, salt); | ||
} | ||
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std::vector<std::vector<uint8_t>> KEM_Decryption_with_Combiner::split_ciphertexts( | ||
std::span<const uint8_t> concat_ciphertext) { | ||
BOTAN_ARG_CHECK(concat_ciphertext.size() == encapsulated_key_length(), "Wrong ciphertext length"); | ||
std::vector<std::vector<uint8_t>> ciphertexts; | ||
ciphertexts.reserve(m_decryptors.size()); | ||
BufferSlicer ct_slicer(concat_ciphertext); | ||
for(const auto& decryptor : m_decryptors) { | ||
ciphertexts.push_back(ct_slicer.copy_as_vector(decryptor.encapsulated_key_length())); | ||
} | ||
BOTAN_ASSERT_NOMSG(ct_slicer.empty()); | ||
return ciphertexts; | ||
} | ||
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} // namespace Botan |
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