/* * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include namespace keymaster { /* * Helper functions for working with key blobs. */ static void set_key_blob(keymaster_key_blob_t* key_blob, const void* key_material, size_t length) { delete[] key_blob->key_material; key_blob->key_material = dup_buffer(key_material, length); key_blob->key_material_size = length; } static size_t key_blob_size(const keymaster_key_blob_t& key_blob) { return sizeof(uint32_t) /* key size */ + key_blob.key_material_size; } static uint8_t* serialize_key_blob(const keymaster_key_blob_t& key_blob, uint8_t* buf, const uint8_t* end) { return append_size_and_data_to_buf(buf, end, key_blob.key_material, key_blob.key_material_size); } static bool deserialize_key_blob(keymaster_key_blob_t* key_blob, const uint8_t** buf_ptr, const uint8_t* end) { delete[] key_blob->key_material; key_blob->key_material = nullptr; UniquePtr deserialized_key_material; if (!copy_size_and_data_from_buf(buf_ptr, end, &key_blob->key_material_size, &deserialized_key_material)) return false; key_blob->key_material = deserialized_key_material.release(); return true; } static size_t blob_size(const keymaster_blob_t& blob) { return sizeof(uint32_t) /* data size */ + blob.data_length; } static uint8_t* serialize_blob(const keymaster_blob_t& blob, uint8_t* buf, const uint8_t* end) { return append_size_and_data_to_buf(buf, end, blob.data, blob.data_length); } static bool deserialize_blob(keymaster_blob_t* blob, const uint8_t** buf_ptr, const uint8_t* end) { delete[] blob->data; *blob = {}; UniquePtr deserialized_blob; if (!copy_size_and_data_from_buf(buf_ptr, end, &blob->data_length, &deserialized_blob)) return false; blob->data = deserialized_blob.release(); return true; } size_t KeymasterResponse::SerializedSize() const { if (error != KM_ERROR_OK) return sizeof(int32_t); else return sizeof(int32_t) + NonErrorSerializedSize(); } uint8_t* KeymasterResponse::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint32_to_buf(buf, end, static_cast(error)); if (error == KM_ERROR_OK) buf = NonErrorSerialize(buf, end); return buf; } bool KeymasterResponse::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { if (!copy_uint32_from_buf(buf_ptr, end, &error)) return false; if (error != KM_ERROR_OK) return true; return NonErrorDeserialize(buf_ptr, end); } GenerateKeyResponse::~GenerateKeyResponse() { delete[] key_blob.key_material; } size_t GenerateKeyResponse::NonErrorSerializedSize() const { return key_blob_size(key_blob) + enforced.SerializedSize() + unenforced.SerializedSize(); } uint8_t* GenerateKeyResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(key_blob, buf, end); buf = enforced.Serialize(buf, end); return unenforced.Serialize(buf, end); } bool GenerateKeyResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end) && enforced.Deserialize(buf_ptr, end) && unenforced.Deserialize(buf_ptr, end); } GetKeyCharacteristicsRequest::~GetKeyCharacteristicsRequest() { delete[] key_blob.key_material; } void GetKeyCharacteristicsRequest::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t GetKeyCharacteristicsRequest::SerializedSize() const { return key_blob_size(key_blob) + additional_params.SerializedSize(); } uint8_t* GetKeyCharacteristicsRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(key_blob, buf, end); return additional_params.Serialize(buf, end); } bool GetKeyCharacteristicsRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end) && additional_params.Deserialize(buf_ptr, end); } size_t GetKeyCharacteristicsResponse::NonErrorSerializedSize() const { return enforced.SerializedSize() + unenforced.SerializedSize(); } uint8_t* GetKeyCharacteristicsResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = enforced.Serialize(buf, end); return unenforced.Serialize(buf, end); } bool GetKeyCharacteristicsResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { return enforced.Deserialize(buf_ptr, end) && unenforced.Deserialize(buf_ptr, end); } void BeginOperationRequest::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t BeginOperationRequest::SerializedSize() const { return sizeof(uint32_t) /* purpose */ + key_blob_size(key_blob) + additional_params.SerializedSize(); } uint8_t* BeginOperationRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint32_to_buf(buf, end, purpose); buf = serialize_key_blob(key_blob, buf, end); return additional_params.Serialize(buf, end); } bool BeginOperationRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return copy_uint32_from_buf(buf_ptr, end, &purpose) && deserialize_key_blob(&key_blob, buf_ptr, end) && additional_params.Deserialize(buf_ptr, end); } size_t BeginOperationResponse::NonErrorSerializedSize() const { if (message_version == 0) return sizeof(op_handle); else return sizeof(op_handle) + output_params.SerializedSize(); } uint8_t* BeginOperationResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint64_to_buf(buf, end, op_handle); if (message_version > 0) buf = output_params.Serialize(buf, end); return buf; } bool BeginOperationResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { bool retval = copy_uint64_from_buf(buf_ptr, end, &op_handle); if (retval && message_version > 0) retval = output_params.Deserialize(buf_ptr, end); return retval; } size_t UpdateOperationRequest::SerializedSize() const { if (message_version == 0) return sizeof(op_handle) + input.SerializedSize(); else return sizeof(op_handle) + input.SerializedSize() + additional_params.SerializedSize(); } uint8_t* UpdateOperationRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint64_to_buf(buf, end, op_handle); buf = input.Serialize(buf, end); if (message_version > 0) buf = additional_params.Serialize(buf, end); return buf; } bool UpdateOperationRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { bool retval = copy_uint64_from_buf(buf_ptr, end, &op_handle) && input.Deserialize(buf_ptr, end); if (retval && message_version > 0) retval = additional_params.Deserialize(buf_ptr, end); return retval; } size_t UpdateOperationResponse::NonErrorSerializedSize() const { size_t size = 0; switch (message_version) { case 3: case 2: size += output_params.SerializedSize(); FALLTHROUGH; case 1: size += sizeof(uint32_t); FALLTHROUGH; case 0: size += output.SerializedSize(); break; default: assert(false); } return size; } uint8_t* UpdateOperationResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = output.Serialize(buf, end); if (message_version > 0) buf = append_uint32_to_buf(buf, end, input_consumed); if (message_version > 1) buf = output_params.Serialize(buf, end); return buf; } bool UpdateOperationResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { bool retval = output.Deserialize(buf_ptr, end); if (retval && message_version > 0) retval = copy_uint32_from_buf(buf_ptr, end, &input_consumed); if (retval && message_version > 1) retval = output_params.Deserialize(buf_ptr, end); return retval; } size_t FinishOperationRequest::SerializedSize() const { size_t size = 0; switch (message_version) { case 3: size += input.SerializedSize(); FALLTHROUGH; case 2: case 1: size += additional_params.SerializedSize(); FALLTHROUGH; case 0: size += sizeof(op_handle) + signature.SerializedSize(); break; default: assert(false); // Should never get here. } return size; } uint8_t* FinishOperationRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint64_to_buf(buf, end, op_handle); buf = signature.Serialize(buf, end); if (message_version > 0) buf = additional_params.Serialize(buf, end); if (message_version > 2) buf = input.Serialize(buf, end); return buf; } bool FinishOperationRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { bool retval = copy_uint64_from_buf(buf_ptr, end, &op_handle) && signature.Deserialize(buf_ptr, end); if (retval && message_version > 0) retval = additional_params.Deserialize(buf_ptr, end); if (retval && message_version > 2) retval = input.Deserialize(buf_ptr, end); return retval; } size_t FinishOperationResponse::NonErrorSerializedSize() const { if (message_version < 2) return output.SerializedSize(); else return output.SerializedSize() + output_params.SerializedSize(); } uint8_t* FinishOperationResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = output.Serialize(buf, end); if (message_version > 1) buf = output_params.Serialize(buf, end); return buf; } bool FinishOperationResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { bool retval = output.Deserialize(buf_ptr, end); if (retval && message_version > 1) retval = output_params.Deserialize(buf_ptr, end); return retval; } size_t AddEntropyRequest::SerializedSize() const { return random_data.SerializedSize(); } uint8_t* AddEntropyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { return random_data.Serialize(buf, end); } bool AddEntropyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return random_data.Deserialize(buf_ptr, end); } void ImportKeyRequest::SetKeyMaterial(const void* key_material, size_t length) { delete[] key_data; key_data = dup_buffer(key_material, length); key_data_length = length; } size_t ImportKeyRequest::SerializedSize() const { return key_description.SerializedSize() + sizeof(uint32_t) /* key_format */ + sizeof(uint32_t) /* key_data_length */ + key_data_length; } uint8_t* ImportKeyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = key_description.Serialize(buf, end); buf = append_uint32_to_buf(buf, end, key_format); return append_size_and_data_to_buf(buf, end, key_data, key_data_length); } bool ImportKeyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { delete[] key_data; key_data = nullptr; UniquePtr deserialized_key_material; if (!key_description.Deserialize(buf_ptr, end) || !copy_uint32_from_buf(buf_ptr, end, &key_format) || !copy_size_and_data_from_buf(buf_ptr, end, &key_data_length, &deserialized_key_material)) return false; key_data = deserialized_key_material.release(); return true; } void ImportKeyResponse::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t ImportKeyResponse::NonErrorSerializedSize() const { return key_blob_size(key_blob) + enforced.SerializedSize() + unenforced.SerializedSize(); } uint8_t* ImportKeyResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(key_blob, buf, end); buf = enforced.Serialize(buf, end); return unenforced.Serialize(buf, end); } bool ImportKeyResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end) && enforced.Deserialize(buf_ptr, end) && unenforced.Deserialize(buf_ptr, end); } void ExportKeyRequest::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t ExportKeyRequest::SerializedSize() const { return additional_params.SerializedSize() + sizeof(uint32_t) /* key_format */ + key_blob_size(key_blob); } uint8_t* ExportKeyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = additional_params.Serialize(buf, end); buf = append_uint32_to_buf(buf, end, key_format); return serialize_key_blob(key_blob, buf, end); } bool ExportKeyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return additional_params.Deserialize(buf_ptr, end) && copy_uint32_from_buf(buf_ptr, end, &key_format) && deserialize_key_blob(&key_blob, buf_ptr, end); } void ExportKeyResponse::SetKeyMaterial(const void* key_material, size_t length) { delete[] key_data; key_data = dup_buffer(key_material, length); key_data_length = length; } size_t ExportKeyResponse::NonErrorSerializedSize() const { return sizeof(uint32_t) /* key_data_length */ + key_data_length; } uint8_t* ExportKeyResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { return append_size_and_data_to_buf(buf, end, key_data, key_data_length); } bool ExportKeyResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { delete[] key_data; key_data = nullptr; UniquePtr deserialized_key_material; if (!copy_size_and_data_from_buf(buf_ptr, end, &key_data_length, &deserialized_key_material)) return false; key_data = deserialized_key_material.release(); return true; } void DeleteKeyRequest::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t DeleteKeyRequest::SerializedSize() const { return key_blob_size(key_blob); } uint8_t* DeleteKeyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { return serialize_key_blob(key_blob, buf, end); } bool DeleteKeyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end); } size_t GetVersionResponse::NonErrorSerializedSize() const { return sizeof(major_ver) + sizeof(minor_ver) + sizeof(subminor_ver); } uint8_t* GetVersionResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { if (buf + NonErrorSerializedSize() <= end) { *buf++ = major_ver; *buf++ = minor_ver; *buf++ = subminor_ver; } else { buf += NonErrorSerializedSize(); } return buf; } bool GetVersionResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { if (*buf_ptr + NonErrorSerializedSize() > end) return false; const uint8_t* tmp = *buf_ptr; major_ver = *tmp++; minor_ver = *tmp++; subminor_ver = *tmp++; *buf_ptr = tmp; return true; } AttestKeyRequest::~AttestKeyRequest() { delete[] key_blob.key_material; } void AttestKeyRequest::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t AttestKeyRequest::SerializedSize() const { return key_blob_size(key_blob) + attest_params.SerializedSize(); } uint8_t* AttestKeyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(key_blob, buf, end); return attest_params.Serialize(buf, end); } bool AttestKeyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end) && attest_params.Deserialize(buf_ptr, end); } AttestKeyResponse::~AttestKeyResponse() { for (size_t i = 0; i < certificate_chain.entry_count; ++i) delete[] certificate_chain.entries[i].data; delete[] certificate_chain.entries; } const size_t kMaxChainEntryCount = 10; bool AttestKeyResponse::AllocateChain(size_t entry_count) { if (entry_count > kMaxChainEntryCount) return false; if (certificate_chain.entries) { for (size_t i = 0; i < certificate_chain.entry_count; ++i) delete[] certificate_chain.entries[i].data; delete[] certificate_chain.entries; } certificate_chain.entry_count = entry_count; certificate_chain.entries = new (std::nothrow) keymaster_blob_t[entry_count]; if (!certificate_chain.entries) { certificate_chain.entry_count = 0; return false; } memset(certificate_chain.entries, 0, sizeof(certificate_chain.entries[0]) * entry_count); return true; } size_t AttestKeyResponse::NonErrorSerializedSize() const { size_t result = sizeof(uint32_t); /* certificate_chain.entry_count */ for (size_t i = 0; i < certificate_chain.entry_count; ++i) { result += sizeof(uint32_t); /* certificate_chain.entries[i].data_length */ result += certificate_chain.entries[i].data_length; } return result; } uint8_t* AttestKeyResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint32_to_buf(buf, end, certificate_chain.entry_count); for (size_t i = 0; i < certificate_chain.entry_count; ++i) { buf = append_size_and_data_to_buf(buf, end, certificate_chain.entries[i].data, certificate_chain.entries[i].data_length); } return buf; } bool AttestKeyResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { size_t entry_count; if (!copy_uint32_from_buf(buf_ptr, end, &entry_count) || !AllocateChain(entry_count)) return false; for (size_t i = 0; i < certificate_chain.entry_count; ++i) { UniquePtr data; size_t data_length; if (!copy_size_and_data_from_buf(buf_ptr, end, &data_length, &data)) return false; certificate_chain.entries[i].data = data.release(); certificate_chain.entries[i].data_length = data_length; } return true; } UpgradeKeyRequest::~UpgradeKeyRequest() { delete[] key_blob.key_material; } void UpgradeKeyRequest::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t UpgradeKeyRequest::SerializedSize() const { return key_blob_size(key_blob) + upgrade_params.SerializedSize(); } uint8_t* UpgradeKeyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(key_blob, buf, end); return upgrade_params.Serialize(buf, end); } bool UpgradeKeyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end) && upgrade_params.Deserialize(buf_ptr, end); } UpgradeKeyResponse::~UpgradeKeyResponse() { delete[] upgraded_key.key_material; } size_t UpgradeKeyResponse::NonErrorSerializedSize() const { return key_blob_size(upgraded_key); } uint8_t* UpgradeKeyResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { return serialize_key_blob(upgraded_key, buf, end); } bool UpgradeKeyResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&upgraded_key, buf_ptr, end); } size_t HmacSharingParameters::SerializedSize() const { return blob_size(seed) + sizeof(nonce); } uint8_t* HmacSharingParameters::Serialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_blob(seed, buf, end); return append_to_buf(buf, end, nonce, sizeof(nonce)); } bool HmacSharingParameters::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_blob(&seed, buf_ptr, end) && copy_from_buf(buf_ptr, end, nonce, sizeof(nonce)); } size_t HmacSharingParametersArray::SerializedSize() const { size_t size = sizeof(uint32_t); // num_params size for (size_t i = 0; i < num_params; ++i) { size += params_array[i].SerializedSize(); } return size; } uint8_t* HmacSharingParametersArray::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint32_to_buf(buf, end, num_params); for (size_t i = 0; i < num_params; ++i) { buf = params_array[i].Serialize(buf, end); } return buf; } bool HmacSharingParametersArray::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { if (!copy_uint32_from_buf(buf_ptr, end, &num_params)) return false; params_array = new (std::nothrow) HmacSharingParameters[num_params]; if (!params_array) return false; for (size_t i = 0; i < num_params; ++i) { if (!params_array[i].Deserialize(buf_ptr, end)) return false; } return true; } size_t ComputeSharedHmacResponse::NonErrorSerializedSize() const { return blob_size(sharing_check); } uint8_t* ComputeSharedHmacResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { return serialize_blob(sharing_check, buf, end); } bool ComputeSharedHmacResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_blob(&sharing_check, buf_ptr, end); } size_t ImportWrappedKeyRequest::SerializedSize() const { return sizeof(uint32_t) /* wrapped_key_data_length */ + wrapped_key.key_material_size + sizeof(uint32_t) /* wrapping_key_data_length */ + wrapping_key.key_material_size + sizeof(uint32_t) /* masking_key_data_length */ + masking_key.key_material_size + additional_params.SerializedSize() + sizeof(uint64_t) /* password_sid */ + sizeof(uint64_t) /* biometric_sid */; } uint8_t* ImportWrappedKeyRequest::Serialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(wrapped_key, buf, end); buf = serialize_key_blob(wrapping_key, buf, end); buf = serialize_key_blob(masking_key, buf, end); buf = additional_params.Serialize(buf, end); buf = append_uint64_to_buf(buf, end, password_sid); return append_uint64_to_buf(buf, end, biometric_sid); } bool ImportWrappedKeyRequest::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&wrapped_key, buf_ptr, end) && deserialize_key_blob(&wrapping_key, buf_ptr, end) && deserialize_key_blob(&masking_key, buf_ptr, end) && additional_params.Deserialize(buf_ptr, end) && copy_uint64_from_buf(buf_ptr, end, &password_sid) && copy_uint64_from_buf(buf_ptr, end, &biometric_sid); } void ImportWrappedKeyRequest::SetWrappedMaterial(const void* key_material, size_t length) { set_key_blob(&wrapped_key, key_material, length); } void ImportWrappedKeyRequest::SetWrappingMaterial(const void* key_material, size_t length) { set_key_blob(&wrapping_key, key_material, length); } void ImportWrappedKeyRequest::SetMaskingKeyMaterial(const void* key_material, size_t length) { set_key_blob(&masking_key, key_material, length); } void ImportWrappedKeyResponse::SetKeyMaterial(const void* key_material, size_t length) { set_key_blob(&key_blob, key_material, length); } size_t ImportWrappedKeyResponse::NonErrorSerializedSize() const { return key_blob_size(key_blob) + enforced.SerializedSize() + unenforced.SerializedSize(); } uint8_t* ImportWrappedKeyResponse::NonErrorSerialize(uint8_t* buf, const uint8_t* end) const { buf = serialize_key_blob(key_blob, buf, end); buf = enforced.Serialize(buf, end); return unenforced.Serialize(buf, end); } bool ImportWrappedKeyResponse::NonErrorDeserialize(const uint8_t** buf_ptr, const uint8_t* end) { return deserialize_key_blob(&key_blob, buf_ptr, end) && enforced.Deserialize(buf_ptr, end) && unenforced.Deserialize(buf_ptr, end); } size_t HardwareAuthToken::SerializedSize() const { return sizeof(challenge) + sizeof(user_id) + sizeof(authenticator_id) + sizeof(authenticator_type) + sizeof(timestamp) + blob_size(mac); } uint8_t* HardwareAuthToken::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint64_to_buf(buf, end, challenge); buf = append_uint64_to_buf(buf, end, user_id); buf = append_uint64_to_buf(buf, end, authenticator_id); buf = append_uint32_to_buf(buf, end, authenticator_type); buf = append_uint64_to_buf(buf, end, timestamp); return serialize_blob(mac, buf, end); } bool HardwareAuthToken::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return copy_uint64_from_buf(buf_ptr, end, &challenge) && copy_uint64_from_buf(buf_ptr, end, &user_id) && copy_uint64_from_buf(buf_ptr, end, &authenticator_id) && copy_uint32_from_buf(buf_ptr, end, &authenticator_type) && copy_uint64_from_buf(buf_ptr, end, ×tamp) && // deserialize_blob(&mac, buf_ptr, end); } size_t VerificationToken::SerializedSize() const { return sizeof(challenge) + sizeof(timestamp) + parameters_verified.SerializedSize() + sizeof(security_level) + blob_size(mac); } uint8_t* VerificationToken::Serialize(uint8_t* buf, const uint8_t* end) const { buf = append_uint64_to_buf(buf, end, challenge); buf = append_uint64_to_buf(buf, end, timestamp); buf = parameters_verified.Serialize(buf, end); buf = append_uint32_to_buf(buf, end, security_level); return serialize_blob(mac, buf, end); } bool VerificationToken::Deserialize(const uint8_t** buf_ptr, const uint8_t* end) { return copy_uint64_from_buf(buf_ptr, end, &challenge) && copy_uint64_from_buf(buf_ptr, end, ×tamp) && parameters_verified.Deserialize(buf_ptr, end) && copy_uint32_from_buf(buf_ptr, end, &security_level) && deserialize_blob(&mac, buf_ptr, end); } } // namespace keymaster