ae_error_t CertificateProvisioningProtocol::msg1_create_seq3_0(const TLVsMsg& seq3_1_tlv_epid_gid, const provision_request_header_t& serializedHeader,
const upse::Buffer& ek1, TLVsMsg& seq3_0_tlv_block_cipher_text, upse::Buffer& mac)
{
//* 3.0 Block Cipher Text TLV (TLV Type, Type, Version, Size, [IV, EncryptedPayload is 3.1])
ae_error_t status = AE_FAILURE;
tlv_status_t tlv_status;
do
{
status = get_random_value(IV_SIZE, M1IV);
if (AE_FAILED(status))
break;
upse::Buffer aad;
status = aad.Alloc(sizeof(serializedHeader));
if (AE_FAILED(status))
break;
upse::BufferWriter aadWriter(aad);
status = aadWriter.writeRaw((const uint8_t*)&serializedHeader, sizeof(serializedHeader));
if (AE_FAILED(status))
break;
upse::Buffer epidGid;
status = epidGid.Alloc(seq3_1_tlv_epid_gid.get_tlv_msg(), seq3_1_tlv_epid_gid.get_tlv_msg_size());
if (AE_FAILED(status))
break;
upse::Buffer encryptedPayload;
status = aesGCMEncrypt(M1IV, ek1, epidGid, aad, encryptedPayload, mac);
if (AE_FAILED(status))
break;
tlv_status = seq3_0_tlv_block_cipher_text.add_block_cipher_text(M1IV.getData(), encryptedPayload.getData(), encryptedPayload.getSize());
status = tlv_error_2_pve_error(tlv_status);
if (AE_FAILED(status))
break;
status = AE_SUCCESS;
} while (0);
return status;
}
ae_error_t CertificateProvisioningProtocol::msg1_create_seq2_0(const TLVsMsg& seq2_1_tlv_block_cipher_info, TLVsMsg& seq2_0_tlv_cipher_text)
{
//* 2.0 Cipher Text TLV (TLV Type, Type, Version, Size, [KeyID, EncryptedPayload is 2.1])
ae_error_t status = AE_FAILURE;
tlv_status_t tlv_status;
do
{
upse::Buffer seq2_1_encrypted_tlv;
upse::Buffer encryptedBlockCipherInfo;
const public_key_t& public_key = get_intel_pek();
// Encrypt TLV 2.1
upse::Buffer blockCipherInfo;
status = blockCipherInfo.Alloc(seq2_1_tlv_block_cipher_info.get_tlv_msg(), seq2_1_tlv_block_cipher_info.get_tlv_msg_size());
if (AE_FAILED(status))
break;
upse::BufferReader blockCipherInfoReader(blockCipherInfo);
status = encryptRSA_OAEP_SHA256(public_key, blockCipherInfoReader, encryptedBlockCipherInfo);
if (AE_FAILED(status))
break;
tlv_status = seq2_0_tlv_cipher_text.add_cipher_text(encryptedBlockCipherInfo.getData(), encryptedBlockCipherInfo.getSize(), PEK_3072_PUB);
status = tlv_error_2_pve_error(tlv_status);
if (AE_FAILED(status))
break;
status = AE_SUCCESS;
} while (0);
return status;
}
ae_error_t CertificateProvisioningProtocol::msg3_seq3_0_create_block_cipher_text_tlv(const TLVsMsg& quote, const TLVsMsg& epidSigTLV, const TLVsMsg& csrTLV, const TLVsMsg& nonceTLV,
const provision_request_header_t& requestHeader, const upse::Buffer& ek2,
TLVsMsg& blockCipherTextTLV, upse::Buffer& mac)
{
ae_error_t status = AE_FAILURE;
tlv_status_t tlv_status;
upse::Buffer plainText;
upse::Buffer encryptedPayload;
do
{
status = get_random_value(IV_SIZE, M3IV);
if (AE_FAILED(status))
break;
status = plainText.Alloc(quote.get_tlv_msg_size() + epidSigTLV.get_tlv_msg_size() + csrTLV.get_tlv_msg_size());
if (AE_FAILED(status))
break;
upse::BufferWriter plainTextWriter(plainText);
status = plainTextWriter.writeRaw(quote.get_tlv_msg(), quote.get_tlv_msg_size());
if (AE_FAILED(status))
break;
status = plainTextWriter.writeRaw(epidSigTLV.get_tlv_msg(), epidSigTLV.get_tlv_msg_size());
if (AE_FAILED(status))
break;
status = plainTextWriter.writeRaw(csrTLV.get_tlv_msg(), csrTLV.get_tlv_msg_size());
if (AE_FAILED(status))
break;
uint32_t payloadSize = BLOCK_CIPHER_TEXT_TLV_PAYLOAD_SIZE(plainText.getSize());
uint32_t blockCipherTextHeaderSize = get_tlv_total_size(payloadSize) - payloadSize;
// Calculate AAD (concatenation of Request header, Nonce, Block Cipher Text TLV header and IV from Block Cipher Text TLV)
upse::Buffer aad;
status = aad.Alloc(static_cast<uint32_t>(sizeof(requestHeader) + nonceTLV.get_tlv_msg_size() + blockCipherTextHeaderSize + M3IV.getSize()));
if (AE_FAILED(status))
break;
TLVsMsg tmpBlockCipherTextTLV;
tlv_status = tmpBlockCipherTextTLV.add_block_cipher_text(M3IV.getData(), NULL, plainText.getSize());
status = tlv_error_2_pve_error(tlv_status);
if (AE_FAILED(status))
break;
upse::BufferWriter aadWriter(aad);
status = aadWriter.writeRaw((const uint8_t*)&requestHeader, sizeof(requestHeader));
if (AE_FAILED(status))
break;
status = aadWriter.writeRaw(nonceTLV.get_tlv_msg(), nonceTLV.get_tlv_msg_size());
if (AE_FAILED(status))
break;
status = aadWriter.writeRaw(tmpBlockCipherTextTLV.get_tlv_msg(), blockCipherTextHeaderSize);
if (AE_FAILED(status))
break;
status = aadWriter.writeRaw(M3IV.getData(), M3IV.getSize());
if (AE_FAILED(status))
break;
status = aesGCMEncrypt(M3IV, ek2, plainText, aad, encryptedPayload, mac);
if (AE_FAILED(status))
break;
tlv_status = blockCipherTextTLV.add_block_cipher_text(M3IV.getData(), encryptedPayload.getData(), encryptedPayload.getSize());
status = tlv_error_2_pve_error(tlv_status);
if (AE_FAILED(status))
break;
status = AE_SUCCESS;
} while (0);
return status;
}