#pragma once #include "seal/seal.h" #include "seal/util/polyarithsmallmod.h" #include #include #include #include typedef std::vector Database; typedef std::vector> PirQuery; typedef std::vector PirReply; struct PirParams { bool enable_symmetric; bool enable_batching; std::uint64_t ele_num; std::uint64_t ele_size; std::uint64_t elements_per_plaintext; std::uint64_t num_of_plaintexts; // number of plaintexts in database std::uint32_t d; // number of dimensions for the database std::uint32_t expansion_ratio; // ratio of ciphertext to plaintext std::vector nvec; // size of each of the d dimensions std::uint32_t slot_count; }; void gen_encryption_params(std::uint32_t N, // degree of polynomial std::uint32_t logt, // bits of plaintext coefficient seal::EncryptionParameters &enc_params); void gen_pir_params(uint64_t ele_num, uint64_t ele_size, uint32_t d, const seal::EncryptionParameters &enc_params, PirParams &pir_params, bool enable_symmetric = false, bool enable_batching = true); void gen_params(uint64_t ele_num, uint64_t ele_size, uint32_t N, uint32_t logt, uint32_t d, seal::EncryptionParameters ¶ms, PirParams &pir_params); void verify_encryption_params(const seal::EncryptionParameters &enc_params); void print_pir_params(const PirParams &pir_params); void print_seal_params(const seal::EncryptionParameters &enc_params); // returns the number of plaintexts that the database can hold std::uint64_t plaintexts_per_db(std::uint32_t logt, std::uint64_t N, std::uint64_t ele_num, std::uint64_t ele_size); // returns the number of elements that a single FV plaintext can hold std::uint64_t elements_per_ptxt(std::uint32_t logt, std::uint64_t N, std::uint64_t ele_size); // returns the number of coefficients needed to store one element std::uint64_t coefficients_per_element(std::uint32_t logt, std::uint64_t ele_size); // Converts an array of bytes to a vector of coefficients, each of which is less // than the plaintext modulus std::vector bytes_to_coeffs(std::uint32_t limit, const std::uint8_t *bytes, std::uint64_t size); // Converts an array of coefficients into an array of bytes void coeffs_to_bytes(std::uint32_t logtp, const std::vector &coeffs, std::uint8_t *output, std::uint32_t size_out); // Takes a vector of coefficients and returns the corresponding FV plaintext void vector_to_plaintext(const std::vector &coeffs, seal::Plaintext &plain); // Since the database has d dimensions, and an item is a particular cell // in the d-dimensional hypercube, this function computes the corresponding // index for each of the d dimensions std::vector compute_indices(std::uint64_t desiredIndex, std::vector nvec); uint64_t invert_mod(uint64_t m, const seal::Modulus& mod); // Serialize and deserialize ciphertexts to send them over the network PirQuery deserialize_query(std::uint32_t d, uint32_t count, std::string s, std::uint32_t len_ciphertext, std::shared_ptr context); std::vector deserialize_ciphertexts(std::uint32_t count, std::string s, std::uint32_t len_ciphertext, std::shared_ptr context); std::string serialize_ciphertexts(std::vector c); std::string serialize_query(std::vector> c); // Serialize and deserialize galois keys to send them over the network std::string serialize_galoiskeys(seal::GaloisKeys g); seal::GaloisKeys *deserialize_galoiskeys(std::string s, std::shared_ptr context);