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Botan
2.11.0
Crypto and TLS for C++11
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Namespaces | |
| ARIA_F | |
| ASN1 | |
| Camellia_F | |
| Cert_Extension | |
| Charset | |
| CryptoBox | |
| CT | |
| FPE | |
| HTTP | |
| KeyPair | |
| OCSP | |
| OIDS | |
| OS | |
| PEM_Code | |
| PK_Ops | |
| PKCS11 | |
| PKCS8 | |
| PKIX | |
| SHA1_F | |
| SHA1_SSE2_F | |
| Sodium | |
| stlCompatibilityDetails | |
| TLS | |
| X509 | |
Functions | |
| BigInt | abs (const BigInt &n) |
| BOTAN_MALLOC_FN void * | allocate_memory (size_t elems, size_t elem_size) |
| size_t | almost_montgomery_inverse (BigInt &result, const BigInt &a, const BigInt &p) |
| void | aont_package (RandomNumberGenerator &rng, BlockCipher *cipher, const uint8_t input[], size_t input_len, uint8_t output[]) |
| void | aont_unpackage (BlockCipher *cipher, const uint8_t input[], size_t input_len, uint8_t output[]) |
| void | argon2 (uint8_t output[], size_t output_len, const char *password, size_t password_len, const uint8_t salt[], size_t salt_len, const uint8_t key[], size_t key_len, const uint8_t ad[], size_t ad_len, uint8_t mode, size_t threads, size_t M, size_t t) |
| bool | argon2_check_pwhash (const char *password, size_t password_len, const std::string &hash) |
| std::string | argon2_generate_pwhash (const char *password, size_t password_len, RandomNumberGenerator &rng, size_t p, size_t M, size_t t, uint8_t y=2, size_t salt_len=16, size_t output_len=32) |
| std::string | asn1_class_to_string (ASN1_Tag type) |
| std::string | asn1_tag_to_string (ASN1_Tag type) |
| void | assertion_failure (const char *expr_str, const char *assertion_made, const char *func, const char *file, int line) |
| size_t | base32_decode (uint8_t out[], const char in[], size_t input_length, size_t &input_consumed, bool final_inputs, bool ignore_ws) |
| size_t | base32_decode (uint8_t output[], const char input[], size_t input_length, bool ignore_ws) |
| size_t | base32_decode (uint8_t output[], const std::string &input, bool ignore_ws) |
| secure_vector< uint8_t > | base32_decode (const char input[], size_t input_length, bool ignore_ws) |
| secure_vector< uint8_t > | base32_decode (const std::string &input, bool ignore_ws) |
| template<typename Alloc > | |
| std::string | base32_encode (const std::vector< uint8_t, Alloc > &input) |
| size_t | base32_encode (char out[], const uint8_t in[], size_t input_length, size_t &input_consumed, bool final_inputs) |
| std::string | base32_encode (const uint8_t input[], size_t input_length) |
| std::vector< uint8_t > | base58_check_decode (const std::string &s) |
| std::vector< uint8_t > | base58_check_decode (const char input[], size_t input_length) |
| template<typename Alloc > | |
| std::string | base58_check_encode (const std::vector< uint8_t, Alloc > &vec) |
| std::string | base58_check_encode (const uint8_t input[], size_t input_length) |
| std::vector< uint8_t > | base58_decode (const std::string &s) |
| std::vector< uint8_t > | base58_decode (const char input[], size_t input_length) |
| template<typename Alloc > | |
| std::string | base58_encode (const std::vector< uint8_t, Alloc > &vec) |
| std::string | base58_encode (const uint8_t input[], size_t input_length) |
| size_t | base64_decode (uint8_t out[], const char in[], size_t input_length, size_t &input_consumed, bool final_inputs, bool ignore_ws) |
| size_t | base64_decode (uint8_t output[], const char input[], size_t input_length, bool ignore_ws) |
| size_t | base64_decode (uint8_t output[], const std::string &input, bool ignore_ws) |
| secure_vector< uint8_t > | base64_decode (const char input[], size_t input_length, bool ignore_ws) |
| secure_vector< uint8_t > | base64_decode (const std::string &input, bool ignore_ws) |
| size_t | base64_decode_max_output (size_t input_length) |
| template<typename Alloc > | |
| std::string | base64_encode (const std::vector< uint8_t, Alloc > &input) |
| size_t | base64_encode (char out[], const uint8_t in[], size_t input_length, size_t &input_consumed, bool final_inputs) |
| std::string | base64_encode (const uint8_t input[], size_t input_length) |
| size_t | base64_encode_max_output (size_t input_length) |
| template<typename Base > | |
| size_t | base_decode (Base &&base, uint8_t output[], const char input[], size_t input_length, size_t &input_consumed, bool final_inputs, bool ignore_ws=true) |
| template<typename Base > | |
| size_t | base_decode_full (Base &&base, uint8_t output[], const char input[], size_t input_length, bool ignore_ws) |
| template<typename Vector , typename Base > | |
| Vector | base_decode_to_vec (Base &&base, const char input[], size_t input_length, bool ignore_ws) |
| template<class Base > | |
| size_t | base_encode (Base &&base, char output[], const uint8_t input[], size_t input_length, size_t &input_consumed, bool final_inputs) |
| template<typename Base > | |
| std::string | base_encode_to_string (Base &&base, const uint8_t input[], size_t input_length) |
| void | bcrypt_pbkdf (uint8_t output[], size_t output_len, const char *pass, size_t pass_len, const uint8_t salt[], size_t salt_len, size_t rounds) |
| void | bigint_add2 (word x[], size_t x_size, const word y[], size_t y_size) |
| word | bigint_add2_nc (word x[], size_t x_size, const word y[], size_t y_size) |
| void | bigint_add3 (word z[], const word x[], size_t x_size, const word y[], size_t y_size) |
| word | bigint_add3_nc (word z[], const word x[], size_t x_size, const word y[], size_t y_size) |
| int32_t | bigint_cmp (const word x[], size_t x_size, const word y[], size_t y_size) |
| void | bigint_cnd_abs (word cnd, word x[], size_t size) |
| word | bigint_cnd_add (word cnd, word x[], word x_size, const word y[], size_t y_size) |
| word | bigint_cnd_add (word cnd, word x[], const word y[], size_t size) |
| void | bigint_cnd_add_or_sub (CT::Mask< word > mask, word x[], const word y[], size_t size) |
| word | bigint_cnd_addsub (CT::Mask< word > mask, word x[], const word y[], const word z[], size_t size) |
| word | bigint_cnd_sub (word cnd, word x[], size_t x_size, const word y[], size_t y_size) |
| word | bigint_cnd_sub (word cnd, word x[], const word y[], size_t size) |
| void | bigint_cnd_swap (word cnd, word x[], word y[], size_t size) |
| void | bigint_comba_mul16 (word z[32], const word x[16], const word y[16]) |
| void | bigint_comba_mul24 (word z[48], const word x[24], const word y[24]) |
| void | bigint_comba_mul4 (word z[8], const word x[4], const word y[4]) |
| void | bigint_comba_mul6 (word z[12], const word x[6], const word y[6]) |
| void | bigint_comba_mul8 (word z[16], const word x[8], const word y[8]) |
| void | bigint_comba_mul9 (word z[18], const word x[9], const word y[9]) |
| void | bigint_comba_sqr16 (word z[32], const word x[16]) |
| void | bigint_comba_sqr24 (word z[48], const word x[24]) |
| void | bigint_comba_sqr4 (word z[8], const word x[4]) |
| void | bigint_comba_sqr6 (word z[12], const word x[6]) |
| void | bigint_comba_sqr8 (word z[16], const word x[8]) |
| void | bigint_comba_sqr9 (word z[18], const word x[9]) |
| CT::Mask< word > | bigint_ct_is_eq (const word x[], size_t x_size, const word y[], size_t y_size) |
| CT::Mask< word > | bigint_ct_is_lt (const word x[], size_t x_size, const word y[], size_t y_size, bool lt_or_equal=false) |
| word | bigint_divop (word n1, word n0, word d) |
| void | bigint_linmul2 (word x[], size_t x_size, word y) |
| void | bigint_linmul3 (word z[], const word x[], size_t x_size, word y) |
| void | bigint_mod_sub (word t[], const word s[], const word mod[], size_t mod_sw, word ws[]) |
| template<size_t N> | |
| void | bigint_mod_sub_n (word t[], const word s[], const word mod[], word ws[]) |
| word | bigint_modop (word n1, word n0, word d) |
| void | bigint_monty_redc (word z[], const word p[], size_t p_size, word p_dash, word workspace[], size_t ws_size) |
| void | bigint_monty_redc_16 (word z[], const word p[], word p_dash, word ws[]) |
| void | bigint_monty_redc_16 (word z[], const word p[16], word p_dash, word ws[]) |
| void | bigint_monty_redc_24 (word z[], const word p[], word p_dash, word ws[]) |
| void | bigint_monty_redc_24 (word z[], const word p[24], word p_dash, word ws[]) |
| void | bigint_monty_redc_32 (word z[], const word p[], word p_dash, word ws[]) |
| void | bigint_monty_redc_32 (word z[], const word p[32], word p_dash, word ws[]) |
| void | bigint_monty_redc_4 (word z[], const word p[4], word p_dash, word ws[]) |
| void | bigint_monty_redc_4 (word z[], const word p[], word p_dash, word ws[]) |
| void | bigint_monty_redc_6 (word z[], const word p[], word p_dash, word ws[]) |
| void | bigint_monty_redc_6 (word z[], const word p[6], word p_dash, word ws[]) |
| void | bigint_monty_redc_8 (word z[], const word p[], word p_dash, word ws[]) |
| void | bigint_monty_redc_8 (word z[], const word p[8], word p_dash, word ws[]) |
| void | bigint_mul (word z[], size_t z_size, const word x[], size_t x_size, size_t x_sw, const word y[], size_t y_size, size_t y_sw, word workspace[], size_t ws_size) |
| void | bigint_shl1 (word x[], size_t x_size, size_t x_words, size_t word_shift, size_t bit_shift) |
| void | bigint_shl2 (word y[], const word x[], size_t x_size, size_t word_shift, size_t bit_shift) |
| void | bigint_shr1 (word x[], size_t x_size, size_t word_shift, size_t bit_shift) |
| void | bigint_shr2 (word y[], const word x[], size_t x_size, size_t word_shift, size_t bit_shift) |
| void | bigint_sqr (word z[], size_t z_size, const word x[], size_t x_size, size_t x_sw, word workspace[], size_t ws_size) |
| word | bigint_sub2 (word x[], size_t x_size, const word y[], size_t y_size) |
| void | bigint_sub2_rev (word x[], const word y[], size_t y_size) |
| word | bigint_sub3 (word z[], const word x[], size_t x_size, const word y[], size_t y_size) |
| CT::Mask< word > | bigint_sub_abs (word z[], const word x[], const word y[], size_t N, word ws[]) |
| int32_t | bigint_sub_abs (word z[], const word x[], size_t x_size, const word y[], size_t y_size) |
| size_t | bit_size_to_32bit_size (uint32_t bit_size) |
| size_t | bit_size_to_byte_size (uint32_t bit_size) |
| const BotanErrorCategory & | botan_category () noexcept |
| template<typename T > | |
| void | bswap_4 (T x[4]) |
| template<typename T , typename Alloc > | |
| size_t | buffer_insert (std::vector< T, Alloc > &buf, size_t buf_offset, const T input[], size_t input_length) |
| template<typename T , typename Alloc , typename Alloc2 > | |
| size_t | buffer_insert (std::vector< T, Alloc > &buf, size_t buf_offset, const std::vector< T, Alloc2 > &input) |
| calendar_point | calendar_value (const std::chrono::system_clock::time_point &time_point) |
| template<size_t S, int64_t MUL = 1> | |
| void | carry (int64_t &h0, int64_t &h1) |
| template<size_t S> | |
| void | carry0 (int64_t &h0, int64_t &h1) |
| template<size_t S> | |
| void | carry0 (int32_t &h0, int32_t &h1) |
| uint64_t | carry_shift (const donna128 &a, size_t shift) |
| const uint8_t * | cast_char_ptr_to_uint8 (const char *s) |
| uint8_t * | cast_char_ptr_to_uint8 (char *s) |
| const char * | cast_uint8_ptr_to_char (const uint8_t *b) |
| char * | cast_uint8_ptr_to_char (uint8_t *b) |
| void | CECPQ1_accept (uint8_t shared_key[CECPQ1_SHARED_KEY_BYTES], uint8_t send[CECPQ1_ACCEPT_BYTES], const uint8_t received[CECPQ1_OFFER_BYTES], RandomNumberGenerator &rng) |
| void | CECPQ1_accept (uint8_t *shared_key, uint8_t *accept_message, const uint8_t *offer_message, RandomNumberGenerator &rng) |
| void | CECPQ1_finish (uint8_t *shared_key, const CECPQ1_key &offer_key, const uint8_t *accept_message) |
| void | CECPQ1_finish (uint8_t shared_key[CECPQ1_SHARED_KEY_BYTES], const CECPQ1_key &offer_key, const uint8_t received[CECPQ1_ACCEPT_BYTES]) |
| void | CECPQ1_offer (uint8_t send[CECPQ1_OFFER_BYTES], CECPQ1_key *offer_key_output, RandomNumberGenerator &rng) |
| void | CECPQ1_offer (uint8_t *offer_message, CECPQ1_key *offer_key_output, RandomNumberGenerator &rng) |
| template<typename T > | |
| size_t | ceil_log2 (T x) |
| bool | check_bcrypt (const std::string &pass, const std::string &hash) |
| bool | check_passhash9 (const std::string &pass, const std::string &hash) |
| bool | check_prime (const BigInt &n, RandomNumberGenerator &rng) |
| size_t | checked_add (size_t x, size_t y, const char *file, int line) |
| PK_Signer * | choose_sig_format (const Private_Key &key, RandomNumberGenerator &rng, const std::string &hash_fn, AlgorithmIdentifier &sig_algo) |
| PK_Signer * | choose_sig_format (const Private_Key &key, const std::map< std::string, std::string > &opts, RandomNumberGenerator &rng, const std::string &hash_fn, AlgorithmIdentifier &sig_algo) |
| size_t | clamp (size_t n, size_t lower_bound, size_t upper_bound) |
| std::string | clean_ws (const std::string &s) |
| void | clear_bytes (void *ptr, size_t bytes) |
| template<typename T > | |
| void | clear_mem (T *ptr, size_t n) |
| uint64_t | combine_lower (const donna128 &a, size_t s1, const donna128 &b, size_t s2) |
| void | commoncrypto_adjust_key_size (const uint8_t key[], size_t length, const CommonCryptor_Opts &opts, secure_vector< uint8_t > &full_key) |
| CommonCryptor_Opts | commoncrypto_opts_from_algo (const std::string &algo) |
| bool | constant_time_compare (const uint8_t x[], const uint8_t y[], size_t len) |
| template<typename T > | |
| void | copy_mem (T *out, const T *in, size_t n) |
| template<typename T > | |
| void | copy_out_be (uint8_t out[], size_t out_bytes, const T in[]) |
| template<typename T > | |
| void | copy_out_le (uint8_t out[], size_t out_bytes, const T in[]) |
| template<typename T , typename Alloc > | |
| void | copy_out_vec_be (uint8_t out[], size_t out_bytes, const std::vector< T, Alloc > &in) |
| template<typename T , typename Alloc > | |
| void | copy_out_vec_le (uint8_t out[], size_t out_bytes, const std::vector< T, Alloc > &in) |
| AlternativeName | create_alt_name (const Data_Store &info) |
| X509_DN | create_dn (const Data_Store &info) |
| std::string | create_hex_fingerprint (const uint8_t bits[], size_t bits_len, const std::string &hash_name) |
| template<typename Alloc > | |
| std::string | create_hex_fingerprint (const std::vector< uint8_t, Alloc > &vec, const std::string &hash_name) |
| std::unique_ptr< Private_Key > | create_private_key (const std::string &alg_name, RandomNumberGenerator &rng, const std::string ¶ms, const std::string &provider) |
| uint8_t | ct_compare_u8 (const uint8_t x[], const uint8_t y[], size_t len) |
| void | ct_divide (const BigInt &x, const BigInt &y, BigInt &q_out, BigInt &r_out) |
| BigInt | ct_divide (const BigInt &x, const BigInt &y) |
| void | ct_divide_u8 (const BigInt &x, uint8_t y, BigInt &q_out, uint8_t &r_out) |
| BigInt | ct_inverse_mod_odd_modulus (const BigInt &n, const BigInt &mod) |
| template<typename T > | |
| T | ct_is_zero (T x) |
| BigInt | ct_modulo (const BigInt &x, const BigInt &y) |
| template<typename T > | |
| size_t | ctz (T n) |
| void | curve25519_basepoint (uint8_t mypublic[32], const uint8_t secret[32]) |
| void | curve25519_donna (uint8_t mypublic[32], const uint8_t secret[32], const uint8_t basepoint[32]) |
| void | deallocate_memory (void *p, size_t elems, size_t elem_size) |
| gf2m | decode_gf2m (const uint8_t *mem) |
| void | divide (const BigInt &x, const BigInt &y_arg, BigInt &q_out, BigInt &r_out) |
| size_t | dl_exponent_size (size_t bits) |
| size_t | dl_work_factor (size_t bits) |
| template<typename E , typename... Args> | |
| void | do_throw_error (const char *file, int line, const char *func, Args... args) |
| secure_vector< uint8_t > | EC2OSP (const PointGFp &point, uint8_t format) |
| size_t | ecp_work_factor (size_t bits) |
| void | ed25519_gen_keypair (uint8_t *pk, uint8_t *sk, const uint8_t seed[32]) |
| void | ed25519_gen_keypair (uint8_t pk[32], uint8_t sk[64], const uint8_t seed[32]) |
| void | ed25519_sign (uint8_t sig[64], const uint8_t m[], size_t mlen, const uint8_t sk[64], const uint8_t domain_sep[], size_t domain_sep_len) |
| bool | ed25519_verify (const uint8_t *m, size_t mlen, const uint8_t sig[64], const uint8_t *pk, const uint8_t domain_sep[], size_t domain_sep_len) |
| bool | ed25519_verify (const uint8_t msg[], size_t msg_len, const uint8_t sig[64], const uint8_t pk[32], const uint8_t domain_sep[], size_t domain_sep_len) |
| uint32_t | encode_gf2m (gf2m to_enc, uint8_t *mem) |
| std::string | erase_chars (const std::string &str, const std::set< char > &chars) |
| template<typename T > | |
| uint16_t | expand_mask_16bit (T tst) |
| template<typename T > | |
| T | expand_top_bit (T a) |
| void | fe_0 (fe &x) |
| void | fe_1 (fe &x) |
| void | fe_add (fe &x, const fe &a, const fe &b) |
| void | fe_copy (fe &a, const fe &b) |
| void | fe_frombytes (fe &x, const uint8_t *b) |
| void | fe_invert (fe &x, const fe &z) |
| int | fe_isnegative (const fe &x) |
| int | fe_isnonzero (const fe &x) |
| void | fe_mul (fe &x, const fe &a, const fe &b) |
| void | fe_neg (fe &x, const fe &z) |
| void | fe_pow22523 (fe &x, const fe &y) |
| void | fe_sq (fe &x, const fe &z) |
| void | fe_sq2 (fe &x, const fe &z) |
| void | fe_sq_iter (fe &x, const fe &z, size_t iter) |
| void | fe_sub (fe &x, const fe &a, const fe &b) |
| void | fe_tobytes (uint8_t *b, const fe &x) |
| secure_vector< gf2m > | find_roots_gf2m_decomp (const polyn_gf2m &polyn, uint32_t code_length) |
| BigInt | gcd (const BigInt &a, const BigInt &b) |
| void | gcm_clmul_precompute (const uint8_t H_bytes[16], uint64_t H_pow[4 *2]) |
| void | gcm_multiply_clmul (uint8_t x[16], const uint64_t H_pow[4 *2], const uint8_t input[], size_t blocks) |
| void | gcm_multiply_clmul (uint8_t x[16], const uint64_t H_pow[8], const uint8_t input_bytes[], size_t blocks) |
| void | gcm_multiply_pmull (uint8_t x[16], const uint64_t H64[8], const uint8_t input[], size_t blocks) |
| void | gcm_multiply_ssse3 (uint8_t x[16], const uint64_t HM[256], const uint8_t input_bytes[], size_t blocks) |
| void | gcm_pmull_precompute (const uint8_t H_bytes[16], uint64_t H_pow[4 *2]) |
| void | ge_double_scalarmult_vartime (uint8_t out[32], const uint8_t a[], const ge_p3 *A, const uint8_t b[]) |
| void | ge_double_scalarmult_vartime (uint8_t out[32], const uint8_t *a, const ge_p3 *A, const uint8_t *b) |
| int | ge_frombytes_negate_vartime (ge_p3 *, const uint8_t *) |
| void | ge_scalarmult_base (uint8_t out[32], const uint8_t in[32]) |
| std::string | generate_bcrypt (const std::string &pass, RandomNumberGenerator &rng, uint16_t work_factor, char version) |
| bool | generate_dsa_primes (RandomNumberGenerator &rng, BigInt &p, BigInt &q, size_t pbits, size_t qbits, const std::vector< uint8_t > &seed_c, size_t offset) |
| std::vector< uint8_t > | generate_dsa_primes (RandomNumberGenerator &rng, BigInt &p, BigInt &q, size_t pbits, size_t qbits) |
| McEliece_PrivateKey | generate_mceliece_key (RandomNumberGenerator &rng, size_t ext_deg, size_t code_length, size_t t) |
| std::string | generate_passhash9 (const std::string &pass, RandomNumberGenerator &rng, uint16_t work_factor, uint8_t alg_id) |
| BigInt | generate_rfc6979_nonce (const BigInt &x, const BigInt &q, const BigInt &h, const std::string &hash) |
| BigInt | generate_rsa_prime (RandomNumberGenerator &keygen_rng, RandomNumberGenerator &prime_test_rng, size_t bits, const BigInt &coprime, size_t prob) |
| BigInt | generate_srp6_verifier (const std::string &identifier, const std::string &password, const std::vector< uint8_t > &salt, const std::string &group_id, const std::string &hash_id) |
| BigInt | generate_srp6_verifier (const std::string &identifier, const std::string &password, const std::vector< uint8_t > &salt, const DL_Group &group, const std::string &hash_id) |
| AEAD_Mode * | get_aead (const std::string &name, Cipher_Dir direction) |
| BlockCipherModePaddingMethod * | get_bc_pad (const std::string &algo_spec) |
| template<typename T > | |
| constexpr uint8_t | get_byte (size_t byte_num, T input) |
| Keyed_Filter * | get_cipher (const std::string &algo_spec, Cipher_Dir direction) |
| Keyed_Filter * | get_cipher (const std::string &algo_spec, const SymmetricKey &key, Cipher_Dir direction) |
| Keyed_Filter * | get_cipher (const std::string &algo_spec, const SymmetricKey &key, const InitializationVector &iv, Cipher_Dir direction) |
| Cipher_Mode * | get_cipher_mode (const std::string &algo_spec, Cipher_Dir direction, const std::string &provider="") |
| EME * | get_eme (const std::string &algo_spec) |
| EMSA * | get_emsa (const std::string &algo_spec) |
| std::vector< std::string > | get_files_recursive (const std::string &dir) |
| KDF * | get_kdf (const std::string &algo_spec) |
| PBKDF * | get_pbkdf (const std::string &algo_spec, const std::string &provider="") |
| PBKDF * | get_s2k (const std::string &algo_spec) |
| const std::vector< std::string > | get_sig_paddings (const std::string algo) |
| gf2m | gray_to_lex (gf2m gray) |
| bool | has_filesystem_impl () |
| std::string | hash_for_emsa (const std::string &algo_spec) |
| size_t | hex_decode (uint8_t output[], const char input[], size_t input_length, size_t &input_consumed, bool ignore_ws) |
| size_t | hex_decode (uint8_t output[], const char input[], size_t input_length, bool ignore_ws) |
| size_t | hex_decode (uint8_t output[], const std::string &input, bool ignore_ws) |
| std::vector< uint8_t > | hex_decode (const char input[], size_t input_length, bool ignore_ws) |
| std::vector< uint8_t > | hex_decode (const std::string &input, bool ignore_ws) |
| secure_vector< uint8_t > | hex_decode_locked (const char input[], size_t input_length, bool ignore_ws) |
| secure_vector< uint8_t > | hex_decode_locked (const std::string &input, bool ignore_ws) |
| void | hex_encode (char output[], const uint8_t input[], size_t input_length, bool uppercase) |
| std::string | hex_encode (const uint8_t input[], size_t input_length, bool uppercase) |
| template<typename Alloc > | |
| std::string | hex_encode (const std::vector< uint8_t, Alloc > &input, bool uppercase=true) |
| template<typename T > | |
| size_t | high_bit (T n) |
| secure_vector< uint8_t > | hkdf_expand_label (const std::string &hash_fn, const uint8_t secret[], size_t secret_len, const std::string &label, const uint8_t hash_val[], size_t hash_val_len, size_t length) |
| bool | host_wildcard_match (const std::string &issued_, const std::string &host_) |
| uint8_t | ieee1363_hash_id (const std::string &name) |
| size_t | if_work_factor (size_t bits) |
| void | initialize_allocator () |
| BigInt | inverse_euclid (const BigInt &n, const BigInt &mod) |
| BigInt | inverse_mod (const BigInt &n, const BigInt &mod) |
| std::string | ipv4_to_string (uint32_t ip) |
| bool | is_bailie_psw_probable_prime (const BigInt &n, const Modular_Reducer &mod_n) |
| bool | is_bailie_psw_probable_prime (const BigInt &n) |
| bool | is_lucas_probable_prime (const BigInt &C, const Modular_Reducer &mod_C) |
| bool | is_miller_rabin_probable_prime (const BigInt &n, const Modular_Reducer &mod_n, RandomNumberGenerator &rng, size_t test_iterations) |
| bool | is_passhash9_alg_supported (uint8_t alg_id) |
| BigInt | is_perfect_square (const BigInt &C) |
| template<typename T > | |
| constexpr bool | is_power_of_2 (T arg) |
| bool | is_prime (const BigInt &n, RandomNumberGenerator &rng, size_t prob, bool is_random) |
| int32_t | jacobi (const BigInt &a, const BigInt &n) |
| std::string | key_constraints_to_string (Key_Constraints constraints) |
| BigInt | lcm (const BigInt &a, const BigInt &b) |
| gf2m | lex_to_gray (gf2m lex) |
| uint64_t | load_3 (const uint8_t in[3]) |
| uint64_t | load_4 (const uint8_t *in) |
| template<typename T > | |
| T | load_be (const uint8_t in[], size_t off) |
| template<typename T > | |
| void | load_be (const uint8_t in[], T &x0, T &x1) |
| template<typename T > | |
| void | load_be (const uint8_t in[], T &x0, T &x1, T &x2, T &x3) |
| template<typename T > | |
| void | load_be (const uint8_t in[], T &x0, T &x1, T &x2, T &x3, T &x4, T &x5, T &x6, T &x7) |
| template<typename T > | |
| void | load_be (T out[], const uint8_t in[], size_t count) |
| template<> | |
| uint16_t | load_be< uint16_t > (const uint8_t in[], size_t off) |
| template<> | |
| uint32_t | load_be< uint32_t > (const uint8_t in[], size_t off) |
| template<> | |
| uint64_t | load_be< uint64_t > (const uint8_t in[], size_t off) |
| template<typename T > | |
| T | load_le (const uint8_t in[], size_t off) |
| template<typename T > | |
| void | load_le (const uint8_t in[], T &x0, T &x1) |
| template<typename T > | |
| void | load_le (const uint8_t in[], T &x0, T &x1, T &x2, T &x3) |
| template<typename T > | |
| void | load_le (const uint8_t in[], T &x0, T &x1, T &x2, T &x3, T &x4, T &x5, T &x6, T &x7) |
| template<typename T > | |
| void | load_le (T out[], const uint8_t in[], size_t count) |
| template<> | |
| uint16_t | load_le< uint16_t > (const uint8_t in[], size_t off) |
| template<> | |
| uint32_t | load_le< uint32_t > (const uint8_t in[], size_t off) |
| template<> | |
| uint64_t | load_le< uint64_t > (const uint8_t in[], size_t off) |
| std::unique_ptr< Private_Key > | load_private_key (const AlgorithmIdentifier &alg_id, const secure_vector< uint8_t > &key_bits) |
| std::unique_ptr< Public_Key > | load_public_key (const AlgorithmIdentifier &alg_id, const std::vector< uint8_t > &key_bits) |
| size_t | low_zero_bits (const BigInt &n) |
| std::unique_ptr< HashFunction > | make_bearssl_hash (const std::string &name) |
| std::unique_ptr< BlockCipher > | make_commoncrypto_block_cipher (const std::string &name) |
| Cipher_Mode * | make_commoncrypto_cipher_mode (const std::string &name, Cipher_Dir direction) |
| std::unique_ptr< HashFunction > | make_commoncrypto_hash (const std::string &name) |
| Compression_Algorithm * | make_compressor (const std::string &name) |
| Decompression_Algorithm * | make_decompressor (const std::string &name) |
| boost::system::error_code | make_error_code (Botan::ErrorType e) |
| std::unique_ptr< BlockCipher > | make_openssl_block_cipher (const std::string &name) |
| Cipher_Mode * | make_openssl_cipher_mode (const std::string &name, Cipher_Dir direction) |
| std::unique_ptr< HashFunction > | make_openssl_hash (const std::string &name) |
| constexpr uint16_t | make_uint16 (uint8_t i0, uint8_t i1) |
| constexpr uint32_t | make_uint32 (uint8_t i0, uint8_t i1, uint8_t i2, uint8_t i3) |
| constexpr uint64_t | make_uint64 (uint8_t i0, uint8_t i1, uint8_t i2, uint8_t i3, uint8_t i4, uint8_t i5, uint8_t i6, uint8_t i7) |
| template<class T , class... Args> | |
| stlCompatibilityDetails::_Unique_if< T >::_Single_object | make_unique (Args &&... args) |
| template<class T > | |
| stlCompatibilityDetails::_Unique_if< T >::_Unknown_bound | make_unique (size_t n) |
| template<class T , class... Args> | |
| stlCompatibilityDetails::_Unique_if< T >::_Known_bound | make_unique (Args &&...)=delete |
| template<typename K , typename V > | |
| std::set< K > | map_keys_as_set (const std::map< K, V > &kv) |
| template<typename T , typename Pred > | |
| void | map_remove_if (Pred pred, T &assoc) |
| secure_vector< uint8_t > | mceies_decrypt (const McEliece_PrivateKey &privkey, const uint8_t ct[], size_t ct_len, const uint8_t ad[], size_t ad_len, const std::string &algo) |
| secure_vector< uint8_t > | mceies_encrypt (const McEliece_PublicKey &pubkey, const uint8_t pt[], size_t pt_len, const uint8_t ad[], size_t ad_len, RandomNumberGenerator &rng, const std::string &algo) |
| void | mceliece_decrypt (secure_vector< uint8_t > &plaintext_out, secure_vector< uint8_t > &error_mask_out, const secure_vector< uint8_t > &ciphertext, const McEliece_PrivateKey &key) |
| void | mceliece_decrypt (secure_vector< uint8_t > &plaintext, secure_vector< uint8_t > &error_mask, const uint8_t ciphertext[], size_t ciphertext_len, const McEliece_PrivateKey &key) |
| secure_vector< uint8_t > | mceliece_decrypt (secure_vector< gf2m > &error_pos, const uint8_t *ciphertext, uint32_t ciphertext_len, const McEliece_PrivateKey &key) |
| void | mceliece_encrypt (secure_vector< uint8_t > &ciphertext_out, secure_vector< uint8_t > &error_mask_out, const secure_vector< uint8_t > &plaintext, const McEliece_PublicKey &key, RandomNumberGenerator &rng) |
| size_t | mceliece_work_factor (size_t n, size_t t) |
| void | mgf1_mask (HashFunction &hash, const uint8_t in[], size_t in_len, uint8_t out[], size_t out_len) |
| size_t | miller_rabin_test_iterations (size_t n_bits, size_t prob, bool random) |
| BigInt | monty_execute (const Montgomery_Exponentation_State &precomputed_state, const BigInt &k, size_t max_k_bits) |
| BigInt | monty_execute_vartime (const Montgomery_Exponentation_State &precomputed_state, const BigInt &k) |
| word | monty_inverse (word a) |
| BigInt | monty_multi_exp (std::shared_ptr< const Montgomery_Params > params_p, const BigInt &x_bn, const BigInt &z1, const BigInt &y_bn, const BigInt &z2) |
| std::shared_ptr< const Montgomery_Exponentation_State > | monty_precompute (std::shared_ptr< const Montgomery_Params > params, const BigInt &g, size_t window_bits, bool const_time) |
| void | mul64x64_128 (uint64_t a, uint64_t b, uint64_t *lo, uint64_t *hi) |
| BigInt | mul_add (const BigInt &a, const BigInt &b, const BigInt &c) |
| BigInt | mul_sub (const BigInt &a, const BigInt &b, const BigInt &c) |
| PointGFp | multi_exponentiate (const PointGFp &p1, const BigInt &z1, const PointGFp &p2, const BigInt &z2) |
| template<typename K , typename V > | |
| void | multimap_insert (std::multimap< K, V > &multimap, const K &key, const V &value) |
| void | newhope_keygen (uint8_t send[NEWHOPE_SENDABYTES], newhope_poly *sk, RandomNumberGenerator &rng, Newhope_Mode=Newhope_Mode::SHA3) |
| void | newhope_keygen (uint8_t *send, poly *sk, RandomNumberGenerator &rng, Newhope_Mode mode) |
| void | newhope_shareda (uint8_t sharedkey[NEWHOPE_SHARED_KEY_BYTES], const newhope_poly *ska, const uint8_t *received, Newhope_Mode mode=Newhope_Mode::SHA3) |
| void | newhope_shareda (uint8_t sharedkey[], const poly *sk, const uint8_t received[], Newhope_Mode mode) |
| void | newhope_sharedb (uint8_t sharedkey[NEWHOPE_SHARED_KEY_BYTES], uint8_t send[], const uint8_t *received, RandomNumberGenerator &rng, Newhope_Mode mode=Newhope_Mode::SHA3) |
| void | newhope_sharedb (uint8_t *sharedkey, uint8_t *send, const uint8_t *received, RandomNumberGenerator &rng, Newhope_Mode mode) |
| secure_vector< uint8_t > | nist_key_unwrap (const uint8_t input[], size_t input_len, const BlockCipher &bc) |
| secure_vector< uint8_t > | nist_key_unwrap_padded (const uint8_t input[], size_t input_len, const BlockCipher &bc) |
| std::vector< uint8_t > | nist_key_wrap (const uint8_t input[], size_t input_len, const BlockCipher &bc) |
| std::vector< uint8_t > | nist_key_wrap_padded (const uint8_t input[], size_t input_len, const BlockCipher &bc) |
| BigInt | normalized_montgomery_inverse (const BigInt &a, const BigInt &p) |
| secure_vector< uint8_t > | oaep_find_delim (uint8_t &valid_mask, const uint8_t input[], size_t input_len, const secure_vector< uint8_t > &Phash) |
| bool | operator!= (const CRL_Entry &a1, const CRL_Entry &a2) |
| template<typename T , typename U > | |
| bool | operator!= (const secure_allocator< T > &, const secure_allocator< U > &) |
| bool | operator!= (const AlgorithmIdentifier &a1, const AlgorithmIdentifier &a2) |
| bool | operator!= (const OID &a, const OID &b) |
| bool | operator!= (const OctetString &s1, const OctetString &s2) |
| bool | operator!= (const X509_DN &dn1, const X509_DN &dn2) |
| bool | operator!= (const CurveGFp &lhs, const CurveGFp &rhs) |
| bool | operator!= (const X509_Time &t1, const X509_Time &t2) |
| bool | operator!= (const PointGFp &lhs, const PointGFp &rhs) |
| bool | operator!= (const EC_Group &lhs, const EC_Group &rhs) |
| bool | operator!= (const X509_Certificate &cert1, const X509_Certificate &cert2) |
| bool | operator!= (const BigInt &a, const BigInt &b) |
| bool | operator!= (const BigInt &a, word b) |
| BigInt | operator% (const BigInt &n, const BigInt &mod) |
| word | operator% (const BigInt &n, word mod) |
| ECIES_Flags | operator& (ECIES_Flags a, ECIES_Flags b) |
| BigInt | operator* (const BigInt &x, const BigInt &y) |
| BigInt | operator* (const BigInt &x, word y) |
| donna128 | operator* (const donna128 &x, uint64_t y) |
| donna128 | operator* (uint64_t y, const donna128 &x) |
| PointGFp | operator* (const PointGFp &point, const BigInt &scalar) |
| PointGFp | operator* (const BigInt &scalar, const PointGFp &point) |
| BigInt | operator* (word x, const BigInt &y) |
| OID | operator+ (const OID &oid, uint32_t component) |
| donna128 | operator+ (const donna128 &x, const donna128 &y) |
| donna128 | operator+ (const donna128 &x, uint64_t y) |
| OctetString | operator+ (const OctetString &k1, const OctetString &k2) |
| PointGFp | operator+ (const PointGFp &lhs, const PointGFp &rhs) |
| BigInt | operator+ (const BigInt &x, const BigInt &y) |
| BigInt | operator+ (const BigInt &x, word y) |
| BigInt | operator+ (word x, const BigInt &y) |
| template<typename T , typename Alloc , typename Alloc2 > | |
| std::vector< T, Alloc > & | operator+= (std::vector< T, Alloc > &out, const std::vector< T, Alloc2 > &in) |
| template<typename T , typename Alloc > | |
| std::vector< T, Alloc > & | operator+= (std::vector< T, Alloc > &out, T in) |
| template<typename T , typename Alloc , typename L > | |
| std::vector< T, Alloc > & | operator+= (std::vector< T, Alloc > &out, const std::pair< const T *, L > &in) |
| template<typename T , typename Alloc , typename L > | |
| std::vector< T, Alloc > & | operator+= (std::vector< T, Alloc > &out, const std::pair< T *, L > &in) |
| PointGFp | operator- (const PointGFp &lhs) |
| PointGFp | operator- (const PointGFp &lhs, const PointGFp &rhs) |
| BigInt | operator- (const BigInt &x, const BigInt &y) |
| BigInt | operator- (const BigInt &x, word y) |
| BigInt | operator/ (const BigInt &x, const BigInt &y) |
| bool | operator< (const OID &a, const OID &b) |
| bool | operator< (const X509_DN &dn1, const X509_DN &dn2) |
| bool | operator< (const X509_Time &t1, const X509_Time &t2) |
| bool | operator< (const BigInt &a, const BigInt &b) |
| bool | operator< (const BigInt &a, word b) |
| int | operator<< (int fd, Pipe &pipe) |
| std::ostream & | operator<< (std::ostream &stream, const BigInt &n) |
| BigInt | operator<< (const BigInt &x, size_t shift) |
| std::ostream & | operator<< (std::ostream &os, const GeneralName &gn) |
| std::ostream & | operator<< (std::ostream &os, const GeneralSubtree &gs) |
| std::ostream & | operator<< (std::ostream &out, const X509_DN &dn) |
| std::ostream & | operator<< (std::ostream &out, Pipe &pipe) |
| bool | operator<= (const X509_Time &t1, const X509_Time &t2) |
| bool | operator<= (const BigInt &a, const BigInt &b) |
| bool | operator<= (const BigInt &a, word b) |
| bool | operator== (const CRL_Entry &a1, const CRL_Entry &a2) |
| template<typename T , typename U > | |
| bool | operator== (const secure_allocator< T > &, const secure_allocator< U > &) |
| bool | operator== (const AlgorithmIdentifier &a1, const AlgorithmIdentifier &a2) |
| bool | operator== (const OctetString &s1, const OctetString &s2) |
| bool | operator== (const X509_DN &dn1, const X509_DN &dn2) |
| bool | operator== (const X509_Time &t1, const X509_Time &t2) |
| bool | operator== (const BigInt &a, const BigInt &b) |
| bool | operator== (const BigInt &a, word b) |
| bool | operator> (const X509_Time &t1, const X509_Time &t2) |
| bool | operator> (const BigInt &a, const BigInt &b) |
| bool | operator> (const BigInt &a, word b) |
| bool | operator>= (const X509_Time &t1, const X509_Time &t2) |
| bool | operator>= (const BigInt &a, const BigInt &b) |
| bool | operator>= (const BigInt &a, word b) |
| int | operator>> (int fd, Pipe &pipe) |
| std::istream & | operator>> (std::istream &stream, BigInt &n) |
| BigInt | operator>> (const BigInt &x, size_t shift) |
| std::istream & | operator>> (std::istream &in, X509_DN &dn) |
| std::istream & | operator>> (std::istream &in, Pipe &pipe) |
| OctetString | operator^ (const OctetString &k1, const OctetString &k2) |
| template<typename Alloc , typename Alloc2 > | |
| std::vector< uint8_t, Alloc > & | operator^= (std::vector< uint8_t, Alloc > &out, const std::vector< uint8_t, Alloc2 > &in) |
| ECIES_Flags | operator| (ECIES_Flags a, ECIES_Flags b) |
| donna128 | operator| (const donna128 &x, const donna128 &y) |
| template<typename Alloc > | |
| PointGFp | OS2ECP (const std::vector< uint8_t, Alloc > &data, const CurveGFp &curve) |
| PointGFp | OS2ECP (const uint8_t data[], size_t data_len, const CurveGFp &curve) |
| std::pair< BigInt, BigInt > | OS2ECP (const uint8_t data[], size_t data_len, const BigInt &curve_p, const BigInt &curve_a, const BigInt &curve_b) |
| std::vector< std::string > | parse_algorithm_name (const std::string &namex) |
| std::vector< uint32_t > | parse_asn1_oid (const std::string &oid) |
| bool | passes_miller_rabin_test (const BigInt &n, const Modular_Reducer &mod_n, const std::shared_ptr< Montgomery_Params > &monty_n, const BigInt &a) |
| secure_vector< uint8_t > | pbes2_decrypt (const secure_vector< uint8_t > &key_bits, const std::string &passphrase, const std::vector< uint8_t > ¶ms) |
| std::pair< AlgorithmIdentifier, std::vector< uint8_t > > | pbes2_encrypt (const secure_vector< uint8_t > &key_bits, const std::string &passphrase, std::chrono::milliseconds msec, const std::string &cipher, const std::string &digest, RandomNumberGenerator &rng) |
| std::pair< AlgorithmIdentifier, std::vector< uint8_t > > | pbes2_encrypt_iter (const secure_vector< uint8_t > &key_bits, const std::string &passphrase, size_t pbkdf_iter, const std::string &cipher, const std::string &digest, RandomNumberGenerator &rng) |
| std::pair< AlgorithmIdentifier, std::vector< uint8_t > > | pbes2_encrypt_msec (const secure_vector< uint8_t > &key_bits, const std::string &passphrase, std::chrono::milliseconds msec, size_t *out_iterations_if_nonnull, const std::string &cipher, const std::string &digest, RandomNumberGenerator &rng) |
| size_t | pbkdf2 (MessageAuthenticationCode &prf, uint8_t out[], size_t out_len, const std::string &password, const uint8_t salt[], size_t salt_len, size_t iterations, std::chrono::milliseconds msec) |
| void | pbkdf2 (MessageAuthenticationCode &prf, uint8_t out[], size_t out_len, const uint8_t salt[], size_t salt_len, size_t iterations) |
| std::vector< uint8_t > | pkcs_hash_id (const std::string &name) |
| void | poly_double_n (uint8_t buf[], size_t n) |
| void | poly_double_n (uint8_t out[], const uint8_t in[], size_t n) |
| void | poly_double_n_le (uint8_t out[], const uint8_t in[], size_t n) |
| bool | poly_double_supported_size (size_t n) |
| BigInt | power_mod (const BigInt &base, const BigInt &exp, const BigInt &mod) |
| template<typename T > | |
| void | prefetch_readonly (const T *addr, size_t length) |
| template<typename T > | |
| void | prefetch_readwrite (const T *addr, size_t length) |
| const BigInt & | prime_p192 () |
| const BigInt & | prime_p224 () |
| const BigInt & | prime_p256 () |
| const BigInt & | prime_p384 () |
| const BigInt & | prime_p521 () |
| std::vector< std::string > | probe_provider_private_key (const std::string &alg_name, const std::vector< std::string > possible) |
| template<typename T > | |
| std::vector< std::string > | probe_providers_of (const std::string &algo_spec, const std::vector< std::string > &possible) |
| bool | quick_check_prime (const BigInt &n, RandomNumberGenerator &rng) |
| gf2m | random_code_element (unsigned code_length, RandomNumberGenerator &rng) |
| gf2m | random_gf2m (RandomNumberGenerator &rng) |
| BigInt | random_prime (RandomNumberGenerator &rng, size_t bits, const BigInt &coprime, size_t equiv, size_t modulo, size_t prob) |
| BigInt | random_safe_prime (RandomNumberGenerator &rng, size_t bits) |
| std::map< std::string, std::string > | read_cfg (std::istream &is) |
| std::map< std::string, std::string > | read_kv (const std::string &kv) |
| void | redc_mul (int64_t &s1, int64_t &s2, int64_t &s3, int64_t &s4, int64_t &s5, int64_t &s6, int64_t &X) |
| void | redc_p192 (BigInt &x, secure_vector< word > &ws) |
| void | redc_p224 (BigInt &x, secure_vector< word > &ws) |
| void | redc_p256 (BigInt &x, secure_vector< word > &ws) |
| void | redc_p384 (BigInt &x, secure_vector< word > &ws) |
| void | redc_p521 (BigInt &x, secure_vector< word > &ws) |
| std::string | replace_char (const std::string &str, char from_char, char to_char) |
| std::string | replace_chars (const std::string &str, const std::set< char > &chars, char to_char) |
| BigInt | ressol (const BigInt &x, const BigInt &p) |
| uint16_t | reverse_bytes (uint16_t val) |
| uint32_t | reverse_bytes (uint32_t val) |
| uint64_t | reverse_bytes (uint64_t val) |
| secure_vector< uint8_t > | rfc3394_keyunwrap (const secure_vector< uint8_t > &key, const SymmetricKey &kek) |
| secure_vector< uint8_t > | rfc3394_keywrap (const secure_vector< uint8_t > &key, const SymmetricKey &kek) |
| size_t | RFC4880_decode_count (uint8_t iter) |
| uint8_t | RFC4880_encode_count (size_t desired_iterations) |
| size_t | RFC4880_round_iterations (size_t iterations) |
| template<typename T > | |
| T | rotate_left (T input, size_t rot) |
| template<typename T > | |
| T | rotate_right (T input, size_t rot) |
| template<size_t ROT, typename T > | |
| constexpr T | rotl (T input) |
| template<typename T > | |
| T | rotl_var (T input, size_t rot) |
| template<size_t ROT, typename T > | |
| constexpr T | rotr (T input) |
| template<typename T > | |
| T | rotr_var (T input, size_t rot) |
| template<typename T > | |
| constexpr T | round_down (T n, T align_to) |
| size_t | round_up (size_t n, size_t align_to) |
| std::string | runtime_version_check (uint32_t major, uint32_t minor, uint32_t patch) |
| template<typename T > | |
| bool | same_mem (const T *p1, const T *p2, size_t n) |
| void | sc_muladd (uint8_t *, const uint8_t *, const uint8_t *, const uint8_t *) |
| void | sc_reduce (uint8_t *) |
| void | scrypt (uint8_t output[], size_t output_len, const std::string &password, const uint8_t salt[], size_t salt_len, size_t N, size_t r, size_t p) |
| void | scrypt (uint8_t output[], size_t output_len, const char *password, size_t password_len, const uint8_t salt[], size_t salt_len, size_t N, size_t r, size_t p) |
| size_t | scrypt_memory_usage (size_t N, size_t r, size_t p) |
| template<typename K , typename V > | |
| V | search_map (const std::map< K, V > &mapping, const K &key, const V &null_result=V()) |
| template<typename K , typename V , typename R > | |
| R | search_map (const std::map< K, V > &mapping, const K &key, const R &null_result, const R &found_result) |
| void | secure_scrub_memory (void *ptr, size_t n) |
| void | set_mem (uint8_t *ptr, size_t n, uint8_t val) |
| const char * | short_version_cstr () |
| std::string | short_version_string () |
| bool | sig_algo_and_pad_ok (const std::string algo, const std::string padding) |
| template<typename T > | |
| size_t | significant_bytes (T n) |
| std::vector< uint8_t > | sm2_compute_za (HashFunction &hash, const std::string &user_id, const EC_Group &domain, const PointGFp &pubkey) |
| std::vector< std::string > | split_on (const std::string &str, char delim) |
| std::vector< std::string > | split_on_pred (const std::string &str, std::function< bool(char)> pred) |
| BigInt | square (const BigInt &x) |
| std::pair< BigInt, SymmetricKey > | srp6_client_agree (const std::string &identifier, const std::string &password, const std::string &group_id, const std::string &hash_id, const std::vector< uint8_t > &salt, const BigInt &B, RandomNumberGenerator &rng) |
| std::pair< BigInt, SymmetricKey > | srp6_client_agree (const std::string &identifier, const std::string &password, const DL_Group &group, const std::string &hash_id, const std::vector< uint8_t > &salt, const BigInt &B, const size_t a_bits, RandomNumberGenerator &rng) |
| std::string | srp6_group_identifier (const BigInt &N, const BigInt &g) |
| void | store_be (uint16_t in, uint8_t out[2]) |
| void | store_be (uint32_t in, uint8_t out[4]) |
| void | store_be (uint64_t in, uint8_t out[8]) |
| template<typename T > | |
| void | store_be (uint8_t out[], T x0, T x1) |
| template<typename T > | |
| void | store_be (uint8_t out[], T x0, T x1, T x2, T x3) |
| template<typename T > | |
| void | store_be (uint8_t out[], T x0, T x1, T x2, T x3, T x4, T x5, T x6, T x7) |
| void | store_le (uint16_t in, uint8_t out[2]) |
| void | store_le (uint32_t in, uint8_t out[4]) |
| void | store_le (uint64_t in, uint8_t out[8]) |
| template<typename T > | |
| void | store_le (uint8_t out[], T x0, T x1) |
| template<typename T > | |
| void | store_le (uint8_t out[], T x0, T x1, T x2, T x3) |
| template<typename T > | |
| void | store_le (uint8_t out[], T x0, T x1, T x2, T x3, T x4, T x5, T x6, T x7) |
| std::string | string_join (const std::vector< std::string > &strs, char delim) |
| uint32_t | string_to_ipv4 (const std::string &str) |
| BigInt | sub_mul (const BigInt &a, const BigInt &b, const BigInt &c) |
| std::vector< polyn_gf2m > | syndrome_init (polyn_gf2m const &generator, std::vector< gf2m > const &support, int n) |
| RandomNumberGenerator & | system_rng () |
| void | throw_invalid_argument (const char *message, const char *func, const char *file) |
| void | throw_invalid_state (const char *expr, const char *func, const char *file) |
| uint32_t | timespec_to_u32bit (const std::string ×pec) |
| std::vector< uint8_t > | to_byte_vector (const std::string &s) |
| std::string | to_string (ErrorType type) |
| Convert an ErrorType to string. More... | |
| const char * | to_string (Certificate_Status_Code code) |
| std::string | to_string (const secure_vector< uint8_t > &bytes) |
| uint32_t | to_u32bit (const std::string &str) |
| uint16_t | to_uint16 (const std::string &str) |
| template<typename T > | |
| void | typecast_copy (uint8_t out[], T in) |
| template<typename T > | |
| void | typecast_copy (T &out, const uint8_t in[]) |
| template<typename T > | |
| void | typecast_copy (T out[], const uint8_t in[], size_t N) |
| std::string | ucs2_to_utf8 (const uint8_t ucs2[], size_t len) |
| std::string | ucs4_to_utf8 (const uint8_t ucs4[], size_t len) |
| template<typename T > | |
| std::vector< T > | unlock (const secure_vector< T > &in) |
| std::string | utf8_to_latin1 (const std::string &utf8) |
| template<typename T > | |
| bool | value_exists (const std::vector< T > &vec, const T &val) |
| size_t | var_ctz32 (uint32_t n) |
| void | verify_cert_constraints_valid_for_key_type (const Public_Key &pub_key, Key_Constraints constraints) |
| bool | verify_prime (const BigInt &n, RandomNumberGenerator &rng) |
| const char * | version_cstr () |
| uint32_t | version_datestamp () |
| uint32_t | version_major () |
| uint32_t | version_minor () |
| uint32_t | version_patch () |
| std::string | version_string () |
| void | word3_add (word *w2, word *w1, word *w0, word x) |
| void | word3_muladd (word *w2, word *w1, word *w0, word x, word y) |
| void | word3_muladd_2 (word *w2, word *w1, word *w0, word x, word y) |
| word | word8_add2 (word x[8], const word y[8], word carry) |
| word | word8_add3 (word z[8], const word x[8], const word y[8], word carry) |
| word | word8_linmul2 (word x[8], word y, word carry) |
| word | word8_linmul3 (word z[8], const word x[8], word y, word carry) |
| word | word8_madd3 (word z[8], const word x[8], word y, word carry) |
| word | word8_sub2 (word x[8], const word y[8], word carry) |
| word | word8_sub2_rev (word x[8], const word y[8], word carry) |
| word | word8_sub3 (word z[8], const word x[8], const word y[8], word carry) |
| word | word_add (word x, word y, word *carry) |
| word | word_madd2 (word a, word b, word *c) |
| word | word_madd3 (word a, word b, word c, word *d) |
| word | word_sub (word x, word y, word *carry) |
| bool | x500_name_cmp (const std::string &name1, const std::string &name2) |
| Path_Validation_Result | x509_path_validate (const std::vector< X509_Certificate > &end_certs, const Path_Validation_Restrictions &restrictions, const std::vector< Certificate_Store *> &trusted_roots, const std::string &hostname, Usage_Type usage, std::chrono::system_clock::time_point ref_time, std::chrono::milliseconds ocsp_timeout, const std::vector< std::shared_ptr< const OCSP::Response >> &ocsp_resp) |
| Path_Validation_Result | x509_path_validate (const X509_Certificate &end_cert, const Path_Validation_Restrictions &restrictions, const std::vector< Certificate_Store *> &trusted_roots, const std::string &hostname, Usage_Type usage, std::chrono::system_clock::time_point when, std::chrono::milliseconds ocsp_timeout, const std::vector< std::shared_ptr< const OCSP::Response >> &ocsp_resp) |
| Path_Validation_Result | x509_path_validate (const std::vector< X509_Certificate > &end_certs, const Path_Validation_Restrictions &restrictions, const Certificate_Store &store, const std::string &hostname, Usage_Type usage, std::chrono::system_clock::time_point when, std::chrono::milliseconds ocsp_timeout, const std::vector< std::shared_ptr< const OCSP::Response >> &ocsp_resp) |
| Path_Validation_Result | x509_path_validate (const X509_Certificate &end_cert, const Path_Validation_Restrictions &restrictions, const Certificate_Store &store, const std::string &hostname, Usage_Type usage, std::chrono::system_clock::time_point when, std::chrono::milliseconds ocsp_timeout, const std::vector< std::shared_ptr< const OCSP::Response >> &ocsp_resp) |
| void | xor_buf (uint8_t out[], const uint8_t in[], size_t length) |
| void | xor_buf (uint8_t out[], const uint8_t in[], const uint8_t in2[], size_t length) |
| template<typename Alloc , typename Alloc2 > | |
| void | xor_buf (std::vector< uint8_t, Alloc > &out, const std::vector< uint8_t, Alloc2 > &in, size_t n) |
| template<typename Alloc > | |
| void | xor_buf (std::vector< uint8_t, Alloc > &out, const uint8_t *in, size_t n) |
| template<typename Alloc , typename Alloc2 > | |
| void | xor_buf (std::vector< uint8_t, Alloc > &out, const uint8_t *in, const std::vector< uint8_t, Alloc2 > &in2, size_t n) |
| template<typename T , typename Alloc > | |
| void | zap (std::vector< T, Alloc > &vec) |
| template<typename T , typename Alloc > | |
| void | zeroise (std::vector< T, Alloc > &vec) |
Variables | |
| const std::map< const std::string, std::vector< std::string > > | allowed_signature_paddings |
| const uint32_t | CAST_SBOX1 [256] |
| const uint32_t | CAST_SBOX2 [256] |
| const uint32_t | CAST_SBOX3 [256] |
| const uint32_t | CAST_SBOX4 [256] |
| const uint32_t | DES_SPBOX1 [256] |
| const uint32_t | DES_SPBOX2 [256] |
| const uint32_t | DES_SPBOX3 [256] |
| const uint32_t | DES_SPBOX4 [256] |
| const uint32_t | DES_SPBOX5 [256] |
| const uint32_t | DES_SPBOX6 [256] |
| const uint32_t | DES_SPBOX7 [256] |
| const uint32_t | DES_SPBOX8 [256] |
| const size_t | HEX_CODEC_BUFFER_SIZE = 256 |
| const word | MP_WORD_MASK = ~static_cast<word>(0) |
| const word | MP_WORD_MAX = MP_WORD_MASK |
| const word | MP_WORD_TOP_BIT = static_cast<word>(1) << (8*sizeof(word) - 1) |
| const size_t | PRIME_TABLE_SIZE = 6541 |
| const uint16_t | PRIMES [] |
| const uint64_t | STREEBOG_Ax [8][256] |
| const uint64_t | STREEBOG_C [12][8] |
(C) 2018,2019 Jack Lloyd
Botan is released under the Simplified BSD License (see license.txt)
(C) 2019 Jack Lloyd
Botan is released under the Simplified BSD License (see license.txt)
(C) 2018 Jack Lloyd (C) 2018 Ribose Inc
Botan is released under the Simplified BSD License (see license.txt)
Ordinary applications should never need to include or use this header. It is exposed only for specialized applications which want to implement new versions of public key crypto without merging them as changes to the library. One actual example of such usage is an application which creates RSA signatures using a custom TPM library. Unless you're doing something like that, you don't need anything here. Instead use pubkey.h which wraps these types safely and provides a stable application-oriented API.
XMSS WOTS Addressed Private Key (C) 2016 Matthias Gierlings
Botan is released under the Simplified BSD License (see license.txt)
XMSS WOTS Addressed Public Key (C) 2016,2017 Matthias Gierlings
Botan is released under the Simplified BSD License (see license.txt)
| typedef X509_Time Botan::ASN1_Time |
Definition at line 78 of file asn1_time.h.
| typedef BLAKE2b Botan::Blake2b |
| using Botan::byte = typedef std::uint8_t |
| typedef std::vector<std::set<Certificate_Status_Code> > Botan::CertificatePathStatusCodes |
This type represents the validation status of an entire certificate path. There is one set of status codes for each certificate in the path.
Definition at line 29 of file x509path.h.
| typedef EC_Group Botan::EC_Domain_Params |
Definition at line 376 of file ec_group.h.
Definition at line 134 of file ed25519_fe.h.
| typedef uint16_t Botan::gf2m |
Definition at line 20 of file gf2m_small_m.h.
| using Botan::InitializationVector = typedef OctetString |
| using Botan::lock_guard_type = typedef lock_guard<T> |
| typedef MessageAuthenticationCode Botan::MAC |
| typedef noop_mutex Botan::mutex_type |
| typedef PK_Key_Agreement_Key Botan::PK_KA_Key |
| typedef Private_Key Botan::PKCS8_PrivateKey |
| typedef newhope_poly Botan::poly |
Definition at line 20 of file newhope.cpp.
| typedef RandomNumberGenerator Botan::RNG |
| typedef PBKDF Botan::S2K |
| using Botan::s32bit = typedef std::int32_t |
| using Botan::secure_deque = typedef std::deque<T, secure_allocator<T> > |
| using Botan::secure_vector = typedef std::vector<T, secure_allocator<T> > |
| using Botan::SecureVector = typedef secure_vector<T> |
| typedef SHA_160 Botan::SHA_1 |
| using Botan::SymmetricKey = typedef OctetString |
| using Botan::u16bit = typedef std::uint16_t |
| using Botan::u32bit = typedef std::uint32_t |
| using Botan::u64bit = typedef std::uint64_t |
| typedef std::vector< secure_vector< uint8_t > > Botan::wots_keysig_t |
Definition at line 19 of file xmss_common_ops.h.
Definition at line 103 of file curve25519.h.
Definition at line 102 of file curve25519.h.
| typedef Public_Key Botan::X509_PublicKey |
| anonymous enum |
| enum Botan::ASN1_Tag : uint32_t |
ASN.1 Type and Class Tags This will become an enum class in a future major release
Definition at line 23 of file asn1_obj.h.
|
strong |
Certificate validation status code Warning: reflect any changes to this in botan_cert_status_code in ffi.h
Definition at line 19 of file cert_status.h.
| enum Botan::Character_Set |
The different charsets (nominally) supported by Botan.
| Enumerator | |
|---|---|
| LOCAL_CHARSET | |
| UCS2_CHARSET | |
| UTF8_CHARSET | |
| LATIN1_CHARSET | |
| enum Botan::Cipher_Dir : int |
The two possible directions for cipher filters, determining whether they actually perform encryption or decryption.
| Enumerator | |
|---|---|
| ENCRYPTION | |
| DECRYPTION | |
Definition at line 23 of file cipher_mode.h.
| enum Botan::CRL_Code : uint32_t |
X.509v2 CRL Reason Code. This will become an enum class in a future major release
Definition at line 23 of file crl_ent.h.
The type of checking to be performed by decoders: NONE - no checks, IGNORE_WS - perform checks, but ignore whitespaces, FULL_CHECK - perform checks, also complain about white spaces.
| Enumerator | |
|---|---|
| NONE | |
| IGNORE_WS | |
| FULL_CHECK | |
This class represents elliptic curce domain parameters
| Enumerator | |
|---|---|
| EC_DOMPAR_ENC_EXPLICIT | |
| EC_DOMPAR_ENC_IMPLICITCA | |
| EC_DOMPAR_ENC_OID | |
Definition at line 23 of file ec_group.h.
|
strong |
Definition at line 27 of file ecies.h.
|
strong |
Different types of errors that might occur
| Enumerator | |
|---|---|
| Unknown | Some unknown error |
| SystemError | An error while calling a system interface |
| NotImplemented | An operation seems valid, but not supported by the current version |
| OutOfMemory | Memory allocation failure |
| InternalError | An internal error occurred |
| IoError | An I/O error occurred |
| InvalidObjectState | Invalid object state |
| KeyNotSet | A key was not set on an object when this is required |
| InvalidArgument | The application provided an argument which is invalid |
| InvalidKeyLength | A key with invalid length was provided |
| InvalidNonceLength | A nonce with invalid length was provided |
| LookupError | An object type was requested but cannot be found |
| EncodingFailure | Encoding a message or datum failed |
| DecodingFailure | Decoding a message or datum failed |
| TLSError | A TLS error (error_code will be the alert type) |
| HttpError | An error during an HTTP operation |
| InvalidTag | A message with an invalid authentication tag was detected |
| OpenSSLError | An error when calling OpenSSL |
| CommonCryptoError | An error when interacting with CommonCrypto API |
| Pkcs11Error | An error when interacting with a PKCS11 device |
| TPMError | An error when interacting with a TPM device |
| DatabaseError | An error when interacting with a database |
| ZlibError | An error when interacting with zlib |
| Bzip2Error | An error when interacting with bzip2 |
| LzmaError | An error when interacting with lzma |
Definition at line 20 of file exceptn.h.
X.509v3 Key Constraints. If updating update copy in ffi.h
| Enumerator | |
|---|---|
| NO_CONSTRAINTS | |
| DIGITAL_SIGNATURE | |
| NON_REPUDIATION | |
| KEY_ENCIPHERMENT | |
| DATA_ENCIPHERMENT | |
| KEY_AGREEMENT | |
| KEY_CERT_SIGN | |
| CRL_SIGN | |
| ENCIPHER_ONLY | |
| DECIPHER_ONLY | |
Definition at line 21 of file key_constraint.h.
|
strong |
Definition at line 35 of file newhope.h.
The two types of signature format supported by Botan.
| Enumerator | |
|---|---|
| IEEE_1363 | |
| DER_SEQUENCE | |
Definition at line 28 of file pubkey.h.
|
strong |
|
strong |
| Enumerator | |
|---|---|
| UNSPECIFIED | |
| TLS_SERVER_AUTH | |
| TLS_CLIENT_AUTH | |
| CERTIFICATE_AUTHORITY | |
| OCSP_RESPONDER | |
Definition at line 25 of file x509cert.h.
| enum Botan::X509_Encoding |
The two types of X509 encoding supported by Botan. This enum is not used anymore, and will be removed in a future major release.
| Enumerator | |
|---|---|
| RAW_BER | |
| PEM | |
Definition at line 25 of file x509_key.h.
Return the absolute value
| n | an integer |
Definition at line 55 of file numthry.h.
References Botan::BigInt::abs().
| BOTAN_MALLOC_FN void * Botan::allocate_memory | ( | size_t | elems, |
| size_t | elem_size | ||
| ) |
Allocate a memory buffer by some method. This should only be used for primitive types (uint8_t, uint32_t, etc).
| elems | the number of elements |
| elem_size | the size of each element |
Definition at line 18 of file mem_ops.cpp.
References Botan::mlock_allocator::instance().
Referenced by Botan::secure_allocator< T >::allocate().
Return a^-1 * 2^k mod b Returns k, between n and 2n Not const time
Definition at line 102 of file numthry.cpp.
References Botan::BigInt::is_even().
Referenced by normalized_montgomery_inverse().
| void Botan::aont_package | ( | RandomNumberGenerator & | rng, |
| BlockCipher * | cipher, | ||
| const uint8_t | input[], | ||
| size_t | input_len, | ||
| uint8_t | output[] | ||
| ) |
Rivest's Package Tranform
| rng | the random number generator to use |
| cipher | the block cipher to use (aont_package takes ownership) |
| input | the input data buffer |
| input_len | the length of the input data in bytes |
| output | the output data buffer (must be at least input_len + cipher->BLOCK_SIZE bytes long) |
Definition at line 17 of file package.cpp.
References Botan::OctetString::begin(), Botan::BlockCipher::block_size(), BOTAN_ASSERT_EQUAL, clear_mem(), copy_mem(), Botan::BlockCipher::encrypt(), get_byte(), Botan::Pipe::process_msg(), Botan::Pipe::read(), Botan::Pipe::remaining(), Botan::SymmetricAlgorithm::set_key(), Botan::SymmetricAlgorithm::valid_keylength(), xor_buf(), and zeroise().
| void Botan::aont_unpackage | ( | BlockCipher * | cipher, |
| const uint8_t | input[], | ||
| size_t | input_len, | ||
| uint8_t | output[] | ||
| ) |
Rivest's Package Tranform (Inversion)
| cipher | the block cipher to use (aont_package takes ownership) |
| input | the input data buffer |
| input_len | the length of the input data in bytes |
| output | the output data buffer (must be at least input_len - cipher->BLOCK_SIZE bytes long) |
Definition at line 73 of file package.cpp.
References Botan::BlockCipher::block_size(), BOTAN_ASSERT_EQUAL, copy_mem(), Botan::BlockCipher::encrypt(), get_byte(), Botan::Pipe::process_msg(), Botan::Pipe::read(), Botan::Pipe::remaining(), Botan::SymmetricAlgorithm::set_key(), Botan::SymmetricAlgorithm::valid_keylength(), xor_buf(), and zeroise().
| void Botan::argon2 | ( | uint8_t | output[], |
| size_t | output_len, | ||
| const char * | password, | ||
| size_t | password_len, | ||
| const uint8_t | salt[], | ||
| size_t | salt_len, | ||
| const uint8_t | key[], | ||
| size_t | key_len, | ||
| const uint8_t | ad[], | ||
| size_t | ad_len, | ||
| uint8_t | y, | ||
| size_t | p, | ||
| size_t | M, | ||
| size_t | t | ||
| ) |
Argon2 key derivation function
| output | the output will be placed here |
| output_len | length of output |
| password | the user password |
| salt | the salt |
| salt_len | length of salt |
| y | the Argon2 variant (0 = Argon2d, 1 = Argon2i, 2 = Argon2id) |
| p | the parallelization parameter |
| M | the amount of memory to use in Kb |
| t | the number of iterations to use |
Definition at line 381 of file argon2.cpp.
References BOTAN_ARG_CHECK, clear_mem(), Botan::HashFunction::create_or_throw(), and salt_len.
Referenced by argon2_check_pwhash(), argon2_generate_pwhash(), Botan::Argon2::derive_key(), and Botan::Argon2_Family::tune().
| bool Botan::argon2_check_pwhash | ( | const char * | password, |
| size_t | password_len, | ||
| const std::string & | hash | ||
| ) |
Check a previously created password hash
| password | the password to check against |
| hash | the stored hash to check against |
Definition at line 57 of file argon2fmt.cpp.
References argon2(), base64_decode(), base64_decode_max_output(), constant_time_compare(), hash, split_on(), and to_u32bit().
| std::string Botan::argon2_generate_pwhash | ( | const char * | password, |
| size_t | password_len, | ||
| RandomNumberGenerator & | rng, | ||
| size_t | p, | ||
| size_t | M, | ||
| size_t | t, | ||
| uint8_t | y = 2, |
||
| size_t | salt_len = 16, |
||
| size_t | output_len = 32 |
||
| ) |
Definition at line 26 of file argon2fmt.cpp.
References argon2(), base64_encode(), Botan::RandomNumberGenerator::randomize(), and salt_len.
| std::string BOTAN_UNSTABLE_API Botan::asn1_class_to_string | ( | ASN1_Tag | type | ) |
Definition at line 87 of file asn1_obj.cpp.
References APPLICATION, CONSTRUCTED, CONTEXT_SPECIFIC, NO_OBJECT, Botan::ASN1::to_string(), type, and UNIVERSAL.
Referenced by Botan::BER_Object::assert_is_a().
| std::string BOTAN_UNSTABLE_API Botan::asn1_tag_to_string | ( | ASN1_Tag | type | ) |
Definition at line 108 of file asn1_obj.cpp.
References BIT_STRING, BMP_STRING, BOOLEAN, ENUMERATED, GENERALIZED_TIME, IA5_STRING, INTEGER, NO_OBJECT, NULL_TAG, NUMERIC_STRING, OBJECT_ID, OCTET_STRING, PRINTABLE_STRING, SEQUENCE, SET, T61_STRING, Botan::ASN1::to_string(), type, UNIVERSAL_STRING, UTC_TIME, UTF8_STRING, and VISIBLE_STRING.
Referenced by Botan::BER_Object::assert_is_a().
| BOTAN_NORETURN void Botan::assertion_failure | ( | const char * | expr_str, |
| const char * | assertion_made, | ||
| const char * | func, | ||
| const char * | file, | ||
| int | line | ||
| ) |
| size_t Botan::base32_decode | ( | uint8_t | output[], |
| const char | input[], | ||
| size_t | input_length, | ||
| size_t & | input_consumed, | ||
| bool | final_inputs, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base32 decoding
| output | an array of at least base32_decode_max_output bytes |
| input | some base32 input |
| input_length | length of input in bytes |
| input_consumed | is an output parameter which says how many bytes of input were actually consumed. If less than input_length, then the range input[consumed:length] should be passed in later along with more input. |
| final_inputs | true iff this is the last input, in which case padding is allowed |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 186 of file base32.cpp.
References base_decode().
Referenced by base32_decode().
| size_t Botan::base32_decode | ( | uint8_t | output[], |
| const char | input[], | ||
| size_t | input_length, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base32 decoding
| output | an array of at least base32_decode_max_output bytes |
| input | some base32 input |
| input_length | length of input in bytes |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 196 of file base32.cpp.
References base_decode_full().
| size_t Botan::base32_decode | ( | uint8_t | output[], |
| const std::string & | input, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base32 decoding
| output | an array of at least base32_decode_max_output bytes |
| input | some base32 input |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 204 of file base32.cpp.
References base32_decode().
| secure_vector< uint8_t > Botan::base32_decode | ( | const char | input[], |
| size_t | input_length, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base32 decoding
| input | some base32 input |
| input_length | the length of input in bytes |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 211 of file base32.cpp.
| secure_vector< uint8_t > Botan::base32_decode | ( | const std::string & | input, |
| bool | ignore_ws = true |
||
| ) |
Perform base32 decoding
| input | some base32 input |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 218 of file base32.cpp.
References base32_decode().
| std::string Botan::base32_encode | ( | const std::vector< uint8_t, Alloc > & | input | ) |
Perform base32 encoding
| input | some input |
Definition at line 50 of file base32.h.
References base32_encode().
| size_t Botan::base32_encode | ( | char | output[], |
| const uint8_t | input[], | ||
| size_t | input_length, | ||
| size_t & | input_consumed, | ||
| bool | final_inputs | ||
| ) |
Perform base32 encoding
| output | an array of at least base32_encode_max_output bytes |
| input | is some binary data |
| input_length | length of input in bytes |
| input_consumed | is an output parameter which says how many bytes of input were actually consumed. If less than input_length, then the range input[consumed:length] should be passed in later along with more input. |
| final_inputs | true iff this is the last input, in which case padding chars will be applied if needed |
Definition at line 171 of file base32.cpp.
References base_encode().
Referenced by base32_encode().
| std::string Botan::base32_encode | ( | const uint8_t | input[], |
| size_t | input_length | ||
| ) |
Perform base32 encoding
| input | some input |
| input_length | length of input in bytes |
Definition at line 180 of file base32.cpp.
References base_encode_to_string().
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Definition at line 76 of file base58.h.
References base58_check_decode().
| std::vector< uint8_t > Botan::base58_check_decode | ( | const char | input[], |
| size_t | input_length | ||
| ) |
Perform base58 decoding with checksum
This is raw base58 encoding, without the checksum
Definition at line 160 of file base58.cpp.
References base58_decode(), and load_be< uint32_t >().
Referenced by base58_check_decode().
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Definition at line 66 of file base58.h.
References base58_check_encode().
| std::string Botan::base58_check_encode | ( | const uint8_t | input[], |
| size_t | input_length | ||
| ) |
Perform base58 encoding
This is raw base58 encoding, without the checksum Perform base58 encoding with checksum
Definition at line 123 of file base58.cpp.
References base58_encode().
Referenced by base58_check_encode().
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Definition at line 71 of file base58.h.
References base58_decode().
| std::vector< uint8_t > Botan::base58_decode | ( | const char | input[], |
| size_t | input_length | ||
| ) |
Perform base58 decoding
This is raw base58 encoding, without the checksum
Definition at line 131 of file base58.cpp.
References Botan::BigInt::binary_encode(), and Botan::BigInt::bytes().
Referenced by base58_check_decode(), and base58_decode().
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Definition at line 60 of file base58.h.
References base58_encode().
| std::string Botan::base58_encode | ( | const uint8_t | input[], |
| size_t | input_length | ||
| ) |
Perform base58 encoding
This is raw base58 encoding, without the checksum
Definition at line 117 of file base58.cpp.
Referenced by base58_check_encode(), and base58_encode().
| size_t Botan::base64_decode | ( | uint8_t | output[], |
| const char | input[], | ||
| size_t | input_length, | ||
| size_t & | input_consumed, | ||
| bool | final_inputs, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base64 decoding
| output | an array of at least base64_decode_max_output bytes |
| input | some base64 input |
| input_length | length of input in bytes |
| input_consumed | is an output parameter which says how many bytes of input were actually consumed. If less than input_length, then the range input[consumed:length] should be passed in later along with more input. |
| final_inputs | true iff this is the last input, in which case padding is allowed |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 181 of file base64.cpp.
References base_decode().
Referenced by argon2_check_pwhash(), base64_decode(), botan_base64_decode(), check_passhash9(), Botan::PEM_Code::decode(), Botan::Base64_Decoder::end_msg(), Botan::Encrypted_PSK_Database::get(), Botan::Encrypted_PSK_Database::list_names(), and Botan::Base64_Decoder::write().
| size_t Botan::base64_decode | ( | uint8_t | output[], |
| const char | input[], | ||
| size_t | input_length, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base64 decoding
| output | an array of at least base64_decode_max_output bytes |
| input | some base64 input |
| input_length | length of input in bytes |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 191 of file base64.cpp.
References base_decode_full().
| size_t Botan::base64_decode | ( | uint8_t | output[], |
| const std::string & | input, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base64 decoding
| output | an array of at least base64_decode_max_output bytes |
| input | some base64 input |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 199 of file base64.cpp.
References base64_decode().
| secure_vector< uint8_t > Botan::base64_decode | ( | const char | input[], |
| size_t | input_length, | ||
| bool | ignore_ws = true |
||
| ) |
Perform base64 decoding
| input | some base64 input |
| input_length | the length of input in bytes |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 206 of file base64.cpp.
| secure_vector< uint8_t > Botan::base64_decode | ( | const std::string & | input, |
| bool | ignore_ws = true |
||
| ) |
Perform base64 decoding
| input | some base64 input |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 213 of file base64.cpp.
References base64_decode().
| size_t Botan::base64_decode_max_output | ( | size_t | input_length | ) |
Calculate the size of output buffer for base64_decode
| input_length | the length of input in bytes |
Definition at line 224 of file base64.cpp.
Referenced by argon2_check_pwhash(), and botan_base64_decode().
| std::string Botan::base64_encode | ( | const std::vector< uint8_t, Alloc > & | input | ) |
Perform base64 encoding
| input | some input |
Definition at line 50 of file base64.h.
References base64_encode().
| size_t Botan::base64_encode | ( | char | output[], |
| const uint8_t | input[], | ||
| size_t | input_length, | ||
| size_t & | input_consumed, | ||
| bool | final_inputs | ||
| ) |
Perform base64 encoding
| output | an array of at least base64_encode_max_output bytes |
| input | is some binary data |
| input_length | length of input in bytes |
| input_consumed | is an output parameter which says how many bytes of input were actually consumed. If less than input_length, then the range input[consumed:length] should be passed in later along with more input. |
| final_inputs | true iff this is the last input, in which case padding chars will be applied if needed |
Definition at line 166 of file base64.cpp.
References base_encode().
Referenced by argon2_generate_pwhash(), Botan::OCSP::Request::base64_encode(), base64_encode(), botan_base64_encode(), Botan::PEM_Code::encode(), generate_passhash9(), Botan::Encrypted_PSK_Database::get(), Botan::Encrypted_PSK_Database::remove(), and Botan::Encrypted_PSK_Database::set().
| std::string Botan::base64_encode | ( | const uint8_t | input[], |
| size_t | input_length | ||
| ) |
Perform base64 encoding
| input | some input |
| input_length | length of input in bytes |
Definition at line 175 of file base64.cpp.
References base_encode_to_string().
| size_t Botan::base64_encode_max_output | ( | size_t | input_length | ) |
Calculate the size of output buffer for base64_encode
| input_length | the length of input in bytes |
Definition at line 219 of file base64.cpp.
| size_t Botan::base_decode | ( | Base && | base, |
| uint8_t | output[], | ||
| const char | input[], | ||
| size_t | input_length, | ||
| size_t & | input_consumed, | ||
| bool | final_inputs, | ||
| bool | ignore_ws = true |
||
| ) |
Perform decoding using the base provided
| base | object giving access to the encodings specifications |
| output | an array of at least Base::decode_max_output bytes |
| input | some base input |
| input_length | length of input in bytes |
| input_consumed | is an output parameter which says how many bytes of input were actually consumed. If less than input_length, then the range input[consumed:length] should be passed in later along with more input. |
| final_inputs | true iff this is the last input, in which case padding is allowed |
| ignore_ws | ignore whitespace on input; if false, throw an exception if whitespace is encountered |
Definition at line 124 of file codec_base.h.
References clear_mem().
Referenced by base32_decode(), base64_decode(), and base_decode_full().
| size_t Botan::base_decode_full | ( | Base && | base, |
| uint8_t | output[], | ||
| const char | input[], | ||
| size_t | input_length, | ||
| bool | ignore_ws | ||
| ) |
Definition at line 189 of file codec_base.h.
References base_decode().
Referenced by base32_decode(), base64_decode(), and base_decode_to_vec().
| Vector Botan::base_decode_to_vec | ( | Base && | base, |
| const char | input[], | ||
| size_t | input_length, | ||
| bool | ignore_ws | ||
| ) |
Definition at line 203 of file codec_base.h.
References base_decode_full().
| size_t Botan::base_encode | ( | Base && | base, |
| char | output[], | ||
| const uint8_t | input[], | ||
| size_t | input_length, | ||
| size_t & | input_consumed, | ||
| bool | final_inputs | ||
| ) |
Perform encoding using the base provided
| base | object giving access to the encodings specifications |
| output | an array of at least base.encode_max_output bytes |
| input | is some binary data |
| input_length | length of input in bytes |
| input_consumed | is an output parameter which says how many bytes of input were actually consumed. If less than input_length, then the range input[consumed:length] should be passed in later along with more input. |
| final_inputs | true iff this is the last input, in which case padding chars will be applied if needed |
Definition at line 34 of file codec_base.h.
Referenced by base32_encode(), base64_encode(), and base_encode_to_string().
| std::string Botan::base_encode_to_string | ( | Base && | base, |
| const uint8_t | input[], | ||
| size_t | input_length | ||
| ) |
Definition at line 86 of file codec_base.h.
References base_encode(), and BOTAN_ASSERT_EQUAL.
Referenced by base32_encode(), and base64_encode().
| void BOTAN_UNSTABLE_API Botan::bcrypt_pbkdf | ( | uint8_t | output[], |
| size_t | output_len, | ||
| const char * | pass, | ||
| size_t | pass_len, | ||
| const uint8_t | salt[], | ||
| size_t | salt_len, | ||
| size_t | rounds | ||
| ) |
Bcrypt PBKDF compatible with OpenBSD bcrypt_pbkdf
Definition at line 129 of file bcrypt_pbkdf.cpp.
References BOTAN_ARG_CHECK, clear_mem(), Botan::HashFunction::create_or_throw(), and salt_len.
Referenced by Botan::Bcrypt_PBKDF::derive_key(), and Botan::Bcrypt_PBKDF_Family::tune().
|
inline |
Two operand addition
| x | the first operand (and output) |
| x_size | size of x |
| y | the second operand |
| y_size | size of y (must be >= x_size) |
Definition at line 282 of file mp_core.h.
References bigint_add2_nc().
Referenced by Botan::BigInt::add(), and mul_add().
|
inline |
Two operand addition with carry out
Definition at line 229 of file mp_core.h.
References BOTAN_ASSERT, carry(), word8_add2(), and word_add().
Referenced by bigint_add2().
|
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Three operand addition
Definition at line 291 of file mp_core.h.
References bigint_add3_nc().
Referenced by Botan::BigInt::add2().
|
inline |
Three operand addition with carry out
Definition at line 252 of file mp_core.h.
References carry(), word8_add3(), and word_add().
Referenced by bigint_add3(), Botan::BigInt::mod_add(), and redc_p521().
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inline |
Compare x and y Return -1 if x < y Return 0 if x == y Return 1 if x > y
Definition at line 525 of file mp_core.h.
References BOTAN_DEBUG_ASSERT, Botan::CT::Mask< T >::is_equal(), Botan::CT::Mask< T >::is_lt(), Botan::CT::Mask< T >::is_zero(), and Botan::CT::unpoison().
Referenced by Botan::BigInt::add(), bigint_sub_abs(), Botan::BigInt::cmp(), and Botan::BigInt::cmp_word().
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Definition at line 214 of file mp_core.h.
References carry(), Botan::CT::Mask< T >::expand(), and word_add().
Referenced by ct_inverse_mod_odd_modulus().
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inline |
Definition at line 44 of file mp_core.h.
References BOTAN_ASSERT, carry(), Botan::CT::Mask< T >::expand(), word8_add3(), and word_add().
Referenced by bigint_cnd_add(), ct_inverse_mod_odd_modulus(), redc_p192(), redc_p224(), redc_p256(), and redc_p384().
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Definition at line 81 of file mp_core.h.
References bigint_cnd_add().
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Definition at line 141 of file mp_core.h.
References carry(), Botan::CT::Mask< T >::select(), word8_add3(), word8_sub3(), word_add(), and word_sub().
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inline |
Definition at line 178 of file mp_core.h.
References carry(), Botan::CT::Mask< T >::select(), word8_add3(), word8_sub3(), word_add(), and word_sub().
Referenced by bigint_mod_sub(), and bigint_mod_sub_n().
|
inline |
Definition at line 90 of file mp_core.h.
References BOTAN_ASSERT, carry(), Botan::CT::Mask< T >::expand(), word8_sub3(), and word_sub().
Referenced by bigint_cnd_sub(), ct_inverse_mod_odd_modulus(), and redc_p521().
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Definition at line 128 of file mp_core.h.
References bigint_cnd_sub().
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Definition at line 31 of file mp_core.h.
References Botan::CT::Mask< T >::expand().
Referenced by Botan::BigInt::ct_cond_swap(), and ct_inverse_mod_odd_modulus().
| void Botan::bigint_comba_mul16 | ( | word | z[32], |
| const word | x[16], | ||
| const word | y[16] | ||
| ) |
Definition at line 805 of file mp_comba.cpp.
References word3_muladd().
Referenced by bigint_mul().
| void Botan::bigint_comba_mul24 | ( | word | z[48], |
| const word | x[24], | ||
| const word | y[24] | ||
| ) |
Definition at line 1535 of file mp_comba.cpp.
References word3_muladd().
Referenced by bigint_mul().