Botan Namespace Reference

Namespaces
namespace	ARIA_F
namespace	ASN1
namespace	Camellia_F
namespace	Cert_Extension
namespace	CryptoBox
namespace	CT
namespace	FPE
namespace	HTTP
namespace	KeyPair
namespace	OCSP
namespace	OIDS
namespace	OS
namespace	PEM_Code
namespace	PK_Ops
namespace	PKCS11
namespace	PKCS8
namespace	PKIX
namespace	Roughtime
namespace	Serpent_F
namespace	SHA1_F
namespace	SHA1_SSE2_F
namespace	Sodium
namespace	Threefish_F
namespace	TLS
namespace	X509

Classes
class	Adler32
class	AEAD_Mode
class	AES_128
class	AES_192
class	AES_256
class	Algorithm_Not_Found
class	AlgorithmIdentifier
class	Allocator_Initializer
class	AlternativeName
class	ANSI_X919_MAC
class	ANSI_X923_Padding
class	Argon2
class	Argon2_Family
class	ARIA_128
class	ARIA_192
class	ARIA_256
class	ASN1_Formatter
class	ASN1_Object
class	ASN1_Pretty_Printer
class	ASN1_String
class	ASN1_Time
class	Atomic
class	Attribute
class	AutoSeeded_RNG
class	Barrier
class	Base64_Decoder
class	Base64_Encoder
class	Bcrypt_PBKDF
class	Bcrypt_PBKDF_Family
class	BER_Bad_Tag
class	BER_Decoder
class	BER_Decoding_Error
class	BER_Object
class	BigInt
class	BitBucket
class	BLAKE2b
class	BLAKE2bMAC
class	Blinder
class	Block_Cipher_Fixed_Params
class	BlockCipher
class	BlockCipherModePaddingMethod
class	Blowfish
struct	BotanErrorCategory
	An error category for errors from Botan (other than TLS alerts) More...
class	Buffered_Computation
class	Buffered_Filter
class	Bzip2_Compression
class	Bzip2_Decompression
class	calendar_point
class	Camellia_128
class	Camellia_192
class	Camellia_256
class	Cascade_Cipher
class	CAST_128
class	CBC_Decryption
class	CBC_Encryption
class	CBC_Mode
class	CCM_Decryption
class	CCM_Encryption
class	CCM_Mode
class	CECPQ1_key
class	Certificate_Extension
class	Certificate_Store
class	Certificate_Store_In_Memory
class	Certificate_Store_In_SQL
class	Certificate_Store_In_SQLite
class	Certificate_Store_MacOS
class	Certificate_Store_Windows
class	CFB_Decryption
class	CFB_Encryption
class	CFB_Mode
class	ChaCha
class	ChaCha20Poly1305_Decryption
class	ChaCha20Poly1305_Encryption
class	ChaCha20Poly1305_Mode
class	ChaCha_RNG
class	Chain
class	Cipher_Mode
class	Cipher_Mode_Filter
class	CMAC
class	Comb4P
class	CommonCrypto_Error
struct	CommonCryptor_Opts
class	Compression_Algorithm
class	Compression_Alloc_Info
class	Compression_Error
class	Compression_Stream
class	CPUID
class	CRC24
class	CRC32
class	Credentials_Manager
class	CRL_Entry
class	CTR_BE
class	CTS_Decryption
class	CTS_Encryption
class	Curve25519_PrivateKey
class	Curve25519_PublicKey
class	CurveGFp
class	CurveGFp_Repr
class	DataSink
class	DataSink_Stream
class	DataSource
class	DataSource_Memory
class	DataSource_Stream
class	Decoding_Error
class	Decompression_Algorithm
class	Deflate_Compression
class	Deflate_Decompression
class	DER_Encoder
class	DES
class	DH_PrivateKey
class	DH_PublicKey
class	DL_Group
class	DL_Scheme_PrivateKey
class	DL_Scheme_PublicKey
class	DLIES_Decryptor
class	DLIES_Encryptor
class	donna128
class	DSA_PrivateKey
class	DSA_PublicKey
class	Dynamically_Loaded_Library
class	EAX_Decryption
class	EAX_Encryption
class	EAX_Mode
class	EC_Group
class	EC_PrivateKey
class	EC_PublicKey
class	ECDH_PrivateKey
class	ECDH_PublicKey
class	ECDSA_PrivateKey
class	ECDSA_PublicKey
class	ECGDSA_PrivateKey
class	ECGDSA_PublicKey
class	ECIES_Decryptor
class	ECIES_Encryptor
class	ECIES_KA_Operation
class	ECIES_KA_Params
class	ECIES_System_Params
class	ECKCDSA_PrivateKey
class	ECKCDSA_PublicKey
class	Ed25519_PrivateKey
class	Ed25519_PublicKey
class	ElGamal_PrivateKey
class	ElGamal_PublicKey
class	EME
class	EME_PKCS1v15
class	EME_Raw
class	EMSA
class	EMSA1
class	EMSA_PKCS1v15
class	EMSA_PKCS1v15_Raw
class	EMSA_Raw
class	EMSA_X931
class	Encoding_Error
class	Encrypted_PSK_Database
class	Encrypted_PSK_Database_SQL
class	Entropy_Source
class	Entropy_Sources
class	ESP_Padding
class	Exception
class	Extensions
class	Fanout_Filter
class	FE_25519
class	Filter
class	Flatfile_Certificate_Store
class	Fork
class	FPE_FE1
class	GCM_Decryption
class	GCM_Encryption
class	GCM_Mode
struct	ge_p3
class	GeneralName
	X.509 GeneralName Type. More...
class	GeneralSubtree
	A single Name Constraint. More...
class	Getentropy
class	GF2m_Field
class	GHASH
class	GMAC
class	GOST_28147_89
class	GOST_28147_89_Params
class	GOST_3410_PrivateKey
class	GOST_3410_PublicKey
class	GOST_34_11
class	Gzip_Compression
class	Gzip_Decompression
class	Hardware_RNG
class	HashFunction
class	Hex_Decoder
class	Hex_Encoder
class	HKDF
class	HKDF_Expand
class	HKDF_Extract
class	HMAC
class	HMAC_DRBG
class	HOTP
class	IDEA
class	Integer_Overflow_Detected
class	Intel_Rdseed
class	Internal_Error
class	Invalid_Algorithm_Name
class	Invalid_Argument
class	Invalid_Authentication_Tag
class	Invalid_IV_Length
class	Invalid_Key_Length
class	Invalid_State
class	ISO_9796_DS2
class	ISO_9796_DS3
class	KDF
class	KDF1
class	KDF1_18033
class	KDF2
class	Keccak_1600
class	Key_Length_Specification
class	Key_Not_Set
class	Keyed_Filter
class	Kyber_90s_Symmetric_Primitives
class	Kyber_Modern_Symmetric_Primitives
class	Kyber_PrivateKey
class	Kyber_PublicKey
class	Kyber_Symmetric_Primitives
class	KyberMode
class	Lion
class	lock_guard
class	Lookup_Error
class	LZMA_Compression
class	LZMA_Decompression
class	McEliece_PrivateKey
class	McEliece_PublicKey
class	MD4
class	MD5
class	MDx_HashFunction
class	Memory_Pool
class	MessageAuthenticationCode
class	mlock_allocator
class	Modular_Reducer
class	Montgomery_Int
class	Montgomery_Params
class	NameConstraints
	Name Constraints. More...
class	newhope_poly
class	No_Filesystem_Access
class	Noekeon
class	noop_mutex
class	Not_Implemented
class	Null_Padding
class	Null_RNG
class	OAEP
class	OCB_Decryption
class	OCB_Encryption
class	OCB_Mode
class	OctetString
class	OFB
class	OID
class	OneAndZeros_Padding
class	OpenPGP_S2K
class	Output_Buffers
struct	overloaded
class	Parallel
class	PasswordHash
class	PasswordHashFamily
class	Path_Validation_Restrictions
class	Path_Validation_Result
class	PBKDF
class	PBKDF2
class	PBKDF2_Family
class	Pipe
class	PK_Decryptor
class	PK_Decryptor_EME
class	PK_Encryptor
class	PK_Encryptor_EME
class	PK_KEM_Decryptor
class	PK_KEM_Encryptor
class	PK_Key_Agreement
class	PK_Key_Agreement_Key
class	PK_Signer
class	PK_Verifier
class	PKCS10_Request
class	PKCS5_PBKDF2
class	PKCS7_Padding
class	PKCS8_Exception
class	PointGFp
class	PointGFp_Base_Point_Precompute
class	PointGFp_Multi_Point_Precompute
class	PointGFp_Var_Point_Precompute
class	Poly1305
class	polyn_gf2m
class	Private_Key
class	PRNG_Unseeded
class	Processor_RNG
class	Provider_Not_Found
class	PSK_Database
class	PSSR
class	PSSR_Raw
class	Public_Key
class	RandomNumberGenerator
class	RC4
class	RFC4880_S2K
class	RFC4880_S2K_Family
class	RFC6979_Nonce_Generator
class	RIPEMD_160
class	RSA_PrivateKey
class	RSA_PublicKey
class	RTSS_Share
class	RWLock
class	Salsa20
class	SCAN_Name
class	Scrypt
class	Scrypt_Family
class	secure_allocator
class	SecureQueue
class	SEED
class	Semaphore
class	Serpent
class	SHA_160
class	SHA_224
class	SHA_256
class	SHA_3
class	SHA_384
class	SHA_3_224
class	SHA_3_256
class	SHA_3_384
class	SHA_3_512
class	SHA_512
class	SHA_512_256
class	SHACAL2
class	SHAKE_128
class	SHAKE_128_Cipher
class	SHAKE_256
class	SIMD_4x32
class	SIMD_8x32
class	SipHash
class	SIV_Decryption
class	SIV_Encryption
class	SIV_Mode
class	Skein_512
class	SM2_PrivateKey
class	SM2_PublicKey
class	SM3
class	SM4
class	SP800_108_Counter
class	SP800_108_Feedback
class	SP800_108_Pipeline
class	SP800_56A_Hash
class	SP800_56A_HMAC
class	SP800_56C
class	SQL_Database
class	Sqlite3_Database
class	SRP6_Server_Session
class	Stateful_RNG
class	Stream_Compression
class	Stream_Decompression
class	Stream_IO_Error
class	StreamCipher
class	Streebog
class	SymmetricAlgorithm
class	System_Certificate_Store
class	System_Error
class	System_RNG
class	Thread_Pool
class	Threefish_512
class	Timer
class	TLS_12_PRF
class	TOTP
class	TPM_Context
class	TPM_Error
class	TPM_PrivateKey
class	TPM_RNG
class	TripleDES
class	Tweakable_Block_Cipher
class	Twofish
struct	URI
class	UUID
class	Whirlpool
class	Win32_EntropySource
class	X509_CA
class	X509_Cert_Options
class	X509_Certificate
class	X509_CRL
class	X509_DN
class	X509_Object
class	X942_PRF
class	XMSS_Address
class	XMSS_Common_Ops
class	XMSS_Hash
class	XMSS_Index_Registry
class	XMSS_Parameters
class	XMSS_PrivateKey
class	XMSS_PublicKey
class	XMSS_Signature
class	XMSS_Signature_Operation
class	XMSS_Tools
class	XMSS_Verification_Operation
class	XMSS_WOTS_Addressed_PrivateKey
class	XMSS_WOTS_Addressed_PublicKey
class	XMSS_WOTS_Parameters
class	XMSS_WOTS_PrivateKey
class	XMSS_WOTS_PublicKey
class	XTS_Decryption
class	XTS_Encryption
class	XTS_Mode
class	ZFEC
class	Zlib_Compression
class	Zlib_Decompression
class	Zlib_Style_Stream

Typedefs
typedef __vector unsigned int	Altivec32x4
typedef __vector unsigned long long	Altivec64x2
typedef __vector unsigned char	Altivec8x16
typedef BLAKE2b	Blake2b
typedef BLAKE2bMAC	Blake2bMac
using	byte = std::uint8_t
typedef int32_t	CCCryptorStatus
typedef std::vector< std::set< Certificate_Status_Code > >	CertificatePathStatusCodes
typedef EC_Group	EC_Domain_Params
typedef FE_25519	fe
typedef uint16_t	gf2m
using	InitializationVector = OctetString
typedef Invalid_Authentication_Tag	Integrity_Failure
template<typename T >
using	lock_guard_type = lock_guard< T >
typedef MessageAuthenticationCode	MAC
typedef noop_mutex	mutex_type
typedef PK_Key_Agreement_Key	PK_KA_Key
typedef Private_Key	PKCS8_PrivateKey
typedef newhope_poly	poly
typedef noop_mutex	recursive_mutex_type
typedef RandomNumberGenerator	RNG
typedef PBKDF	S2K
using	s32bit = std::int32_t
template<typename T >
using	secure_deque = std::deque< T, secure_allocator< T > >
template<typename T >
using	secure_vector = std::vector< T, secure_allocator< T > >
template<typename T >
using	SecureVector = secure_vector< T >
typedef SHA_160	SHA_1
typedef SM2_PrivateKey	SM2_Encryption_PrivateKey
typedef SM2_PublicKey	SM2_Encryption_PublicKey
typedef SM2_PrivateKey	SM2_Signature_PrivateKey
typedef SM2_PublicKey	SM2_Signature_PublicKey
using	SymmetricKey = OctetString
using	u16bit = std::uint16_t
using	u32bit = std::uint32_t
using	u64bit = std::uint64_t
typedef std::vector< secure_vector< uint8_t > >	wots_keysig_t
typedef Curve25519_PrivateKey	X25519_PrivateKey
typedef Curve25519_PublicKey	X25519_PublicKey
typedef Public_Key	X509_PublicKey
typedef ASN1_Time	X509_Time

Enumerations
enum	{ SM3_BLOCK_BYTES = 64 , SM3_DIGEST_BYTES = 32 }
enum class	ASN1_Class : uint32_t {   Universal = 0b0000'0000 , Application = 0b0100'0000 , ContextSpecific = 0b1000'0000 , Private = 0b1100'0000 ,   Constructed = 0b0010'0000 , ExplicitContextSpecific = Constructed | ContextSpecific , NoObject = 0xFF00 }
enum class	ASN1_Type : uint32_t {   Eoc = 0x00 , Boolean = 0x01 , Integer = 0x02 , BitString = 0x03 ,   OctetString = 0x04 , Null = 0x05 , ObjectId = 0x06 , Enumerated = 0x0A ,   Sequence = 0x10 , Set = 0x11 , Utf8String = 0x0C , NumericString = 0x12 ,   PrintableString = 0x13 , TeletexString = 0x14 , Ia5String = 0x16 , VisibleString = 0x1A ,   UniversalString = 0x1C , BmpString = 0x1E , UtcTime = 0x17 , GeneralizedTime = 0x18 ,   NoObject = 0xFF00 }
enum class	Certificate_Status_Code {   OK = 0 , VERIFIED = 0 , OCSP_RESPONSE_GOOD = 1 , OCSP_SIGNATURE_OK = 2 ,   VALID_CRL_CHECKED = 3 , OCSP_NO_HTTP = 4 , FIRST_WARNING_STATUS = 500 , CERT_SERIAL_NEGATIVE = 500 ,   DN_TOO_LONG = 501 , OCSP_NO_REVOCATION_URL = 502 , OCSP_SERVER_NOT_AVAILABLE = 503 , FIRST_ERROR_STATUS = 1000 ,   SIGNATURE_METHOD_TOO_WEAK = 1000 , UNTRUSTED_HASH = 1001 , NO_REVOCATION_DATA = 1002 , NO_MATCHING_CRLDP = 1003 ,   CERT_NOT_YET_VALID = 2000 , CERT_HAS_EXPIRED = 2001 , OCSP_NOT_YET_VALID = 2002 , OCSP_HAS_EXPIRED = 2003 ,   CRL_NOT_YET_VALID = 2004 , CRL_HAS_EXPIRED = 2005 , OCSP_IS_TOO_OLD = 2006 , CERT_ISSUER_NOT_FOUND = 3000 ,   CANNOT_ESTABLISH_TRUST = 3001 , CERT_CHAIN_LOOP = 3002 , CHAIN_LACKS_TRUST_ROOT = 3003 , CHAIN_NAME_MISMATCH = 3004 ,   POLICY_ERROR = 4000 , INVALID_USAGE = 4001 , CERT_CHAIN_TOO_LONG = 4002 , CA_CERT_NOT_FOR_CERT_ISSUER = 4003 ,   NAME_CONSTRAINT_ERROR = 4004 , CA_CERT_NOT_FOR_CRL_ISSUER = 4005 , OCSP_CERT_NOT_LISTED = 4006 , OCSP_BAD_STATUS = 4007 ,   CERT_NAME_NOMATCH = 4008 , UNKNOWN_CRITICAL_EXTENSION = 4009 , DUPLICATE_CERT_EXTENSION = 4010 , OCSP_SIGNATURE_ERROR = 4501 ,   OCSP_ISSUER_NOT_FOUND = 4502 , OCSP_RESPONSE_MISSING_KEYUSAGE = 4503 , OCSP_RESPONSE_INVALID = 4504 , EXT_IN_V1_V2_CERT = 4505 ,   DUPLICATE_CERT_POLICY = 4506 , V2_IDENTIFIERS_IN_V1_CERT = 4507 , CERT_IS_REVOKED = 5000 , CRL_BAD_SIGNATURE = 5001 ,   SIGNATURE_ERROR = 5002 , CERT_PUBKEY_INVALID = 5003 , SIGNATURE_ALGO_UNKNOWN = 5004 , SIGNATURE_ALGO_BAD_PARAMS = 5005 }
enum	Cipher_Dir : int { ENCRYPTION , DECRYPTION }
enum class	CRL_Code : uint32_t {   UNSPECIFIED = 0 , KEY_COMPROMISE = 1 , CA_COMPROMISE = 2 , AFFILIATION_CHANGED = 3 ,   SUPERSEDED = 4 , CESSATION_OF_OPERATION = 5 , CERTIFICATE_HOLD = 6 , REMOVE_FROM_CRL = 8 ,   PRIVLEDGE_WITHDRAWN = 9 , PRIVILEGE_WITHDRAWN = 9 , AA_COMPROMISE = 10 , DELETE_CRL_ENTRY = 0xFF00 ,   OCSP_GOOD = 0xFF01 , OCSP_UNKNOWN = 0xFF02 }
enum	Decoder_Checking { NONE , IGNORE_WS , FULL_CHECK }
enum class	DL_Group_Format {   ANSI_X9_42 , ANSI_X9_57 , PKCS_3 , DSA_PARAMETERS = ANSI_X9_57 ,   DH_PARAMETERS = ANSI_X9_42 , ANSI_X9_42_DH_PARAMETERS = ANSI_X9_42 , PKCS3_DH_PARAMETERS = PKCS_3 }
enum class	DL_Group_Source { Builtin , RandomlyGenerated , ExternalSource }
enum class	EC_Group_Encoding {   Explicit , ImplicitCA , NamedCurve , EC_DOMPAR_ENC_EXPLICIT = Explicit ,   EC_DOMPAR_ENC_IMPLICITCA = ImplicitCA , EC_DOMPAR_ENC_OID = NamedCurve }
enum class	EC_Group_Source { Builtin , ExternalSource }
enum class	ECIES_Flags : uint32_t {   NONE = 0 , SINGLE_HASH_MODE = 1 , COFACTOR_MODE = 2 , OLD_COFACTOR_MODE = 4 ,   CHECK_MODE = 8 }
enum class	ErrorType {   Unknown = 1 , SystemError , NotImplemented , OutOfMemory ,   InternalError , IoError , InvalidObjectState = 100 , KeyNotSet ,   InvalidArgument , InvalidKeyLength , InvalidNonceLength , LookupError ,   EncodingFailure , DecodingFailure , TLSError , HttpError ,   InvalidTag , RoughtimeError , CommonCryptoError = 201 , Pkcs11Error ,   TPMError , DatabaseError , ZlibError = 300 , Bzip2Error ,   LzmaError }
enum	Key_Constraints {   NO_CONSTRAINTS = 0 , DIGITAL_SIGNATURE = 1 << 15 , NON_REPUDIATION = 1 << 14 , KEY_ENCIPHERMENT = 1 << 13 ,   DATA_ENCIPHERMENT = 1 << 12 , KEY_AGREEMENT = 1 << 11 , KEY_CERT_SIGN = 1 << 10 , CRL_SIGN = 1 << 9 ,   ENCIPHER_ONLY = 1 << 8 , DECIPHER_ONLY = 1 << 7 }
enum class	KyberKeyEncoding { Raw , Full }
enum class	Newhope_Mode { SHA3 , BoringSSL }
enum	Newhope_Params {   NEWHOPE_SENDABYTES = 1824 , NEWHOPE_SENDBBYTES = 2048 , NEWHOPE_OFFER_BYTES = 1824 , NEWHOPE_ACCEPT_BYTES = 2048 ,   NEWHOPE_SHARED_KEY_BYTES = 32 , NEWHOPE_SEED_BYTES = 32 , NEWHOPE_POLY_BYTES = 1792 , CECPQ1_OFFER_BYTES = NEWHOPE_OFFER_BYTES + 32 ,   CECPQ1_ACCEPT_BYTES = NEWHOPE_ACCEPT_BYTES + 32 , CECPQ1_SHARED_KEY_BYTES = NEWHOPE_SHARED_KEY_BYTES + 32 }
enum	Signature_Format { IEEE_1363 , DER_SEQUENCE }
enum class	TPM_Storage_Type { User , System }
enum class	Usage_Type {   UNSPECIFIED , TLS_SERVER_AUTH , TLS_CLIENT_AUTH , CERTIFICATE_AUTHORITY ,   OCSP_RESPONDER , ENCRYPTION }

Functions
BigInt	abs (const BigInt &n)
BOTAN_MALLOC_FN void *	allocate_memory (size_t elems, size_t elem_size)
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 y, size_t p, size_t M, size_t t)
bool	argon2_check_pwhash (const char *password, size_t password_len, const std::string &input_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, size_t salt_len, size_t output_len)
std::string	asn1_class_to_string (ASN1_Class type)
std::string	asn1_tag_to_string (ASN1_Type type)
void	assertion_failure (const char *expr_str, const char *assertion_made, const char *func, const char *file, int line)
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)
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)
size_t	base32_encode (char out[], const uint8_t in[], size_t input_length, size_t &input_consumed, bool final_inputs)
template<typename Alloc >
std::string	base32_encode (const std::vector< uint8_t, Alloc > &input)
std::string	base32_encode (const uint8_t input[], size_t input_length)
std::vector< uint8_t >	base58_check_decode (const char input[], size_t input_length)
std::vector< uint8_t >	base58_check_decode (const std::string &s)
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 char input[], size_t input_length)
std::vector< uint8_t >	base58_decode (const std::string &s)
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)
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 (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)
size_t	base64_decode_max_output (size_t input_length)
size_t	base64_encode (char out[], const uint8_t in[], size_t input_length, size_t &input_consumed, bool final_inputs)
template<typename Alloc >
std::string	base64_encode (const std::vector< uint8_t, Alloc > &input)
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 *password, size_t password_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[], const word y[], size_t size)
word	bigint_cnd_add (word cnd, word x[], word x_size, const word y[], size_t y_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[], const word y[], size_t size)
word	bigint_cnd_sub (word cnd, word x[], size_t x_size, const word y[], size_t y_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)
word	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 ws[], size_t ws_size)
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[24], 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_6 (word z[], const word p[6], word p_dash, word ws[])
void	bigint_monty_redc_8 (word z[], const word p[8], word p_dash, word ws[])
void	bigint_monty_redc_generic (word z[], size_t z_size, const word p[], size_t p_size, 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)
template<typename T >
constexpr T	bit_permute_step (T x, T mask, size_t shift)
size_t	bit_size_to_32bit_size (size_t bit_size)
size_t	bit_size_to_byte_size (size_t bit_size)
void	blamka_ssse3 (uint64_t T[128])
const BotanErrorCategory &	botan_category () noexcept
template<typename T >
constexpr void	bswap_4 (T x[4])
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)
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<size_t S, int64_t MUL = 1>
void	carry (int64_t &h0, int64_t &h1)
template<size_t S>
void	carry0 (int32_t &h0, int32_t &h1)
template<size_t S>
void	carry0 (int64_t &h0, int64_t &h1)
uint64_t	carry_shift (const donna128 &a, size_t shift)
uint8_t *	cast_char_ptr_to_uint8 (char *s)
const uint8_t *	cast_char_ptr_to_uint8 (const 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, uint8_t *accept_message, const uint8_t *offer_message, RandomNumberGenerator &rng)
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_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 *offer_message, CECPQ1_key *offer_key_output, RandomNumberGenerator &rng)
void	CECPQ1_offer (uint8_t send[CECPQ1_OFFER_BYTES], CECPQ1_key *offer_key_output, RandomNumberGenerator &rng)
template<typename T >
constexpr uint8_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)
size_t	checked_add (size_t x, size_t y, const char *file, int line)
template<typename RT , typename AT >
RT	checked_cast_to (AT i)
template<typename T >
constexpr T	choose (T mask, T a, T b)
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)
PK_Signer *	choose_sig_format (const Private_Key &key, RandomNumberGenerator &rng, const std::string &hash_fn, AlgorithmIdentifier &sig_algo)
std::string	clean_ws (const std::string &s)
constexpr void	clear_bytes (void *ptr, size_t bytes)
template<typename T >
constexpr 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)
CommonCryptor_Opts	commoncrypto_opts_from_algo_name (const std::string &algo_name)
template<typename... Ts>
decltype(auto)	concat (Ts &&...buffers)
template<typename ResultT , typename... Ts>
ResultT	concat_as (Ts &&...buffers)
bool	constant_time_compare (const uint8_t x[], const uint8_t y[], size_t len)
template<typename T >
constexpr 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)
std::unique_ptr< Private_Key >	create_ec_private_key (const std::string &alg_name, const EC_Group &ec_group, RandomNumberGenerator &rng)
template<typename Alloc >
std::string	create_hex_fingerprint (const std::vector< uint8_t, Alloc > &vec, const std::string &hash_name)
std::string	create_hex_fingerprint (const uint8_t bits[], size_t bits_len, const std::string &hash_name)
std::unique_ptr< Private_Key >	create_private_key (const std::string &alg_name, RandomNumberGenerator &rng, const std::string &params, const std::string &provider)
uint8_t	ct_compare_u8 (const uint8_t x[], const uint8_t y[], size_t len)
BigInt	ct_divide (const BigInt &x, const BigInt &y)
void	ct_divide (const BigInt &x, const BigInt &y, BigInt &q_out, BigInt &r_out)
void	ct_divide_word (const BigInt &x, word y, BigInt &q_out, word &r_out)
template<typename T >
constexpr T	ct_is_zero (T x)
BigInt	ct_modulo (const BigInt &x, const BigInt &y)
template<typename T >
constexpr 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)
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)
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)
template<typename T >
uint16_t	expand_mask_16bit (T tst)
void	expand_message_xmd (const std::string &hash_fn, uint8_t output[], size_t output_len, const uint8_t input[], size_t input_len, const uint8_t domain_sep[], size_t domain_sep_len)
template<typename T >
constexpr 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, size_t code_length)
void	gamma (SIMD_4x32 &A0, SIMD_4x32 &A1, SIMD_4x32 &A2, SIMD_4x32 &A3)
BigInt	gcd (const BigInt &a, const BigInt &b)
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 *v, 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)
std::vector< uint8_t >	generate_dsa_primes (RandomNumberGenerator &rng, BigInt &p, BigInt &q, size_t pbits, size_t qbits)
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)
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 DL_Group &group, const std::string &hash_id)
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)
AEAD_Mode *	get_aead (const std::string &name, Cipher_Dir direction)
template<size_t B, typename T >
constexpr uint8_t	get_byte (T input)
template<typename T >
constexpr uint8_t	get_byte_var (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="")
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)
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)
PointGFp	hash_to_curve_sswu (const EC_Group &group, const std::string &hash_fn, const uint8_t input[], size_t input_len, const uint8_t domain_sep[], size_t domain_sep_len, bool random_oracle)
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)
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 char input[], size_t input_length, size_t &input_consumed, bool ignore_ws)
size_t	hex_decode (uint8_t output[], 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)
template<typename Alloc >
std::string	hex_encode (const std::vector< uint8_t, Alloc > &input, bool uppercase=true)
std::string	hex_encode (const uint8_t input[], size_t input_length, bool uppercase)
template<typename T >
constexpr 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)
template<typename... Alts, typename... Ts>
constexpr bool	holds_any_of (const std::variant< Ts... > &v) noexcept
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 ()
bool	intersects (ASN1_Class x, ASN1_Class y)
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)
bool	is_bailie_psw_probable_prime (const BigInt &n, const Modular_Reducer &mod_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)
std::string	latin1_to_utf8 (const uint8_t chars[], size_t len)
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 >
constexpr T	load_be (const uint8_t in[], size_t off)
template<typename T >
constexpr void	load_be (const uint8_t in[], T &x0, T &x1)
template<typename T >
constexpr void	load_be (const uint8_t in[], T &x0, T &x1, T &x2, T &x3)
template<typename T >
constexpr 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 >
constexpr void	load_be (T out[], const uint8_t in[], size_t count)
template<>
constexpr uint16_t	load_be< uint16_t > (const uint8_t in[], size_t off)
template<>
constexpr uint32_t	load_be< uint32_t > (const uint8_t in[], size_t off)
template<>
constexpr uint64_t	load_be< uint64_t > (const uint8_t in[], size_t off)
template<typename T >
constexpr T	load_le (const uint8_t in[], size_t off)
template<typename T >
constexpr void	load_le (const uint8_t in[], T &x0, T &x1)
template<typename T >
constexpr void	load_le (const uint8_t in[], T &x0, T &x1, T &x2, T &x3)
template<typename T >
constexpr 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 >
constexpr void	load_le (T out[], const uint8_t in[], size_t count)
template<>
constexpr uint16_t	load_le< uint16_t > (const uint8_t in[], size_t off)
template<>
constexpr uint32_t	load_le< uint32_t > (const uint8_t in[], size_t off)
template<>
constexpr 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)
template<typename T >
constexpr T	majority (T a, T b, T c)
std::unique_ptr< BlockCipher >	make_commoncrypto_block_cipher (const std::string &name)
std::unique_ptr< 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 &type)
Decompression_Algorithm *	make_decompressor (const std::string &type)
boost::system::error_code	make_error_code (Botan::ErrorType e)
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<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 >	mceliece_decrypt (secure_vector< gf2m > &error_pos, const uint8_t *ciphertext, size_t ciphertext_len, 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)
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_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)
BigInt	monty_exp (std::shared_ptr< const Montgomery_Params > params_p, const BigInt &g, const BigInt &k, size_t max_k_bits)
BigInt	monty_exp_vartime (std::shared_ptr< const Montgomery_Params > params_p, const BigInt &g, const BigInt &k)
word	monty_inverse (word a)
BigInt	monty_multi_exp (const 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 (const 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)
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, poly *sk, RandomNumberGenerator &rng, Newhope_Mode mode)
void	newhope_keygen (uint8_t send[NEWHOPE_SENDABYTES], newhope_poly *sk, RandomNumberGenerator &rng, Newhope_Mode=Newhope_Mode::SHA3)
void	newhope_shareda (uint8_t *sharedkey, const poly *sk, const uint8_t received[], 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_sharedb (uint8_t *sharedkey, uint8_t *send, const uint8_t *received, RandomNumberGenerator &rng, 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)
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)
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 AlgorithmIdentifier &a1, const AlgorithmIdentifier &a2)
bool	operator!= (const ASN1_Time &, const ASN1_Time &)
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)
bool	operator!= (const CurveGFp &lhs, const CurveGFp &rhs)
bool	operator!= (const EC_Group &lhs, const EC_Group &rhs)
bool	operator!= (const OctetString &s1, const OctetString &s2)
bool	operator!= (const OID &a, const OID &b)
bool	operator!= (const PointGFp &lhs, const PointGFp &rhs)
template<typename T , typename U >
bool	operator!= (const secure_allocator< T > &, const secure_allocator< U > &)
bool	operator!= (const X509_Certificate &cert1, const X509_Certificate &cert2)
bool	operator!= (const X509_DN &dn1, const X509_DN &dn2)
BigInt	operator% (const BigInt &n, const BigInt &mod)
word	operator% (const BigInt &n, word mod)
ECIES_Flags	operator& (ECIES_Flags a, ECIES_Flags b)
PointGFp	operator* (const BigInt &scalar, const PointGFp &point)
BigInt	operator* (const BigInt &x, const BigInt &y)
BigInt	operator* (const BigInt &x, word y)
donna128	operator* (const donna128 &x, uint64_t y)
PointGFp	operator* (const PointGFp &point, const BigInt &scalar)
donna128	operator* (uint64_t y, const donna128 &x)
BigInt	operator* (word x, const BigInt &y)
BigInt	operator+ (const BigInt &x, const BigInt &y)
BigInt	operator+ (const BigInt &x, word y)
donna128	operator+ (const donna128 &x, const donna128 &y)
donna128	operator+ (const donna128 &x, uint64_t y)
OctetString	operator+ (const OctetString &k1, const OctetString &k2)
OID	operator+ (const OID &oid, uint32_t new_comp)
PointGFp	operator+ (const PointGFp &lhs, const PointGFp &rhs)
BigInt	operator+ (word x, const BigInt &y)
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)
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)
BigInt	operator- (const BigInt &x, const BigInt &y)
BigInt	operator- (const BigInt &x, word y)
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)
bool	operator< (const ASN1_Time &, const ASN1_Time &)
bool	operator< (const BigInt &a, const BigInt &b)
bool	operator< (const BigInt &a, word b)
bool	operator< (const OID &a, const OID &b)
bool	operator< (const X509_DN &dn1, const X509_DN &dn2)
BigInt	operator<< (const BigInt &x, size_t shift)
int	operator<< (int fd, Pipe &pipe)
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)
std::ostream &	operator<< (std::ostream &stream, const BigInt &n)
bool	operator<= (const ASN1_Time &, const ASN1_Time &)
bool	operator<= (const BigInt &a, const BigInt &b)
bool	operator<= (const BigInt &a, word b)
bool	operator== (const AlgorithmIdentifier &a1, const AlgorithmIdentifier &a2)
bool	operator== (const ASN1_Time &, const ASN1_Time &)
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)
bool	operator== (const OctetString &s1, const OctetString &s2)
template<typename T , typename U >
bool	operator== (const secure_allocator< T > &, const secure_allocator< U > &)
bool	operator== (const X509_DN &dn1, const X509_DN &dn2)
bool	operator> (const ASN1_Time &, const ASN1_Time &)
bool	operator> (const BigInt &a, const BigInt &b)
bool	operator> (const BigInt &a, word b)
bool	operator>= (const ASN1_Time &, const ASN1_Time &)
bool	operator>= (const BigInt &a, const BigInt &b)
bool	operator>= (const BigInt &a, word b)
BigInt	operator>> (const BigInt &x, size_t shift)
int	operator>> (int fd, Pipe &pipe)
std::istream &	operator>> (std::istream &in, Pipe &pipe)
std::istream &	operator>> (std::istream &in, X509_DN &dn)
std::istream &	operator>> (std::istream &stream, BigInt &n)
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)
ASN1_Class	operator| (ASN1_Class x, ASN1_Class y)
uint32_t	operator| (ASN1_Class x, ASN1_Type y)
uint32_t	operator| (ASN1_Type x, ASN1_Class y)
ASN1_Type	operator| (ASN1_Type x, ASN1_Type y)
donna128	operator| (const donna128 &x, const donna128 &y)
ECIES_Flags	operator| (ECIES_Flags a, ECIES_Flags b)
template<typename Alloc >
PointGFp	OS2ECP (const std::vector< uint8_t, Alloc > &data, 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)
PointGFp	OS2ECP (const uint8_t data[], size_t data_len, const CurveGFp &curve)
template<class... Ts>
	overloaded (Ts...) -> overloaded< Ts... >
std::vector< std::string >	parse_algorithm_name (const std::string &namex)
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 > &params)
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)
BOTAN_TEST_API const BigInt &	prime_p192 ()
BOTAN_TEST_API const BigInt &	prime_p224 ()
BOTAN_TEST_API const BigInt &	prime_p256 ()
BOTAN_TEST_API const BigInt &	prime_p384 ()
BOTAN_TEST_API 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={ "base" })
gf2m	random_code_element (uint16_t 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)
BOTAN_TEST_API 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)
BOTAN_TEST_API void	redc_p192 (BigInt &x, secure_vector< word > &ws)
BOTAN_TEST_API void	redc_p224 (BigInt &x, secure_vector< word > &ws)
BOTAN_TEST_API void	redc_p256 (BigInt &x, secure_vector< word > &ws)
BOTAN_TEST_API void	redc_p384 (BigInt &x, secure_vector< word > &ws)
BOTAN_TEST_API void	redc_p521 (BigInt &x, secure_vector< word > &ws)
constexpr uint16_t	reverse_bytes (uint16_t x)
constexpr uint32_t	reverse_bytes (uint32_t x)
constexpr uint64_t	reverse_bytes (uint64_t x)
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<size_t R>
SIMD_4x32	rotl (SIMD_4x32 input)
template<size_t R>
SIMD_8x32	rotl (SIMD_8x32 input)
template<size_t ROT, typename T >
constexpr T	rotl (T input)
template<typename T >
constexpr T	rotl_var (T input, size_t rot)
template<size_t R>
SIMD_4x32	rotr (SIMD_4x32 input)
template<size_t R>
SIMD_8x32	rotr (SIMD_8x32 input)
template<size_t ROT, typename T >
constexpr T	rotr (T input)
template<typename T >
constexpr 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 char *password, size_t password_len, 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 std::string &password, const uint8_t salt[], size_t salt_len, size_t N, size_t r, size_t p)
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)
template<typename K , typename V >
V	search_map (const std::map< K, V > &mapping, const K &key, const V &null_result=V())
void	secure_scrub_memory (void *ptr, size_t n)
constexpr void	set_mem (uint8_t *ptr, size_t n, uint8_t val)
void	SHA3_round (uint64_t T[25], const uint64_t A[25], uint64_t RC)
template<size_t S>
SIMD_4x32	shl (SIMD_4x32 input)
template<size_t S>
SIMD_8x32	shl (SIMD_8x32 input)
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 >
constexpr 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)
BigInt	sqrt_modulo_prime (const BigInt &a, const BigInt &p)
BigInt	square (const BigInt &x)
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::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::string	srp6_group_identifier (const BigInt &N, const BigInt &g)
constexpr void	store_be (uint16_t in, uint8_t out[2])
constexpr void	store_be (uint32_t in, uint8_t out[4])
constexpr void	store_be (uint64_t in, uint8_t out[8])
template<typename T >
constexpr void	store_be (uint8_t out[], T x0, T x1)
template<typename T >
constexpr void	store_be (uint8_t out[], T x0, T x1, T x2, T x3)
template<typename T >
constexpr void	store_be (uint8_t out[], T x0, T x1, T x2, T x3, T x4, T x5, T x6, T x7)
constexpr void	store_le (uint16_t in, uint8_t out[2])
constexpr void	store_le (uint32_t in, uint8_t out[4])
constexpr void	store_le (uint64_t in, uint8_t out[8])
template<typename T >
constexpr void	store_le (uint8_t out[], T x0, T x1)
template<typename T >
constexpr void	store_le (uint8_t out[], T x0, T x1, T x2, T x3)
template<typename T >
constexpr 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)
template<typename T >
constexpr void	swap_bits (T &x, T &y, T mask, size_t shift)
std::vector< polyn_gf2m >	syndrome_init (polyn_gf2m const &generator, std::vector< gf2m > const &support, int n)
RandomNumberGenerator &	system_rng ()
void	theta (SIMD_4x32 &A0, SIMD_4x32 &A1, SIMD_4x32 &A2, SIMD_4x32 &A3, const SIMD_4x32 &K0, const SIMD_4x32 &K1, const SIMD_4x32 &K2, const SIMD_4x32 &K3)
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)
std::vector< uint8_t >	to_byte_vector (const std::string &s)
const char *	to_string (Certificate_Status_Code code)
std::string	to_string (const secure_vector< uint8_t > &bytes)
std::string	to_string (ErrorType type)
	Convert an ErrorType to string. More...
uint32_t	to_u32bit (const std::string &str)
uint16_t	to_uint16 (const std::string &str)
std::string	tolower_string (const std::string &in)
template<class To , class From >
constexpr To	typecast_copy (const From *src) noexcept
template<typename T >
constexpr void	typecast_copy (T &out, const uint8_t in[])
template<typename T >
constexpr void	typecast_copy (T out[], const uint8_t in[], size_t N)
template<typename T >
constexpr void	typecast_copy (uint8_t out[], T in)
template<typename T >
constexpr void	typecast_copy (uint8_t out[], 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)
BOTAN_FORCE_INLINE void	unreachable ()
template<typename T >
bool	value_exists (const std::vector< T > &vec, const T &val)
constexpr size_t	var_ctz32 (uint32_t n)
void	vartime_divide (const BigInt &x, const BigInt &y_arg, BigInt &q_out, BigInt &r_out)
void	verify_cert_constraints_valid_for_key_type (const Public_Key &pub_key, Key_Constraints constraints)
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)
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::optional< OCSP::Response > > &ocsp_resp)
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::optional< 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::optional< 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::optional< OCSP::Response > > &ocsp_resp)
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 , 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 Alloc >
void	xor_buf (std::vector< uint8_t, Alloc > &out, const uint8_t *in, size_t n)
void	xor_buf (uint8_t out[], const uint8_t in[], const uint8_t in2[], size_t length)
void	xor_buf (uint8_t out[], const uint8_t in[], size_t length)
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 size_t	HEX_CODEC_BUFFER_SIZE = 256
const word	MP_WORD_MAX = ~static_cast<word>(0)
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]

Detailed Description

(C) 2019 Jack Lloyd

Botan is released under the Simplified BSD License (see license.txt)

(C) 2018,2019,2021 Jack Lloyd

Botan is released under the Simplified BSD License (see license.txt)

(C) 2018,2019,2022 Jack Lloyd

Botan is released under the Simplified BSD License (see license.txt)

(C) 2018,2019 Jack Lloyd

Botan is released under the Simplified BSD License (see license.txt)

(C) 2022 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 Documentation

Altivec32x4

typedef __vector unsigned int Botan::Altivec32x4

Definition at line 22 of file aes_power8.cpp.

Altivec64x2

typedef __vector unsigned long long Botan::Altivec64x2

Definition at line 21 of file aes_power8.cpp.

Altivec8x16

typedef __vector unsigned char Botan::Altivec8x16

Definition at line 23 of file aes_power8.cpp.

Blake2b

typedef BLAKE2b Botan::Blake2b

Definition at line 68 of file blake2b.h.

Blake2bMac

typedef BLAKE2bMAC Botan::Blake2bMac

Definition at line 60 of file blake2bmac.h.

byte

using Botan::byte = typedef std::uint8_t

Definition at line 89 of file types.h.

CCCryptorStatus

typedef int32_t Botan::CCCryptorStatus

Definition at line 23 of file commoncrypto.h.

CertificatePathStatusCodes

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.

EC_Domain_Params

typedef EC_Group Botan::EC_Domain_Params

Definition at line 414 of file ec_group.h.

fe

typedef FE_25519 Botan::fe

Definition at line 134 of file ed25519_fe.h.

gf2m

typedef uint16_t Botan::gf2m

Definition at line 20 of file gf2m_small_m.h.

InitializationVector

using Botan::InitializationVector = typedef OctetString

Alternate name for octet string showing intent to use as an IV

Definition at line 148 of file symkey.h.

Integrity_Failure

typedef Invalid_Authentication_Tag Botan::Integrity_Failure

For compatability with older versions

Definition at line 289 of file exceptn.h.

lock_guard_type

template<typename T >

using Botan::lock_guard_type = typedef lock_guard<T>

Definition at line 54 of file mutex.h.

MAC

typedef MessageAuthenticationCode Botan::MAC

Definition at line 154 of file mac.h.

mutex_type

typedef noop_mutex Botan::mutex_type

Definition at line 52 of file mutex.h.

PK_KA_Key

typedef PK_Key_Agreement_Key Botan::PK_KA_Key

Definition at line 313 of file pk_keys.h.

PKCS8_PrivateKey

typedef Private_Key Botan::PKCS8_PrivateKey

Definition at line 315 of file pk_keys.h.

poly

typedef newhope_poly Botan::poly

Definition at line 25 of file newhope.cpp.

recursive_mutex_type

typedef noop_mutex Botan::recursive_mutex_type

Definition at line 53 of file mutex.h.

RNG

typedef RandomNumberGenerator Botan::RNG

Convenience typedef

Definition at line 211 of file rng.h.

S2K

typedef PBKDF Botan::S2K

Definition at line 232 of file pbkdf.h.

s32bit

using Botan::s32bit = typedef std::int32_t

Definition at line 93 of file types.h.

secure_deque

template<typename T >

using Botan::secure_deque = typedef std::deque<T, secure_allocator<T> >

Definition at line 66 of file secmem.h.

secure_vector

template<typename T >

using Botan::secure_vector = typedef std::vector<T, secure_allocator<T> >

Definition at line 65 of file secmem.h.

SecureVector

template<typename T >

using Botan::SecureVector = typedef secure_vector<T>

Definition at line 69 of file secmem.h.

SHA_1

typedef SHA_160 Botan::SHA_1

Definition at line 69 of file sha160.h.

SM2_Encryption_PrivateKey

typedef SM2_PrivateKey Botan::SM2_Encryption_PrivateKey

Definition at line 122 of file sm2.h.

SM2_Encryption_PublicKey

typedef SM2_PublicKey Botan::SM2_Encryption_PublicKey

Definition at line 119 of file sm2.h.

SM2_Signature_PrivateKey

typedef SM2_PrivateKey Botan::SM2_Signature_PrivateKey

Definition at line 121 of file sm2.h.

SM2_Signature_PublicKey

typedef SM2_PublicKey Botan::SM2_Signature_PublicKey

Definition at line 118 of file sm2.h.

SymmetricKey

using Botan::SymmetricKey = typedef OctetString

Alternate name for octet string showing intent to use as a key

Definition at line 143 of file symkey.h.

u16bit

using Botan::u16bit = typedef std::uint16_t

Definition at line 90 of file types.h.

u32bit

using Botan::u32bit = typedef std::uint32_t

Definition at line 91 of file types.h.

u64bit

using Botan::u64bit = typedef std::uint64_t

Definition at line 92 of file types.h.

wots_keysig_t

typedef std::vector< secure_vector< uint8_t > > Botan::wots_keysig_t

Definition at line 20 of file xmss_common_ops.h.

X25519_PrivateKey

typedef Curve25519_PrivateKey Botan::X25519_PrivateKey

Definition at line 105 of file curve25519.h.

X25519_PublicKey

typedef Curve25519_PublicKey Botan::X25519_PublicKey

Definition at line 104 of file curve25519.h.

X509_PublicKey

typedef Public_Key Botan::X509_PublicKey

Definition at line 314 of file pk_keys.h.

X509_Time

typedef ASN1_Time Botan::X509_Time

Definition at line 389 of file asn1_obj.h.

Enumeration Type Documentation

anonymous enum

anonymous enum

Enumerator
SM3_BLOCK_BYTES
SM3_DIGEST_BYTES

Definition at line 15 of file sm3.h.

     {
  SM3_BLOCK_BYTES = 64,
  SM3_DIGEST_BYTES = 32
};

ASN1_Class

enum class Botan::ASN1_Class : uint32_t

strong

ASN.1 Class Tags

Enumerator
Universal
Application
ContextSpecific
Private
Constructed
ExplicitContextSpecific
NoObject

Definition at line 24 of file asn1_obj.h.

                      : uint32_t {
   Universal        = 0b0000'0000,
   Application      = 0b0100'0000,
   ContextSpecific  = 0b1000'0000,
   Private          = 0b1100'0000,
 
   Constructed      = 0b0010'0000,
   ExplicitContextSpecific = Constructed | ContextSpecific,
 
   NoObject        = 0xFF00
};

ASN1_Type

enum class Botan::ASN1_Type : uint32_t

strong

ASN.1 Type Tags

Enumerator
Eoc
Boolean
Integer
BitString
OctetString
Null
ObjectId
Enumerated
Sequence
Set
Utf8String
NumericString
PrintableString
TeletexString
Ia5String
VisibleString
UniversalString
BmpString
UtcTime
GeneralizedTime
NoObject

Definition at line 39 of file asn1_obj.h.

                     : uint32_t {
   Eoc              = 0x00,
   Boolean          = 0x01,
   Integer          = 0x02,
   BitString        = 0x03,
   OctetString      = 0x04,
   Null             = 0x05,
   ObjectId         = 0x06,
   Enumerated       = 0x0A,
   Sequence         = 0x10,
   Set              = 0x11,
 
   Utf8String       = 0x0C,
   NumericString    = 0x12,
   PrintableString  = 0x13,
   TeletexString    = 0x14,
   Ia5String        = 0x16,
   VisibleString    = 0x1A,
   UniversalString  = 0x1C,
   BmpString        = 0x1E,
 
   UtcTime          = 0x17,
   GeneralizedTime  = 0x18,
 
   NoObject         = 0xFF00,
};

Certificate_Status_Code

enum class Botan::Certificate_Status_Code

strong

Certificate validation status code

Enumerator
OK
VERIFIED
OCSP_RESPONSE_GOOD
OCSP_SIGNATURE_OK
VALID_CRL_CHECKED
OCSP_NO_HTTP
FIRST_WARNING_STATUS
CERT_SERIAL_NEGATIVE
DN_TOO_LONG
OCSP_NO_REVOCATION_URL
OCSP_SERVER_NOT_AVAILABLE
FIRST_ERROR_STATUS
SIGNATURE_METHOD_TOO_WEAK
UNTRUSTED_HASH
NO_REVOCATION_DATA
NO_MATCHING_CRLDP
CERT_NOT_YET_VALID
CERT_HAS_EXPIRED
OCSP_NOT_YET_VALID
OCSP_HAS_EXPIRED
CRL_NOT_YET_VALID
CRL_HAS_EXPIRED
OCSP_IS_TOO_OLD
CERT_ISSUER_NOT_FOUND
CANNOT_ESTABLISH_TRUST
CERT_CHAIN_LOOP
CHAIN_LACKS_TRUST_ROOT
CHAIN_NAME_MISMATCH
POLICY_ERROR
INVALID_USAGE
CERT_CHAIN_TOO_LONG
CA_CERT_NOT_FOR_CERT_ISSUER
NAME_CONSTRAINT_ERROR
CA_CERT_NOT_FOR_CRL_ISSUER
OCSP_CERT_NOT_LISTED
OCSP_BAD_STATUS
CERT_NAME_NOMATCH
UNKNOWN_CRITICAL_EXTENSION
DUPLICATE_CERT_EXTENSION
OCSP_SIGNATURE_ERROR
OCSP_ISSUER_NOT_FOUND
OCSP_RESPONSE_MISSING_KEYUSAGE
OCSP_RESPONSE_INVALID
EXT_IN_V1_V2_CERT
DUPLICATE_CERT_POLICY
V2_IDENTIFIERS_IN_V1_CERT
CERT_IS_REVOKED
CRL_BAD_SIGNATURE
SIGNATURE_ERROR
CERT_PUBKEY_INVALID
SIGNATURE_ALGO_UNKNOWN
SIGNATURE_ALGO_BAD_PARAMS

Definition at line 17 of file pkix_enums.h.

                                   {
   OK = 0,
   VERIFIED = 0,
 
   // Revocation status
   OCSP_RESPONSE_GOOD = 1,
   OCSP_SIGNATURE_OK = 2,
   VALID_CRL_CHECKED = 3,
   OCSP_NO_HTTP = 4,
 
   // Warnings
   FIRST_WARNING_STATUS = 500,
   CERT_SERIAL_NEGATIVE = 500,
   DN_TOO_LONG = 501,
   OCSP_NO_REVOCATION_URL = 502,
   OCSP_SERVER_NOT_AVAILABLE = 503,
 
   // Errors
   FIRST_ERROR_STATUS = 1000,
 
   SIGNATURE_METHOD_TOO_WEAK = 1000,
   UNTRUSTED_HASH = 1001,
   NO_REVOCATION_DATA = 1002,
   NO_MATCHING_CRLDP = 1003,
 
   // Time problems
   CERT_NOT_YET_VALID = 2000,
   CERT_HAS_EXPIRED = 2001,
   OCSP_NOT_YET_VALID = 2002,
   OCSP_HAS_EXPIRED = 2003,
   CRL_NOT_YET_VALID = 2004,
   CRL_HAS_EXPIRED = 2005,
   OCSP_IS_TOO_OLD = 2006,
 
   // Chain generation problems
   CERT_ISSUER_NOT_FOUND = 3000,
   CANNOT_ESTABLISH_TRUST = 3001,
   CERT_CHAIN_LOOP = 3002,
   CHAIN_LACKS_TRUST_ROOT = 3003,
   CHAIN_NAME_MISMATCH = 3004,
 
   // Validation errors
   POLICY_ERROR = 4000,
   INVALID_USAGE = 4001,
   CERT_CHAIN_TOO_LONG = 4002,
   CA_CERT_NOT_FOR_CERT_ISSUER = 4003,
   NAME_CONSTRAINT_ERROR = 4004,
 
   // Revocation errors
   CA_CERT_NOT_FOR_CRL_ISSUER = 4005,
   OCSP_CERT_NOT_LISTED = 4006,
   OCSP_BAD_STATUS = 4007,
 
   // Other problems
   CERT_NAME_NOMATCH = 4008,
   UNKNOWN_CRITICAL_EXTENSION = 4009,
   DUPLICATE_CERT_EXTENSION = 4010,
   OCSP_SIGNATURE_ERROR = 4501,
   OCSP_ISSUER_NOT_FOUND = 4502,
   OCSP_RESPONSE_MISSING_KEYUSAGE = 4503,
   OCSP_RESPONSE_INVALID = 4504,
   EXT_IN_V1_V2_CERT = 4505,
   DUPLICATE_CERT_POLICY = 4506,
   V2_IDENTIFIERS_IN_V1_CERT = 4507,
 
   // Hard failures
   CERT_IS_REVOKED = 5000,
   CRL_BAD_SIGNATURE = 5001,
   SIGNATURE_ERROR = 5002,
   CERT_PUBKEY_INVALID = 5003,
   SIGNATURE_ALGO_UNKNOWN = 5004,
   SIGNATURE_ALGO_BAD_PARAMS = 5005
};

Cipher_Dir

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.

: int { ENCRYPTION, DECRYPTION };

CRL_Code

enum class Botan::CRL_Code : uint32_t

strong

X.509v2 CRL Reason Code.

Enumerator
UNSPECIFIED
KEY_COMPROMISE
CA_COMPROMISE
AFFILIATION_CHANGED
SUPERSEDED
CESSATION_OF_OPERATION
CERTIFICATE_HOLD
REMOVE_FROM_CRL
PRIVLEDGE_WITHDRAWN
PRIVILEGE_WITHDRAWN
AA_COMPROMISE
DELETE_CRL_ENTRY
OCSP_GOOD
OCSP_UNKNOWN

Definition at line 118 of file pkix_enums.h.

                    : uint32_t {
   UNSPECIFIED            = 0,
   KEY_COMPROMISE         = 1,
   CA_COMPROMISE          = 2,
   AFFILIATION_CHANGED    = 3,
   SUPERSEDED             = 4,
   CESSATION_OF_OPERATION = 5,
   CERTIFICATE_HOLD       = 6,
   REMOVE_FROM_CRL        = 8,
   PRIVLEDGE_WITHDRAWN    = 9,
   PRIVILEGE_WITHDRAWN    = 9,
   AA_COMPROMISE          = 10,
 
   DELETE_CRL_ENTRY       = 0xFF00,
   OCSP_GOOD              = 0xFF01,
   OCSP_UNKNOWN           = 0xFF02
};

Decoder_Checking

enum Botan::Decoder_Checking

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

Definition at line 166 of file filter.h.

{ NONE, IGNORE_WS, FULL_CHECK };

DL_Group_Format

enum class Botan::DL_Group_Format

strong

The DL group encoding format variants.

Enumerator
ANSI_X9_42
ANSI_X9_57
PKCS_3
DSA_PARAMETERS
DH_PARAMETERS
ANSI_X9_42_DH_PARAMETERS
PKCS3_DH_PARAMETERS

Definition at line 27 of file dl_group.h.

                           {
   ANSI_X9_42,
   ANSI_X9_57,
   PKCS_3,
 
   DSA_PARAMETERS = ANSI_X9_57,
   DH_PARAMETERS = ANSI_X9_42,
   ANSI_X9_42_DH_PARAMETERS = ANSI_X9_42,
   PKCS3_DH_PARAMETERS = PKCS_3
};

DL_Group_Source

enum class Botan::DL_Group_Source

strong

Enumerator
Builtin
RandomlyGenerated
ExternalSource

Definition at line 18 of file dl_group.h.

                           {
   Builtin,
   RandomlyGenerated,
   ExternalSource,
};

EC_Group_Encoding

enum class Botan::EC_Group_Encoding

strong

This class represents elliptic curce domain parameters

Enumerator
Explicit
ImplicitCA
NamedCurve
EC_DOMPAR_ENC_EXPLICIT
EC_DOMPAR_ENC_IMPLICITCA
EC_DOMPAR_ENC_OID

Definition at line 23 of file ec_group.h.

                             {
   Explicit,
   ImplicitCA,
   NamedCurve,
 
   EC_DOMPAR_ENC_EXPLICIT = Explicit,
   EC_DOMPAR_ENC_IMPLICITCA = ImplicitCA,
   EC_DOMPAR_ENC_OID = NamedCurve
};

EC_Group_Source

enum class Botan::EC_Group_Source

strong

Enumerator
Builtin
ExternalSource

Definition at line 33 of file ec_group.h.

                           {
   Builtin,
   ExternalSource,
};

ECIES_Flags

enum class Botan::ECIES_Flags : uint32_t

strong

Enumerator
NONE
SINGLE_HASH_MODE	if set: prefix the input of the (ecdh) key agreement with the encoded (ephemeral) public key
COFACTOR_MODE	(decryption only) if set: use cofactor multiplication during (ecdh) key agreement
OLD_COFACTOR_MODE	if set: use ecdhc instead of ecdh
CHECK_MODE	(decryption only) if set: test if the (ephemeral) public key is on the curve

Definition at line 27 of file ecies.h.

   {
   NONE = 0,
 
   /// if set: prefix the input of the (ecdh) key agreement with the encoded (ephemeral) public key
   SINGLE_HASH_MODE = 1,
 
   /// (decryption only) if set: use cofactor multiplication during (ecdh) key agreement
   COFACTOR_MODE = 2,
 
   /// if set: use ecdhc instead of ecdh
   OLD_COFACTOR_MODE = 4,
 
   /// (decryption only) if set: test if the (ephemeral) public key is on the curve
   CHECK_MODE = 8
   };

ErrorType

enum class Botan::ErrorType

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
RoughtimeError	An error during Roughtime validation
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.

                     {
   /** Some unknown error */
   Unknown = 1,
   /** An error while calling a system interface */
   SystemError,
   /** An operation seems valid, but not supported by the current version */
   NotImplemented,
   /** Memory allocation failure */
   OutOfMemory,
   /** An internal error occurred */
   InternalError,
   /** An I/O error occurred */
   IoError,
 
   /** Invalid object state */
   InvalidObjectState = 100,
   /** A key was not set on an object when this is required */
   KeyNotSet,
   /** The application provided an argument which is invalid */
   InvalidArgument,
   /** A key with invalid length was provided */
   InvalidKeyLength,
   /** A nonce with invalid length was provided */
   InvalidNonceLength,
   /** An object type was requested but cannot be found */
   LookupError,
   /** Encoding a message or datum failed */
   EncodingFailure,
   /** Decoding a message or datum failed */
   DecodingFailure,
   /** A TLS error (error_code will be the alert type) */
   TLSError,
   /** An error during an HTTP operation */
   HttpError,
   /** A message with an invalid authentication tag was detected */
   InvalidTag,
   /** An error during Roughtime validation */
   RoughtimeError,
 
   /** An error when interacting with CommonCrypto API */
   CommonCryptoError = 201,
   /** An error when interacting with a PKCS11 device */
   Pkcs11Error,
   /** An error when interacting with a TPM device */
   TPMError,
   /** An error when interacting with a database */
   DatabaseError,
 
   /** An error when interacting with zlib */
   ZlibError = 300,
   /** An error when interacting with bzip2 */
   Bzip2Error,
   /** An error when interacting with lzma */
   LzmaError,
 
};

Key_Constraints

enum Botan::Key_Constraints

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 102 of file pkix_enums.h.

                     {
   NO_CONSTRAINTS     = 0,
   DIGITAL_SIGNATURE  = 1 << 15,
   NON_REPUDIATION    = 1 << 14,
   KEY_ENCIPHERMENT   = 1 << 13,
   DATA_ENCIPHERMENT  = 1 << 12,
   KEY_AGREEMENT      = 1 << 11,
   KEY_CERT_SIGN      = 1 << 10,
   CRL_SIGN           = 1 << 9,
   ENCIPHER_ONLY      = 1 << 8,
   DECIPHER_ONLY      = 1 << 7
};

KyberKeyEncoding

enum class Botan::KyberKeyEncoding

strong

Enumerator
Raw
Full

Definition at line 59 of file kyber.h.

   {
   Raw, // as implemented in the reference implementation
   Full // as described in draft-uni-qsckeys-00 Section 4.3 (private key), 4.5 (public key)
   };

Newhope_Mode

enum class Botan::Newhope_Mode

strong

This chooses the XOF + hash for NewHope The official NewHope specification and reference implementation use SHA-3 and SHAKE-128. BoringSSL instead uses SHA-256 and AES-128 in CTR mode. CECPQ1 (x25519+NewHope) always uses BoringSSL's mode

Enumerator
SHA3
BoringSSL

Definition at line 58 of file newhope.h.

   {
   SHA3,
   BoringSSL
   };

Newhope_Params

enum Botan::Newhope_Params

Enumerator
NEWHOPE_SENDABYTES
NEWHOPE_SENDBBYTES
NEWHOPE_OFFER_BYTES
NEWHOPE_ACCEPT_BYTES
NEWHOPE_SHARED_KEY_BYTES
NEWHOPE_SEED_BYTES
NEWHOPE_POLY_BYTES
CECPQ1_OFFER_BYTES
CECPQ1_ACCEPT_BYTES
CECPQ1_SHARED_KEY_BYTES

Definition at line 35 of file newhope.h.

   {
   NEWHOPE_SENDABYTES = 1824,
   NEWHOPE_SENDBBYTES = 2048,
 
   NEWHOPE_OFFER_BYTES  = 1824,
   NEWHOPE_ACCEPT_BYTES = 2048,
   NEWHOPE_SHARED_KEY_BYTES = 32,
 
   NEWHOPE_SEED_BYTES = 32,
   NEWHOPE_POLY_BYTES = 1792,
 
   CECPQ1_OFFER_BYTES   = NEWHOPE_OFFER_BYTES + 32,
   CECPQ1_ACCEPT_BYTES  = NEWHOPE_ACCEPT_BYTES + 32,
   CECPQ1_SHARED_KEY_BYTES = NEWHOPE_SHARED_KEY_BYTES + 32
   };

Signature_Format

enum Botan::Signature_Format

The two types of signature format supported by Botan.

Enumerator
IEEE_1363
DER_SEQUENCE

Definition at line 23 of file pk_keys.h.

{ IEEE_1363, DER_SEQUENCE };

TPM_Storage_Type

enum class Botan::TPM_Storage_Type

strong

Enumerator
User
System

Definition at line 103 of file tpm.h.

{ User, System };

Usage_Type

enum class Botan::Usage_Type

strong

Enumerator
UNSPECIFIED
TLS_SERVER_AUTH
TLS_CLIENT_AUTH
CERTIFICATE_AUTHORITY
OCSP_RESPONDER
ENCRYPTION

Definition at line 22 of file x509cert.h.

   {
   UNSPECIFIED, // no restrictions
   TLS_SERVER_AUTH,
   TLS_CLIENT_AUTH,
   CERTIFICATE_AUTHORITY,
   OCSP_RESPONDER,
   ENCRYPTION
   };

Function Documentation

abs()

BigInt Botan::abs ( const BigInt &  n )

inline

Return the absolute value

Parameters

n	an integer

Returns

absolute value of n

Definition at line 22 of file numthry.h.

{ return n.abs(); }

References Botan::BigInt::abs().

Referenced by gcd().

allocate_memory()

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).

Parameters

elems	the number of elements
elem_size	the size of each element

Returns

pointer to allocated and zeroed memory, or throw std::bad_alloc on failure

Definition at line 18 of file mem_ops.cpp.

   {
   if(elems == 0 || elem_size == 0)
      return nullptr;
 
   // Some calloc implementations do not check for overflow (?!?)
   const size_t total_size = elems * elem_size;
 
   if(total_size < elems || total_size < elem_size)
      throw std::bad_alloc();
 
#if defined(BOTAN_HAS_LOCKING_ALLOCATOR)
   if(void* p = mlock_allocator::instance().allocate(elems, elem_size))
      return p;
#endif
 
#if defined(BOTAN_TARGET_OS_HAS_ALLOC_CONCEAL)
   void *ptr = ::calloc_conceal(elems, elem_size);
#else
   void* ptr = std::calloc(elems, elem_size);
#endif
   if(!ptr)
      throw std::bad_alloc();
   return ptr;
   }

References Botan::mlock_allocator::instance().

Referenced by Botan::secure_allocator< T >::allocate().

argon2()

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  )

inline

Argon2 key derivation function

Parameters

output	the output will be placed here
output_len	length of output
password	the user password
password_len	the length of password
salt	the salt
salt_len	length of salt
key	an optional secret key
key_len	the length of key
ad	an optional additional input
ad_len	the length of ad
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 113 of file argon2.h.

   {
   std::unique_ptr<PasswordHashFamily> pwdhash_fam;
 
   if(y == 0)
      pwdhash_fam = PasswordHashFamily::create_or_throw("Argon2d");
   else if(y == 1)
      pwdhash_fam = PasswordHashFamily::create_or_throw("Argon2i");
   else if(y == 2)
      pwdhash_fam = PasswordHashFamily::create_or_throw("Argon2id");
   else
      throw Not_Implemented("Unknown Argon2 family type");
 
   auto pwdhash = pwdhash_fam->from_params(M, t, p);
 
   pwdhash->derive_key(output, output_len,
                       password, password_len,
                       salt, salt_len,
                       ad, ad_len,
                       key, key_len);
   }

References salt_len.

argon2_check_pwhash()

bool Botan::argon2_check_pwhash	(	const char *	password,
		size_t	password_len,
		const std::string &	hash
	)

Check a previously created password hash

Parameters

password	the password to check against
password_len	the length of password
hash	the stored hash to check against

Definition at line 73 of file argon2fmt.cpp.

   {
   const std::vector<std::string> parts = split_on(input_hash, '$');
 
   if(parts.size() != 5)
      return false;
 
   uint8_t family = 0;
 
   if(parts[0] == "argon2d")
      family = 0;
   else if(parts[0] == "argon2i")
      family = 1;
   else if(parts[0] == "argon2id")
      family = 2;
   else
      return false;
 
   if(parts[1] != "v=19")
      return false;
 
   const std::vector<std::string> params = split_on(parts[2], ',');
 
   if(params.size() != 3)
      return false;
 
   size_t M = 0, t = 0, p = 0;
 
   for(const auto& param_str : params)
      {
      const std::vector<std::string> param = split_on(param_str, '=');
 
      if(param.size() != 2)
         return false;
 
      const std::string key = param[0];
      const size_t val = to_u32bit(param[1]);
      if(key == "m")
         M = val;
      else if(key == "t")
         t = val;
      else if(key == "p")
         p = val;
      else
         return false;
      }
 
   std::vector<uint8_t> salt(base64_decode_max_output(parts[3].size()));
   salt.resize(base64_decode(salt.data(), parts[3], false));
 
   std::vector<uint8_t> hash(base64_decode_max_output(parts[4].size()));
   hash.resize(base64_decode(hash.data(), parts[4], false));
 
   if(hash.size() < 4)
      return false;
 
   std::vector<uint8_t> generated(hash.size());
   auto pwdhash_fam = PasswordHashFamily::create_or_throw(argon2_family(family));
   auto pwdhash = pwdhash_fam->from_params(M, t, p);
 
   pwdhash->derive_key(generated.data(), generated.size(),
                       password, password_len,
                       salt.data(), salt.size());
 
   return constant_time_compare(generated.data(), hash.data(), generated.size());
   }

References base64_decode(), base64_decode_max_output(), constant_time_compare(), Botan::PasswordHashFamily::create_or_throw(), hash, split_on(), and to_u32bit().

argon2_generate_pwhash()

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,
		size_t	salt_len,
		size_t	output_len
	)

Definition at line 39 of file argon2fmt.cpp.

   {
   std::vector<uint8_t> salt(salt_len);
   rng.randomize(salt.data(), salt.size());
 
   std::vector<uint8_t> output(output_len);
 
   auto pwdhash_fam = PasswordHashFamily::create_or_throw(argon2_family(y));
   auto pwdhash = pwdhash_fam->from_params(M, t, p);
 
   pwdhash->derive_key(output.data(), output.size(),
                       password, password_len,
                       salt.data(), salt.size());
 
   std::ostringstream oss;
 
   if(y == 0)
      oss << "$argon2d$";
   else if(y == 1)
      oss << "$argon2i$";
   else
      oss << "$argon2id$";
 
   oss << "v=19$m=" << std::to_string(M)
       << ",t=" << std::to_string(t)
       << ",p=" << std::to_string(p) << "$";
   oss << strip_padding(base64_encode(salt)) << "$" << strip_padding(base64_encode(output));
 
   return oss.str();
   }

References base64_encode(), Botan::PasswordHashFamily::create_or_throw(), Botan::RandomNumberGenerator::randomize(), salt_len, and Botan::ASN1::to_string().

asn1_class_to_string()

std::string BOTAN_UNSTABLE_API Botan::asn1_class_to_string

(

ASN1_Class

type

)

Definition at line 87 of file asn1_obj.cpp.

   {
   switch(type)
      {
      case ASN1_Class::Universal:
         return "UNIVERSAL";
      case ASN1_Class::Constructed:
         return "CONSTRUCTED";
      case ASN1_Class::ContextSpecific:
         return "CONTEXT_SPECIFIC";
      case ASN1_Class::Application:
         return "APPLICATION";
      case ASN1_Class::Private:
         return "PRIVATE";
      case ASN1_Class::NoObject:
         return "NO_OBJECT";
      default:
         return "CLASS(" + std::to_string(static_cast<size_t>(type)) + ")";
      }
   }

References Application, Constructed, ContextSpecific, NoObject, Private, Botan::ASN1::to_string(), type, and Universal.

Referenced by Botan::BER_Object::assert_is_a().

asn1_tag_to_string()

std::string BOTAN_UNSTABLE_API Botan::asn1_tag_to_string

(

ASN1_Type

type

)

Definition at line 108 of file asn1_obj.cpp.

   {
   switch(type)
      {
      case ASN1_Type::Sequence:
         return "SEQUENCE";
 
      case ASN1_Type::Set:
         return "SET";
 
      case ASN1_Type::PrintableString:
         return "PRINTABLE STRING";
 
      case ASN1_Type::NumericString:
         return "NUMERIC STRING";
 
      case ASN1_Type::Ia5String:
         return "IA5 STRING";
 
      case ASN1_Type::TeletexString:
         return "T61 STRING";
 
      case ASN1_Type::Utf8String:
         return "UTF8 STRING";
 
      case ASN1_Type::VisibleString:
         return "VISIBLE STRING";
 
      case ASN1_Type::BmpString:
         return "BMP STRING";
 
      case ASN1_Type::UniversalString:
         return "UNIVERSAL STRING";
 
      case ASN1_Type::UtcTime:
         return "UTC TIME";
 
      case ASN1_Type::GeneralizedTime:
         return "GENERALIZED TIME";
 
      case ASN1_Type::OctetString:
         return "OCTET STRING";
 
      case ASN1_Type::BitString:
         return "BIT STRING";
 
      case ASN1_Type::Enumerated:
         return "ENUMERATED";
 
      case ASN1_Type::Integer:
         return "INTEGER";
 
      case ASN1_Type::Null:
         return "NULL";
 
      case ASN1_Type::ObjectId:
         return "OBJECT";
 
      case ASN1_Type::Boolean:
         return "BOOLEAN";
 
      case ASN1_Type::NoObject:
         return "NO_OBJECT";
 
      default:
         return "TAG(" + std::to_string(static_cast<uint32_t>(type)) + ")";
      }
   }

References BitString, BmpString, Boolean, Enumerated, GeneralizedTime, Ia5String, Integer, NoObject, Null, NumericString, ObjectId, OctetString, PrintableString, Sequence, Set, TeletexString, Botan::ASN1::to_string(), type, UniversalString, UtcTime, Utf8String, and VisibleString.

Referenced by Botan::BER_Object::assert_is_a().

assertion_failure()

void Botan::assertion_failure	(	const char *	expr_str,
		const char *	assertion_made,
		const char *	func,
		const char *	file,
		int	line
	)

Called when an assertion fails Throws an Exception object

Definition at line 37 of file assert.cpp.

   {
   std::ostringstream format;
 
   format << "False assertion ";
 
   if(assertion_made && assertion_made[0] != 0)
      format << "'" << assertion_made << "' (expression " << expr_str << ") ";
   else
      format << expr_str << " ";
 
   if(func)
      format << "in " << func << " ";
 
   format << "@" << file << ":" << line;
 
#if defined(BOTAN_TERMINATE_ON_ASSERTS)
   std::cerr << format.str() << '\n';
   std::abort();
#else
   throw Internal_Error(format.str());
#endif
   }

base32_decode() [1/5]

secure_vector< uint8_t > Botan::base32_decode	(	const char	input[],
		size_t	input_length,
		bool	ignore_ws = true
	)

Perform base32 decoding

Parameters

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

Returns

decoded base32 output

Definition at line 220 of file base32.cpp.

   {
   return base_decode_to_vec<secure_vector<uint8_t>>(Base32(), input, input_length, ignore_ws);
   }

base32_decode() [2/5]

secure_vector< uint8_t > Botan::base32_decode	(	const std::string &	input,
		bool	ignore_ws = true
	)

Perform base32 decoding

Parameters

input	some base32 input
ignore_ws	ignore whitespace on input; if false, throw an exception if whitespace is encountered

Returns

decoded base32 output

Definition at line 227 of file base32.cpp.

   {
   return base32_decode(input.data(), input.size(), ignore_ws);
   }

References base32_decode().

base32_decode() [3/5]

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

Parameters

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

Returns

number of bytes written to output

Definition at line 195 of file base32.cpp.

   {
   return base_decode(Base32(), out, in, input_length, input_consumed, final_inputs, ignore_ws);
   }

References base_decode().

Referenced by base32_decode().

base32_decode() [4/5]

size_t Botan::base32_decode	(	uint8_t	output[],
		const char	input[],
		size_t	input_length,
		bool	ignore_ws = true
	)

Perform base32 decoding

Parameters

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

Returns

number of bytes written to output

Definition at line 205 of file base32.cpp.

   {
   return base_decode_full(Base32(), output, input, input_length, ignore_ws);
   }

References base_decode_full().

base32_decode() [5/5]

size_t Botan::base32_decode	(	uint8_t	output[],
		const std::string &	input,
		bool	ignore_ws = true
	)

Perform base32 decoding

Parameters

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

Returns

number of bytes written to output

Definition at line 213 of file base32.cpp.

   {
   return base32_decode(output, input.data(), input.length(), ignore_ws);
   }

References base32_decode().

base32_encode() [1/3]

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

Parameters

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

Returns

number of bytes written to output

Definition at line 180 of file base32.cpp.

   {
   return base_encode(Base32(), out, in, input_length, input_consumed, final_inputs);
   }

References base_encode().

Referenced by base32_encode().

base32_encode() [2/3]

template<typename Alloc >

std::string Botan::base32_encode

(

const std::vector< uint8_t, Alloc > &

input

)

Perform base32 encoding

Parameters

input

some input

Returns

base32 representation of input

Definition at line 50 of file base32.h.

   {
   return base32_encode(input.data(), input.size());
   }

References base32_encode().

base32_encode() [3/3]

std::string Botan::base32_encode	(	const uint8_t	input[],
		size_t	input_length
	)

Perform base32 encoding

Parameters

input	some input
input_length	length of input in bytes

Returns

base32 representation of input

Definition at line 189 of file base32.cpp.

   {
   return base_encode_to_string(Base32(), input, input_length);
   }

References base_encode_to_string().

base58_check_decode() [1/2]

std::vector< uint8_t > Botan::base58_check_decode	(	const char	input[],
		size_t	input_length
	)

Perform base58 decoding with checksum

Definition at line 171 of file base58.cpp.

   {
   std::vector<uint8_t> dec = base58_decode(input, input_length);
 
   if(dec.size() < 4)
      throw Decoding_Error("Invalid base58 too short for checksum");
 
   const uint32_t computed_checksum = sha256_d_checksum(dec.data(), dec.size() - 4);
   const uint32_t checksum = load_be<uint32_t>(&dec[dec.size()-4], 0);
 
   if(checksum != computed_checksum)
      throw Decoding_Error("Invalid base58 checksum");
 
   dec.resize(dec.size() - 4);
 
   return dec;
   }

References base58_decode(), and load_be< uint32_t >().

Referenced by base58_check_decode().

base58_check_decode() [2/2]

std::vector< uint8_t > Botan::base58_check_decode ( const std::string &  s )

inline

Definition at line 69 of file base58.h.

   {
   return base58_check_decode(s.data(), s.size());
   }

References base58_check_decode().

base58_check_encode() [1/2]

template<typename Alloc >

std::string Botan::base58_check_encode ( const std::vector< uint8_t, Alloc > &  vec )

inline

Definition at line 59 of file base58.h.

   {
   return base58_check_encode(vec.data(), vec.size());
   }

References base58_check_encode().

base58_check_encode() [2/2]

std::string Botan::base58_check_encode	(	const uint8_t	input[],
		size_t	input_length
	)

Perform base58 encoding with checksum

Definition at line 136 of file base58.cpp.

   {
   BigInt v(input, input_length);
   v <<= 32;
   v += sha256_d_checksum(input, input_length);
   return base58_encode(v, count_leading_zeros(input, input_length, 0));
   }

References base58_encode(), and v.

Referenced by base58_check_encode().

base58_decode() [1/2]

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 144 of file base58.cpp.

   {
   const size_t leading_zeros = count_leading_zeros(input, input_length, '1');
 
   BigInt v;
 
   for(size_t i = leading_zeros; i != input_length; ++i)
      {
      const char c = input[i];
 
      if(c == ' ' || c == '\n')
         continue;
 
      const uint8_t idx = base58_value_of(c);
 
      if(idx == 0xFF)
         throw Decoding_Error("Invalid base58");
 
      v *= 58;
      v += idx;
      }
 
   std::vector<uint8_t> output(v.bytes() + leading_zeros);
   v.binary_encode(output.data() + leading_zeros);
   return output;
   }

References v.

Referenced by base58_check_decode(), and base58_decode().

base58_decode() [2/2]

std::vector< uint8_t > Botan::base58_decode ( const std::string &  s )

inline

Definition at line 64 of file base58.h.

   {
   return base58_decode(s.data(), s.size());
   }

References base58_decode().

base58_encode() [1/2]

template<typename Alloc >

std::string Botan::base58_encode ( const std::vector< uint8_t, Alloc > &  vec )

inline

Definition at line 53 of file base58.h.

   {
   return base58_encode(vec.data(), vec.size());
   }

References base58_encode().

base58_encode() [2/2]

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 130 of file base58.cpp.

   {
   BigInt v(input, input_length);
   return base58_encode(v, count_leading_zeros(input, input_length, 0));
   }

References base58_encode(), and v.

Referenced by base58_check_encode(), and base58_encode().

base64_decode() [1/5]

secure_vector< uint8_t > Botan::base64_decode	(	const char	input[],
		size_t	input_length,
		bool	ignore_ws = true
	)

Perform base64 decoding

Parameters

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

Returns

decoded base64 output

Definition at line 225 of file base64.cpp.

   {
   return base_decode_to_vec<secure_vector<uint8_t>>(Base64(), input, input_length, ignore_ws);
   }

base64_decode() [2/5]

secure_vector< uint8_t > Botan::base64_decode	(	const std::string &	input,
		bool	ignore_ws = true
	)

Perform base64 decoding

Parameters

input	some base64 input
ignore_ws	ignore whitespace on input; if false, throw an exception if whitespace is encountered

Returns

decoded base64 output

Definition at line 232 of file base64.cpp.

   {
   return base64_decode(input.data(), input.size(), ignore_ws);
   }

References base64_decode().

base64_decode() [3/5]

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

Parameters

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

Returns

number of bytes written to output

Definition at line 200 of file base64.cpp.

   {
   return base_decode(Base64(), out, in, input_length, input_consumed, final_inputs, ignore_ws);
   }

References base_decode().

Referenced by argon2_check_pwhash(), base64_decode(), botan_base64_decode(), Botan::Roughtime::Chain::Chain(), check_passhash9(), Botan::PEM_Code::decode(), Botan::Base64_Decoder::end_msg(), Botan::Encrypted_PSK_Database::get(), Botan::Encrypted_PSK_Database::list_names(), Botan::Roughtime::servers_from_str(), and Botan::Base64_Decoder::write().

base64_decode() [4/5]

size_t Botan::base64_decode	(	uint8_t	output[],
		const char	input[],
		size_t	input_length,
		bool	ignore_ws = true
	)

Perform base64 decoding

Parameters

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

Returns

number of bytes written to output

Definition at line 210 of file base64.cpp.

   {
   return base_decode_full(Base64(), output, input, input_length, ignore_ws);
   }

References base_decode_full().

base64_decode() [5/5]

size_t Botan::base64_decode	(	uint8_t	output[],
		const std::string &	input,
		bool	ignore_ws = true
	)

Perform base64 decoding

Parameters

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

Returns

number of bytes written to output

Definition at line 218 of file base64.cpp.

   {
   return base64_decode(output, input.data(), input.length(), ignore_ws);
   }

References base64_decode().

base64_decode_max_output()

size_t Botan::base64_decode_max_output

(

size_t

input_length

)

Calculate the size of output buffer for base64_decode

Parameters

input_length

the length of input in bytes

Returns

the size of output buffer in bytes

Definition at line 243 of file base64.cpp.

   {
   return Base64::decode_max_output(input_length);
   }

Referenced by argon2_check_pwhash(), and botan_base64_decode().

base64_encode() [1/3]

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

Parameters

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

Returns

number of bytes written to output

Definition at line 185 of file base64.cpp.

   {
   return base_encode(Base64(), out, in, input_length, input_consumed, final_inputs);
   }

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(), Botan::Encrypted_PSK_Database::set(), and Botan::Roughtime::Chain::to_string().

base64_encode() [2/3]

template<typename Alloc >

std::string Botan::base64_encode

(

const std::vector< uint8_t, Alloc > &

input

)

Perform base64 encoding

Parameters

input

some input

Returns

base64adecimal representation of input

Definition at line 50 of file base64.h.

   {
   return base64_encode(input.data(), input.size());
   }

References base64_encode().

base64_encode() [3/3]

std::string Botan::base64_encode	(	const uint8_t	input[],
		size_t	input_length
	)

Perform base64 encoding

Parameters

input	some input
input_length	length of input in bytes

Returns

base64adecimal representation of input

Definition at line 194 of file base64.cpp.

   {
   return base_encode_to_string(Base64(), input, input_length);
   }

References base_encode_to_string().

base64_encode_max_output()

size_t Botan::base64_encode_max_output

(

size_t

input_length

)

Calculate the size of output buffer for base64_encode

Parameters

input_length

the length of input in bytes

Returns

the size of output buffer in bytes

Definition at line 238 of file base64.cpp.

   {
   return Base64::encode_max_output(input_length);
   }

base_decode()

template<typename Base >

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

Parameters

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

Returns

number of bytes written to output

Definition at line 124 of file codec_base.h.

   {
   const size_t decoding_bytes_in = base.decoding_bytes_in();
   const size_t decoding_bytes_out = base.decoding_bytes_out();
 
   uint8_t* out_ptr = output;
   std::vector<uint8_t> decode_buf(decoding_bytes_in, 0);
   size_t decode_buf_pos = 0;
   size_t final_truncate = 0;
 
   clear_mem(output, base.decode_max_output(input_length));
 
   for(size_t i = 0; i != input_length; ++i)
      {
      const uint8_t bin = base.lookup_binary_value(input[i]);
 
      if(base.check_bad_char(bin, input[i], ignore_ws)) // May throw Invalid_Argument
         {
         decode_buf[decode_buf_pos] = bin;
         ++decode_buf_pos;
         }
 
      /*
      * If we're at the end of the input, pad with 0s and truncate
      */
      if(final_inputs && (i == input_length - 1))
         {
         if(decode_buf_pos)
            {
            for(size_t j = decode_buf_pos; j < decoding_bytes_in; ++j)
               { decode_buf[j] = 0; }
 
            final_truncate = decoding_bytes_in - decode_buf_pos;
            decode_buf_pos = decoding_bytes_in;
            }
         }
 
      if(decode_buf_pos == decoding_bytes_in)
         {
         base.decode(out_ptr, decode_buf.data());
 
         out_ptr += decoding_bytes_out;
         decode_buf_pos = 0;
         input_consumed = i+1;
         }
      }
 
   while(input_consumed < input_length &&
         base.lookup_binary_value(input[input_consumed]) == 0x80)
      {
      ++input_consumed;
      }
 
   size_t written = (out_ptr - output) - base.bytes_to_remove(final_truncate);
 
   return written;
   }

References clear_mem().

Referenced by base32_decode(), base64_decode(), and base_decode_full().

base_decode_full()

template<typename Base >

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.

   {
   size_t consumed = 0;
   const size_t written = base_decode(base, output, input, input_length, consumed, true, ignore_ws);
 
   if(consumed != input_length)
      {
      throw Invalid_Argument(base.name() + " decoding failed, input did not have full bytes");
      }
 
   return written;
   }

References base_decode().

Referenced by base32_decode(), base64_decode(), and base_decode_to_vec().

base_decode_to_vec()

template<typename Vector , typename Base >

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.

   {
   const size_t output_length = base.decode_max_output(input_length);
   Vector bin(output_length);
 
   const size_t written =
      base_decode_full(base, bin.data(), input, input_length, ignore_ws);
 
   bin.resize(written);
   return bin;
   }

References base_decode_full().

base_encode()

template<class Base >

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

Parameters

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

Returns

number of bytes written to output

Definition at line 34 of file codec_base.h.

   {
   input_consumed = 0;
 
   const size_t encoding_bytes_in = base.encoding_bytes_in();
   const size_t encoding_bytes_out = base.encoding_bytes_out();
 
   size_t input_remaining = input_length;
   size_t output_produced = 0;
 
   while(input_remaining >= encoding_bytes_in)
      {
      base.encode(output + output_produced, input + input_consumed);
 
      input_consumed += encoding_bytes_in;
      output_produced += encoding_bytes_out;
      input_remaining -= encoding_bytes_in;
      }
 
   if(final_inputs && input_remaining)
      {
      std::vector<uint8_t> remainder(encoding_bytes_in, 0);
      for(size_t i = 0; i != input_remaining; ++i)
         { remainder[i] = input[input_consumed + i]; }
 
      base.encode(output + output_produced, remainder.data());
 
      const size_t bits_consumed = base.bits_consumed();
      const size_t remaining_bits_before_padding = base.remaining_bits_before_padding();
 
      size_t empty_bits = 8 * (encoding_bytes_in - input_remaining);
      size_t index = output_produced + encoding_bytes_out - 1;
      while(empty_bits >= remaining_bits_before_padding)
         {
         output[index--] = '=';
         empty_bits -= bits_consumed;
         }
 
      input_consumed += input_remaining;
      output_produced += encoding_bytes_out;
      }
 
   return output_produced;
   }

Referenced by base32_encode(), base64_encode(), and base_encode_to_string().

base_encode_to_string()

template<typename Base >

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.

   {
   const size_t output_length = base.encode_max_output(input_length);
   std::string output(output_length, 0);
 
   size_t consumed = 0;
   size_t produced = 0;
 
   if(output_length > 0)
      {
      produced = base_encode(base, &output.front(),
                                   input, input_length,
                                   consumed, true);
      }
 
   BOTAN_ASSERT_EQUAL(consumed, input_length, "Consumed the entire input");
   BOTAN_ASSERT_EQUAL(produced, output.size(), "Produced expected size");
 
   return output;
   }

References base_encode(), and BOTAN_ASSERT_EQUAL.

Referenced by base32_encode(), and base64_encode().

bcrypt_pbkdf()

void Botan::bcrypt_pbkdf ( uint8_t  output[], size_t  output_len, const char *  password, size_t  password_len, const uint8_t  salt[], size_t  salt_len, size_t  rounds  )

inline

Bcrypt PBKDF compatible with OpenBSD bcrypt_pbkdf

Definition at line 71 of file bcrypt_pbkdf.h.

   {
   auto pwdhash_fam = PasswordHashFamily::create_or_throw("Bcrypt-PBKDF");
   auto pwdhash = pwdhash_fam->from_params(rounds);
   pwdhash->derive_key(output, output_len,
                       password, password_len,
                       salt, salt_len);
   }

References salt_len.

bigint_add2()

void Botan::bigint_add2 ( word  x[], size_t  x_size, const word  y[], size_t  y_size  )

inline

Two operand addition

Parameters

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 280 of file mp_core.h.

   {
   x[x_size] += bigint_add2_nc(x, x_size, y, y_size);
   }

References bigint_add2_nc().

Referenced by Botan::BigInt::add().

bigint_add2_nc()

word Botan::bigint_add2_nc ( word  x[], size_t  x_size, const word  y[], size_t  y_size  )

inline

Two operand addition with carry out

Definition at line 227 of file mp_core.h.

   {
   word carry = 0;
 
   BOTAN_ASSERT(x_size >= y_size, "Expected sizes");
 
   const size_t blocks = y_size - (y_size % 8);
 
   for(size_t i = 0; i != blocks; i += 8)
      carry = word8_add2(x + i, y + i, carry);
 
   for(size_t i = blocks; i != y_size; ++i)
      x[i] = word_add(x[i], y[i], &carry);
 
   for(size_t i = y_size; i != x_size; ++i)
      x[i] = word_add(x[i], 0, &carry);
 
   return carry;
   }

References BOTAN_ASSERT, carry(), word8_add2(), and word_add().

Referenced by bigint_add2().

bigint_add3()

void Botan::bigint_add3 ( word  z[], const word  x[], size_t  x_size, const word  y[], size_t  y_size  )

inline

Three operand addition

Definition at line 289 of file mp_core.h.

   {
   z[x_size > y_size ? x_size : y_size] +=
      bigint_add3_nc(z, x, x_size, y, y_size);
   }

References bigint_add3_nc().

Referenced by Botan::BigInt::add2().

bigint_add3_nc()

word Botan::bigint_add3_nc ( word  z[], const word  x[], size_t  x_size, const word  y[], size_t  y_size  )

inline

Three operand addition with carry out

Definition at line 250 of file mp_core.h.

   {
   if(x_size < y_size)
      { return bigint_add3_nc(z, y, y_size, x, x_size); }
 
   word carry = 0;
 
   const size_t blocks = y_size - (y_size % 8);
 
   for(size_t i = 0; i != blocks; i += 8)
      carry = word8_add3(z + i, x + i, y + i, carry);
 
   for(size_t i = blocks; i != y_size; ++i)
      z[i] = word_add(x[i], y[i], &carry);
 
   for(size_t i = y_size; i != x_size; ++i)
      z[i] = word_add(x[i], 0, &carry);
 
   return carry;
   }

References bigint_add3_nc(), carry(), word8_add3(), and word_add().

Referenced by bigint_add3(), bigint_add3_nc(), Botan::BigInt::mod_add(), and redc_p521().

bigint_cmp()

int32_t Botan::bigint_cmp ( const word  x[], size_t  x_size, const word  y[], size_t  y_size  )

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.

   {
   static_assert(sizeof(word) >= sizeof(uint32_t), "Size assumption");
 
   const word LT = static_cast<word>(-1);
   const word EQ = 0;
   const word GT = 1;
 
   const size_t common_elems = std::min(x_size, y_size);
 
   word result = EQ; // until found otherwise
 
   for(size_t i = 0; i != common_elems; i++)
      {
      const auto is_eq = CT::Mask<word>::is_equal(x[i], y[i]);
      const auto is_lt = CT::Mask<word>::is_lt(x[i], y[i]);
 
      result = is_eq.select(result, is_lt.select(LT, GT));
      }
 
   if(x_size < y_size)
      {
      word mask = 0;
      for(size_t i = x_size; i != y_size; i++)
         mask |= y[i];
 
      // If any bits were set in high part of y, then x < y
      result = CT::Mask<word>::is_zero(mask).select(result, LT);
      }
   else if(y_size < x_size)
      {
      word mask = 0;
      for(size_t i = y_size; i != x_size; i++)
         mask |= x[i];
 
      // If any bits were set in high part of x, then x > y
      result = CT::Mask<word>::is_zero(mask).select(result, GT);
      }
 
   CT::unpoison(result);
   BOTAN_DEBUG_ASSERT(result == LT || result == GT || result == EQ);
   return static_cast<int32_t>(result);
   }

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().

bigint_cnd_abs()

void Botan::bigint_cnd_abs ( word  cnd, word  x[], size_t  size  )

inline

Definition at line 212 of file mp_core.h.

   {
   const auto mask = CT::Mask<word>::expand(cnd);
 
   word carry = mask.if_set_return(1);
   for(size_t i = 0; i != size; ++i)
      {
      const word z = word_add(~x[i], 0, &carry);
      x[i] = mask.select(z, x[i]);
      }
   }

References carry(), Botan::CT::Mask< T >::expand(), and word_add().

bigint_cnd_add() [1/2]

word Botan::bigint_cnd_add ( word  cnd, word  x[], const word  y[], size_t  size  )

inline

Definition at line 79 of file mp_core.h.

   {
   return bigint_cnd_add(cnd, x, size, y, size);
   }

References bigint_cnd_add().

bigint_cnd_add() [2/2]

word Botan::bigint_cnd_add ( word  cnd, word  x[], word  x_size, const word  y[], size_t  y_size  )

inline

Definition at line 42 of file mp_core.h.

   {
   BOTAN_ASSERT(x_size >= y_size, "Expected sizes");
 
   const auto mask = CT::Mask<word>::expand(cnd);
 
   word carry = 0;
 
   const size_t blocks = y_size - (y_size % 8);
   word z[8] = { 0 };
 
   for(size_t i = 0; i != blocks; i += 8)
      {
      carry = word8_add3(z, x + i, y + i, carry);
      mask.select_n(x + i, z, x + i, 8);
      }
 
   for(size_t i = blocks; i != y_size; ++i)
      {
      z[0] = word_add(x[i], y[i], &carry);
      x[i] = mask.select(z[0], x[i]);
      }
 
   for(size_t i = y_size; i != x_size; ++i)
      {
      z[0] = word_add(x[i], 0, &carry);
      x[i] = mask.select(z[0], x[i]);
      }
 
   return mask.if_set_return(carry);
   }

References BOTAN_ASSERT, carry(), Botan::CT::Mask< T >::expand(), word8_add3(), and word_add().

Referenced by bigint_cnd_add(), Botan::BigInt::ct_cond_add(), redc_p192(), redc_p224(), redc_p256(), and redc_p384().

bigint_cnd_add_or_sub()

void Botan::bigint_cnd_add_or_sub ( CT::Mask< word >  mask, word  x[], const word  y[], size_t  size  )

inline

Definition at line 139 of file mp_core.h.

   {
   const size_t blocks = size - (size % 8);
 
   word carry = 0;
   word borrow = 0;
 
   word t0[8] = { 0 };
   word t1[8] = { 0 };
 
   for(size_t i = 0; i != blocks; i += 8)
      {
      carry = word8_add3(t0, x + i, y + i, carry);
      borrow = word8_sub3(t1, x + i, y + i, borrow);
 
      for(size_t j = 0; j != 8; ++j)
         x[i+j] = mask.select(t0[j], t1[j]);
      }
 
   for(size_t i = blocks; i != size; ++i)
      {
      const word a = word_add(x[i], y[i], &carry);
      const word s = word_sub(x[i], y[i], &borrow);
 
      x[i] = mask.select(a, s);
      }
   }

References carry(), Botan::CT::Mask< T >::select(), word8_add3(), word8_sub3(), word_add(), and word_sub().

bigint_cnd_addsub()

word Botan::bigint_cnd_addsub ( CT::Mask< word >  mask, word  x[], const word  y[], const word  z[], size_t  size  )

inline

Definition at line 176 of file mp_core.h.

   {
   const size_t blocks = size - (size % 8);
 
   word carry = 0;
   word borrow = 0;
 
   word t0[8] = { 0 };
   word t1[8] = { 0 };
 
   for(size_t i = 0; i != blocks; i += 8)
      {
      carry = word8_add3(t0, x + i, y + i, carry);
      borrow = word8_sub3(t1, x + i, z + i, borrow);
 
      for(size_t j = 0; j != 8; ++j)
         x[i+j] = mask.select(t0[j], t1[j]);
      }
 
   for(size_t i = blocks; i != size; ++i)
      {
      t0[0] = word_add(x[i], y[i], &carry);
      t1[0] = word_sub(x[i], z[i], &borrow);
      x[i] = mask.select(t0[0], t1[0]);
      }
 
   return mask.select(carry, borrow);
   }

References carry(), Botan::CT::Mask< T >::select(), word8_add3(), word8_sub3(), word_add(), and word_sub().

Referenced by bigint_mod_sub().

bigint_cnd_sub() [1/2]

word Botan::bigint_cnd_sub ( word  cnd, word  x[], const word  y[], size_t  size  )

inline

Definition at line 126 of file mp_core.h.

   {
   return bigint_cnd_sub(cnd, x, size, y, size);
   }

References bigint_cnd_sub().

bigint_cnd_sub() [2/2]

word Botan::bigint_cnd_sub ( word  cnd, word  x[], size_t  x_size, const word  y[], size_t  y_size  )

inline

Definition at line 88 of file mp_core.h.

   {
   BOTAN_ASSERT(x_size >= y_size, "Expected sizes");
 
   const auto mask = CT::Mask<word>::expand(cnd);
 
   word carry = 0;
 
   const size_t blocks = y_size - (y_size % 8);
   word z[8] = { 0 };
 
   for(size_t i = 0; i != blocks; i += 8)
      {
      carry = word8_sub3(z, x + i, y + i, carry);
      mask.select_n(x + i, z, x + i, 8);
      }
 
   for(size_t i = blocks; i != y_size; ++i)
      {
      z[0] = word_sub(x[i], y[i], &carry);
      x[i] = mask.select(z[0], x[i]);
      }
 
   for(size_t i = y_size; i != x_size; ++i)
      {
      z[0] = word_sub(x[i], 0, &carry);
      x[i] = mask.select(z[0], x[i]);
      }
 
   return mask.if_set_return(carry);
   }

References BOTAN_ASSERT, carry(), Botan::CT::Mask< T >::expand(), word8_sub3(), and word_sub().

Referenced by bigint_cnd_sub(), and redc_p521().

bigint_cnd_swap()

void Botan::bigint_cnd_swap ( word  cnd, word  x[], word  y[], size_t  size  )

inline

Definition at line 29 of file mp_core.h.

   {
   const auto mask = CT::Mask<word>::expand(cnd);
 
   for(size_t i = 0; i != size; ++i)
      {
      const word a = x[i];
      const word b = y[i];
      x[i] = mask.select(b, a);
      y[i] = mask.select(a, b);
      }
   }

References b, and Botan::CT::Mask< T >::expand().

Referenced by Botan::BigInt::ct_cond_swap().

bigint_comba_mul16()

void Botan::bigint_comba_mul16	(	word	z[32],
		const word	x[16],
		const word	y[16]
	)

Definition at line 804 of file mp_comba.cpp.

   {
   word w2 = 0, w1 = 0, w0 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 0]);
   z[ 0] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 0]);
   z[ 1] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 0]);
   z[ 2] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 0]);
   z[ 3] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 0]);
   z[ 4] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 0]);
   z[ 5] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 0]);
   z[ 6] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 0]);
   z[ 7] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 0]);
   z[ 8] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 0]);
   z[ 9] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[10]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 0]);
   z[10] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[11]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[10]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[10], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 0]);
   z[11] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[12]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[11]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[10]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[10], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[11], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 0]);
   z[12] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[13]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[12]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[11]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[10]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[11], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[12], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 0]);
   z[13] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[14]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[13]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[12]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[11]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[10]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[10], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[12], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[13], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 0]);
   z[14] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[15]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[14]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[13]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[12]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[11]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[10]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[10], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[11], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[13], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[14], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 0]);
   z[15] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 1], y[15]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[14]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[13]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[12]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[11]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[10]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[11], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[12], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[14], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[15], y[ 1]);
   z[16] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 2], y[15]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[14]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[13]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[12]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[11]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[10]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[10], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[12], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[13], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[15], y[ 2]);
   z[17] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 3], y[15]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[14]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[13]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[12]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[11]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[10]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[10], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[11], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[13], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[14], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 3]);
   z[18] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 4], y[15]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[14]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[13]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[12]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[11]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[10]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[11], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[12], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[14], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[15], y[ 4]);
   z[19] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 5], y[15]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[14]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[13]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[12]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[11]);
   word3_muladd(&w1, &w0, &w2, x[10], y[10]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[12], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[13], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[15], y[ 5]);
   z[20] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 6], y[15]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[14]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[13]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[12]);
   word3_muladd(&w2, &w1, &w0, x[10], y[11]);
   word3_muladd(&w2, &w1, &w0, x[11], y[10]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[13], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[14], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 6]);
   z[21] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 7], y[15]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[14]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[13]);
   word3_muladd(&w0, &w2, &w1, x[10], y[12]);
   word3_muladd(&w0, &w2, &w1, x[11], y[11]);
   word3_muladd(&w0, &w2, &w1, x[12], y[10]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[14], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[15], y[ 7]);
   z[22] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 8], y[15]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[14]);
   word3_muladd(&w1, &w0, &w2, x[10], y[13]);
   word3_muladd(&w1, &w0, &w2, x[11], y[12]);
   word3_muladd(&w1, &w0, &w2, x[12], y[11]);
   word3_muladd(&w1, &w0, &w2, x[13], y[10]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[15], y[ 8]);
   z[23] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 9], y[15]);
   word3_muladd(&w2, &w1, &w0, x[10], y[14]);
   word3_muladd(&w2, &w1, &w0, x[11], y[13]);
   word3_muladd(&w2, &w1, &w0, x[12], y[12]);
   word3_muladd(&w2, &w1, &w0, x[13], y[11]);
   word3_muladd(&w2, &w1, &w0, x[14], y[10]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 9]);
   z[24] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[10], y[15]);
   word3_muladd(&w0, &w2, &w1, x[11], y[14]);
   word3_muladd(&w0, &w2, &w1, x[12], y[13]);
   word3_muladd(&w0, &w2, &w1, x[13], y[12]);
   word3_muladd(&w0, &w2, &w1, x[14], y[11]);
   word3_muladd(&w0, &w2, &w1, x[15], y[10]);
   z[25] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[11], y[15]);
   word3_muladd(&w1, &w0, &w2, x[12], y[14]);
   word3_muladd(&w1, &w0, &w2, x[13], y[13]);
   word3_muladd(&w1, &w0, &w2, x[14], y[12]);
   word3_muladd(&w1, &w0, &w2, x[15], y[11]);
   z[26] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[12], y[15]);
   word3_muladd(&w2, &w1, &w0, x[13], y[14]);
   word3_muladd(&w2, &w1, &w0, x[14], y[13]);
   word3_muladd(&w2, &w1, &w0, x[15], y[12]);
   z[27] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[13], y[15]);
   word3_muladd(&w0, &w2, &w1, x[14], y[14]);
   word3_muladd(&w0, &w2, &w1, x[15], y[13]);
   z[28] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[14], y[15]);
   word3_muladd(&w1, &w0, &w2, x[15], y[14]);
   z[29] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[15], y[15]);
   z[30] = w0;
   z[31] = w1;
   }

References word3_muladd().

Referenced by bigint_mul().

bigint_comba_mul24()

void Botan::bigint_comba_mul24	(	word	z[48],
		const word	x[24],
		const word	y[24]
	)

Definition at line 1534 of file mp_comba.cpp.

   {
   word w2 = 0, w1 = 0, w0 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 0]);
   z[ 0] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 0]);
   z[ 1] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 0]);
   z[ 2] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 0]);
   z[ 3] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 0]);
   z[ 4] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 0]);
   z[ 5] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 0]);
   z[ 6] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 0]);
   z[ 7] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 0]);
   z[ 8] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 0]);
   z[ 9] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[10]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 0]);
   z[10] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[11]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[10]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[10], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 0]);
   z[11] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[12]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[11]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[10]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[10], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[11], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 0]);
   z[12] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[13]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[12]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[11]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[10]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[11], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[12], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 0]);
   z[13] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[14]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[13]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[12]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[11]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[10]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[10], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[12], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[13], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 0]);
   z[14] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[15]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[14]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[13]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[12]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[11]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[10]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[10], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[11], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[13], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[14], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 0]);
   z[15] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[16]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[15]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[14]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[13]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[12]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[11]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[10]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[11], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[12], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[14], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[15], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[16], y[ 0]);
   z[16] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[17]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[16]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[15]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[14]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[13]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[12]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[11]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[10]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[10], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[12], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[13], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[15], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[16], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[17], y[ 0]);
   z[17] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[18]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[17]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[16]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[15]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[14]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[13]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[12]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[11]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[10]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[10], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[11], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[13], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[14], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[16], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[17], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[18], y[ 0]);
   z[18] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[19]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[18]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[17]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[16]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[15]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[14]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[13]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[12]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[11]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[10]);
   word3_muladd(&w0, &w2, &w1, x[10], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[11], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[12], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[14], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[15], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[16], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[17], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[18], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[19], y[ 0]);
   z[19] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[20]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[19]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[18]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[17]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[16]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[15]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[14]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[13]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[12]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[11]);
   word3_muladd(&w1, &w0, &w2, x[10], y[10]);
   word3_muladd(&w1, &w0, &w2, x[11], y[ 9]);
   word3_muladd(&w1, &w0, &w2, x[12], y[ 8]);
   word3_muladd(&w1, &w0, &w2, x[13], y[ 7]);
   word3_muladd(&w1, &w0, &w2, x[14], y[ 6]);
   word3_muladd(&w1, &w0, &w2, x[15], y[ 5]);
   word3_muladd(&w1, &w0, &w2, x[16], y[ 4]);
   word3_muladd(&w1, &w0, &w2, x[17], y[ 3]);
   word3_muladd(&w1, &w0, &w2, x[18], y[ 2]);
   word3_muladd(&w1, &w0, &w2, x[19], y[ 1]);
   word3_muladd(&w1, &w0, &w2, x[20], y[ 0]);
   z[20] = w2; w2 = 0;
 
   word3_muladd(&w2, &w1, &w0, x[ 0], y[21]);
   word3_muladd(&w2, &w1, &w0, x[ 1], y[20]);
   word3_muladd(&w2, &w1, &w0, x[ 2], y[19]);
   word3_muladd(&w2, &w1, &w0, x[ 3], y[18]);
   word3_muladd(&w2, &w1, &w0, x[ 4], y[17]);
   word3_muladd(&w2, &w1, &w0, x[ 5], y[16]);
   word3_muladd(&w2, &w1, &w0, x[ 6], y[15]);
   word3_muladd(&w2, &w1, &w0, x[ 7], y[14]);
   word3_muladd(&w2, &w1, &w0, x[ 8], y[13]);
   word3_muladd(&w2, &w1, &w0, x[ 9], y[12]);
   word3_muladd(&w2, &w1, &w0, x[10], y[11]);
   word3_muladd(&w2, &w1, &w0, x[11], y[10]);
   word3_muladd(&w2, &w1, &w0, x[12], y[ 9]);
   word3_muladd(&w2, &w1, &w0, x[13], y[ 8]);
   word3_muladd(&w2, &w1, &w0, x[14], y[ 7]);
   word3_muladd(&w2, &w1, &w0, x[15], y[ 6]);
   word3_muladd(&w2, &w1, &w0, x[16], y[ 5]);
   word3_muladd(&w2, &w1, &w0, x[17], y[ 4]);
   word3_muladd(&w2, &w1, &w0, x[18], y[ 3]);
   word3_muladd(&w2, &w1, &w0, x[19], y[ 2]);
   word3_muladd(&w2, &w1, &w0, x[20], y[ 1]);
   word3_muladd(&w2, &w1, &w0, x[21], y[ 0]);
   z[21] = w0; w0 = 0;
 
   word3_muladd(&w0, &w2, &w1, x[ 0], y[22]);
   word3_muladd(&w0, &w2, &w1, x[ 1], y[21]);
   word3_muladd(&w0, &w2, &w1, x[ 2], y[20]);
   word3_muladd(&w0, &w2, &w1, x[ 3], y[19]);
   word3_muladd(&w0, &w2, &w1, x[ 4], y[18]);
   word3_muladd(&w0, &w2, &w1, x[ 5], y[17]);
   word3_muladd(&w0, &w2, &w1, x[ 6], y[16]);
   word3_muladd(&w0, &w2, &w1, x[ 7], y[15]);
   word3_muladd(&w0, &w2, &w1, x[ 8], y[14]);
   word3_muladd(&w0, &w2, &w1, x[ 9], y[13]);
   word3_muladd(&w0, &w2, &w1, x[10], y[12]);
   word3_muladd(&w0, &w2, &w1, x[11], y[11]);
   word3_muladd(&w0, &w2, &w1, x[12], y[10]);
   word3_muladd(&w0, &w2, &w1, x[13], y[ 9]);
   word3_muladd(&w0, &w2, &w1, x[14], y[ 8]);
   word3_muladd(&w0, &w2, &w1, x[15], y[ 7]);
   word3_muladd(&w0, &w2, &w1, x[16], y[ 6]);
   word3_muladd(&w0, &w2, &w1, x[17], y[ 5]);
   word3_muladd(&w0, &w2, &w1, x[18], y[ 4]);
   word3_muladd(&w0, &w2, &w1, x[19], y[ 3]);
   word3_muladd(&w0, &w2, &w1, x[20], y[ 2]);
   word3_muladd(&w0, &w2, &w1, x[21], y[ 1]);
   word3_muladd(&w0, &w2, &w1, x[22], y[ 0]);
   z[22] = w1; w1 = 0;
 
   word3_muladd(&w1, &w0, &w2, x[ 0], y[23]);
   word3_muladd(&w1, &w0, &w2, x[ 1], y[22]);
   word3_muladd(&w1, &w0, &w2, x[ 2], y[21]);
   word3_muladd(&w1, &w0, &w2, x[ 3], y[20]);
   word3_muladd(&w1, &w0, &w2, x[ 4], y[19]);
   word3_muladd(&w1, &w0, &w2, x[ 5], y[18]);
   word3_muladd(&w1, &w0, &w2, x[ 6], y[17]);
   word3_muladd(&w1, &w0, &w2, x[ 7], y[16]);
   word3_muladd(&w1, &w0, &w2, x[ 8], y[15]);
   word3_muladd(&w1, &w0, &w2, x[ 9], y[14]);
   word3_muladd(&w1, &w0, &w2, x[10], y[13]);
   word3_muladd(&w1, &w0, &w2, x[11], y[12]);
   word3_muladd(&w1, &w0, &w2, x[12], y[11]);
   word3_muladd(&w1, &w0, &w2, x[13], y[10]