#include <ec_group.h>
Classes | |
| class | Mul2Table |
| Table for computing g*x + h*y. More... | |
Public Member Functions | |
| const std::shared_ptr< EC_Group_Data > & | _data () const |
| bool | a_is_minus_3 () const |
| bool | a_is_zero () const |
| BigInt | cube_mod_order (const BigInt &x) const |
| std::vector< uint8_t > | DER_encode () const |
| std::vector< uint8_t > | DER_encode (EC_Group_Encoding form) const |
| EC_Group () | |
| EC_Group (const BigInt &p, const BigInt &a, const BigInt &b, const BigInt &base_x, const BigInt &base_y, const BigInt &order, const BigInt &cofactor, const OID &oid=OID()) | |
| EC_Group (const EC_Group &) | |
| EC_Group (const OID &oid) | |
| EC_Group (const OID &oid, const BigInt &p, const BigInt &a, const BigInt &b, const BigInt &base_x, const BigInt &base_y, const BigInt &order) | |
| EC_Group (const uint8_t ber[], size_t ber_len) | |
| EC_Group (EC_Group &&)=default | |
| EC_Group (std::span< const uint8_t > ber) | |
| EC_Group (std::string_view pem_or_oid) | |
| EC_Group_Engine | engine () const |
| const BigInt & | get_a () const |
| const BigInt & | get_b () const |
| const BigInt & | get_cofactor () const |
| const OID & | get_curve_oid () const |
| const BigInt & | get_g_x () const |
| const BigInt & | get_g_y () const |
| const BigInt & | get_order () const |
| size_t | get_order_bits () const |
| size_t | get_order_bytes () const |
| const BigInt & | get_p () const |
| size_t | get_p_bits () const |
| size_t | get_p_bytes () const |
| bool | has_cofactor () const |
| bool | initialized () const |
| BigInt | inverse_mod_order (const BigInt &x) const |
| BigInt | mod_order (const BigInt &x) const |
| BigInt | multiply_mod_order (const BigInt &x, const BigInt &y) const |
| BigInt | multiply_mod_order (const BigInt &x, const BigInt &y, const BigInt &z) const |
| EC_Group & | operator= (const EC_Group &) |
| EC_Group & | operator= (EC_Group &&)=default |
| bool | operator== (const EC_Group &other) const |
| std::string | PEM_encode (EC_Group_Encoding form=EC_Group_Encoding::Explicit) const |
| size_t | point_size (EC_Point_Format format) const |
| EC_Group_Source | source () const |
| BigInt | square_mod_order (const BigInt &x) const |
| bool | used_explicit_encoding () const |
| bool | verify_group (RandomNumberGenerator &rng, bool strong=false) const |
| ~EC_Group () | |
Static Public Member Functions | |
| static size_t | clear_registered_curve_data () |
| static EC_Group | EC_Group_from_PEM (std::string_view pem) |
| static OID | EC_group_identity_from_order (const BigInt &order) |
| static std::shared_ptr< EC_Group_Data > | EC_group_info (const OID &oid) |
| static EC_Group | from_name (std::string_view name) |
| static EC_Group | from_OID (const OID &oid) |
| static EC_Group | from_PEM (std::string_view pem) |
| static const std::set< std::string > & | known_named_groups () |
| static bool | supports_application_specific_group () |
| static bool | supports_application_specific_group_with_cofactor () |
| static bool | supports_named_group (std::string_view name) |
Detailed Description
Class representing an elliptic curve
The internal representation is stored in a shared_ptr, so copying an EC_Group is inexpensive.
Definition at line 87 of file ec_group.h.
Constructor & Destructor Documentation
◆ EC_Group() [1/9]
| Botan::EC_Group::EC_Group | ( | const BigInt & | p, |
| const BigInt & | a, | ||
| const BigInt & | b, | ||
| const BigInt & | base_x, | ||
| const BigInt & | base_y, | ||
| const BigInt & | order, | ||
| const BigInt & | cofactor, | ||
| const OID & | oid = OID() ) |
Construct elliptic curve from the specified parameters
This is used for example to create custom (application-specific) curves.
Some build configurations do not support application specific curves, in which case this constructor will throw an exception. You can check for this situation beforehand using the function EC_Group::supports_application_specific_group()
- Parameters
-
p the elliptic curve p a the elliptic curve a param b the elliptic curve b param base_x the x coordinate of the base point base_y the y coordinate of the base point order the order of the base point cofactor the cofactor oid an optional OID used to identify this curve
- Warning
- This constructor is deprecated and will be removed in Botan 4
- support for cofactors > 1 is deprecated and will be removed
- support for prime fields > 521 bits is deprecated and will be removed.
- Support for explicitly encoded curve parameters is deprecated. An OID must be assigned.
Definition at line 432 of file ec_group.cpp.
References Botan::ExternalSource, and Botan::OID::has_value().
Referenced by EC_Group(), EC_Group(), EC_Group(), EC_Group(), EC_Group(), EC_Group_from_PEM(), from_name(), from_OID(), from_PEM(), operator=(), operator=(), operator==(), and ~EC_Group().
◆ EC_Group() [2/9]
| Botan::EC_Group::EC_Group | ( | const OID & | oid, |
| const BigInt & | p, | ||
| const BigInt & | a, | ||
| const BigInt & | b, | ||
| const BigInt & | base_x, | ||
| const BigInt & | base_y, | ||
| const BigInt & | order ) |
Construct elliptic curve from the specified parameters
This is used for example to create custom (application-specific) curves.
Some build configurations do not support application specific curves, in which case this constructor will throw an exception. You can check for this situation beforehand using the function EC_Group::supports_application_specific_group()
Unlike the deprecated constructor, this constructor imposes additional restrictions on the parameters, namely:
- An object identifier must be provided
- The prime must be at least 192 bits and at most 512 bits, and a multiple of 32 bits. Currently, as long as BOTAN_DISABLE_DEPRECATED_FEATURES is not set, this constructor accepts primes as small as 128 bits - this lower bound will be removed in the next major release.
- As an extension of the above restriction, the prime can also be exactly the 521-bit Mersenne prime (2**521-1) or exactly the 239-bit prime used in X9.62 239 bit groups (2**239 - 2**143 - 2**95 + 2**47 - 1)
- The prime must be congruent to 3 modulo 4
- The group order must have the same bit length as the prime. It is allowed for the order to be larger than p, but they must have the same bit length.
- Only prime order curves (with cofactor == 1) are allowed
- Warning
- use only elliptic curve parameters that you trust
- Parameters
-
oid an object identifier used to identify this curve p the elliptic curve prime (at most 521 bits) a the elliptic curve a param b the elliptic curve b param base_x the x coordinate of the group generator base_y the y coordinate of the group generator order the order of the group
Definition at line 449 of file ec_group.cpp.
References Botan::abs(), Botan::BigInt::bits(), BOTAN_ARG_CHECK, Botan::ExternalSource, Botan::Barrett_Reduction::for_public_modulus(), Botan::BigInt::from_s32(), Botan::OID::has_value(), Botan::is_bailie_psw_probable_prime(), mod_order(), Botan::BigInt::power_of_2(), and Botan::BigInt::set_bit().
◆ EC_Group() [3/9]
|
explicit |
Decode a BER encoded ECC domain parameter set
- Parameters
-
ber the bytes of the BER encoding
Definition at line 521 of file ec_group.cpp.
References Botan::ExternalSource.
◆ EC_Group() [4/9]
|
inline |
Definition at line 184 of file ec_group.h.
References EC_Group().
◆ EC_Group() [5/9]
|
inlineexplicit |
Create an EC domain by OID (or throw if unknown)
- Parameters
-
oid the OID of the EC domain to create
Definition at line 190 of file ec_group.h.
References EC_Group(), and from_OID().
◆ EC_Group() [6/9]
|
explicit |
Create an EC domain from PEM encoding (as from PEM_encode()), or from an OID name (eg "secp256r1", or "1.2.840.10045.3.1.7")
- Parameters
-
pem_or_oid PEM-encoded data, or an OID
- Warning
- Support for PEM in this function is deprecated. Use EC_Group::from_PEM or EC_Group::from_OID or EC_Group::from_name
Definition at line 398 of file ec_group.cpp.
References Botan::PEM_Code::decode_check_label(), Botan::ExternalSource, Botan::fmt(), Botan::OID::from_string(), and Botan::OID::has_value().
◆ EC_Group() [7/9]
|
default |
Create an uninitialized EC_Group
References EC_Group().
Referenced by from_name(), from_OID(), and from_PEM().
◆ ~EC_Group()
|
default |
References EC_Group().
◆ EC_Group() [8/9]
|
default |
References EC_Group().
◆ EC_Group() [9/9]
|
default |
References EC_Group().
Member Function Documentation
◆ _data()
|
inline |
Definition at line 462 of file ec_group.h.
Referenced by Botan::EC_AffinePoint::deserialize(), Botan::EC_Scalar::deserialize(), Botan::EC_AffinePoint::EC_AffinePoint(), Botan::EC_Scalar::EC_Scalar(), Botan::EC_Scalar::from_bigint(), Botan::EC_Scalar::from_bytes_mod_order(), Botan::EC_Scalar::from_bytes_with_trunc(), Botan::EC_AffinePoint::hash_to_curve_nu(), Botan::EC_AffinePoint::hash_to_curve_ro(), Botan::EC_Scalar::one(), and Botan::EC_Scalar::random().
◆ a_is_minus_3()
|
inline |
Return if a == -3 mod p
Definition at line 654 of file ec_group.h.
References a_is_minus_3(), get_a(), and get_p().
Referenced by a_is_minus_3().
◆ a_is_zero()
|
inline |
Return if a == 0 mod p
Definition at line 659 of file ec_group.h.
References a_is_zero(), and get_a().
Referenced by a_is_zero().
◆ clear_registered_curve_data()
|
static |
Definition at line 187 of file ec_group.cpp.
◆ cube_mod_order()
Definition at line 707 of file ec_group.h.
References cube_mod_order(), and Botan::EC_Scalar::from_bigint().
Referenced by cube_mod_order().
◆ DER_encode() [1/2]
| std::vector< uint8_t > Botan::EC_Group::DER_encode | ( | ) | const |
Create the DER encoding of this domain, using namedCurve format
- Returns
- the group information encoded as DER
Definition at line 630 of file ec_group.cpp.
Referenced by DER_encode(), and PEM_encode().
◆ DER_encode() [2/2]
| std::vector< uint8_t > Botan::EC_Group::DER_encode | ( | EC_Group_Encoding | form | ) | const |
Create the DER encoding of this domain
- Parameters
-
form of encoding to use
- Returns
- the group information encoded as DER
Definition at line 640 of file ec_group.cpp.
References DER_encode(), Botan::DER_Encoder::encode(), Botan::DER_Encoder::end_cons(), Botan::Explicit, Botan::EC_AffinePoint::generator(), get_a(), get_b(), get_cofactor(), get_order(), get_p(), get_p_bytes(), Botan::ImplicitCA, Botan::NamedCurve, Botan::OctetString, Botan::EC_AffinePoint::serialize_uncompressed(), and Botan::DER_Encoder::start_sequence().
Referenced by Botan::EC_PublicKey::DER_domain(), and Botan::TLS::Signature_Scheme::key_algorithm_identifier().
◆ EC_Group_from_PEM()
|
inlinestatic |
Definition at line 217 of file ec_group.h.
References BOTAN_DEPRECATED, EC_Group(), EC_Group_from_PEM(), and from_PEM().
Referenced by EC_Group_from_PEM().
◆ EC_group_identity_from_order()
Definition at line 356 of file ec_named.cpp.
References Botan::BigInt::word_at().
◆ EC_group_info()
|
static |
Definition at line 15 of file ec_named.cpp.
◆ engine()
| EC_Group_Engine Botan::EC_Group::engine | ( | ) | const |
Return how this EC_Group is implemented under the hood
This is mostly useful for diagnostic or debugging purposes
Definition at line 626 of file ec_group.cpp.
◆ from_name()
|
static |
Initialize an EC group from a group common name (eg "secp256r1")
Definition at line 384 of file ec_group.cpp.
References EC_Group(), EC_Group(), Botan::fmt(), and Botan::OID::from_name().
Referenced by botan_ec_group_from_name(), Botan::create_private_key(), Botan::TLS::Signature_Scheme::key_algorithm_identifier(), Botan::TLS::Callbacks::tls_deserialize_peer_public_key(), and Botan::TLS::Callbacks::tls_generate_ephemeral_key().
◆ from_OID()
Initialize an EC group from a group named by an object identifier
Definition at line 373 of file ec_group.cpp.
References EC_Group(), EC_Group(), Botan::fmt(), and Botan::OID::to_string().
Referenced by botan_ec_group_from_oid(), EC_Group(), and Botan::GOST_3410_PublicKey::GOST_3410_PublicKey().
◆ from_PEM()
|
static |
Initialize an EC group from the PEM/ASN.1 encoding
Definition at line 427 of file ec_group.cpp.
References Botan::PEM_Code::decode_check_label(), EC_Group(), and EC_Group().
Referenced by botan_ec_group_from_pem(), and EC_Group_from_PEM().
◆ get_a()
| const BigInt & Botan::EC_Group::get_a | ( | ) | const |
Return the a parameter of the elliptic curve equation
Definition at line 554 of file ec_group.cpp.
Referenced by a_is_minus_3(), a_is_zero(), DER_encode(), Botan::EC_PublicKey::get_int_field(), operator==(), Botan::sm2_compute_za(), and verify_group().
◆ get_b()
| const BigInt & Botan::EC_Group::get_b | ( | ) | const |
Return the b parameter of the elliptic curve equation
Definition at line 558 of file ec_group.cpp.
Referenced by DER_encode(), Botan::EC_PublicKey::get_int_field(), operator==(), Botan::sm2_compute_za(), and verify_group().
◆ get_cofactor()
| const BigInt & Botan::EC_Group::get_cofactor | ( | ) | const |
Return the cofactor
- Returns
- the cofactor TODO(Botan4): Remove this
Definition at line 610 of file ec_group.cpp.
Referenced by DER_encode(), Botan::EC_PublicKey::get_int_field(), operator==(), and verify_group().
◆ get_curve_oid()
| const OID & Botan::EC_Group::get_curve_oid | ( | ) | const |
Return the OID of these domain parameters
- Returns
- the OID
Definition at line 618 of file ec_group.cpp.
Referenced by Botan::GOST_3410_PublicKey::algorithm_identifier(), and Botan::TPM2::EC_PrivateKey::create_unrestricted_transient().
◆ get_g_x()
| const BigInt & Botan::EC_Group::get_g_x | ( | ) | const |
Return the x coordinate of the base point
Definition at line 602 of file ec_group.cpp.
Referenced by Botan::EC_AffinePoint::generator(), Botan::EC_PublicKey::get_int_field(), operator==(), and Botan::sm2_compute_za().
◆ get_g_y()
| const BigInt & Botan::EC_Group::get_g_y | ( | ) | const |
Return the y coordinate of the base point
Definition at line 606 of file ec_group.cpp.
Referenced by Botan::EC_AffinePoint::generator(), Botan::EC_PublicKey::get_int_field(), operator==(), and Botan::sm2_compute_za().
◆ get_order()
| const BigInt & Botan::EC_Group::get_order | ( | ) | const |
Return the order of the base point
- Returns
- order of the base point
Definition at line 598 of file ec_group.cpp.
Referenced by DER_encode(), Botan::EC_PublicKey::get_int_field(), operator==(), and verify_group().
◆ get_order_bits()
| size_t Botan::EC_Group::get_order_bits | ( | ) | const |
Return the size of group order in bits (same as get_order().bits())
Definition at line 542 of file ec_group.cpp.
Referenced by Botan::EC_Scalar::hash().
◆ get_order_bytes()
| size_t Botan::EC_Group::get_order_bytes | ( | ) | const |
Return the size of the group order in bytes (same as get_order().bytes())
Definition at line 546 of file ec_group.cpp.
Referenced by Botan::GOST_3410_PublicKey::_signature_element_size_for_DER_encoding().
◆ get_p()
| const BigInt & Botan::EC_Group::get_p | ( | ) | const |
Return the prime modulus of the field
Definition at line 550 of file ec_group.cpp.
Referenced by a_is_minus_3(), DER_encode(), Botan::EC_AffinePoint::from_bigint_xy(), Botan::EC_PublicKey::get_int_field(), operator==(), and verify_group().
◆ get_p_bits()
| size_t Botan::EC_Group::get_p_bits | ( | ) | const |
Return the size of p in bits (same as get_p().bits())
Definition at line 534 of file ec_group.cpp.
Referenced by Botan::GOST_3410_PublicKey::algo_name(), and Botan::EC_PublicKey::key_length().
◆ get_p_bytes()
| size_t Botan::EC_Group::get_p_bytes | ( | ) | const |
Return the size of p in bytes (same as get_p().bytes())
Definition at line 538 of file ec_group.cpp.
Referenced by DER_encode(), Botan::EC_AffinePoint::from_bigint_xy(), point_size(), and Botan::sm2_compute_za().
◆ has_cofactor()
| bool Botan::EC_Group::has_cofactor | ( | ) | const |
Return true if the cofactor is > 1 TODO(Botan4): Remove this
Definition at line 614 of file ec_group.cpp.
◆ initialized()
|
inline |
Definition at line 234 of file ec_group.h.
References initialized().
Referenced by initialized().
◆ inverse_mod_order()
Definition at line 671 of file ec_group.h.
References Botan::EC_Scalar::from_bigint(), and inverse_mod_order().
Referenced by inverse_mod_order().
◆ known_named_groups()
|
static |
Return a set of known named EC groups
This returns the set of groups for which from_name should succeed Note that the set of included groups can vary based on the build configuration.
Definition at line 476 of file ec_named.cpp.
Referenced by supports_named_group().
◆ mod_order()
Definition at line 664 of file ec_group.h.
References Botan::EC_Scalar::from_bytes_mod_order(), and mod_order().
Referenced by EC_Group(), and mod_order().
◆ multiply_mod_order() [1/2]
Definition at line 687 of file ec_group.h.
References Botan::EC_Scalar::from_bigint(), and multiply_mod_order().
Referenced by multiply_mod_order(), and multiply_mod_order().
◆ multiply_mod_order() [2/2]
|
inline |
Definition at line 697 of file ec_group.h.
References Botan::EC_Scalar::from_bigint(), and multiply_mod_order().
◆ operator=() [1/2]
References EC_Group().
◆ operator=() [2/2]
References EC_Group().
◆ operator==()
| bool Botan::EC_Group::operator== | ( | const EC_Group & | other | ) | const |
Definition at line 680 of file ec_group.cpp.
References EC_Group(), get_a(), get_b(), get_cofactor(), get_g_x(), get_g_y(), get_order(), and get_p().
◆ PEM_encode()
| std::string Botan::EC_Group::PEM_encode | ( | EC_Group_Encoding | form = EC_Group_Encoding::Explicit | ) | const |
Return the PEM encoding
- Returns
- string containing PEM data
- Warning
- In Botan4 the form parameter will be removed and only namedCurve will be supported
TODO(Botan4) remove the argument
Definition at line 675 of file ec_group.cpp.
References DER_encode(), and Botan::PEM_Code::encode().
◆ point_size()
|
inline |
Definition at line 712 of file ec_group.h.
References Botan::Compressed, get_p_bytes(), and point_size().
Referenced by point_size().
◆ source()
| EC_Group_Source Botan::EC_Group::source | ( | ) | const |
Definition at line 622 of file ec_group.cpp.
Referenced by verify_group().
◆ square_mod_order()
Definition at line 678 of file ec_group.h.
References Botan::EC_Scalar::from_bigint(), and square_mod_order().
Referenced by square_mod_order().
◆ supports_application_specific_group()
|
static |
Return true if in this build configuration it is possible to register an application specific elliptic curve.
Definition at line 355 of file ec_group.cpp.
Referenced by botan_ec_group_supports_application_specific_group().
◆ supports_application_specific_group_with_cofactor()
|
static |
Return true if in this build configuration it is possible to register an application specific elliptic curve with a cofactor larger than 1.
Definition at line 364 of file ec_group.cpp.
◆ supports_named_group()
|
static |
Return true if in this build configuration EC_Group::from_name(name) will succeed
Definition at line 350 of file ec_group.cpp.
References known_named_groups().
Referenced by botan_ec_group_supports_named_group(), and Botan::create_private_key().
◆ used_explicit_encoding()
|
inline |
Return true if this EC_Group was derived from an explicit encoding
Explicit encoding of groups is deprecated; when support for explicit curves is removed in a future major release, this function will also be removed.
Definition at line 270 of file ec_group.h.
Referenced by botan_pubkey_ecc_key_used_explicit_encoding().
◆ verify_group()
| bool Botan::EC_Group::verify_group | ( | RandomNumberGenerator & | rng, |
| bool | strong = false ) const |
Verify EC_Group domain
- Returns
- true if group is valid. false otherwise
Definition at line 690 of file ec_group.cpp.
References Botan::abs(), Botan::BigInt::bits(), Botan::Builtin, Botan::Barrett_Reduction::for_public_modulus(), Botan::BigInt::from_s32(), get_a(), get_b(), get_cofactor(), get_order(), get_p(), Botan::is_prime(), Botan::EC_Point::on_the_curve(), and source().
Referenced by Botan::EC_PublicKey::check_key().
The documentation for this class was generated from the following files:
- src/lib/pubkey/ec_group/ec_group.h
- src/lib/pubkey/ec_group/ec_group.cpp
- src/lib/pubkey/ec_group/ec_named.cpp
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