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/*
* ECC Key implemenation
* (C) 2007 Manuel Hartl, FlexSecure GmbH
* Falko Strenzke, FlexSecure GmbH
* 2008 Jack Lloyd
*
* Distributed under the terms of the Botan license
*/
#include <botan/ecc_key.h>
#include <botan/x509_key.h>
#include <botan/numthry.h>
#include <botan/der_enc.h>
#include <botan/ber_dec.h>
#include <botan/secmem.h>
#include <botan/point_gfp.h>
namespace Botan {
/*
* EC_PublicKey
*/
void EC_PublicKey::affirm_init() const // virtual
{
if((mp_dom_pars.get() == 0) || (mp_public_point.get() == 0))
throw Invalid_State("cannot use uninitialized EC_Key");
}
const EC_Domain_Params& EC_PublicKey::domain_parameters() const
{
if(!mp_dom_pars.get())
throw Invalid_State("EC_PublicKey::domain_parameters(): "
"ec domain parameters are not yet set");
return *mp_dom_pars;
}
const PointGFp& EC_PublicKey::public_point() const
{
if(!mp_public_point.get())
throw Invalid_State("EC_PublicKey::public_point(): public point not set");
return *mp_public_point;
}
bool EC_PublicKey::domain_parameters_set()
{
return mp_dom_pars.get();
}
void EC_PublicKey::X509_load_hook()
{
try
{
// the base point is checked to be on curve already when decoding it
affirm_init();
mp_public_point->check_invariants();
}
catch(Illegal_Point)
{
throw Decoding_Error("decoded public point was found not to lie on curve");
}
}
X509_Encoder* EC_PublicKey::x509_encoder() const
{
class EC_Key_Encoder : public X509_Encoder
{
public:
AlgorithmIdentifier alg_id() const
{
key->affirm_init();
SecureVector<byte> params =
encode_der_ec_dompar(key->domain_parameters(), key->m_param_enc);
return AlgorithmIdentifier(key->get_oid(), params);
}
MemoryVector<byte> key_bits() const
{
key->affirm_init();
return EC2OSP(*(key->mp_public_point), PointGFp::COMPRESSED);
}
EC_Key_Encoder(const EC_PublicKey* k): key(k) {}
private:
const EC_PublicKey* key;
};
return new EC_Key_Encoder(this);
}
X509_Decoder* EC_PublicKey::x509_decoder()
{
class EC_Key_Decoder : public X509_Decoder
{
public:
void alg_id(const AlgorithmIdentifier& alg_id)
{
key->mp_dom_pars.reset(new EC_Domain_Params(decode_ber_ec_dompar(alg_id.parameters)));
}
void key_bits(const MemoryRegion<byte>& bits)
{
key->mp_public_point.reset(
new PointGFp(
OS2ECP(bits, key->domain_parameters().get_curve())
));
key->X509_load_hook();
}
EC_Key_Decoder(EC_PublicKey* k): key(k) {}
private:
EC_PublicKey* key;
};
return new EC_Key_Decoder(this);
}
void EC_PublicKey::set_parameter_encoding(EC_dompar_enc type)
{
if((type != ENC_EXPLICIT) && (type != ENC_IMPLICITCA) && (type != ENC_OID))
throw Invalid_Argument("Invalid encoding type for EC-key object specified");
affirm_init();
if((type == ENC_OID) && (mp_dom_pars->get_oid() == ""))
throw Invalid_Argument("Invalid encoding type ENC_OID specified for "
"EC-key object whose corresponding domain "
"parameters are without oid");
m_param_enc = type;
}
/*
* EC_PrivateKey
*/
void EC_PrivateKey::affirm_init() const // virtual
{
if(m_private_value == 0)
throw Invalid_State("cannot use EC_PrivateKey when private key is uninitialized");
EC_PublicKey::affirm_init();
}
const BigInt& EC_PrivateKey::private_value() const
{
if(m_private_value == 0)
throw Invalid_State("cannot use EC_PrivateKey when private key is uninitialized");
return m_private_value;
}
/**
* EC_PrivateKey generator
**/
void EC_PrivateKey::generate_private_key(RandomNumberGenerator& rng)
{
if(mp_dom_pars.get() == 0)
{
throw Invalid_State("cannot generate private key when domain parameters are not set");
}
m_private_value = BigInt::random_integer(rng, 1, mp_dom_pars->get_order());
mp_public_point = std::auto_ptr<PointGFp>( new PointGFp (mp_dom_pars->get_base_point()));
*mp_public_point *= m_private_value;
}
/**
* Return the PKCS #8 public key encoder
**/
PKCS8_Encoder* EC_PrivateKey::pkcs8_encoder() const
{
class EC_Key_Encoder : public PKCS8_Encoder
{
public:
AlgorithmIdentifier alg_id() const
{
key->affirm_init();
SecureVector<byte> params =
encode_der_ec_dompar(key->domain_parameters(), ENC_EXPLICIT);
return AlgorithmIdentifier(key->get_oid(), params);
}
MemoryVector<byte> key_bits() const
{
key->affirm_init();
SecureVector<byte> octstr_secret =
BigInt::encode_1363(key->m_private_value, key->m_private_value.bytes());
return DER_Encoder()
.start_cons(SEQUENCE)
.encode(BigInt(1))
.encode(octstr_secret, OCTET_STRING)
.end_cons()
.get_contents();
}
EC_Key_Encoder(const EC_PrivateKey* k): key(k) {}
private:
const EC_PrivateKey* key;
};
return new EC_Key_Encoder(this);
}
/**
* Return the PKCS #8 public key decoder
*/
PKCS8_Decoder* EC_PrivateKey::pkcs8_decoder(RandomNumberGenerator&)
{
class EC_Key_Decoder : public PKCS8_Decoder
{
public:
void alg_id(const AlgorithmIdentifier& alg_id)
{
key->mp_dom_pars.reset(new EC_Domain_Params(decode_ber_ec_dompar(alg_id.parameters)));
}
void key_bits(const MemoryRegion<byte>& bits)
{
u32bit version;
SecureVector<byte> octstr_secret;
BER_Decoder(bits)
.start_cons(SEQUENCE)
.decode(version)
.decode(octstr_secret, OCTET_STRING)
.verify_end()
.end_cons();
key->m_private_value = BigInt::decode(octstr_secret, octstr_secret.size());
if(version != 1)
throw Decoding_Error("Wrong PKCS #1 key format version for EC key");
key->PKCS8_load_hook();
}
EC_Key_Decoder(EC_PrivateKey* k): key(k) {}
private:
EC_PrivateKey* key;
};
return new EC_Key_Decoder(this);
}
void EC_PrivateKey::PKCS8_load_hook(bool)
{
// we cannot use affirm_init() here because mp_public_point might still be null
if(mp_dom_pars.get() == 0)
throw Invalid_State("attempt to set public point for an uninitialized key");
mp_public_point.reset(new PointGFp(m_private_value * mp_dom_pars->get_base_point()));
mp_public_point->check_invariants();
}
}
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