/* (C) 2007 FlexSecure GmbH 2008 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include namespace Botan { ASN1_Car EAC1_1_CVC::get_car() const { return m_car; } ASN1_Ced EAC1_1_CVC::get_ced() const { return m_ced; } ASN1_Cex EAC1_1_CVC::get_cex() const { return m_cex; } u32bit EAC1_1_CVC::get_chat_value() const { return m_chat_val; } /* * Decode the TBSCertificate data */ void EAC1_1_CVC::force_decode() { SecureVector enc_pk; SecureVector enc_chat_val; u32bit cpi; BER_Decoder tbs_cert(tbs_bits); tbs_cert.decode(cpi, ASN1_Tag(41), APPLICATION) .decode(m_car) .start_cons(ASN1_Tag(73)) .raw_bytes(enc_pk) .end_cons() .decode(m_chr) .start_cons(ASN1_Tag(76)) .decode(m_chat_oid) .decode(enc_chat_val, OCTET_STRING, ASN1_Tag(19), APPLICATION) .end_cons() .decode(m_ced) .decode(m_cex) .verify_end(); if(enc_chat_val.size() != 1) throw Decoding_Error("CertificateHolderAuthorizationValue was not of length 1"); if(cpi != 0) throw Decoding_Error("EAC1_1 certificate´s cpi was not 0"); // FIXME: PK algos have no notion of EAC encoder/decoder currently #if 0 ECDSA_PublicKey tmp_pk; std::auto_ptr dec = tmp_pk.cvc_eac1_1_decoder(); sig_algo = dec->public_key(enc_pk); m_pk = tmp_pk; m_chat_val = enc_chat_val[0]; self_signed = false; if(m_car.iso_8859() == m_chr.iso_8859()) { self_signed= true; } #endif } /* * CVC Certificate Constructor */ EAC1_1_CVC::EAC1_1_CVC(DataSource& in) { init(in); self_signed = false; do_decode(); } EAC1_1_CVC::EAC1_1_CVC(const std::string& in) { DataSource_Stream stream(in, true); init(stream); self_signed = false; do_decode(); } bool EAC1_1_CVC::operator==(EAC1_1_CVC const& rhs) const { return (tbs_data() == rhs.tbs_data() && get_concat_sig() == rhs.get_concat_sig()); } }