/* * Simple ASN.1 String Types * (C) 2007 FlexSecure GmbH * 2008 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include namespace Botan { /* * Create an ASN1_EAC_String */ ASN1_EAC_String::ASN1_EAC_String(const std::string& str, ASN1_Tag t) : tag(t) { iso_8859_str = Charset::transcode(str, LOCAL_CHARSET, LATIN1_CHARSET); if (!sanity_check()) { throw Invalid_Argument("attempted to construct ASN1_EAC_String with illegal characters"); } } /* * Return this string in ISO 8859-1 encoding */ std::string ASN1_EAC_String::iso_8859() const { return iso_8859_str; } /* * Return this string in local encoding */ std::string ASN1_EAC_String::value() const { return Charset::transcode(iso_8859_str, LATIN1_CHARSET, LOCAL_CHARSET); } /* * Return the type of this string object */ ASN1_Tag ASN1_EAC_String::tagging() const { return tag; } /* * DER encode an ASN1_EAC_String */ void ASN1_EAC_String::encode_into(DER_Encoder& encoder) const { std::string value = iso_8859(); encoder.add_object(tagging(), APPLICATION, value); } /* * Decode a BER encoded ASN1_EAC_String */ void ASN1_EAC_String::decode_from(BER_Decoder& source) { BER_Object obj = source.get_next_object(); if (obj.type_tag != this->tag) { std::string message("decoding type mismatch for ASN1_EAC_String, tag is "); std::stringstream ss; std::string str_is; ss << std::hex << obj.type_tag; ss >> str_is; message.append(str_is); message.append(", while it should be "); std::stringstream ss2; std::string str_should; ss2 << std::hex << this->tag; ss2 >> str_should; message.append(str_should); throw Decoding_Error(message); } Character_Set charset_is; charset_is = LATIN1_CHARSET; try { *this = ASN1_EAC_String( Charset::transcode(ASN1::to_string(obj), charset_is, LOCAL_CHARSET), obj.type_tag); } catch (Invalid_Argument inv_arg) { throw Decoding_Error(std::string("error while decoding ASN1_EAC_String: ") + std::string(inv_arg.what())); } } // checks for compliance to the alphabet defined in TR-03110 v1.10, 2007-08-20 // p. 43 bool ASN1_EAC_String::sanity_check() const { const byte* rep = reinterpret_cast(iso_8859_str.data()); const u32bit rep_len = iso_8859_str.size(); for (u32bit i=0; i= 0x7F) && (rep[i] < 0xA0))) { return false; } } return true; } bool operator==(const ASN1_EAC_String& lhs, const ASN1_EAC_String& rhs) { return (lhs.iso_8859() == rhs.iso_8859()); } ASN1_Car::ASN1_Car(std::string const& str) : ASN1_EAC_String(str, ASN1_Tag(2)) {} ASN1_Chr::ASN1_Chr(std::string const& str) : ASN1_EAC_String(str, ASN1_Tag(32)) {} }