/* * X509_DN * (C) 1999-2007 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include namespace Botan { /* * Create an empty X509_DN */ X509_DN::X509_DN() { } /* * Create an X509_DN */ X509_DN::X509_DN(const std::multimap& args) { std::multimap::const_iterator j; for(j = args.begin(); j != args.end(); ++j) add_attribute(j->first, j->second); } /* * Create an X509_DN */ X509_DN::X509_DN(const std::multimap& args) { std::multimap::const_iterator j; for(j = args.begin(); j != args.end(); ++j) add_attribute(OIDS::lookup(j->first), j->second); } /* * Add an attribute to a X509_DN */ void X509_DN::add_attribute(const std::string& type, const std::string& str) { OID oid = OIDS::lookup(type); add_attribute(oid, str); } /* * Add an attribute to a X509_DN */ void X509_DN::add_attribute(const OID& oid, const std::string& str) { if(str == "") return; typedef std::multimap::iterator rdn_iter; std::pair range = dn_info.equal_range(oid); for(rdn_iter j = range.first; j != range.second; ++j) if(j->second.value() == str) return; multimap_insert(dn_info, oid, ASN1_String(str)); dn_bits.clear(); } /* * Get the attributes of this X509_DN */ std::multimap X509_DN::get_attributes() const { typedef std::multimap::const_iterator rdn_iter; std::multimap retval; for(rdn_iter j = dn_info.begin(); j != dn_info.end(); ++j) multimap_insert(retval, j->first, j->second.value()); return retval; } /* * Get the contents of this X.500 Name */ std::multimap X509_DN::contents() const { typedef std::multimap::const_iterator rdn_iter; std::multimap retval; for(rdn_iter j = dn_info.begin(); j != dn_info.end(); ++j) multimap_insert(retval, OIDS::lookup(j->first), j->second.value()); return retval; } /* * Get a single attribute type */ std::vector X509_DN::get_attribute(const std::string& attr) const { typedef std::multimap::const_iterator rdn_iter; const OID oid = OIDS::lookup(deref_info_field(attr)); std::pair range = dn_info.equal_range(oid); std::vector values; for(rdn_iter j = range.first; j != range.second; ++j) values.push_back(j->second.value()); return values; } /* * Return the BER encoded data, if any */ MemoryVector X509_DN::get_bits() const { return dn_bits; } /* * Deref aliases in a subject/issuer info request */ std::string X509_DN::deref_info_field(const std::string& info) { if(info == "Name" || info == "CommonName") return "X520.CommonName"; if(info == "SerialNumber") return "X520.SerialNumber"; if(info == "Country") return "X520.Country"; if(info == "Organization") return "X520.Organization"; if(info == "Organizational Unit" || info == "OrgUnit") return "X520.OrganizationalUnit"; if(info == "Locality") return "X520.Locality"; if(info == "State" || info == "Province") return "X520.State"; if(info == "Email") return "RFC822"; return info; } /* * Compare two X509_DNs for equality */ bool operator==(const X509_DN& dn1, const X509_DN& dn2) { typedef std::multimap::const_iterator rdn_iter; std::multimap attr1 = dn1.get_attributes(); std::multimap attr2 = dn2.get_attributes(); if(attr1.size() != attr2.size()) return false; rdn_iter p1 = attr1.begin(); rdn_iter p2 = attr2.begin(); while(true) { if(p1 == attr1.end() && p2 == attr2.end()) break; if(p1 == attr1.end()) return false; if(p2 == attr2.end()) return false; if(p1->first != p2->first) return false; if(!x500_name_cmp(p1->second, p2->second)) return false; ++p1; ++p2; } return true; } /* * Compare two X509_DNs for inequality */ bool operator!=(const X509_DN& dn1, const X509_DN& dn2) { return !(dn1 == dn2); } /* * Compare two X509_DNs */ bool operator<(const X509_DN& dn1, const X509_DN& dn2) { typedef std::multimap::const_iterator rdn_iter; std::multimap attr1 = dn1.get_attributes(); std::multimap attr2 = dn2.get_attributes(); if(attr1.size() < attr2.size()) return true; if(attr1.size() > attr2.size()) return false; for(rdn_iter p1 = attr1.begin(); p1 != attr1.end(); ++p1) { std::multimap::const_iterator p2; p2 = attr2.find(p1->first); if(p2 == attr2.end()) return false; if(p1->second > p2->second) return false; if(p1->second < p2->second) return true; } return false; } namespace { /* * DER encode a RelativeDistinguishedName */ void do_ava(DER_Encoder& encoder, const std::multimap& dn_info, ASN1_Tag string_type, const std::string& oid_str, bool must_exist = false) { typedef std::multimap::const_iterator rdn_iter; const OID oid = OIDS::lookup(oid_str); const bool exists = (dn_info.find(oid) != dn_info.end()); if(!exists && must_exist) throw Encoding_Error("X509_DN: No entry for " + oid_str); if(!exists) return; std::pair range = dn_info.equal_range(oid); for(rdn_iter j = range.first; j != range.second; ++j) { encoder.start_cons(SET) .start_cons(SEQUENCE) .encode(oid) .encode(ASN1_String(j->second, string_type)) .end_cons() .end_cons(); } } } /* * DER encode a DistinguishedName */ void X509_DN::encode_into(DER_Encoder& der) const { std::multimap dn_info = get_attributes(); der.start_cons(SEQUENCE); if(!dn_bits.empty()) der.raw_bytes(dn_bits); else { do_ava(der, dn_info, PRINTABLE_STRING, "X520.Country"); do_ava(der, dn_info, DIRECTORY_STRING, "X520.State"); do_ava(der, dn_info, DIRECTORY_STRING, "X520.Locality"); do_ava(der, dn_info, DIRECTORY_STRING, "X520.Organization"); do_ava(der, dn_info, DIRECTORY_STRING, "X520.OrganizationalUnit"); do_ava(der, dn_info, DIRECTORY_STRING, "X520.CommonName"); do_ava(der, dn_info, PRINTABLE_STRING, "X520.SerialNumber"); } der.end_cons(); } /* * Decode a BER encoded DistinguishedName */ void X509_DN::decode_from(BER_Decoder& source) { MemoryVector bits; source.start_cons(SEQUENCE) .raw_bytes(bits) .end_cons(); BER_Decoder sequence(bits); while(sequence.more_items()) { BER_Decoder rdn = sequence.start_cons(SET); while(rdn.more_items()) { OID oid; ASN1_String str; rdn.start_cons(SEQUENCE) .decode(oid) .decode(str) .verify_end() .end_cons(); add_attribute(oid, str.value()); } } dn_bits = bits; } }