/************************************************* * X.509 Certificates Source File * * (C) 1999-2007 The Botan Project * *************************************************/ #include #include #include #include #include #include #include #include #include #include namespace Botan { namespace { /************************************************* * Lookup each OID in the vector * *************************************************/ std::vector lookup_oids(const std::vector& in) { std::vector out; std::vector::const_iterator i = in.begin(); while(i != in.end()) { out.push_back(OIDS::lookup(OID(*i))); ++i; } return out; } } /************************************************* * X509_Certificate Constructor * *************************************************/ X509_Certificate::X509_Certificate(DataSource& in) : X509_Object(in, "CERTIFICATE/X509 CERTIFICATE") { self_signed = false; do_decode(); } /************************************************* * X509_Certificate Constructor * *************************************************/ X509_Certificate::X509_Certificate(const std::string& in) : X509_Object(in, "CERTIFICATE/X509 CERTIFICATE") { self_signed = false; do_decode(); } /************************************************* * Decode the TBSCertificate data * *************************************************/ void X509_Certificate::force_decode() { u32bit version; BigInt serial_bn; AlgorithmIdentifier sig_algo_inner; X509_DN dn_issuer, dn_subject; X509_Time start, end; BER_Decoder tbs_cert(tbs_bits); tbs_cert.decode_optional(version, ASN1_Tag(0), ASN1_Tag(CONSTRUCTED | CONTEXT_SPECIFIC)) .decode(serial_bn) .decode(sig_algo_inner) .decode(dn_issuer) .start_cons(SEQUENCE) .decode(start) .decode(end) .verify_end() .end_cons() .decode(dn_subject); if(version > 2) throw Decoding_Error("Unknown X.509 cert version " + to_string(version)); if(sig_algo != sig_algo_inner) throw Decoding_Error("Algorithm identifier mismatch"); self_signed = (dn_subject == dn_issuer); subject.add(dn_subject.contents()); issuer.add(dn_issuer.contents()); BER_Object public_key = tbs_cert.get_next_object(); if(public_key.type_tag != SEQUENCE || public_key.class_tag != CONSTRUCTED) throw BER_Bad_Tag("X509_Certificate: Unexpected tag for public key", public_key.type_tag, public_key.class_tag); MemoryVector v2_issuer_key_id, v2_subject_key_id; tbs_cert.decode_optional_string(v2_issuer_key_id, BIT_STRING, 1); tbs_cert.decode_optional_string(v2_subject_key_id, BIT_STRING, 2); BER_Object v3_exts_data = tbs_cert.get_next_object(); if(v3_exts_data.type_tag == 3 && v3_exts_data.class_tag == ASN1_Tag(CONSTRUCTED | CONTEXT_SPECIFIC)) { Extensions extensions; BER_Decoder(v3_exts_data.value).decode(extensions).verify_end(); extensions.contents_to(subject, issuer); } else if(v3_exts_data.type_tag != NO_OBJECT) throw BER_Bad_Tag("Unknown tag in X.509 cert", v3_exts_data.type_tag, v3_exts_data.class_tag); if(tbs_cert.more_items()) throw Decoding_Error("TBSCertificate has more items that expected"); subject.add("X509.Certificate.version", version); subject.add("X509.Certificate.serial", BigInt::encode(serial_bn)); subject.add("X509.Certificate.start", start.readable_string()); subject.add("X509.Certificate.end", end.readable_string()); issuer.add("X509.Certificate.v2.key_id", v2_issuer_key_id); subject.add("X509.Certificate.v2.key_id", v2_subject_key_id); subject.add("X509.Certificate.public_key", PEM_Code::encode( ASN1::put_in_sequence(public_key.value), "PUBLIC KEY" ) ); if(is_CA_cert() && !subject.has_value("X509v3.BasicConstraints.path_constraint")) { u32bit limit = (x509_version() < 3) ? NO_CERT_PATH_LIMIT : 0; subject.add("X509v3.BasicConstraints.path_constraint", limit); } } /************************************************* * Return the X.509 version in use * *************************************************/ u32bit X509_Certificate::x509_version() const { return (subject.get1_u32bit("X509.Certificate.version") + 1); } /************************************************* * Return the time this cert becomes valid * *************************************************/ std::string X509_Certificate::start_time() const { return subject.get1("X509.Certificate.start"); } /************************************************* * Return the time this cert becomes invalid * *************************************************/ std::string X509_Certificate::end_time() const { return subject.get1("X509.Certificate.end"); } /************************************************* * Return information about the subject * *************************************************/ std::vector X509_Certificate::subject_info(const std::string& what) const { return subject.get(X509_DN::deref_info_field(what)); } /************************************************* * Return information about the issuer * *************************************************/ std::vector X509_Certificate::issuer_info(const std::string& what) const { return issuer.get(X509_DN::deref_info_field(what)); } /************************************************* * Return the public key in this certificate * *************************************************/ Public_Key* X509_Certificate::subject_public_key() const { DataSource_Memory source(subject.get1("X509.Certificate.public_key")); return X509::load_key(source); } /************************************************* * Check if the certificate is for a CA * *************************************************/ bool X509_Certificate::is_CA_cert() const { if(!subject.get1_u32bit("X509v3.BasicConstraints.is_ca")) return false; if((constraints() & KEY_CERT_SIGN) || (constraints() == NO_CONSTRAINTS)) return true; return false; } /************************************************* * Return the path length constraint * *************************************************/ u32bit X509_Certificate::path_limit() const { return subject.get1_u32bit("X509v3.BasicConstraints.path_constraint", 0); } /************************************************* * Return the key usage constraints * *************************************************/ Key_Constraints X509_Certificate::constraints() const { return Key_Constraints(subject.get1_u32bit("X509v3.KeyUsage", NO_CONSTRAINTS)); } /************************************************* * Return the list of extended key usage OIDs * *************************************************/ std::vector X509_Certificate::ex_constraints() const { return lookup_oids(subject.get("X509v3.ExtendedKeyUsage")); } /************************************************* * Return the list of certificate policies * *************************************************/ std::vector X509_Certificate::policies() const { return lookup_oids(subject.get("X509v3.CertificatePolicies")); } /************************************************* * Return the authority key id * *************************************************/ MemoryVector X509_Certificate::authority_key_id() const { return issuer.get1_memvec("X509v3.AuthorityKeyIdentifier"); } /************************************************* * Return the subject key id * *************************************************/ MemoryVector X509_Certificate::subject_key_id() const { return subject.get1_memvec("X509v3.SubjectKeyIdentifier"); } /************************************************* * Return the certificate serial number * *************************************************/ MemoryVector X509_Certificate::serial_number() const { return subject.get1_memvec("X509.Certificate.serial"); } /************************************************* * Return the distinguished name of the issuer * *************************************************/ X509_DN X509_Certificate::issuer_dn() const { return create_dn(issuer); } /************************************************* * Return the distinguished name of the subject * *************************************************/ X509_DN X509_Certificate::subject_dn() const { return create_dn(subject); } /************************************************* * Compare two certificates for equality * *************************************************/ bool X509_Certificate::operator==(const X509_Certificate& other) const { return (sig == other.sig && sig_algo == other.sig_algo && self_signed == other.self_signed && issuer == other.issuer && subject == other.subject); } /************************************************* * X.509 Certificate Comparison * *************************************************/ bool operator!=(const X509_Certificate& cert1, const X509_Certificate& cert2) { return !(cert1 == cert2); } /************************************************* * Create and populate a X509_DN * *************************************************/ X509_DN create_dn(const Data_Store& info) { class DN_Matcher : public Data_Store::Matcher { public: bool operator()(const std::string& key, const std::string&) const { if(key.find("X520.") != std::string::npos) return true; return false; } }; std::multimap names = info.search_with(DN_Matcher()); X509_DN dn; std::multimap::iterator j; for(j = names.begin(); j != names.end(); ++j) dn.add_attribute(j->first, j->second); return dn; } /************************************************* * Create and populate an AlternativeName * *************************************************/ AlternativeName create_alt_name(const Data_Store& info) { class AltName_Matcher : public Data_Store::Matcher { public: bool operator()(const std::string& key, const std::string&) const { for(u32bit j = 0; j != matches.size(); ++j) if(key.compare(matches[j]) == 0) return true; return false; } AltName_Matcher(const std::string& match_any_of) { matches = split_on(match_any_of, '/'); } private: std::vector matches; }; std::multimap names = info.search_with(AltName_Matcher("RFC822/DNS/URI")); AlternativeName alt_name; std::multimap::iterator j; for(j = names.begin(); j != names.end(); ++j) alt_name.add_attribute(j->first, j->second); return alt_name; } }