/* * X.509 Name Constraint * (C) 2015 Kai Michaelis * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include #include #include #include #include #include namespace Botan { class DER_Encoder; GeneralName::GeneralName(const std::string& str) : GeneralName() { size_t p = str.find(':'); if(p != std::string::npos) { m_type = str.substr(0, p); m_name = str.substr(p + 1, std::string::npos); } else { throw Invalid_Argument("Failed to decode Name Constraint"); } } void GeneralName::encode_into(DER_Encoder&) const { throw Not_Implemented("GeneralName encoding"); } void GeneralName::decode_from(class BER_Decoder& ber) { BER_Object obj = ber.get_next_object(); if(obj.is_a(1, CONTEXT_SPECIFIC)) { m_type = "RFC822"; m_name = ASN1::to_string(obj); } else if(obj.is_a(2, CONTEXT_SPECIFIC)) { m_type = "DNS"; m_name = ASN1::to_string(obj); } else if(obj.is_a(6, CONTEXT_SPECIFIC)) { m_type = "URI"; m_name = ASN1::to_string(obj); } else if(obj.is_a(4, ASN1_Tag(CONTEXT_SPECIFIC | CONSTRUCTED))) { m_type = "DN"; X509_DN dn; BER_Decoder dec(obj); std::stringstream ss; dn.decode_from(dec); ss << dn; m_name = ss.str(); } else if(obj.is_a(7, CONTEXT_SPECIFIC)) { if(obj.length() == 8) { m_type = "IP"; m_name = ipv4_to_string(load_be(obj.bits(), 0)) + "/" + ipv4_to_string(load_be(obj.bits(), 1)); } else if(obj.length() == 32) { throw Decoding_Error("Unsupported IPv6 name constraint"); } else { throw Decoding_Error("Invalid IP name constraint size " + std::to_string(obj.length())); } } else { throw Decoding_Error("Found unknown GeneralName type"); } } GeneralName::MatchResult GeneralName::matches(const X509_Certificate& cert) const { std::vector nam; std::function match_fn; const X509_DN& dn = cert.subject_dn(); const AlternativeName& alt_name = cert.subject_alt_name(); if(type() == "DNS") { match_fn = std::mem_fn(&GeneralName::matches_dns); nam = alt_name.get_attribute("DNS"); if(nam.empty()) { nam = dn.get_attribute("CN"); } } else if(type() == "DN") { match_fn = std::mem_fn(&GeneralName::matches_dn); std::stringstream ss; ss << dn; nam.push_back(ss.str()); } else if(type() == "IP") { match_fn = std::mem_fn(&GeneralName::matches_ip); nam = alt_name.get_attribute("IP"); } else { return MatchResult::UnknownType; } if(nam.empty()) { return MatchResult::NotFound; } bool some = false; bool all = true; for(const std::string& n: nam) { bool m = match_fn(this, n); some |= m; all &= m; } if(all) { return MatchResult::All; } else if(some) { return MatchResult::Some; } else { return MatchResult::None; } } bool GeneralName::matches_dns(const std::string& nam) const { if(nam.size() == name().size()) { return nam == name(); } else if(name().size() > nam.size()) { return false; } else // name.size() < nam.size() { std::string constr = name().front() == '.' ? name() : "." + name(); // constr is suffix of nam return constr == nam.substr(nam.size() - constr.size(), constr.size()); } } bool GeneralName::matches_dn(const std::string& nam) const { std::stringstream ss(nam); std::stringstream tt(name()); X509_DN nam_dn, my_dn; ss >> nam_dn; tt >> my_dn; auto attr = nam_dn.get_attributes(); bool ret = true; size_t trys = 0; for(const auto& c: my_dn.dn_info()) { auto i = attr.equal_range(c.first); if(i.first != i.second) { trys += 1; ret = ret && (i.first->second == c.second.value()); } } return trys > 0 && ret; } bool GeneralName::matches_ip(const std::string& nam) const { uint32_t ip = string_to_ipv4(nam); std::vector p = split_on(name(), '/'); if(p.size() != 2) throw Decoding_Error("failed to parse IPv4 address"); uint32_t net = string_to_ipv4(p.at(0)); uint32_t mask = string_to_ipv4(p.at(1)); return (ip & mask) == net; } std::ostream& operator<<(std::ostream& os, const GeneralName& gn) { os << gn.type() << ":" << gn.name(); return os; } GeneralSubtree::GeneralSubtree(const std::string& str) : GeneralSubtree() { size_t p0, p1; size_t min = std::stoull(str, &p0, 10); size_t max = std::stoull(str.substr(p0 + 1), &p1, 10); GeneralName gn(str.substr(p0 + p1 + 2)); if(p0 > 0 && p1 > 0) { m_minimum = min; m_maximum = max; m_base = gn; } else { throw Invalid_Argument("Failed to decode Name Constraint"); } } void GeneralSubtree::encode_into(DER_Encoder&) const { throw Not_Implemented("General Subtree encoding"); } void GeneralSubtree::decode_from(class BER_Decoder& ber) { ber.start_cons(SEQUENCE) .decode(m_base) .decode_optional(m_minimum,ASN1_Tag(0), CONTEXT_SPECIFIC,size_t(0)) .end_cons(); if(m_minimum != 0) throw Decoding_Error("GeneralSubtree minimum must be 0"); m_maximum = std::numeric_limits::max(); } std::ostream& operator<<(std::ostream& os, const GeneralSubtree& gs) { os << gs.minimum() << "," << gs.maximum() << "," << gs.base(); return os; } }