/* * X.509 Certificate Path Validation * (C) 2010,2011,2012,2014 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #include #include #include #include #include #include #include #include #include #include #include namespace Botan { namespace { const X509_Certificate* find_issuing_cert(const X509_Certificate& cert, Certificate_Store& end_certs, const std::vector& certstores) { const X509_DN issuer_dn = cert.issuer_dn(); const std::vector auth_key_id = cert.authority_key_id(); if(const X509_Certificate* c = end_certs.find_cert(issuer_dn, auth_key_id)) return c; for(size_t i = 0; i != certstores.size(); ++i) { if(const X509_Certificate* c = certstores[i]->find_cert(issuer_dn, auth_key_id)) return c; } return nullptr; } const X509_CRL* find_crls_for(const X509_Certificate& cert, const std::vector& certstores) { for(size_t i = 0; i != certstores.size(); ++i) { if(const X509_CRL* crl = certstores[i]->find_crl_for(cert)) return crl; } #if 0 const std::string crl_url = cert.crl_distribution_point(); if(crl_url != "") { std::cout << "Downloading CRL " << crl_url << "\n"; auto http = HTTP::GET_sync(crl_url); std::cout << http.status_message() << "\n"; http.throw_unless_ok(); // check the mime type std::unique_ptr crl(new X509_CRL(http.body())); return crl.release(); } #endif return nullptr; } std::vector> check_chain(const std::vector& cert_path, const Path_Validation_Restrictions& restrictions, const std::vector& certstores) { const std::set& trusted_hashes = restrictions.trusted_hashes(); const bool self_signed_ee_cert = (cert_path.size() == 1); X509_Time current_time(std::chrono::system_clock::now()); std::vector> ocsp_responses; std::vector> cert_status(cert_path.size()); for(size_t i = 0; i != cert_path.size(); ++i) { std::set& status = cert_status.at(i); const bool at_self_signed_root = (i == cert_path.size() - 1); const X509_Certificate& subject = cert_path[i]; const X509_Certificate& issuer = cert_path[at_self_signed_root ? (i) : (i + 1)]; if(i == 0 || restrictions.ocsp_all_intermediates()) { // certstore[0] is treated as trusted for OCSP (FIXME) if(certstores.size() > 1) ocsp_responses.push_back( std::async(std::launch::async, OCSP::online_check, issuer, subject, certstores[0])); } // Check all certs for valid time range if(current_time < X509_Time(subject.start_time(), ASN1_Tag::UTC_OR_GENERALIZED_TIME)) status.insert(Certificate_Status_Code::CERT_NOT_YET_VALID); if(current_time > X509_Time(subject.end_time(), ASN1_Tag::UTC_OR_GENERALIZED_TIME)) status.insert(Certificate_Status_Code::CERT_HAS_EXPIRED); // Check issuer constraints // Don't require CA bit set on self-signed end entity cert if(!issuer.is_CA_cert() && !self_signed_ee_cert) status.insert(Certificate_Status_Code::CA_CERT_NOT_FOR_CERT_ISSUER); if(issuer.path_limit() < i) status.insert(Certificate_Status_Code::CERT_CHAIN_TOO_LONG); std::unique_ptr issuer_key(issuer.subject_public_key()); if(!issuer_key) { status.insert(Certificate_Status_Code::SIGNATURE_ERROR); } else { if(subject.check_signature(*issuer_key) == false) status.insert(Certificate_Status_Code::SIGNATURE_ERROR); if(issuer_key->estimated_strength() < restrictions.minimum_key_strength()) status.insert(Certificate_Status_Code::SIGNATURE_METHOD_TOO_WEAK); } // Allow untrusted hashes on self-signed roots if(!trusted_hashes.empty() && !at_self_signed_root) { if(!trusted_hashes.count(subject.hash_used_for_signature())) status.insert(Certificate_Status_Code::UNTRUSTED_HASH); } } for(size_t i = 0; i != cert_path.size() - 1; ++i) { std::set& status = cert_status.at(i); const X509_Certificate& subject = cert_path.at(i); const X509_Certificate& ca = cert_path.at(i+1); if(i < ocsp_responses.size()) { try { OCSP::Response ocsp = ocsp_responses[i].get(); auto ocsp_status = ocsp.status_for(ca, subject); status.insert(ocsp_status); //std::cout << "OCSP status: " << Path_Validation_Result::status_string(ocsp_status) << "\n"; // Either way we have a definitive answer, no need to check CRLs if(ocsp_status == Certificate_Status_Code::CERT_IS_REVOKED) return cert_status; else if(ocsp_status == Certificate_Status_Code::OCSP_RESPONSE_GOOD) continue; } catch(std::exception& e) { //std::cout << "OCSP error: " << e.what() << "\n"; } } const X509_CRL* crl_p = find_crls_for(subject, certstores); if(!crl_p) { if(restrictions.require_revocation_information()) status.insert(Certificate_Status_Code::NO_REVOCATION_DATA); continue; } const X509_CRL& crl = *crl_p; if(!ca.allowed_usage(CRL_SIGN)) status.insert(Certificate_Status_Code::CA_CERT_NOT_FOR_CRL_ISSUER); if(current_time < X509_Time(crl.this_update())) status.insert(Certificate_Status_Code::CRL_NOT_YET_VALID); if(current_time > X509_Time(crl.next_update())) status.insert(Certificate_Status_Code::CRL_HAS_EXPIRED); if(crl.check_signature(ca.subject_public_key()) == false) status.insert(Certificate_Status_Code::CRL_BAD_SIGNATURE); if(crl.is_revoked(subject)) status.insert(Certificate_Status_Code::CERT_IS_REVOKED); } if(self_signed_ee_cert) cert_status.back().insert(Certificate_Status_Code::CANNOT_ESTABLISH_TRUST); return cert_status; } } Path_Validation_Result x509_path_validate( const std::vector& end_certs, const Path_Validation_Restrictions& restrictions, const std::vector& certstores, const std::string& hostname, Usage_Type usage) { if(end_certs.empty()) throw std::invalid_argument("x509_path_validate called with no subjects"); std::vector cert_path; cert_path.push_back(end_certs[0]); /* * This is an inelegant but functional way of preventing path loops * (where C1 -> C2 -> C3 -> C1). We store a set of all the certificate * fingerprints in the path. If there is a duplicate, we error out. */ std::set certs_seen; Certificate_Store_Overlay extra(end_certs); // iterate until we reach a root or cannot find the issuer while(!cert_path.back().is_self_signed()) { const X509_Certificate* cert = find_issuing_cert(cert_path.back(), extra, certstores); if(!cert) return Path_Validation_Result(Certificate_Status_Code::CERT_ISSUER_NOT_FOUND); const std::string fprint = cert->fingerprint("SHA-256"); if(certs_seen.count(fprint) > 0) return Path_Validation_Result(Certificate_Status_Code::CERT_CHAIN_LOOP); certs_seen.insert(fprint); cert_path.push_back(*cert); } std::vector> res = check_chain(cert_path, restrictions, certstores); if(hostname != "" && !cert_path[0].matches_dns_name(hostname)) res[0].insert(Certificate_Status_Code::CERT_NAME_NOMATCH); if(!cert_path[0].allowed_usage(usage)) res[0].insert(Certificate_Status_Code::INVALID_USAGE); return Path_Validation_Result(res, std::move(cert_path)); } Path_Validation_Result x509_path_validate( const X509_Certificate& end_cert, const Path_Validation_Restrictions& restrictions, const std::vector& certstores, const std::string& hostname, Usage_Type usage) { std::vector certs; certs.push_back(end_cert); return x509_path_validate(certs, restrictions, certstores, hostname, usage); } Path_Validation_Result x509_path_validate( const std::vector& end_certs, const Path_Validation_Restrictions& restrictions, const Certificate_Store& store, const std::string& hostname, Usage_Type usage) { std::vector certstores; certstores.push_back(const_cast(&store)); return x509_path_validate(end_certs, restrictions, certstores, hostname, usage); } Path_Validation_Result x509_path_validate( const X509_Certificate& end_cert, const Path_Validation_Restrictions& restrictions, const Certificate_Store& store, const std::string& hostname, Usage_Type usage) { std::vector certs; certs.push_back(end_cert); std::vector certstores; certstores.push_back(const_cast(&store)); return x509_path_validate(certs, restrictions, certstores, hostname, usage); } Path_Validation_Restrictions::Path_Validation_Restrictions(bool require_rev, size_t key_strength, bool ocsp_all) : m_require_revocation_information(require_rev), m_ocsp_all_intermediates(ocsp_all), m_minimum_key_strength(key_strength) { if(key_strength <= 80) m_trusted_hashes.insert("SHA-160"); m_trusted_hashes.insert("SHA-224"); m_trusted_hashes.insert("SHA-256"); m_trusted_hashes.insert("SHA-384"); m_trusted_hashes.insert("SHA-512"); } Path_Validation_Result::Path_Validation_Result(std::vector> status, std::vector&& cert_chain) : m_overall(Certificate_Status_Code::VERIFIED), m_all_status(status), m_cert_path(cert_chain) { // take the "worst" error as overall for(const auto& s : m_all_status) { if(!s.empty()) { auto worst = *s.rbegin(); // Leave OCSP confirmations on cert-level status only if(worst != Certificate_Status_Code::OCSP_RESPONSE_GOOD) m_overall = worst; } } } const X509_Certificate& Path_Validation_Result::trust_root() const { if(m_cert_path.empty()) throw std::runtime_error("Path_Validation_Result::trust_root no path set"); return m_cert_path[m_cert_path.size()-1]; } std::set Path_Validation_Result::trusted_hashes() const { std::set hashes; for(size_t i = 0; i != m_cert_path.size(); ++i) hashes.insert(m_cert_path[i].hash_used_for_signature()); return hashes; } bool Path_Validation_Result::successful_validation() const { if(result() == Certificate_Status_Code::VERIFIED || result() == Certificate_Status_Code::OCSP_RESPONSE_GOOD) return true; return false; } std::string Path_Validation_Result::result_string() const { return status_string(result()); } const char* Path_Validation_Result::status_string(Certificate_Status_Code code) { switch(code) { case Certificate_Status_Code::VERIFIED: return "Verified"; case Certificate_Status_Code::OCSP_RESPONSE_GOOD: return "OCSP response good"; case Certificate_Status_Code::NO_REVOCATION_DATA: return "No revocation data"; case Certificate_Status_Code::SIGNATURE_METHOD_TOO_WEAK: return "Signature method too weak"; case Certificate_Status_Code::UNTRUSTED_HASH: return "Untrusted hash"; case Certificate_Status_Code::CERT_NOT_YET_VALID: return "Certificate is not yet valid"; case Certificate_Status_Code::CERT_HAS_EXPIRED: return "Certificate has expired"; case Certificate_Status_Code::OCSP_NOT_YET_VALID: return "OCSP is not yet valid"; case Certificate_Status_Code::OCSP_HAS_EXPIRED: return "OCSP has expired"; case Certificate_Status_Code::CRL_NOT_YET_VALID: return "CRL is not yet valid"; case Certificate_Status_Code::CRL_HAS_EXPIRED: return "CRL has expired"; case Certificate_Status_Code::CERT_ISSUER_NOT_FOUND: return "Certificate issuer not found"; case Certificate_Status_Code::CANNOT_ESTABLISH_TRUST: return "Cannot establish trust"; case Certificate_Status_Code::CERT_CHAIN_LOOP: return "Loop in certificate chain"; case Certificate_Status_Code::POLICY_ERROR: return "Policy error"; case Certificate_Status_Code::INVALID_USAGE: return "Invalid usage"; case Certificate_Status_Code::CERT_CHAIN_TOO_LONG: return "Certificate chain too long"; case Certificate_Status_Code::CA_CERT_NOT_FOR_CERT_ISSUER: return "CA certificate not allowed to issue certs"; case Certificate_Status_Code::CA_CERT_NOT_FOR_CRL_ISSUER: return "CA certificate not allowed to issue CRLs"; case Certificate_Status_Code::OCSP_CERT_NOT_LISTED: return "OCSP cert not listed"; case Certificate_Status_Code::OCSP_BAD_STATUS: return "OCSP bad status"; case Certificate_Status_Code::CERT_NAME_NOMATCH: return "Certificate does not match provided name"; case Certificate_Status_Code::CERT_IS_REVOKED: return "Certificate is revoked"; case Certificate_Status_Code::CRL_BAD_SIGNATURE: return "CRL bad signature"; case Certificate_Status_Code::SIGNATURE_ERROR: return "Signature error"; // intentionally no default so we are warned } return "Unknown error"; } }