/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #include "remote/pkiutility.hpp" #include "remote/apilistener.hpp" #include "base/defer.hpp" #include "base/io-engine.hpp" #include "base/logger.hpp" #include "base/application.hpp" #include "base/tcpsocket.hpp" #include "base/tlsutility.hpp" #include "base/console.hpp" #include "base/tlsstream.hpp" #include "base/tcpsocket.hpp" #include "base/json.hpp" #include "base/utility.hpp" #include "base/convert.hpp" #include "base/exception.hpp" #include "remote/jsonrpc.hpp" #include #include #include #include using namespace icinga; int PkiUtility::NewCa() { String caDir = ApiListener::GetCaDir(); String caCertFile = caDir + "/ca.crt"; String caKeyFile = caDir + "/ca.key"; if (Utility::PathExists(caCertFile) && Utility::PathExists(caKeyFile)) { Log(LogWarning, "cli") << "CA files '" << caCertFile << "' and '" << caKeyFile << "' already exist."; return 1; } Utility::MkDirP(caDir, 0700); MakeX509CSR("Icinga CA", caKeyFile, String(), caCertFile, true); return 0; } int PkiUtility::NewCert(const String& cn, const String& keyfile, const String& csrfile, const String& certfile) { try { MakeX509CSR(cn, keyfile, csrfile, certfile); } catch(std::exception&) { return 1; } return 0; } int PkiUtility::SignCsr(const String& csrfile, const String& certfile) { char errbuf[256]; InitializeOpenSSL(); BIO *csrbio = BIO_new_file(csrfile.CStr(), "r"); X509_REQ *req = PEM_read_bio_X509_REQ(csrbio, nullptr, nullptr, nullptr); if (!req) { Log(LogCritical, "SSL") << "Could not read X509 certificate request from '" << csrfile << "': " << ERR_peek_error() << ", \"" << ERR_error_string(ERR_peek_error(), errbuf) << "\""; return 1; } BIO_free(csrbio); std::shared_ptr pubkey = std::shared_ptr(X509_REQ_get_pubkey(req), EVP_PKEY_free); std::shared_ptr cert = CreateCertIcingaCA(pubkey.get(), X509_REQ_get_subject_name(req)); X509_REQ_free(req); WriteCert(cert, certfile); return 0; } std::shared_ptr PkiUtility::FetchCert(const String& host, const String& port) { Shared::Ptr sslContext; try { sslContext = MakeAsioSslContext(); } catch (const std::exception& ex) { Log(LogCritical, "pki") << "Cannot make SSL context."; Log(LogDebug, "pki") << "Cannot make SSL context:\n" << DiagnosticInformation(ex); return std::shared_ptr(); } auto stream (Shared::Make(IoEngine::Get().GetIoContext(), *sslContext, host)); try { Connect(stream->lowest_layer(), host, port); } catch (const std::exception& ex) { Log(LogCritical, "pki") << "Cannot connect to host '" << host << "' on port '" << port << "'"; Log(LogDebug, "pki") << "Cannot connect to host '" << host << "' on port '" << port << "':\n" << DiagnosticInformation(ex); return std::shared_ptr(); } auto& sslConn (stream->next_layer()); try { sslConn.handshake(sslConn.client); } catch (const std::exception& ex) { Log(LogCritical, "pki") << "Client TLS handshake failed. (" << ex.what() << ")"; return std::shared_ptr(); } Defer shutdown ([&sslConn]() { sslConn.shutdown(); }); return sslConn.GetPeerCertificate(); } int PkiUtility::WriteCert(const std::shared_ptr& cert, const String& trustedfile) { std::ofstream fpcert; fpcert.open(trustedfile.CStr()); fpcert << CertificateToString(cert); fpcert.close(); if (fpcert.fail()) { Log(LogCritical, "pki") << "Could not write certificate to file '" << trustedfile << "'."; return 1; } Log(LogInformation, "pki") << "Writing certificate to file '" << trustedfile << "'."; return 0; } int PkiUtility::GenTicket(const String& cn, const String& salt, std::ostream& ticketfp) { ticketfp << PBKDF2_SHA1(cn, salt, 50000) << "\n"; return 0; } int PkiUtility::RequestCertificate(const String& host, const String& port, const String& keyfile, const String& certfile, const String& cafile, const std::shared_ptr& trustedCert, const String& ticket) { Shared::Ptr sslContext; try { sslContext = MakeAsioSslContext(certfile, keyfile); } catch (const std::exception& ex) { Log(LogCritical, "cli") << "Cannot make SSL context for cert path: '" << certfile << "' key path: '" << keyfile << "' ca path: '" << cafile << "'."; Log(LogDebug, "cli") << "Cannot make SSL context for cert path: '" << certfile << "' key path: '" << keyfile << "' ca path: '" << cafile << "':\n" << DiagnosticInformation(ex); return 1; } auto stream (Shared::Make(IoEngine::Get().GetIoContext(), *sslContext, host)); try { Connect(stream->lowest_layer(), host, port); } catch (const std::exception& ex) { Log(LogCritical, "cli") << "Cannot connect to host '" << host << "' on port '" << port << "'"; Log(LogDebug, "cli") << "Cannot connect to host '" << host << "' on port '" << port << "':\n" << DiagnosticInformation(ex); return 1; } auto& sslConn (stream->next_layer()); try { sslConn.handshake(sslConn.client); } catch (const std::exception& ex) { Log(LogCritical, "cli") << "Client TLS handshake failed: " << DiagnosticInformation(ex, false); return 1; } Defer shutdown ([&sslConn]() { sslConn.shutdown(); }); auto peerCert (sslConn.GetPeerCertificate()); if (X509_cmp(peerCert.get(), trustedCert.get())) { Log(LogCritical, "cli", "Peer certificate does not match trusted certificate."); return 1; } Dictionary::Ptr params = new Dictionary({ { "ticket", String(ticket) } }); String msgid = Utility::NewUniqueID(); Dictionary::Ptr request = new Dictionary({ { "jsonrpc", "2.0" }, { "id", msgid }, { "method", "pki::RequestCertificate" }, { "params", params } }); Dictionary::Ptr response; try { JsonRpc::SendMessage(stream, request); stream->flush(); for (;;) { response = JsonRpc::DecodeMessage(JsonRpc::ReadMessage(stream)); if (response && response->Contains("error")) { Log(LogCritical, "cli", "Could not fetch valid response. Please check the master log (notice or debug)."); #ifdef I2_DEBUG /* we shouldn't expose master errors to the user in production environments */ Log(LogCritical, "cli", response->Get("error")); #endif /* I2_DEBUG */ return 1; } if (response && (response->Get("id") != msgid)) continue; break; } } catch (...) { Log(LogCritical, "cli", "Could not fetch valid response. Please check the master log."); return 1; } if (!response) { Log(LogCritical, "cli", "Could not fetch valid response. Please check the master log."); return 1; } Dictionary::Ptr result = response->Get("result"); if (result->Contains("ca")) { try { StringToCertificate(result->Get("ca")); } catch (const std::exception& ex) { Log(LogCritical, "cli") << "Could not write CA file: " << DiagnosticInformation(ex, false); return 1; } Log(LogInformation, "cli") << "Writing CA certificate to file '" << cafile << "'."; std::ofstream fpca; fpca.open(cafile.CStr()); fpca << result->Get("ca"); fpca.close(); if (fpca.fail()) { Log(LogCritical, "cli") << "Could not open CA certificate file '" << cafile << "' for writing."; return 1; } } if (result->Contains("error")) { LogSeverity severity; Value vstatus; if (!result->Get("status_code", &vstatus)) vstatus = 1; int status = vstatus; if (status == 1) severity = LogCritical; else { severity = LogInformation; Log(severity, "cli", "!!!!!!"); } Log(severity, "cli") << "!!! " << result->Get("error"); if (status == 1) return 1; else { Log(severity, "cli", "!!!!!!"); return 0; } } try { StringToCertificate(result->Get("cert")); } catch (const std::exception& ex) { Log(LogCritical, "cli") << "Could not write certificate file: " << DiagnosticInformation(ex, false); return 1; } Log(LogInformation, "cli") << "Writing signed certificate to file '" << certfile << "'."; std::ofstream fpcert; fpcert.open(certfile.CStr()); fpcert << result->Get("cert"); fpcert.close(); if (fpcert.fail()) { Log(LogCritical, "cli") << "Could not write certificate to file '" << certfile << "'."; return 1; } return 0; } String PkiUtility::GetCertificateInformation(const std::shared_ptr& cert) { BIO *out = BIO_new(BIO_s_mem()); String pre; pre = "\n Version: " + Convert::ToString(GetCertificateVersion(cert)); BIO_write(out, pre.CStr(), pre.GetLength()); pre = "\n Subject: "; BIO_write(out, pre.CStr(), pre.GetLength()); X509_NAME_print_ex(out, X509_get_subject_name(cert.get()), 0, XN_FLAG_ONELINE & ~ASN1_STRFLGS_ESC_MSB); pre = "\n Issuer: "; BIO_write(out, pre.CStr(), pre.GetLength()); X509_NAME_print_ex(out, X509_get_issuer_name(cert.get()), 0, XN_FLAG_ONELINE & ~ASN1_STRFLGS_ESC_MSB); pre = "\n Valid From: "; BIO_write(out, pre.CStr(), pre.GetLength()); ASN1_TIME_print(out, X509_get_notBefore(cert.get())); pre = "\n Valid Until: "; BIO_write(out, pre.CStr(), pre.GetLength()); ASN1_TIME_print(out, X509_get_notAfter(cert.get())); pre = "\n Serial: "; BIO_write(out, pre.CStr(), pre.GetLength()); ASN1_INTEGER *asn1_serial = X509_get_serialNumber(cert.get()); for (int i = 0; i < asn1_serial->length; i++) { BIO_printf(out, "%02x%c", asn1_serial->data[i], ((i + 1 == asn1_serial->length) ? '\n' : ':')); } pre = "\n Signature Algorithm: " + GetSignatureAlgorithm(cert); BIO_write(out, pre.CStr(), pre.GetLength()); pre = "\n Subject Alt Names: " + GetSubjectAltNames(cert)->Join(" "); BIO_write(out, pre.CStr(), pre.GetLength()); pre = "\n Fingerprint: "; BIO_write(out, pre.CStr(), pre.GetLength()); unsigned char md[EVP_MAX_MD_SIZE]; unsigned int diglen; X509_digest(cert.get(), EVP_sha256(), md, &diglen); char *data; long length = BIO_get_mem_data(out, &data); std::stringstream info; info << String(data, data + length); BIO_free(out); for (unsigned int i = 0; i < diglen; i++) { info << std::setfill('0') << std::setw(2) << std::uppercase << std::hex << static_cast(md[i]) << ' '; } info << '\n'; return info.str(); } static void CollectRequestHandler(const Dictionary::Ptr& requests, const String& requestFile) { Dictionary::Ptr request = Utility::LoadJsonFile(requestFile); if (!request) return; Dictionary::Ptr result = new Dictionary(); namespace fs = boost::filesystem; fs::path file(requestFile.Begin(), requestFile.End()); String fingerprint = file.stem().string(); String certRequestText = request->Get("cert_request"); result->Set("cert_request", certRequestText); Value vcertResponseText; if (request->Get("cert_response", &vcertResponseText)) { String certResponseText = vcertResponseText; result->Set("cert_response", certResponseText); } std::shared_ptr certRequest = StringToCertificate(certRequestText); /* XXX (requires OpenSSL >= 1.0.0) time_t now; time(&now); ASN1_TIME *tm = ASN1_TIME_adj(nullptr, now, 0, 0); int day, sec; ASN1_TIME_diff(&day, &sec, tm, X509_get_notBefore(certRequest.get())); result->Set("timestamp", static_cast(now) + day * 24 * 60 * 60 + sec); */ BIO *out = BIO_new(BIO_s_mem()); ASN1_TIME_print(out, X509_get_notBefore(certRequest.get())); char *data; long length; length = BIO_get_mem_data(out, &data); result->Set("timestamp", String(data, data + length)); BIO_free(out); out = BIO_new(BIO_s_mem()); X509_NAME_print_ex(out, X509_get_subject_name(certRequest.get()), 0, XN_FLAG_ONELINE & ~ASN1_STRFLGS_ESC_MSB); length = BIO_get_mem_data(out, &data); result->Set("subject", String(data, data + length)); BIO_free(out); requests->Set(fingerprint, result); } Dictionary::Ptr PkiUtility::GetCertificateRequests(bool removed) { Dictionary::Ptr requests = new Dictionary(); String requestDir = ApiListener::GetCertificateRequestsDir(); String ext = "json"; if (removed) ext = "removed"; if (Utility::PathExists(requestDir)) Utility::Glob(requestDir + "/*." + ext, std::bind(&CollectRequestHandler, requests, _1), GlobFile); return requests; }