/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2021 Molly Miller * Copyright (C) 2020 Matt Schatz * Copyright (C) 2019 linuxdaemon * Copyright (C) 2013, 2017-2022 Sadie Powell * Copyright (C) 2012-2016 Attila Molnar * Copyright (C) 2012 Robby * Copyright (C) 2010 Adam * Copyright (C) 2009-2010 Daniel De Graaf * Copyright (C) 2007 Dennis Friis * Copyright (C) 2006-2007, 2009 Craig Edwards * * This file is part of InspIRCd. InspIRCd is free software: you can * redistribute it and/or modify it under the terms of the GNU General Public * License as published by the Free Software Foundation, version 2. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "inspircd.h" #include "extension.h" #include "modules/ssl.h" #include "modules/webirc.h" #include "modules/who.h" #include "modules/whois.h" #include "numerichelper.h" class SSLCertExt final : public ExtensionItem { public: SSLCertExt(Module* parent) : ExtensionItem(parent, "ssl_cert", ExtensionType::USER) { } ssl_cert* Get(const User* user) const { return static_cast(GetRaw(user)); } void Set(User* user, ssl_cert* value, bool sync = true) { value->refcount_inc(); ssl_cert* old = static_cast(SetRaw(user, value)); if (old && old->refcount_dec()) delete old; if (sync) Sync(user, value); } void Unset(User* user) { Delete(user, UnsetRaw(user)); } std::string ToInternal(const Extensible* container, void* item) const noexcept override { return ToNetwork(container, item); } std::string ToNetwork(const Extensible* container, void* item) const noexcept override { const ssl_cert* cert = static_cast(item); std::stringstream value; value << (cert->IsInvalid() ? "v" : "V") << (cert->IsTrusted() ? "T" : "t") << (cert->IsRevoked() ? "R" : "r") << (cert->IsUnknownSigner() ? "s" : "S") << (cert->GetError().empty() ? "e" : "E") << " "; if (cert->GetError().empty()) value << cert->GetFingerprint() << " " << cert->GetDN() << " " << cert->GetIssuer(); else value << cert->GetError(); return value.str(); } void FromInternal(Extensible* container, const std::string& value) noexcept override { FromNetwork(container, value); } void FromNetwork(Extensible* container, const std::string& value) noexcept override { if (container->extype != this->extype) return; auto* cert = new ssl_cert(); Set(static_cast(container), cert, false); std::stringstream s(value); std::string v; getline(s, v, ' '); cert->invalid = (v.find('v') != std::string::npos); cert->trusted = (v.find('T') != std::string::npos); cert->revoked = (v.find('R') != std::string::npos); cert->unknownsigner = (v.find('s') != std::string::npos); if (v.find('E') != std::string::npos) { getline(s, cert->error, '\n'); } else { getline(s, cert->fingerprint, ' '); getline(s, cert->dn, ' '); getline(s, cert->issuer, '\n'); } } void Delete(Extensible* container, void* item) override { ssl_cert* old = static_cast(item); if (old && old->refcount_dec()) delete old; } }; class UserCertificateAPIImpl final : public UserCertificateAPIBase { public: BoolExtItem nosslext; SSLCertExt sslext; UserCertificateAPIImpl(Module* mod) : UserCertificateAPIBase(mod) , nosslext(mod, "no-ssl-cert", ExtensionType::USER) , sslext(mod) { } ssl_cert* GetCertificate(User* user) override { ssl_cert* cert = sslext.Get(user); if (cert) return cert; LocalUser* luser = IS_LOCAL(user); if (!luser || nosslext.Get(luser)) return nullptr; cert = SSLClientCert::GetCertificate(&luser->eh); if (!cert) return nullptr; SetCertificate(user, cert); return cert; } void SetCertificate(User* user, ssl_cert* cert) override { ServerInstance->Logs.Debug(MODNAME, "Setting TLS client certificate for %s: %s", user->GetFullHost().c_str(), sslext.ToNetwork(user, cert).c_str()); sslext.Set(user, cert); } }; class CommandSSLInfo final : public SplitCommand { private: ChanModeReference sslonlymode; void HandleUserInternal(LocalUser* source, User* target, bool verbose) { ssl_cert* cert = sslapi.GetCertificate(target); if (!cert) { source->WriteNotice(INSP_FORMAT("*** {} is not connected using TLS.", target->nick)); } else if (cert->GetError().length()) { source->WriteNotice(INSP_FORMAT("*** {} is connected using TLS but has not specified a valid client certificate ({}).", target->nick, cert->GetError())); } else if (!verbose) { source->WriteNotice(INSP_FORMAT("*** {} is connected using TLS with a valid client certificate ({}).", target->nick, cert->GetFingerprint())); } else { source->WriteNotice("*** Distinguished Name: " + cert->GetDN()); source->WriteNotice("*** Issuer: " + cert->GetIssuer()); source->WriteNotice("*** Key Fingerprint: " + cert->GetFingerprint()); } } CmdResult HandleUser(LocalUser* source, const std::string& nick) { auto* target = ServerInstance->Users.FindNick(nick, true); if (!target) { source->WriteNumeric(Numerics::NoSuchNick(nick)); return CmdResult::FAILURE; } if (operonlyfp && !source->IsOper() && source != target) { source->WriteNumeric(ERR_NOPRIVILEGES, "You must be a server operator to view TLS client certificate information for other users."); return CmdResult::FAILURE; } HandleUserInternal(source, target, true); return CmdResult::SUCCESS; } CmdResult HandleChannel(LocalUser* source, const std::string& channel) { auto* chan = ServerInstance->Channels.Find(channel); if (!chan) { source->WriteNumeric(Numerics::NoSuchChannel(channel)); return CmdResult::FAILURE; } if (operonlyfp && !source->IsOper()) { source->WriteNumeric(ERR_NOPRIVILEGES, "You must be a server operator to view TLS client certificate information for channels."); return CmdResult::FAILURE; } if (!source->IsOper() && chan->GetPrefixValue(source) < OP_VALUE) { source->WriteNumeric(Numerics::ChannelPrivilegesNeeded(chan, OP_VALUE, "view TLS (SSL) client certificate information")); return CmdResult::FAILURE; } if (sslonlymode) { source->WriteNotice(INSP_FORMAT("*** {} {} have channel mode +{} ({}) set.", chan->name, chan->IsModeSet(sslonlymode) ? "does" : "does not", sslonlymode->GetModeChar(), sslonlymode->name)); } for (const auto& [u, _] : chan->GetUsers()) { if (!u->server->IsService()) HandleUserInternal(source, u, false); } return CmdResult::SUCCESS; } public: UserCertificateAPIImpl sslapi; bool operonlyfp; CommandSSLInfo(Module* Creator) : SplitCommand(Creator, "SSLINFO", 1) , sslonlymode(Creator, "sslonly") , sslapi(Creator) { syntax = { "" }; } CmdResult HandleLocal(LocalUser* user, const Params& parameters) override { if (ServerInstance->Channels.IsPrefix(parameters[0][0])) return HandleChannel(user, parameters[0]); else return HandleUser(user, parameters[0]); } }; class ModuleSSLInfo final : public Module , public WebIRC::EventListener , public Whois::EventListener , public Who::EventListener { private: CommandSSLInfo cmd; std::string hash; static bool MatchFP(ssl_cert* const cert, const std::string& fp) { return irc::spacesepstream(fp).Contains(cert->GetFingerprint()); } public: ModuleSSLInfo() : Module(VF_VENDOR, "Adds user facing TLS information, various TLS configuration options, and the /SSLINFO command to look up TLS certificate information for other users.") , WebIRC::EventListener(this) , Whois::EventListener(this) , Who::EventListener(this) , cmd(this) { } void ReadConfig(ConfigStatus& status) override { const auto& tag = ServerInstance->Config->ConfValue("sslinfo"); cmd.operonlyfp = tag->getBool("operonly"); hash = tag->getString("hash"); } void OnWhois(Whois::Context& whois) override { ssl_cert* cert = cmd.sslapi.GetCertificate(whois.GetTarget()); if (cert) { whois.SendLine(RPL_WHOISSECURE, "is using a secure connection"); if ((!cmd.operonlyfp || whois.IsSelfWhois() || whois.GetSource()->IsOper()) && !cert->fingerprint.empty()) whois.SendLine(RPL_WHOISCERTFP, INSP_FORMAT("has TLS client certificate fingerprint {}", cert->fingerprint)); } } ModResult OnWhoLine(const Who::Request& request, LocalUser* source, User* user, Membership* memb, Numeric::Numeric& numeric) override { size_t flag_index; if (!request.GetFieldIndex('f', flag_index)) return MOD_RES_PASSTHRU; ssl_cert* cert = cmd.sslapi.GetCertificate(user); if (cert) numeric.GetParams()[flag_index].push_back('s'); return MOD_RES_PASSTHRU; } ModResult OnPreOperLogin(LocalUser* user, const std::shared_ptr& oper, bool automatic) override { auto* cert = cmd.sslapi.GetCertificate(user); if (oper->GetConfig()->getBool("sslonly") && !cert) { if (!automatic) { ServerInstance->SNO.WriteGlobalSno('o', "{} ({}) [{}] failed to log into the \x02{}\x02 oper account because they are not connected using TLS.", user->nick, user->MakeHost(), user->GetIPString(), oper->GetName()); } return MOD_RES_DENY; } const std::string fingerprint = oper->GetConfig()->getString("fingerprint"); if (!fingerprint.empty() && (!cert || !MatchFP(cert, fingerprint))) { if (!automatic) { ServerInstance->SNO.WriteGlobalSno('o', "{} ({}) [{}] failed to log into the \x02{}\x02 oper account because they are not using the correct TLS client certificate.", user->nick, user->MakeHost(), user->GetIPString(), oper->GetName()); } return MOD_RES_DENY; } return MOD_RES_PASSTHRU; } void OnPostConnect(User* user) override { LocalUser* const localuser = IS_LOCAL(user); if (!localuser) return; const SSLIOHook* const ssliohook = SSLIOHook::IsSSL(&localuser->eh); if (!ssliohook || cmd.sslapi.nosslext.Get(localuser)) return; ssl_cert* const cert = ssliohook->GetCertificate(); std::string text = "*** You are connected to "; if (!ssliohook->GetServerName(text)) text.append(ServerInstance->Config->GetServerName()); text.append(" using TLS cipher '"); ssliohook->GetCiphersuite(text); text.push_back('\''); if (cert && !cert->GetFingerprint().empty()) text.append(" and your TLS client certificate fingerprint is ").append(cert->GetFingerprint()); user->WriteNotice(text); } ModResult OnPreChangeConnectClass(LocalUser* user, const std::shared_ptr& klass) override { ssl_cert* cert = cmd.sslapi.GetCertificate(user); const char* error = nullptr; const std::string requiressl = klass->config->getString("requiressl"); if (stdalgo::string::equalsci(requiressl, "trusted")) { if (!cert || !cert->IsCAVerified()) error = "a trusted TLS client certificate"; } else if (klass->config->getBool("requiressl")) { if (!cert) error = "a TLS connection"; } if (error) { ServerInstance->Logs.Debug("CONNECTCLASS", "The %s connect class is not suitable as it requires %s.", klass->GetName().c_str(), error); return MOD_RES_DENY; } return MOD_RES_PASSTHRU; } void OnWebIRCAuth(LocalUser* user, const WebIRC::FlagMap* flags) override { // We are only interested in connection flags. If none have been // given then we have nothing to do. if (!flags) return; // We only care about the tls connection flag if the connection // between the gateway and the server is secure. if (!cmd.sslapi.GetCertificate(user)) return; WebIRC::FlagMap::const_iterator iter = flags->find("secure"); if (iter == flags->end()) { // If this is not set then the connection between the client and // the gateway is not secure. cmd.sslapi.nosslext.Set(user); cmd.sslapi.sslext.Unset(user); return; } // Create a fake ssl_cert for the user. auto* cert = new ssl_cert(); if (!hash.empty()) { iter = flags->find("certfp-" + hash); if (iter != flags->end() && !iter->second.empty()) { // If the gateway specifies this flag we put all trust onto them // for having validated the client certificate. This is probably // ill-advised but there's not much else we can do. cert->fingerprint = iter->second; cert->dn = "(unknown)"; cert->invalid = false; cert->issuer = "(unknown)"; cert->trusted = true; cert->unknownsigner = false; } } if (cert->fingerprint.empty()) { cert->error = "WebIRC gateway did not send a client fingerprint"; cert->revoked = true; } cmd.sslapi.SetCertificate(user, cert); } }; MODULE_INIT(ModuleSSLInfo)