/* * InspIRCd -- Internet Relay Chat Daemon * * Copyright (C) 2021 Dominic Hamon * Copyright (C) 2020 Joel Sing * Copyright (C) 2019 linuxdaemon * Copyright (C) 2016-2017, 2019-2023 Sadie Powell * Copyright (C) 2014 Attila Molnar * Copyright (C) 2013-2016 Adam * * 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 . */ /// $CompilerFlags: find_compiler_flags("lber" "") find_compiler_flags("ldap" "") /// $LinkerFlags: find_linker_flags("lber" "-llber") find_linker_flags("ldap" "-lldap_r") /// $PackageInfo: require_system("arch") libldap /// $PackageInfo: require_system("centos") openldap-devel /// $PackageInfo: require_system("debian") libldap2-dev /// $PackageInfo: require_system("rocky") openldap-devel /// $PackageInfo: require_system("ubuntu") libldap2-dev #include "inspircd.h" #include "modules/ldap.h" #include "threadsocket.h" #include "utility/string.h" #if defined LDAP_API_FEATURE_X_OPENLDAP_REENTRANT && !LDAP_API_FEATURE_X_OPENLDAP_REENTRANT # error InspIRCd requires OpenLDAP to be built as reentrant. #endif // Ignore OpenLDAP deprecation warnings on OS X Yosemite and newer. #if defined __APPLE__ # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wdeprecated-declarations" #endif #ifdef _WIN32 # include # include # include # define LDAP_OPT_SUCCESS LDAP_SUCCESS # define LDAP_OPT_NETWORK_TIMEOUT LDAP_OPT_SEND_TIMEOUT # define LDAP_STR(X) const_cast((X).c_str()) # define LDAP_SASL_SIMPLE static_cast(0) # define LDAP_TIME(X) reinterpret_cast(&(X)) # define LDAP_VENDOR_VERSION_MAJOR (LDAP_VERSION / 100) # define LDAP_VENDOR_VERSION_MINOR (LDAP_VERSION / 10 % 10) # define LDAP_VENDOR_VERSION_PATCH (LDAP_VERSION / 10) # define ldap_first_message ldap_first_entry # define ldap_next_message ldap_next_entry # define ldap_unbind_ext(LDAP, UNUSED1, UNUSED2) ldap_unbind(LDAP) # pragma comment(lib, "Wldap32.lib") #else # include # define LDAP_STR(X) ((X).c_str()) # define LDAP_TIME(X) (&(X)) #endif #ifdef __APPLE__ # pragma GCC diagnostic pop #endif class LDAPService; class LDAPRequest { public: LDAPService* service; LDAPInterface* inter; LDAPMessage* message = nullptr; /* message returned by ldap_ */ LDAPResult* result = nullptr; /* final result */ struct timeval tv; QueryType type; int success; LDAPRequest(LDAPService* s, LDAPInterface* i, int c) : service(s) , inter(i) , success(c) { type = QUERY_UNKNOWN; tv.tv_sec = 0; tv.tv_usec = 100000; } virtual ~LDAPRequest() { delete result; if (message != nullptr) ldap_msgfree(message); } virtual int run() = 0; virtual std::string info() = 0; }; class LDAPBind final : public LDAPRequest { std::string who, pass; public: LDAPBind(LDAPService* s, LDAPInterface* i, const std::string& w, const std::string& p) : LDAPRequest(s, i, LDAP_SUCCESS) , who(w) , pass(p) { type = QUERY_BIND; } int run() override; std::string info() override; }; class LDAPSearchRequest final : public LDAPRequest { std::string base; int searchscope; std::string filter; public: LDAPSearchRequest(LDAPService* s, LDAPInterface* i, const std::string& b, int se, const std::string& f) : LDAPRequest(s, i, LDAP_SUCCESS) , base(b) , searchscope(se) , filter(f) { type = QUERY_SEARCH; } int run() override; std::string info() override; }; class LDAPAdd final : public LDAPRequest { std::string dn; LDAPMods attributes; public: LDAPAdd(LDAPService* s, LDAPInterface* i, const std::string& d, const LDAPMods& attr) : LDAPRequest(s, i, LDAP_SUCCESS) , dn(d) , attributes(attr) { type = QUERY_ADD; } int run() override; std::string info() override; }; class LDAPDel final : public LDAPRequest { std::string dn; public: LDAPDel(LDAPService* s, LDAPInterface* i, const std::string& d) : LDAPRequest(s, i, LDAP_SUCCESS) , dn(d) { type = QUERY_DELETE; } int run() override; std::string info() override; }; class LDAPModify final : public LDAPRequest { std::string base; LDAPMods attributes; public: LDAPModify(LDAPService* s, LDAPInterface* i, const std::string& b, const LDAPMods& attr) : LDAPRequest(s, i, LDAP_SUCCESS) , base(b) , attributes(attr) { type = QUERY_MODIFY; } int run() override; std::string info() override; }; class LDAPCompare final : public LDAPRequest { std::string dn, attr, val; public: LDAPCompare(LDAPService* s, LDAPInterface* i, const std::string& d, const std::string& a, const std::string& v) : LDAPRequest(s, i, LDAP_COMPARE_TRUE) , dn(d) , attr(a) , val(v) { type = QUERY_COMPARE; } int run() override; std::string info() override; }; class LDAPService final : public LDAPProvider , public SocketThread { private: LDAP* con = nullptr; std::shared_ptr config; time_t last_connect = 0; int searchscope; time_t timeout; #ifdef _WIN32 // Windows LDAP does not implement this so we need to do it. int ldap_initialize(LDAP** ldap, const char* url) { http_parser_url up; http_parser_url_init(&up); if (http_parser_parse_url(url, strlen(url), 0, &up) != 0) return LDAP_CONNECT_ERROR; // Malformed url. if (!(up.field_set & (1 << UF_HOST))) return LDAP_CONNECT_ERROR; // Missing the host. unsigned long port = 389; // Default plaintext port. bool secure = false; // LDAP defaults to plaintext. if (up.field_set & (1 << UF_SCHEMA)) { const std::string schema(url, up.field_data[UF_SCHEMA].off, up.field_data[UF_SCHEMA].len); if (insp::equalsci(schema, "ldaps")) { port = 636; // Default encrypted port. secure = true; } else if (!insp::equalsci(schema, "ldap")) return LDAP_CONNECT_ERROR; // Invalid protocol. } if (up.field_set & (1 << UF_PORT)) { const std::string portstr(url, up.field_data[UF_PORT].off, up.field_data[UF_PORT].len); port = ConvToNum(portstr); } const std::string host(url, up.field_data[UF_HOST].off, up.field_data[UF_HOST].len); *ldap = ldap_sslinit(LDAP_STR(host), port, secure); if (!*ldap) return LdapGetLastError(); // Something went wrong, find out what. // We're connected to the LDAP server! return LDAP_SUCCESS; } #endif public: static LDAPMod** BuildMods(const LDAPMods& attributes) { LDAPMod** mods = new LDAPMod*[attributes.size() + 1]; memset(mods, 0, sizeof(LDAPMod*) * (attributes.size() + 1)); for (unsigned int x = 0; x < attributes.size(); ++x) { const LDAPModification& l = attributes[x]; auto* mod = new LDAPMod(); mods[x] = mod; if (l.op == LDAPModification::LDAP_ADD) mod->mod_op = LDAP_MOD_ADD; else if (l.op == LDAPModification::LDAP_DEL) mod->mod_op = LDAP_MOD_DELETE; else if (l.op == LDAPModification::LDAP_REPLACE) mod->mod_op = LDAP_MOD_REPLACE; else if (l.op != 0) { FreeMods(mods); throw LDAPException("Unknown LDAP operation"); } mod->mod_type = strdup(l.name.c_str()); mod->mod_values = new char*[l.values.size() + 1]; memset(mod->mod_values, 0, sizeof(char*) * (l.values.size() + 1)); for (unsigned int j = 0, c = 0; j < l.values.size(); ++j) if (!l.values[j].empty()) mod->mod_values[c++] = strdup(l.values[j].c_str()); } return mods; } static void FreeMods(LDAPMod** mods) { for (unsigned int i = 0; mods[i] != nullptr; ++i) { LDAPMod* mod = mods[i]; if (mod->mod_type != nullptr) free(mod->mod_type); if (mod->mod_values != nullptr) { for (unsigned int j = 0; mod->mod_values[j] != nullptr; ++j) free(mod->mod_values[j]); delete[] mod->mod_values; } } delete[] mods; } private: void Reconnect() { // Only try one connect a minute. It is an expensive blocking operation if (last_connect > ServerInstance->Time() - 60) throw LDAPException("Unable to connect to LDAP service " + this->name + ": reconnecting too fast"); last_connect = ServerInstance->Time(); ldap_unbind_ext(this->con, nullptr, nullptr); Connect(); } int SetOption(int option, const void* value) { int ret = ldap_set_option(this->con, option, value); if (ret != LDAP_OPT_SUCCESS) { ldap_unbind_ext(this->con, nullptr, nullptr); this->con = nullptr; } return ret; } void QueueRequest(LDAPRequest* r) { this->LockQueue(); this->queries.push_back(r); this->UnlockQueueWakeup(); } public: typedef std::vector query_queue; query_queue queries, results; std::mutex process_mutex; /* held when processing requests not in either queue */ LDAPService(Module* c, const std::shared_ptr& tag) : LDAPProvider(c, "LDAP/" + tag->getString("id")) , config(tag) { std::string scope = config->getString("searchscope"); if (insp::equalsci(scope, "base")) searchscope = LDAP_SCOPE_BASE; else if (insp::equalsci(scope, "onelevel")) searchscope = LDAP_SCOPE_ONELEVEL; else searchscope = LDAP_SCOPE_SUBTREE; timeout = config->getDuration("timeout", 5); Connect(); } ~LDAPService() override { this->LockQueue(); for (auto* req : this->queries) { /* queries have no results yet */ req->result = new LDAPResult(); req->result->type = req->type; req->result->error = "LDAP Interface is going away"; req->inter->OnError(*req->result); delete req; } this->queries.clear(); for (auto* req : this->results) { /* even though this may have already finished successfully we return that it didn't */ req->result->error = "LDAP Interface is going away"; req->inter->OnError(*req->result); delete req; } this->results.clear(); this->UnlockQueue(); ldap_unbind_ext(this->con, nullptr, nullptr); } void Connect() { std::string server = config->getString("server"); int i = ldap_initialize(&this->con, server.c_str()); if (i != LDAP_SUCCESS) throw LDAPException("Unable to connect to LDAP service " + this->name + ": " + ldap_err2string(i)); const int version = LDAP_VERSION3; i = SetOption(LDAP_OPT_PROTOCOL_VERSION, &version); if (i != LDAP_OPT_SUCCESS) throw LDAPException("Unable to set protocol version for " + this->name + ": " + ldap_err2string(i)); const struct timeval tv = { 0, 0 }; i = SetOption(LDAP_OPT_NETWORK_TIMEOUT, &tv); if (i != LDAP_OPT_SUCCESS) throw LDAPException("Unable to set timeout for " + this->name + ": " + ldap_err2string(i)); } void BindAsManager(LDAPInterface* i) override { std::string binddn = config->getString("binddn"); std::string bindauth = config->getString("bindauth"); this->Bind(i, binddn, bindauth); } void Bind(LDAPInterface* i, const std::string& who, const std::string& pass) override { QueueRequest(new LDAPBind(this, i, who, pass)); } void Search(LDAPInterface* i, const std::string& base, const std::string& filter) override { if (!i) throw LDAPException("No interface"); QueueRequest(new LDAPSearchRequest(this, i, base, searchscope, filter)); } void Add(LDAPInterface* i, const std::string& dn, LDAPMods& attributes) override { QueueRequest(new LDAPAdd(this, i, dn, attributes)); } void Del(LDAPInterface* i, const std::string& dn) override { QueueRequest(new LDAPDel(this, i, dn)); } void Modify(LDAPInterface* i, const std::string& base, LDAPMods& attributes) override { QueueRequest(new LDAPModify(this, i, base, attributes)); } void Compare(LDAPInterface* i, const std::string& dn, const std::string& attr, const std::string& val) override { QueueRequest(new LDAPCompare(this, i, dn, attr, val)); } private: void BuildReply(int res, LDAPRequest* req) { LDAPResult* ldap_result = req->result = new LDAPResult(); req->result->type = req->type; if (res != req->success) { ldap_result->error = INSP_FORMAT("{} ({})", ldap_err2string(res), req->info()); return; } if (!req->message) { return; } /* a search result */ for (LDAPMessage* cur = ldap_first_message(this->con, req->message); cur; cur = ldap_next_message(this->con, cur)) { LDAPAttributes attributes; char* dn = ldap_get_dn(this->con, cur); if (dn != nullptr) { attributes["dn"].push_back(dn); ldap_memfree(dn); dn = nullptr; } BerElement* ber = nullptr; for (char* attr = ldap_first_attribute(this->con, cur, &ber); attr; attr = ldap_next_attribute(this->con, cur, ber)) { berval** vals = ldap_get_values_len(this->con, cur, attr); int count = ldap_count_values_len(vals); std::vector attrs; for (int j = 0; j < count; ++j) attrs.emplace_back(vals[j]->bv_val); attributes[attr] = attrs; ldap_value_free_len(vals); ldap_memfree(attr); } if (ber != nullptr) ber_free(ber, 0); ldap_result->messages.push_back(attributes); } } void SendRequests() { process_mutex.lock(); query_queue q; this->LockQueue(); queries.swap(q); this->UnlockQueue(); if (q.empty()) { process_mutex.unlock(); return; } for (auto* req : q) { int ret = req->run(); if (ret == LDAP_SERVER_DOWN || ret == LDAP_TIMEOUT) { /* try again */ try { Reconnect(); } catch (const LDAPException&) { } ret = req->run(); } BuildReply(ret, req); this->LockQueue(); this->results.push_back(req); this->UnlockQueue(); } this->NotifyParent(); process_mutex.unlock(); } public: void OnStart() override { while (!this->IsStopping()) { this->LockQueue(); if (this->queries.empty()) this->WaitForQueue(); this->UnlockQueue(); SendRequests(); } } void OnNotify() override { query_queue r; this->LockQueue(); this->results.swap(r); this->UnlockQueue(); for (auto* req : r) { LDAPInterface* li = req->inter; LDAPResult* res = req->result; if (!res->error.empty()) li->OnError(*res); else li->OnResult(*res); delete req; } } LDAP* GetConnection() { return con; } }; class ModuleLDAP final : public Module { typedef insp::flat_map ServiceMap; ServiceMap LDAPServices; public: void init() override { ServerInstance->Logs.Normal(MODNAME, "Module was compiled against LDAP ({}) version {}.{}.{}", LDAP_VENDOR_NAME, LDAP_VENDOR_VERSION_MAJOR, LDAP_VENDOR_VERSION_MINOR, LDAP_VENDOR_VERSION_PATCH); } void ReadConfig(ConfigStatus& status) override { ServiceMap conns; for (const auto& [_, tag] : ServerInstance->Config->ConfTags("database")) { if (!insp::equalsci(tag->getString("module"), "ldap")) continue; std::string id = tag->getString("id"); ServiceMap::iterator curr = LDAPServices.find(id); if (curr == LDAPServices.end()) { auto* conn = new LDAPService(this, tag); conns[id] = conn; ServerInstance->Modules.AddService(*conn); conn->Start(); } else { conns.insert(*curr); LDAPServices.erase(curr); } } for (auto& [_, conn] : LDAPServices) { ServerInstance->Modules.DelService(*conn); conn->Stop(); conn->OnNotify(); delete conn; } LDAPServices.swap(conns); } void OnUnloadModule(Module* m) override { for (const auto& [_, s] : LDAPServices) { s->process_mutex.lock(); s->LockQueue(); for (size_t i = s->queries.size(); i > 0; --i) { LDAPRequest* req = s->queries[i - 1]; LDAPInterface* li = req->inter; if (li->creator == m) { s->queries.erase(s->queries.begin() + i - 1); delete req; } } for (size_t i = s->results.size(); i > 0; --i) { LDAPRequest* req = s->results[i - 1]; LDAPInterface* li = req->inter; if (li->creator == m) { s->results.erase(s->results.begin() + i - 1); delete req; } } s->UnlockQueue(); s->process_mutex.unlock(); } } ModuleLDAP() : Module(VF_VENDOR, "Provides the ability for LDAP modules to query a LDAP directory.") { } ~ModuleLDAP() override { for (auto& [_, conn] : LDAPServices) { conn->Stop(); conn->OnNotify(); delete conn; } } }; int LDAPBind::run() { berval cred; cred.bv_val = strdup(pass.c_str()); cred.bv_len = pass.length(); int i = ldap_sasl_bind_s(service->GetConnection(), LDAP_STR(who), LDAP_SASL_SIMPLE, &cred, nullptr, nullptr, nullptr); free(cred.bv_val); return i; } std::string LDAPBind::info() { return "bind dn=" + who; } int LDAPSearchRequest::run() { return ldap_search_ext_s(service->GetConnection(), LDAP_STR(base), searchscope, LDAP_STR(filter), nullptr, 0, nullptr, nullptr, LDAP_TIME(tv), 0, &message); } std::string LDAPSearchRequest::info() { return "search base=" + base + " filter=" + filter; } int LDAPAdd::run() { LDAPMod** mods = LDAPService::BuildMods(attributes); int i = ldap_add_ext_s(service->GetConnection(), LDAP_STR(dn), mods, nullptr, nullptr); LDAPService::FreeMods(mods); return i; } std::string LDAPAdd::info() { return "add dn=" + dn; } int LDAPDel::run() { return ldap_delete_ext_s(service->GetConnection(), LDAP_STR(dn), nullptr, nullptr); } std::string LDAPDel::info() { return "del dn=" + dn; } int LDAPModify::run() { LDAPMod** mods = LDAPService::BuildMods(attributes); int i = ldap_modify_ext_s(service->GetConnection(), LDAP_STR(base), mods, nullptr, nullptr); LDAPService::FreeMods(mods); return i; } std::string LDAPModify::info() { return "modify base=" + base; } int LDAPCompare::run() { berval cred; cred.bv_val = strdup(val.c_str()); cred.bv_len = val.length(); #ifdef _WIN32 int ret = ldap_compare_ext_s(service->GetConnection(), LDAP_STR(dn), LDAP_STR(attr), nullptr, &cred, nullptr, nullptr); #else int ret = ldap_compare_ext_s(service->GetConnection(), dn.c_str(), attr.c_str(), &cred, nullptr, nullptr); #endif free(cred.bv_val); return ret; } std::string LDAPCompare::info() { return "compare dn=" + dn + " attr=" + attr; } MODULE_INIT(ModuleLDAP)