// Copyright (C) 2013-2020 Internet Systems Consortium, Inc. ("ISC") // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; namespace isc { namespace hooks { // Constructor (used by external agency) LibraryManager::LibraryManager(const std::string& name, int index, const boost::shared_ptr& manager) : dl_handle_(NULL), index_(index), manager_(manager), library_name_(name), server_hooks_(ServerHooks::getServerHooksPtr()) { if (!manager) { isc_throw(NoCalloutManager, "must specify a CalloutManager when " "instantiating a LibraryManager object"); } } // Constructor (used by "validate" for library validation). Note that this // sets "manager_" to not point to anything, which means that methods such as // registerStandardCallout() will fail, probably with a segmentation fault. // There are no checks for this condition in those methods: this constructor // is declared "private", so can only be executed by a method in this class. // The only method to do so is "validateLibrary", which takes care not to call // methods requiring a non-NULL manager. LibraryManager::LibraryManager(const std::string& name) : dl_handle_(NULL), index_(-1), manager_(), library_name_(name) {} // Destructor. LibraryManager::~LibraryManager() { if (index_ >= 0) { // LibraryManager instantiated to load a library, so ensure that // it is unloaded before exiting. static_cast(prepareUnloadLibrary()); } // LibraryManager instantiated to validate a library, so just ensure // that it is closed before exiting. static_cast(closeLibrary()); } // Open the library bool LibraryManager::openLibrary() { // Open the library. We'll resolve names now, so that if there are any // issues we don't bugcheck in the middle of apparently unrelated code. dl_handle_ = dlopen(library_name_.c_str(), RTLD_NOW | RTLD_LOCAL); if (dl_handle_ == NULL) { LOG_ERROR(hooks_logger, HOOKS_OPEN_ERROR).arg(library_name_) .arg(dlerror()); } return (dl_handle_ != NULL); } // Close the library if not already open bool LibraryManager::closeLibrary() { // Close the library if it is open. (If not, this is a no-op.) int status = 0; if (dl_handle_ != NULL) { status = dlclose(dl_handle_); dl_handle_ = NULL; if (status != 0) { LOG_ERROR(hooks_logger, HOOKS_CLOSE_ERROR).arg(library_name_) .arg(dlerror()); } else { LOG_INFO(hooks_logger, HOOKS_LIBRARY_CLOSED).arg(library_name_); } } return (status == 0); } // Check the version of the library bool LibraryManager::checkVersion() const { // Get the pointer to the "version" function. PointerConverter pc(dlsym(dl_handle_, VERSION_FUNCTION_NAME)); if (pc.versionPtr() != NULL) { int version = KEA_HOOKS_VERSION - 1; // This is an invalid value try { version = (*pc.versionPtr())(); } catch (...) { LOG_ERROR(hooks_logger, HOOKS_VERSION_EXCEPTION).arg(library_name_); return (false); } if (version == KEA_HOOKS_VERSION) { // All OK, version checks out LOG_DEBUG(hooks_logger, HOOKS_DBG_CALLS, HOOKS_LIBRARY_VERSION) .arg(library_name_).arg(version); return (true); } else { LOG_ERROR(hooks_logger, HOOKS_INCORRECT_VERSION).arg(library_name_) .arg(version).arg(KEA_HOOKS_VERSION); } } else { LOG_ERROR(hooks_logger, HOOKS_NO_VERSION).arg(library_name_); } return (false); } // Check the multi-threading compatibility of the library bool LibraryManager::checkMultiThreadingCompatible() const { // Compatible with single-threaded. if (!util::MultiThreadingMgr::instance().getMode()) { return (true); } // Get the pointer to the "multi_threading_compatible" function. PointerConverter pc(dlsym(dl_handle_, MULTI_THREADING_COMPATIBLE_FUNCTION_NAME)); int compatible = 0; if (pc.multiThreadingCompatiblePtr()) { try { compatible = (*pc.multiThreadingCompatiblePtr())(); } catch (...) { LOG_ERROR(hooks_logger, HOOKS_MULTI_THREADING_COMPATIBLE_EXCEPTION) .arg(library_name_); return (false); } LOG_DEBUG(hooks_logger, HOOKS_DBG_CALLS, HOOKS_LIBRARY_MULTI_THREADING_COMPATIBLE) .arg(library_name_) .arg(compatible); } if (compatible == 0) { LOG_ERROR(hooks_logger, HOOKS_LIBRARY_MULTI_THREADING_NOT_COMPATIBLE) .arg(library_name_); } return (compatible != 0); } // Register the standard callouts void LibraryManager::registerStandardCallouts() { // Set the library index for doing the registration. This is picked up // when the library handle is created. manager_->setLibraryIndex(index_); // Iterate through the list of known hooks vector hook_names = ServerHooks::getServerHooks().getHookNames(); for (size_t i = 0; i < hook_names.size(); ++i) { // Look up the symbol void* dlsym_ptr = dlsym(dl_handle_, hook_names[i].c_str()); PointerConverter pc(dlsym_ptr); if (pc.calloutPtr() != NULL) { // Found a symbol, so register it. manager_->getLibraryHandle().registerCallout(hook_names[i], pc.calloutPtr()); LOG_DEBUG(hooks_logger, HOOKS_DBG_CALLS, HOOKS_STD_CALLOUT_REGISTERED).arg(library_name_) .arg(hook_names[i]).arg(dlsym_ptr); } } } // Run the "load" function if present. bool LibraryManager::runLoad() { // Get the pointer to the "load" function. PointerConverter pc(dlsym(dl_handle_, LOAD_FUNCTION_NAME)); if (pc.loadPtr() != NULL) { // Call the load() function with the library handle. We need to set // the CalloutManager's index appropriately. We'll invalidate it // afterwards. int status = -1; try { manager_->setLibraryIndex(index_); status = (*pc.loadPtr())(manager_->getLibraryHandle()); } catch (const isc::Exception& ex) { LOG_ERROR(hooks_logger, HOOKS_LOAD_FRAMEWORK_EXCEPTION) .arg(library_name_).arg(ex.what()); return (false); } catch (...) { LOG_ERROR(hooks_logger, HOOKS_LOAD_EXCEPTION).arg(library_name_); return (false); } if (status != 0) { LOG_ERROR(hooks_logger, HOOKS_LOAD_ERROR).arg(library_name_) .arg(status); return (false); } else { LOG_DEBUG(hooks_logger, HOOKS_DBG_TRACE, HOOKS_LOAD_SUCCESS) .arg(library_name_); } } else { LOG_DEBUG(hooks_logger, HOOKS_DBG_TRACE, HOOKS_NO_LOAD) .arg(library_name_); } return (true); } // Run the "unload" function if present. bool LibraryManager::prepareUnloadLibrary() { // Nothing to do. if (dl_handle_ == NULL) { return (true); } // Call once. if (index_ < 0) { return (true); } // Get the pointer to the "load" function. bool result = false; PointerConverter pc(dlsym(dl_handle_, UNLOAD_FUNCTION_NAME)); if (pc.unloadPtr() != NULL) { // Call the load() function with the library handle. We need to set // the CalloutManager's index appropriately. We'll invalidate it // afterwards. int status = -1; try { status = (*pc.unloadPtr())(); result = true; } catch (const isc::Exception& ex) { LOG_ERROR(hooks_logger, HOOKS_UNLOAD_FRAMEWORK_EXCEPTION) .arg(library_name_).arg(ex.what()); } catch (...) { // Exception generated. Note a warning as the unload will occur // anyway. LOG_WARN(hooks_logger, HOOKS_UNLOAD_EXCEPTION).arg(library_name_); } if (result) { if (status != 0) { LOG_ERROR(hooks_logger, HOOKS_UNLOAD_ERROR).arg(library_name_) .arg(status); result = false; } else { LOG_DEBUG(hooks_logger, HOOKS_DBG_TRACE, HOOKS_UNLOAD_SUCCESS) .arg(library_name_); } } } else { LOG_DEBUG(hooks_logger, HOOKS_DBG_TRACE, HOOKS_NO_UNLOAD) .arg(library_name_); result = true; } // Regardless of status, remove all callouts associated with this // library on all hooks. vector hooks = ServerHooks::getServerHooks().getHookNames(); manager_->setLibraryIndex(index_); for (size_t i = 0; i < hooks.size(); ++i) { bool removed = manager_->deregisterAllCallouts(hooks[i], index_); if (removed) { LOG_DEBUG(hooks_logger, HOOKS_DBG_CALLS, HOOKS_CALLOUTS_REMOVED) .arg(hooks[i]).arg(library_name_); } } // Mark as unload() ran. index_ = -1; return (result); } // The main library loading function. bool LibraryManager::loadLibrary() { LOG_DEBUG(hooks_logger, HOOKS_DBG_TRACE, HOOKS_LIBRARY_LOADING) .arg(library_name_); // In the following, if a method such as openLibrary() fails, it will // have issued an error message so there is no need to issue another one // here. // Open the library (which is a check that it exists and is accessible). if (openLibrary()) { // The hook libraries provide their own log messages and logger // instances. This step is required to register log messages for // the library being loaded in the global dictionary. Ideally, this // should be called after all libraries have been loaded but we're // going to call the version() and load() functions here and these // functions may already contain logging statements. isc::log::MessageInitializer::loadDictionary(); // The log messages registered by the new hook library may duplicate // some of the existing messages. Log warning for each duplicated // message now. isc::log::LoggerManager::logDuplicatedMessages(); // Library opened OK, see if a version function is present and if so, // check what value it returns. Check multi-threading compatibility. if (checkVersion() && checkMultiThreadingCompatible()) { // Version OK, so now register the standard callouts and call the // library's load() function if present. registerStandardCallouts(); if (runLoad()) { // Success - the library has been successfully loaded. LOG_INFO(hooks_logger, HOOKS_LIBRARY_LOADED).arg(library_name_); return (true); } else { // The load function failed, so back out. We can't just close // the library as (a) we need to call the library's "unload" // function (if present) in case "load" allocated resources that // need to be freed and (b) we need to remove any callouts that // have been installed. static_cast(prepareUnloadLibrary()); } } // Either the version check or call to load() failed, so close the // library and free up resources. Ignore the status return here - we // already know there's an error and will have output a message. static_cast(closeLibrary()); } return (false); } // The library unloading function. Call the unload() function (if present), // remove callouts from the callout manager, then close the library. This is // only run if the library is still loaded and is a no-op if the library is // not open. bool LibraryManager::unloadLibrary() { bool result = true; if (dl_handle_ != NULL) { LOG_DEBUG(hooks_logger, HOOKS_DBG_TRACE, HOOKS_LIBRARY_UNLOADING) .arg(library_name_); // Call the unload() function if present. Note that this is done first // - operations take place in the reverse order to which they were done // when the library was loaded. if (index_ >= 0) { result = prepareUnloadLibrary(); } // ... and close the library. result = closeLibrary() && result; if (result) { // Issue the informational message only if the library was unloaded // with no problems. If there was an issue, an error message would // have been issued. LOG_INFO(hooks_logger, HOOKS_LIBRARY_UNLOADED).arg(library_name_); } } return (result); } // Validate the library. We must be able to open it, and the version function // must both exist and return the right number. Note that this is a static // method. bool LibraryManager::validateLibrary(const std::string& name) { // Instantiate a library manager for the validation. We use the private // constructor as we don't supply a CalloutManager. LibraryManager manager(name); // Try to open it and, if we succeed, check the version. bool validated = manager.openLibrary() && manager.checkVersion() && manager.checkMultiThreadingCompatible(); // Regardless of whether the version checked out, close the library. (This // is a no-op if the library failed to open.) static_cast(manager.closeLibrary()); return (validated); } // @note Moved from its own hooks.cc file to avoid undefined reference // with static link. void hooksStaticLinkInit() { if (!isc::log::isLoggingInitialized()) { isc::log::initLogger(std::string("userlib")); } } } // namespace hooks } // namespace isc