// Copyright (C) 2018-2023 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 using namespace isc::data; using namespace isc::db; namespace isc { namespace dhcp { namespace test { GenericBackendTest::GenericBackendTest() : timestamps_(), audit_entries_() { LibDHCP::clearRuntimeOptionDefs(); initTimestamps(); } GenericBackendTest::~GenericBackendTest() { LibDHCP::clearRuntimeOptionDefs(); } OptionDescriptor GenericBackendTest::createEmptyOption(const Option::Universe& universe, const uint16_t option_type, const bool persist, const bool cancel) const { OptionPtr option(new Option(universe, option_type)); OptionDescriptor desc(option, persist, cancel); return (desc); } OptionDescriptor GenericBackendTest::createVendorOption(const Option::Universe& universe, const bool persist, const bool cancel, const bool formatted, const uint32_t vendor_id) const { OptionVendorPtr option(new OptionVendor(universe, vendor_id)); std::ostringstream s; if (formatted) { // Vendor id comprises vendor-id field, for which we need to // assign a value in the textual (formatted) format. s << vendor_id; } OptionDescriptor desc(option, persist, cancel, s.str()); return (desc); } void GenericBackendTest::testOptionsEquivalent(const OptionDescriptor& ref_option, const OptionDescriptor& tested_option) const { // Make sure that all pointers are non-null. ASSERT_TRUE(ref_option.option_); ASSERT_TRUE(tested_option.option_); // Get the reference to the tested option. Make should it has // generic type. Option& tested_option_reference = *tested_option.option_; EXPECT_TRUE(typeid(tested_option_reference) == typeid(Option)); // Only test the binary data if the formatted value is not provided. if (tested_option.formatted_value_.empty()) { // Prepare on-wire data of the option under test. isc::util::OutputBuffer tested_option_buf(1); tested_option.option_->pack(tested_option_buf); const uint8_t* tested_option_buf_data = static_cast (tested_option_buf.getData()); std::vector tested_option_buf_vec(tested_option_buf_data, tested_option_buf_data + tested_option_buf.getLength()); // Prepare on-wire data of the reference option. isc::util::OutputBuffer ref_option_buf(1); ref_option.option_->pack(ref_option_buf); const uint8_t* ref_option_buf_data = static_cast (ref_option_buf.getData()); std::vector ref_option_buf_vec(ref_option_buf_data, ref_option_buf_data + ref_option_buf.getLength()); // Compare the on-wire data. EXPECT_EQ(ref_option_buf_vec, tested_option_buf_vec); } else { // If the formatted value is non-empty the buffer should be empty. EXPECT_TRUE(tested_option.option_->getData().empty()); } // Compare other members of the @c OptionDescriptor, e.g. the // tested option may contain formatted option data which can be // later used to turn this option instance into a formatted // option when an option definition is available. EXPECT_EQ(ref_option.formatted_value_, tested_option.formatted_value_); EXPECT_EQ(ref_option.persistent_, tested_option.persistent_); EXPECT_EQ(ref_option.cancelled_, tested_option.cancelled_); EXPECT_EQ(ref_option.space_name_, tested_option.space_name_); } void GenericBackendTest::checkConfiguredGlobal(const SrvConfigPtr& srv_cfg, const std::string &name, ConstElementPtr exp_value) { ConstCfgGlobalsPtr globals = srv_cfg->getConfiguredGlobals(); ConstElementPtr found_global = globals->get(name); ASSERT_TRUE(found_global) << "expected global: " << name << " not found"; ASSERT_EQ(exp_value->getType(), found_global->getType()) << "expected global: " << name << " has wrong type"; ASSERT_EQ(*exp_value, *found_global) << "expected global: " << name << " has wrong value"; } void GenericBackendTest::checkConfiguredGlobal(const SrvConfigPtr& srv_cfg, StampedValuePtr& exp_global) { checkConfiguredGlobal(srv_cfg, exp_global->getName(), exp_global->getElementValue()); } void GenericBackendTest::testNewAuditEntry(const std::string& exp_object_type, const AuditEntry::ModificationType& exp_modification_type, const std::string& exp_log_message, const ServerSelector& server_selector, const size_t new_entries_num, const size_t max_tested_entries) { // Get the server tag for which the entries are fetched. std::string tag; if (server_selector.getType() == ServerSelector::Type::ALL) { // Server tag is 'all'. tag = "all"; } else { const auto& tags = server_selector.getTags(); // This test is not meant to handle multiple server tags all at once. if (tags.size() > 1) { ADD_FAILURE() << "Test error: do not use multiple server tags"; } else if (tags.size() == 1) { // Get the server tag for which we run the current test. tag = tags.begin()->get(); } } auto audit_entries_size_save = audit_entries_[tag].size(); // Audit entries for different server tags are stored in separate // containers. ASSERT_NO_THROW_LOG(audit_entries_[tag] = getRecentAuditEntries(server_selector, timestamps_["two days ago"], 0)); ASSERT_EQ(audit_entries_size_save + new_entries_num, audit_entries_[tag].size()) << logExistingAuditEntries(tag); auto& mod_time_idx = audit_entries_[tag].get(); // Iterate over specified number of entries starting from the most recent // one and check they have correct values. for (auto audit_entry_it = mod_time_idx.rbegin(); ((std::distance(mod_time_idx.rbegin(), audit_entry_it) < new_entries_num) && (std::distance(mod_time_idx.rbegin(), audit_entry_it) < max_tested_entries)); ++audit_entry_it) { auto audit_entry = *audit_entry_it; EXPECT_EQ(exp_object_type, audit_entry->getObjectType()) << logExistingAuditEntries(tag); EXPECT_EQ(exp_modification_type, audit_entry->getModificationType()) << logExistingAuditEntries(tag); EXPECT_EQ(exp_log_message, audit_entry->getLogMessage()) << logExistingAuditEntries(tag); } } void GenericBackendTest::testNewAuditEntry(const std::vector& exp_entries, const ServerSelector& server_selector) { // Get the server tag for which the entries are fetched. std::string tag; if (server_selector.getType() == ServerSelector::Type::ALL) { // Server tag is 'all'. tag = "all"; } else { const auto& tags = server_selector.getTags(); // This test is not meant to handle multiple server tags all at once. if (tags.size() != 1) { ADD_FAILURE() << "Test error: tags.size(): " << tags.size() << ", you must specify one and only one server tag"; } // Get the server tag for which we run the current test. tag = tags.begin()->get(); } size_t new_entries_num = exp_entries.size(); auto audit_entries_size_save = audit_entries_[tag].size(); // Audit entries for different server tags are stored in separate // containers. ASSERT_NO_THROW_LOG(audit_entries_[tag] = getRecentAuditEntries(server_selector, timestamps_["two days ago"], 0)); ASSERT_EQ(audit_entries_size_save + new_entries_num, audit_entries_[tag].size()) << logExistingAuditEntries(tag); auto& mod_time_idx = audit_entries_[tag].get(); // Iterate over specified number of entries starting from the most recent // one and check they have correct values. auto exp_entry = exp_entries.rbegin(); for (auto audit_entry_it = mod_time_idx.rbegin(); ((std::distance(mod_time_idx.rbegin(), audit_entry_it) < new_entries_num)); ++audit_entry_it) { auto audit_entry = *audit_entry_it; EXPECT_EQ((*exp_entry).object_type, audit_entry->getObjectType()) << logExistingAuditEntries(tag); EXPECT_EQ((*exp_entry).modification_type, audit_entry->getModificationType()) << logExistingAuditEntries(tag); EXPECT_EQ((*exp_entry).log_message, audit_entry->getLogMessage()) << logExistingAuditEntries(tag); ++exp_entry; } } void GenericBackendTest::initTimestamps() { // Current time minus 1 hour to make sure it is in the past. timestamps_["today"] = boost::posix_time::second_clock::local_time() - boost::posix_time::hours(1); // One second after today. timestamps_["after today"] = timestamps_["today"] + boost::posix_time::seconds(1); // Yesterday. timestamps_["yesterday"] = timestamps_["today"] - boost::posix_time::hours(24); // One second after yesterday. timestamps_["after yesterday"] = timestamps_["yesterday"] + boost::posix_time::seconds(1); // Two days ago. timestamps_["two days ago"] = timestamps_["today"] - boost::posix_time::hours(48); // Tomorrow. timestamps_["tomorrow"] = timestamps_["today"] + boost::posix_time::hours(24); // One second after tomorrow. timestamps_["after tomorrow"] = timestamps_["tomorrow"] + boost::posix_time::seconds(1); } std::string GenericBackendTest::logExistingAuditEntries(const std::string& server_tag) { std::ostringstream s; auto& mod_time_idx = audit_entries_[server_tag].get(); for (auto audit_entry_it = mod_time_idx.begin(); audit_entry_it != mod_time_idx.end(); ++audit_entry_it) { auto audit_entry = *audit_entry_it; s << audit_entry->getObjectType() << ", " << audit_entry->getObjectId() << ", " << static_cast(audit_entry->getModificationType()) << ", " << audit_entry->getModificationTime() << ", " << audit_entry->getRevisionId() << ", " << audit_entry->getLogMessage() << std::endl; } return (s.str()); } AuditEntryCollection GenericBackendTest::getRecentAuditEntries(const ServerSelector&, const boost::posix_time::ptime&, const uint64_t&) const { return (AuditEntryCollection()); } } // end of namespace isc::dhcp::test } // end of namespace isc::dhcp } // end of namespace isc