// Copyright (C) 2011-2013 Internet Systems Consortium, Inc. ("ISC") // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH // REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY // AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, // INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM // LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE // OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR // PERFORMANCE OF THIS SOFTWARE. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace isc; using namespace isc::dhcp; using namespace isc::util; namespace { class LibDhcpTest : public ::testing::Test { public: LibDhcpTest() { } /// @brief Generic factory function to create any option. /// /// Generic factory function to create any option. /// /// @param u universe (V4 or V6) /// @param type option-type /// @param buf option-buffer static OptionPtr genericOptionFactory(Option::Universe u, uint16_t type, const OptionBuffer& buf) { return (OptionPtr(new Option(u, type, buf))); } /// @brief Test DHCPv4 option definition. /// /// This function tests if option definition for standard /// option has been initialized correctly. /// /// @param code option code. /// @param begin iterator pointing at beginning of a buffer to /// be used to create option instance. /// @param end iterator pointing at end of a buffer to be /// used to create option instance. /// @param expected_type type of the option created by the /// factory function returned by the option definition. /// @param encapsulates name of the option space being encapsulated /// by the option. static void testStdOptionDefs4(const uint16_t code, const OptionBufferConstIter begin, const OptionBufferConstIter end, const std::type_info& expected_type, const std::string& encapsulates = "") { // Use V4 universe. testStdOptionDefs(Option::V4, code, begin, end, expected_type, encapsulates); } /// @brief Test DHCPv6 option definition. /// /// This function tests if option definition for standard /// option has been initialized correctly. /// /// @param code option code. /// @param begin iterator pointing at beginning of a buffer to /// be used to create option instance. /// @param end iterator pointing at end of a buffer to be /// used to create option instance. /// @param expected_type type of the option created by the /// factory function returned by the option definition. /// @param encapsulates name of the option space being encapsulated /// by the option. static void testStdOptionDefs6(const uint16_t code, const OptionBufferConstIter begin, const OptionBufferConstIter end, const std::type_info& expected_type, const std::string& encapsulates = "") { // Use V6 universe. testStdOptionDefs(Option::V6, code, begin, end, expected_type, encapsulates); } private: /// @brief Test DHCPv4 or DHCPv6 option definition. /// /// This function tests if option definition for standard /// option has been initialized correctly. /// /// @param code option code. /// @param begin iterator pointing at beginning of a buffer to /// be used to create option instance. /// @param end iterator pointing at end of a buffer to be /// used to create option instance. /// @param expected_type type of the option created by the /// factory function returned by the option definition. /// @param encapsulates name of the option space being encapsulated /// by the option. static void testStdOptionDefs(const Option::Universe u, const uint16_t code, const OptionBufferConstIter begin, const OptionBufferConstIter end, const std::type_info& expected_type, const std::string& encapsulates) { // Get all option definitions, we will use them to extract // the definition for a particular option code. // We don't have to initialize option definitions here because they // are initialized in the class's constructor. OptionDefContainer options = LibDHCP::getOptionDefs(u); // Get the container index #1. This one allows for searching // option definitions using option code. const OptionDefContainerTypeIndex& idx = options.get<1>(); // Get 'all' option definitions for a particular option code. // For standard options we expect that the range returned // will contain single option as their codes are unique. OptionDefContainerTypeRange range = idx.equal_range(code); ASSERT_EQ(1, std::distance(range.first, range.second)) << "Standard option definition for the code " << code << " has not been found."; // If we have single option definition returned, the // first iterator holds it. OptionDefinitionPtr def = *(range.first); // It should not happen that option definition is NULL but // let's make sure (test should take things like that into // account). ASSERT_TRUE(def) << "Option definition for the code " << code << " is NULL."; // Check that option definition is valid. ASSERT_NO_THROW(def->validate()) << "Option definition for the option code " << code << " is invalid"; // Check that the valid encapsulated option space name // has been specified. EXPECT_EQ(encapsulates, def->getEncapsulatedSpace()); OptionPtr option; // Create the option. ASSERT_NO_THROW(option = def->optionFactory(u, code, begin, end)) << "Option creation failed for option code " << code; // Make sure it is not NULL. ASSERT_TRUE(option); // And the actual object type is the one that we expect. // Note that for many options there are dedicated classes // derived from Option class to represent them. EXPECT_TRUE(typeid(*option) == expected_type) << "Invalid class returned for option code " << code; } }; // The DHCPv6 options in the wire format, used by multiple tests. const uint8_t v6packed[] = { 0, 1, 0, 5, 100, 101, 102, 103, 104, // CLIENT_ID (9 bytes) 0, 2, 0, 3, 105, 106, 107, // SERVER_ID (7 bytes) 0, 14, 0, 0, // RAPID_COMMIT (0 bytes) 0, 6, 0, 4, 108, 109, 110, 111, // ORO (8 bytes) 0, 8, 0, 2, 112, 113 // ELAPSED_TIME (6 bytes) }; TEST_F(LibDhcpTest, optionFactory) { OptionBuffer buf; // Factory functions for specific options must be registered before // they can be used to create options instances. Otherwise exception // is rised. EXPECT_THROW(LibDHCP::optionFactory(Option::V4, DHO_SUBNET_MASK, buf), isc::BadValue); // Let's register some factory functions (two v4 and one v6 function). // Registration may trigger exception if function for the specified // option has been registered already. ASSERT_NO_THROW( LibDHCP::OptionFactoryRegister(Option::V4, DHO_SUBNET_MASK, &LibDhcpTest::genericOptionFactory); ); ASSERT_NO_THROW( LibDHCP::OptionFactoryRegister(Option::V4, DHO_TIME_OFFSET, &LibDhcpTest::genericOptionFactory); ); ASSERT_NO_THROW( LibDHCP::OptionFactoryRegister(Option::V6, D6O_CLIENTID, &LibDhcpTest::genericOptionFactory); ); // Invoke factory functions for all options (check if registration // was successful). OptionPtr opt_subnet_mask; opt_subnet_mask = LibDHCP::optionFactory(Option::V4, DHO_SUBNET_MASK, buf); // Check if non-NULL DHO_SUBNET_MASK option pointer has been returned. ASSERT_TRUE(opt_subnet_mask); // Validate if type and universe is correct. EXPECT_EQ(Option::V4, opt_subnet_mask->getUniverse()); EXPECT_EQ(DHO_SUBNET_MASK, opt_subnet_mask->getType()); // Expect that option does not have content.. EXPECT_EQ(0, opt_subnet_mask->len() - opt_subnet_mask->getHeaderLen()); // Fill the time offset buffer with 4 bytes of data. Each byte set to 1. OptionBuffer time_offset_buf(4, 1); OptionPtr opt_time_offset; opt_time_offset = LibDHCP::optionFactory(Option::V4, DHO_TIME_OFFSET, time_offset_buf); // Check if non-NULL DHO_TIME_OFFSET option pointer has been returned. ASSERT_TRUE(opt_time_offset); // Validate if option length, type and universe is correct. EXPECT_EQ(Option::V4, opt_time_offset->getUniverse()); EXPECT_EQ(DHO_TIME_OFFSET, opt_time_offset->getType()); EXPECT_EQ(time_offset_buf.size(), opt_time_offset->len() - opt_time_offset->getHeaderLen()); // Validate data in the option. EXPECT_TRUE(std::equal(time_offset_buf.begin(), time_offset_buf.end(), opt_time_offset->getData().begin())); // Fill the client id buffer with 20 bytes of data. Each byte set to 2. OptionBuffer clientid_buf(20, 2); OptionPtr opt_clientid; opt_clientid = LibDHCP::optionFactory(Option::V6, D6O_CLIENTID, clientid_buf); // Check if non-NULL D6O_CLIENTID option pointer has been returned. ASSERT_TRUE(opt_clientid); // Validate if option length, type and universe is correct. EXPECT_EQ(Option::V6, opt_clientid->getUniverse()); EXPECT_EQ(D6O_CLIENTID, opt_clientid->getType()); EXPECT_EQ(clientid_buf.size(), opt_clientid->len() - opt_clientid->getHeaderLen()); // Validate data in the option. EXPECT_TRUE(std::equal(clientid_buf.begin(), clientid_buf.end(), opt_clientid->getData().begin())); } TEST_F(LibDhcpTest, packOptions6) { OptionBuffer buf(512); isc::dhcp::Option::OptionCollection opts; // list of options // generate content for options for (int i = 0; i < 64; i++) { buf[i]=i+100; } OptionPtr opt1(new Option(Option::V6, 1, buf.begin() + 0, buf.begin() + 5)); OptionPtr opt2(new Option(Option::V6, 2, buf.begin() + 5, buf.begin() + 8)); OptionPtr opt3(new Option(Option::V6, 14, buf.begin() + 8, buf.begin() + 8)); OptionPtr opt4(new Option(Option::V6, 6, buf.begin() + 8, buf.begin() + 12)); OptionPtr opt5(new Option(Option::V6, 8, buf.begin() + 12, buf.begin() + 14)); opts.insert(make_pair(opt1->getType(), opt1)); opts.insert(make_pair(opt1->getType(), opt2)); opts.insert(make_pair(opt1->getType(), opt3)); opts.insert(make_pair(opt1->getType(), opt4)); opts.insert(make_pair(opt1->getType(), opt5)); OutputBuffer assembled(512); EXPECT_NO_THROW(LibDHCP::packOptions(assembled, opts)); EXPECT_EQ(sizeof(v6packed), assembled.getLength()); EXPECT_EQ(0, memcmp(assembled.getData(), v6packed, sizeof(v6packed))); } TEST_F(LibDhcpTest, unpackOptions6) { // just couple of random options // Option is used as a simple option implementation // More advanced uses are validated in tests dedicated for // specific derived classes. isc::dhcp::Option::OptionCollection options; // list of options OptionBuffer buf(512); memcpy(&buf[0], v6packed, sizeof(v6packed)); EXPECT_NO_THROW ({ LibDHCP::unpackOptions6(OptionBuffer(buf.begin(), buf.begin() + sizeof(v6packed)), options); }); EXPECT_EQ(options.size(), 5); // there should be 5 options isc::dhcp::Option::OptionCollection::const_iterator x = options.find(1); ASSERT_FALSE(x == options.end()); // option 1 should exist EXPECT_EQ(1, x->second->getType()); // this should be option 1 ASSERT_EQ(9, x->second->len()); // it should be of length 9 ASSERT_EQ(5, x->second->getData().size()); EXPECT_EQ(0, memcmp(&x->second->getData()[0], v6packed + 4, 5)); // data len=5 x = options.find(2); ASSERT_FALSE(x == options.end()); // option 2 should exist EXPECT_EQ(2, x->second->getType()); // this should be option 2 ASSERT_EQ(7, x->second->len()); // it should be of length 7 ASSERT_EQ(3, x->second->getData().size()); EXPECT_EQ(0, memcmp(&x->second->getData()[0], v6packed + 13, 3)); // data len=3 x = options.find(14); ASSERT_FALSE(x == options.end()); // option 14 should exist EXPECT_EQ(14, x->second->getType()); // this should be option 14 ASSERT_EQ(4, x->second->len()); // it should be of length 4 EXPECT_EQ(0, x->second->getData().size()); // data len = 0 x = options.find(6); ASSERT_FALSE(x == options.end()); // option 6 should exist EXPECT_EQ(6, x->second->getType()); // this should be option 6 ASSERT_EQ(8, x->second->len()); // it should be of length 8 // Option with code 6 is the OPTION_ORO. This option is // represented by the OptionIntArray class which // comprises the set of uint16_t values. We need to cast the // returned pointer to this type to get values stored in it. boost::shared_ptr > opt_oro = boost::dynamic_pointer_cast >(x->second); // This value will be NULL if cast was unsuccessful. This is the case // when returned option has different type than expected. ASSERT_TRUE(opt_oro); // Get set of uint16_t values. std::vector opts = opt_oro->getValues(); // Prepare the refrence data. std::vector expected_opts; expected_opts.push_back(0x6C6D); // equivalent to: 108, 109 expected_opts.push_back(0x6E6F); // equivalent to 110, 111 ASSERT_EQ(expected_opts.size(), opts.size()); // Validated if option has been unpacked correctly. EXPECT_TRUE(std::equal(expected_opts.begin(), expected_opts.end(), opts.begin())); x = options.find(8); ASSERT_FALSE(x == options.end()); // option 8 should exist EXPECT_EQ(8, x->second->getType()); // this should be option 8 ASSERT_EQ(6, x->second->len()); // it should be of length 9 // Option with code 8 is OPTION_ELAPSED_TIME. This option is // represented by Option6Int value that holds single // uint16_t value. boost::shared_ptr > opt_elapsed_time = boost::dynamic_pointer_cast >(x->second); // This value will be NULL if cast was unsuccessful. This is the case // when returned option has different type than expected. ASSERT_TRUE(opt_elapsed_time); // Returned value should be equivalent to two byte values: 112, 113 EXPECT_EQ(0x7071, opt_elapsed_time->getValue()); x = options.find(0); EXPECT_TRUE(x == options.end()); // option 0 not found x = options.find(256); // 256 is htons(1) on little endians. Worth checking EXPECT_TRUE(x == options.end()); // option 1 not found x = options.find(7); EXPECT_TRUE(x == options.end()); // option 2 not found x = options.find(32000); EXPECT_TRUE(x == options.end()); // option 32000 not found */ } /// V4 Options being used to test pack/unpack operations. /// These are variable length options only so as there /// is no restriction on the data length being carried by them. /// For simplicity, we assign data of the length 3 for each /// of them. static uint8_t v4_opts[] = { 12, 3, 0, 1, 2, // Hostname 60, 3, 10, 11, 12, // Class Id 14, 3, 20, 21, 22, // Merit Dump File 254, 3, 30, 31, 32, // Reserved 128, 3, 40, 41, 42 // Vendor specific }; TEST_F(LibDhcpTest, packOptions4) { vector payload[5]; for (int i = 0; i < 5; i++) { payload[i].resize(3); payload[i][0] = i*10; payload[i][1] = i*10+1; payload[i][2] = i*10+2; } OptionPtr opt1(new Option(Option::V4, 12, payload[0])); OptionPtr opt2(new Option(Option::V4, 60, payload[1])); OptionPtr opt3(new Option(Option::V4, 14, payload[2])); OptionPtr opt4(new Option(Option::V4,254, payload[3])); OptionPtr opt5(new Option(Option::V4,128, payload[4])); isc::dhcp::Option::OptionCollection opts; // list of options opts.insert(make_pair(opt1->getType(), opt1)); opts.insert(make_pair(opt1->getType(), opt2)); opts.insert(make_pair(opt1->getType(), opt3)); opts.insert(make_pair(opt1->getType(), opt4)); opts.insert(make_pair(opt1->getType(), opt5)); vector expVect(v4_opts, v4_opts + sizeof(v4_opts)); OutputBuffer buf(100); EXPECT_NO_THROW(LibDHCP::packOptions(buf, opts)); ASSERT_EQ(buf.getLength(), sizeof(v4_opts)); EXPECT_EQ(0, memcmp(v4_opts, buf.getData(), sizeof(v4_opts))); } TEST_F(LibDhcpTest, unpackOptions4) { vector v4packed(v4_opts, v4_opts + sizeof(v4_opts)); isc::dhcp::Option::OptionCollection options; // list of options ASSERT_NO_THROW( LibDHCP::unpackOptions4(v4packed, options); ); isc::dhcp::Option::OptionCollection::const_iterator x = options.find(12); ASSERT_FALSE(x == options.end()); // option 1 should exist // Option 12 holds a string so let's cast it to an appropriate type. OptionStringPtr option12 = boost::static_pointer_cast(x->second); ASSERT_TRUE(option12); EXPECT_EQ(12, option12->getType()); // this should be option 12 ASSERT_EQ(3, option12->getValue().length()); // it should be of length 3 EXPECT_EQ(5, option12->len()); // total option length 5 EXPECT_EQ(0, memcmp(&option12->getValue()[0], v4_opts + 2, 3)); // data len=3 x = options.find(60); ASSERT_FALSE(x == options.end()); // option 2 should exist EXPECT_EQ(60, x->second->getType()); // this should be option 60 ASSERT_EQ(3, x->second->getData().size()); // it should be of length 3 EXPECT_EQ(5, x->second->len()); // total option length 5 EXPECT_EQ(0, memcmp(&x->second->getData()[0], v4_opts + 7, 3)); // data len=3 x = options.find(14); ASSERT_FALSE(x == options.end()); // option 3 should exist OptionStringPtr option14 = boost::static_pointer_cast(x->second); ASSERT_TRUE(option14); EXPECT_EQ(14, option14->getType()); // this should be option 14 ASSERT_EQ(3, option14->getValue().length()); // it should be of length 3 EXPECT_EQ(5, option14->len()); // total option length 5 EXPECT_EQ(0, memcmp(&option14->getValue()[0], v4_opts + 12, 3)); // data len=3 x = options.find(254); ASSERT_FALSE(x == options.end()); // option 3 should exist EXPECT_EQ(254, x->second->getType()); // this should be option 254 ASSERT_EQ(3, x->second->getData().size()); // it should be of length 3 EXPECT_EQ(5, x->second->len()); // total option length 5 EXPECT_EQ(0, memcmp(&x->second->getData()[0], v4_opts + 17, 3)); // data len=3 x = options.find(128); ASSERT_FALSE(x == options.end()); // option 3 should exist EXPECT_EQ(128, x->second->getType()); // this should be option 254 ASSERT_EQ(3, x->second->getData().size()); // it should be of length 3 EXPECT_EQ(5, x->second->len()); // total option length 5 EXPECT_EQ(0, memcmp(&x->second->getData()[0], v4_opts + 22, 3)); // data len=3 x = options.find(0); EXPECT_TRUE(x == options.end()); // option 0 not found x = options.find(1); EXPECT_TRUE(x == options.end()); // option 1 not found x = options.find(2); EXPECT_TRUE(x == options.end()); // option 2 not found } TEST_F(LibDhcpTest, isStandardOption4) { // Get all option codes that are not occupied by standard options. const uint16_t unassigned_codes[] = { 84, 96, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 115, 126, 127, 147, 148, 149, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 214, 215, 216, 217, 218, 219, 222, 223 }; const size_t unassigned_num = sizeof(unassigned_codes) / sizeof(unassigned_codes[0]); // Try all possible option codes. for (size_t i = 0; i < 256; ++i) { // Some ranges of option codes are unassigned and thus the isStandardOption // should return false for them. bool check_unassigned = false; // Check the array of unassigned options to find out whether option code // is assigned to standard option or unassigned. for (size_t j = 0; j < unassigned_num; ++j) { // If option code is found within the array of unassigned options // we the isStandardOption function should return false. if (unassigned_codes[j] == i) { check_unassigned = true; EXPECT_FALSE(LibDHCP::isStandardOption(Option::V4, unassigned_codes[j])) << "Test failed for option code " << unassigned_codes[j]; break; } } // If the option code belongs to the standard option then the // isStandardOption should return true. if (!check_unassigned) { EXPECT_TRUE(LibDHCP::isStandardOption(Option::V4, i)) << "Test failed for the option code " << i; } } } TEST_F(LibDhcpTest, isStandardOption6) { // All option codes in the range from 0 to 78 (except 10 and 35) // identify the standard options. for (uint16_t code = 0; code < 79; ++code) { if (code != 10 && code != 35) { EXPECT_TRUE(LibDHCP::isStandardOption(Option::V6, code)) << "Test failed for option code " << code; } } // Check the option codes 10 and 35. They are unassigned. EXPECT_FALSE(LibDHCP::isStandardOption(Option::V6, 10)); EXPECT_FALSE(LibDHCP::isStandardOption(Option::V6, 35)); // Check a range of option codes above 78. Those are option codes // identifying non-standard options. for (uint16_t code = 79; code < 512; ++code) { EXPECT_FALSE(LibDHCP::isStandardOption(Option::V6, code)) << "Test failed for option code " << code; } } TEST_F(LibDhcpTest, stdOptionDefs4) { // Create a buffer that holds dummy option data. // It will be used to create most of the options. std::vector buf(48, 1); OptionBufferConstIter begin = buf.begin(); OptionBufferConstIter end = buf.end(); LibDhcpTest::testStdOptionDefs4(DHO_SUBNET_MASK, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_TIME_OFFSET, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_ROUTERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_TIME_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_NAME_SERVERS, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_DOMAIN_NAME_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_LOG_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_COOKIE_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_LPR_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_IMPRESS_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_RESOURCE_LOCATION_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_HOST_NAME, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_BOOT_SIZE, begin, begin + 2, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_MERIT_DUMP, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_DOMAIN_NAME, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_SWAP_SERVER, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_ROOT_PATH, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_EXTENSIONS_PATH, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_IP_FORWARDING, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_NON_LOCAL_SOURCE_ROUTING, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_POLICY_FILTER, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_MAX_DGRAM_REASSEMBLY, begin, begin + 2, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_DEFAULT_IP_TTL, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_PATH_MTU_AGING_TIMEOUT, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_PATH_MTU_PLATEAU_TABLE, begin, begin + 10, typeid(OptionIntArray)); LibDhcpTest::testStdOptionDefs4(DHO_INTERFACE_MTU, begin, begin + 2, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_ALL_SUBNETS_LOCAL, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_BROADCAST_ADDRESS, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_PERFORM_MASK_DISCOVERY, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_MASK_SUPPLIER, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_ROUTER_DISCOVERY, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_ROUTER_SOLICITATION_ADDRESS, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_STATIC_ROUTES, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_TRAILER_ENCAPSULATION, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_ARP_CACHE_TIMEOUT, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_IEEE802_3_ENCAPSULATION, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_DEFAULT_TCP_TTL, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_TCP_KEEPALIVE_INTERVAL, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_TCP_KEEPALIVE_GARBAGE, begin, begin + 1, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_NIS_DOMAIN, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_NIS_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_NTP_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_VENDOR_ENCAPSULATED_OPTIONS, begin, end, typeid(Option), "vendor-encapsulated-options-space"); LibDhcpTest::testStdOptionDefs4(DHO_NETBIOS_NAME_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_NETBIOS_DD_SERVER, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_NETBIOS_NODE_TYPE, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_NETBIOS_SCOPE, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_FONT_SERVERS, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_X_DISPLAY_MANAGER, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_REQUESTED_ADDRESS, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_LEASE_TIME, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_OPTION_OVERLOAD, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_MESSAGE_TYPE, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_SERVER_IDENTIFIER, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_PARAMETER_REQUEST_LIST, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_MESSAGE, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_MAX_MESSAGE_SIZE, begin, begin + 2, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_RENEWAL_TIME, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_REBINDING_TIME, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_VENDOR_CLASS_IDENTIFIER, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_CLIENT_IDENTIFIER, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_NWIP_DOMAIN_NAME, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs4(DHO_NWIP_SUBOPTIONS, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_USER_CLASS, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_FQDN, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_DHCP_AGENT_OPTIONS, begin, end, typeid(Option), "dhcp-agent-options-space"); LibDhcpTest::testStdOptionDefs4(DHO_AUTHENTICATE, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_CLIENT_LAST_TRANSACTION_TIME, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs4(DHO_ASSOCIATED_IP, begin, end, typeid(Option4AddrLst)); LibDhcpTest::testStdOptionDefs4(DHO_SUBNET_SELECTION, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs4(DHO_DOMAIN_SEARCH, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_VIVCO_SUBOPTIONS, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs4(DHO_VIVSO_SUBOPTIONS, begin, end, typeid(Option)); } // Test that definitions of standard options have been initialized // correctly. // @todo Only limited number of option definitions are now created // This test have to be extended once all option definitions are // created. TEST_F(LibDhcpTest, stdOptionDefs6) { // Create a buffer that holds dummy option data. // It will be used to create most of the options. std::vector buf(48, 1); OptionBufferConstIter begin = buf.begin(); OptionBufferConstIter end = buf.end(); // Prepare buffer holding an array of FQDNs. const char data[] = { 8, 109, 121, 100, 111, 109, 97, 105, 110, // "mydomain" 7, 101, 120, 97, 109, 112, 108, 101, // "example" 3, 99, 111, 109, // "com" 0, 7, 101, 120, 97, 109, 112, 108, 101, // "example" 3, 99, 111, 109, // "com" 0 }; // Initialize a vector with the FQDN data. std::vector fqdn_buf(data, data + sizeof(data)); // The CLIENT_FQDN holds a uint8_t value and FQDN. We have // to add the uint8_t value to it and then append the buffer // holding some valid FQDN. std::vector client_fqdn_buf(1); client_fqdn_buf.insert(client_fqdn_buf.end(), fqdn_buf.begin(), fqdn_buf.end()); // The actual test starts here for all supported option codes. LibDhcpTest::testStdOptionDefs6(D6O_CLIENTID, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_SERVERID, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_IA_NA, begin, end, typeid(Option6IA)); LibDhcpTest::testStdOptionDefs6(D6O_IA_TA, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs6(D6O_IAADDR, begin, end, typeid(Option6IAAddr)); LibDhcpTest::testStdOptionDefs6(D6O_ORO, begin, end, typeid(OptionIntArray)); LibDhcpTest::testStdOptionDefs6(D6O_PREFERENCE, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs6(D6O_ELAPSED_TIME, begin, begin + 2, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs6(D6O_RELAY_MSG, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_STATUS_CODE, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_RAPID_COMMIT, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_USER_CLASS, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_VENDOR_CLASS, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_VENDOR_OPTS, begin, end, typeid(OptionInt), "vendor-opts-space"); LibDhcpTest::testStdOptionDefs6(D6O_INTERFACE_ID, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_RECONF_MSG, begin, begin + 1, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs6(D6O_RECONF_ACCEPT, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_SIP_SERVERS_DNS, fqdn_buf.begin(), fqdn_buf.end(), typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_SIP_SERVERS_ADDR, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_NAME_SERVERS, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_DOMAIN_SEARCH, fqdn_buf.begin(), fqdn_buf.end(), typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_IA_PD, begin, end, typeid(Option6IA)); LibDhcpTest::testStdOptionDefs6(D6O_IAPREFIX, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_NIS_SERVERS, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_NISP_SERVERS, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_NIS_DOMAIN_NAME, fqdn_buf.begin(), fqdn_buf.end(), typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_NISP_DOMAIN_NAME, fqdn_buf.begin(), fqdn_buf.end(), typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_SNTP_SERVERS, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_INFORMATION_REFRESH_TIME, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs6(D6O_BCMCS_SERVER_D, fqdn_buf.begin(), fqdn_buf.end(), typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_BCMCS_SERVER_A, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_GEOCONF_CIVIC, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_REMOTE_ID, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_SUBSCRIBER_ID, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_CLIENT_FQDN, client_fqdn_buf.begin(), client_fqdn_buf.end(), typeid(Option6ClientFqdn)); LibDhcpTest::testStdOptionDefs6(D6O_PANA_AGENT, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_PANA_AGENT, begin, end, typeid(Option6AddrLst)); LibDhcpTest::testStdOptionDefs6(D6O_NEW_POSIX_TIMEZONE, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs6(D6O_NEW_TZDB_TIMEZONE, begin, end, typeid(OptionString)); LibDhcpTest::testStdOptionDefs6(D6O_ERO, begin, end, typeid(OptionIntArray)); LibDhcpTest::testStdOptionDefs6(D6O_LQ_QUERY, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_CLIENT_DATA, begin, end, typeid(Option)); LibDhcpTest::testStdOptionDefs6(D6O_CLT_TIME, begin, begin + 4, typeid(OptionInt)); LibDhcpTest::testStdOptionDefs6(D6O_LQ_RELAY_DATA, begin, end, typeid(OptionCustom)); LibDhcpTest::testStdOptionDefs6(D6O_LQ_CLIENT_LINK, begin, end, typeid(Option6AddrLst)); } }