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|
// Copyright (C) 2011-2024 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 <config.h>
#include <asiolink/io_address.h>
#include <dhcp/dhcp4.h>
#include <dhcp/dhcp6.h>
#include <dhcp/docsis3_option_defs.h>
#include <dhcp/libdhcp++.h>
#include <dhcp/option4_addrlst.h>
#include <dhcp/option4_client_fqdn.h>
#include <dhcp/option6_addrlst.h>
#include <dhcp/option6_client_fqdn.h>
#include <dhcp/option6_ia.h>
#include <dhcp/option6_iaaddr.h>
#include <dhcp/option6_iaprefix.h>
#include <dhcp/option6_pdexclude.h>
#include <dhcp/option6_status_code.h>
#include <dhcp/option_custom.h>
#include <dhcp/option_int.h>
#include <dhcp/option_int_array.h>
#include <dhcp/option_opaque_data_tuples.h>
#include <dhcp/option_string.h>
#include <dhcp/option_vendor.h>
#include <dhcp/option_vendor_class.h>
#include <util/buffer.h>
#include <util/encode/encode.h>
#include <util/thread_pool.h>
#include <boost/pointer_cast.hpp>
#include <gtest/gtest.h>
#include <iostream>
#include <sstream>
#include <typeinfo>
#include <arpa/inet.h>
using namespace std;
using namespace isc;
using namespace isc::asiolink;
using namespace isc::dhcp;
using namespace isc::util;
namespace {
// DHCPv6 suboptions of Vendor Options Option.
/// @todo move to src/lib/dhcp/docsis3_option_defs.h once #3194 is merged.
const uint16_t OPTION_CMTS_CAPS = 1025;
const uint16_t OPTION_CM_MAC = 1026;
class LibDhcpTest : public ::testing::Test {
public:
/// @brief Constructor.
///
/// Removes runtime option definitions.
LibDhcpTest() {
LibDHCP::clearRuntimeOptionDefs();
}
/// @brief Destructor.
///
/// Removes runtime option definitions.
virtual ~LibDhcpTest() {
LibDHCP::clearRuntimeOptionDefs();
}
/// @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, DHCP4_OPTION_SPACE, 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, DHCP6_OPTION_SPACE, code, begin,
end, expected_type, encapsulates);
}
/// @brief Test DHCPv6 option definition in a given option space.
///
/// This function tests if option definition for an option from a
/// given option space has been initialized correctly.
///
/// @param option_space option space.
/// @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 testOptionDefs6(const std::string& option_space,
const uint16_t code,
const OptionBufferConstIter begin,
const OptionBufferConstIter end,
const std::type_info& expected_type,
const std::string& encapsulates = "") {
testStdOptionDefs(Option::V6, option_space, code, begin,
end, expected_type, encapsulates);
}
/// @brief Create a sample DHCPv4 option 82 with suboptions.
static OptionBuffer createAgentInformationOption() {
const uint8_t opt_data[] = {
0x52, 0x0E, // Agent Information Option (length = 14)
// Suboptions start here...
0x01, 0x04, // Agent Circuit ID (length = 4)
0x20, 0x00, 0x00, 0x02, // ID
0x02, 0x06, // Agent Remote ID
0x20, 0xE5, 0x2A, 0xB8, 0x15, 0x14 // ID
};
return (OptionBuffer(opt_data, opt_data + sizeof(opt_data)));
}
/// @brief Create option definitions and store in the container.
///
/// @param spaces_num Number of option spaces to be created.
/// @param defs_num Number of option definitions to be created for
/// each option space.
/// @param [out] defs Container to which option definitions should be
/// added.
static void createRuntimeOptionDefs(const uint16_t spaces_num,
const uint16_t defs_num,
OptionDefSpaceContainer& defs) {
for (uint16_t space = 0; space < spaces_num; ++space) {
std::ostringstream space_name;
space_name << "option-space-" << space;
for (uint16_t code = 0; code < defs_num; ++code) {
std::ostringstream name;
name << "name-for-option-" << code;
OptionDefinitionPtr opt_def(new OptionDefinition(name.str(),
code,
space_name.str(),
"string"));
defs.addItem(opt_def);
}
}
}
/// @brief Test if runtime option definitions have been added.
///
/// This method uses the same naming conventions for space names and
/// options names as @c createRuntimeOptionDefs method.
///
/// @param spaces_num Number of option spaces to be tested.
/// @param defs_num Number of option definitions that should exist
/// in each option space.
/// @param should_exist Boolean value which indicates if option
/// definitions should exist. If this is false, this function will
/// check that they don't exist.
static void testRuntimeOptionDefs(const uint16_t spaces_num,
const uint16_t defs_num,
const bool should_exist) {
for (uint16_t space = 0; space < spaces_num; ++space) {
std::ostringstream space_name;
space_name << "option-space-" << space;
for (uint16_t code = 0; code < defs_num; ++code) {
std::ostringstream name;
name << "name-for-option-" << code;
OptionDefinitionPtr opt_def =
LibDHCP::getRuntimeOptionDef(space_name.str(), name.str());
if (should_exist) {
ASSERT_TRUE(opt_def);
} else {
ASSERT_FALSE(opt_def);
}
}
}
}
/// @brief Test which verifies that split options throws if there is no
/// space left in the packet buffer.
///
/// @param option The packet option.
static void splitOptionNoBuffer(OptionPtr option) {
isc::util::OutputBuffer buf(0);
OptionCollection col;
col.insert(std::make_pair(231, option));
ManagedScopedOptionsCopyContainer scoped_options;
ASSERT_THROW(LibDHCP::splitOptions4(col, scoped_options.scoped_options_, 253), BadValue);
}
/// @brief Test which verifies that split options works if there is only one
/// byte available for data in the packet buffer.
///
/// @param option The packet option.
static void splitOptionOneByteLeftBuffer(OptionPtr option) {
isc::util::OutputBuffer buf(0);
Pkt4Ptr pkt(new Pkt4(DHCPOFFER, 1234));
OptionCollection& col = pkt->options_;
col.clear();
col.insert(std::make_pair(231, option));
std::string expected = pkt->toText();
{
ScopedPkt4OptionsCopy initial_scoped_options(*pkt);
ManagedScopedOptionsCopyContainer scoped_options;
ASSERT_NO_THROW(LibDHCP::splitOptions4(col, scoped_options.scoped_options_, 252));
ASSERT_NO_THROW(LibDHCP::packOptions4(buf, col, true));
ASSERT_NE(expected, pkt->toText());
ASSERT_EQ(64, col.size());
uint8_t index = 0;
for (auto const& opt : col) {
ASSERT_EQ(opt.first, 231);
ASSERT_EQ(1, opt.second->getData().size());
ASSERT_EQ(index, opt.second->getData()[0]);
index++;
}
}
ASSERT_EQ(expected, pkt->toText());
}
/// @brief Test which verifies that split options for v4 is working correctly.
///
/// @param option The packet option.
static void splitLongOption(OptionPtr option) {
isc::util::OutputBuffer buf(0);
Pkt4Ptr pkt(new Pkt4(DHCPOFFER, 1234));
OptionCollection& col = pkt->options_;
col.clear();
col.insert(std::make_pair(231, option));
std::string expected = pkt->toText();
{
ScopedPkt4OptionsCopy initial_scoped_options(*pkt);
ManagedScopedOptionsCopyContainer scoped_options;
ASSERT_NO_THROW(LibDHCP::splitOptions4(col, scoped_options.scoped_options_));
ASSERT_NO_THROW(LibDHCP::packOptions4(buf, col, true));
ASSERT_NE(expected, pkt->toText());
ASSERT_EQ(11, col.size());
ASSERT_EQ(2560 + 11 * option->getHeaderLen(), buf.getLength());
}
ASSERT_EQ(expected, pkt->toText());
OptionCollection col_back;
std::list<uint16_t> deferred_options;
size_t opts_len = buf.getLength();
vector<uint8_t> opts_buffer;
InputBuffer buffer_in(buf.getData(), opts_len);
// Use readVector because a function which parses option requires
// a vector as an input.
buffer_in.readVector(opts_buffer, opts_len);
ASSERT_NO_THROW(LibDHCP::unpackOptions4(opts_buffer, DHCP4_OPTION_SPACE,
col_back, deferred_options));
ASSERT_EQ(1, col_back.size());
EXPECT_EQ(231, col_back.begin()->first);
OptionPtr opt_back = col_back.begin()->second;
ASSERT_TRUE(opt_back);
EXPECT_TRUE(option->equals(*opt_back));
}
/// @brief Test which verifies that split options for v4 is working correctly
/// even if every suboption is smaller than 255 bytes, but the parent option
/// still overflows.
///
/// @param rai The packet option.
/// @param circuit_id_opt The packet option.
/// @param remote_id_opt The packet option.
/// @param subscriber_id_opt The packet option.
static void splitOptionWithSuboptionWhichOverflow(OptionPtr rai,
OptionPtr circuit_id_opt,
OptionPtr remote_id_opt,
OptionPtr subscriber_id_opt) {
isc::util::OutputBuffer buf(0);
Pkt4Ptr pkt(new Pkt4(DHCPOFFER, 1234));
OptionCollection& col = pkt->options_;
col.clear();
col.insert(std::make_pair(DHO_DHCP_AGENT_OPTIONS, rai));
std::string expected = pkt->toText();
{
ScopedPkt4OptionsCopy initial_scoped_options(*pkt);
ManagedScopedOptionsCopyContainer scoped_options;
ASSERT_NO_THROW(LibDHCP::splitOptions4(col, scoped_options.scoped_options_));
ASSERT_NO_THROW(LibDHCP::packOptions4(buf, col, true));
ASSERT_NE(expected, pkt->toText());
ASSERT_EQ(3, col.size());
ASSERT_EQ(3 * rai->getHeaderLen() + circuit_id_opt->getHeaderLen() +
remote_id_opt->getHeaderLen() + subscriber_id_opt->getHeaderLen() +
3 * 128, buf.getLength());
}
ASSERT_EQ(expected, pkt->toText());
OptionCollection col_back;
std::list<uint16_t> deferred_options;
size_t opts_len = buf.getLength();
vector<uint8_t> opts_buffer;
InputBuffer buffer_in(buf.getData(), opts_len);
// Use readVector because a function which parses option requires
// a vector as an input.
buffer_in.readVector(opts_buffer, opts_len);
ASSERT_NO_THROW(LibDHCP::unpackOptions4(opts_buffer, DHCP4_OPTION_SPACE,
col_back, deferred_options));
ASSERT_EQ(1, col_back.size());
EXPECT_EQ(DHO_DHCP_AGENT_OPTIONS, col_back.begin()->first);
OptionPtr opt_back = col_back.begin()->second;
ASSERT_TRUE(opt_back);
uint8_t index = 0;
uint8_t opt_number = 0;
uint32_t opt_type = RAI_OPTION_AGENT_CIRCUIT_ID;
OptionCollection subs_back = opt_back->getOptions();
ASSERT_EQ(3, subs_back.size());
for (auto const& sub_option : subs_back) {
if (sub_option.first != opt_type) {
opt_type = sub_option.first;
ASSERT_EQ(index, 128);
index = 0;
opt_number++;
}
if (opt_number == 0) {
ASSERT_EQ(sub_option.first, RAI_OPTION_AGENT_CIRCUIT_ID);
} else if (opt_number == 1) {
ASSERT_EQ(sub_option.first, RAI_OPTION_REMOTE_ID);
} else if (opt_number == 2){
ASSERT_EQ(sub_option.first, RAI_OPTION_SUBSCRIBER_ID);
}
for (auto const& value : sub_option.second->getData()) {
ASSERT_EQ(value, index);
index++;
}
}
ASSERT_EQ(index, 128);
}
/// @brief Test which verifies that split options for v4 is working correctly.
///
/// @param rai The packet option.
/// @param circuit_id_opt The packet option.
/// @param remote_id_opt The packet option.
/// @param subscriber_id_opt The packet option.
void splitLongOptionWithLongSuboption(OptionPtr rai,
OptionPtr circuit_id_opt,
OptionPtr remote_id_opt,
OptionPtr subscriber_id_opt) {
isc::util::OutputBuffer buf(0);
Pkt4Ptr pkt(new Pkt4(DHCPOFFER, 1234));
OptionCollection& col = pkt->options_;
col.clear();
col.insert(std::make_pair(DHO_DHCP_AGENT_OPTIONS, rai));
std::string expected = pkt->toText();
{
ScopedPkt4OptionsCopy initial_scoped_options(*pkt);
ManagedScopedOptionsCopyContainer scoped_options;
ASSERT_NO_THROW(LibDHCP::splitOptions4(col, scoped_options.scoped_options_));
ASSERT_NO_THROW(LibDHCP::packOptions4(buf, col, true));
ASSERT_NE(expected, pkt->toText());
ASSERT_EQ(23, col.size());
ASSERT_EQ((11 + 1 + 11) * rai->getHeaderLen() + 11 * circuit_id_opt->getHeaderLen() +
remote_id_opt->getHeaderLen() + 11 * subscriber_id_opt->getHeaderLen() +
2560 + 64 + 2560, buf.getLength());
}
ASSERT_EQ(expected, pkt->toText());
OptionCollection col_back;
std::list<uint16_t> deferred_options;
size_t opts_len = buf.getLength();
vector<uint8_t> opts_buffer;
InputBuffer buffer_in(buf.getData(), opts_len);
// Use readVector because a function which parses option requires
// a vector as an input.
buffer_in.readVector(opts_buffer, opts_len);
ASSERT_NO_THROW(LibDHCP::unpackOptions4(opts_buffer, DHCP4_OPTION_SPACE,
col_back, deferred_options));
ASSERT_EQ(1, col_back.size());
EXPECT_EQ(DHO_DHCP_AGENT_OPTIONS, col_back.begin()->first);
OptionPtr opt_back = col_back.begin()->second;
ASSERT_TRUE(opt_back);
uint32_t index = 0;
uint8_t opt_number = 0;
uint32_t opt_type = RAI_OPTION_AGENT_CIRCUIT_ID;
OptionCollection subs_back = opt_back->getOptions();
ASSERT_EQ(3, subs_back.size());
for (auto const& sub_option : subs_back) {
if (sub_option.first != opt_type) {
opt_type = sub_option.first;
if (opt_number == 0) {
ASSERT_EQ(index, 2560);
} else if (opt_number == 1) {
ASSERT_EQ(index, 64);
} else if (opt_number == 2){
ASSERT_EQ(index, 2560);
}
index = 0;
opt_number++;
}
if (opt_number == 0) {
ASSERT_EQ(sub_option.first, RAI_OPTION_AGENT_CIRCUIT_ID);
} else if (opt_number == 1) {
ASSERT_EQ(sub_option.first, RAI_OPTION_REMOTE_ID);
} else if (opt_number == 2){
ASSERT_EQ(sub_option.first, RAI_OPTION_SUBSCRIBER_ID);
}
for (auto const& value : sub_option.second->getData()) {
ASSERT_EQ(value, static_cast<uint8_t>(index));
index++;
}
}
ASSERT_EQ(index, 2560);
}
private:
/// @brief Test DHCPv4 or DHCPv6 option definition.
///
/// This function tests if option definition for standard
/// option has been initialized correctly.
///
/// @param option_space option space.
/// @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 std::string& option_space,
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.
OptionDefContainerPtr options = LibDHCP::getOptionDefs(option_space);
// 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()) <<
"opt name: " << def->getName();
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.
const Option* optptr = option.get();
EXPECT_TRUE(typeid(*optptr) == 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)
// Vendor Specific Information Option starts here
0x00, 0x11, // VSI Option Code
0x00, 0x16, // VSI Option Length
0x00, 0x00, 0x11, 0x8B, // Enterprise ID
0x04, 0x01, // CMTS Capabilities Option
0x00, 0x04, // Length
0x01, 0x02,
0x03, 0x00, // DOCSIS Version Number
0x04, 0x02, // CM MAC Address Suboption
0x00, 0x06, // Length
0x74, 0x56, 0x12, 0x29, 0x97, 0xD0, // Actual MAC Address
};
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 raised.
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::OptionCollection opts; // list of options
// generate content for options
for (unsigned 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));
OptionPtr cm_mac(new Option(Option::V6, OPTION_CM_MAC,
OptionBuffer(v6packed + 54, v6packed + 60)));
OptionPtr cmts_caps(new Option(Option::V6, OPTION_CMTS_CAPS,
OptionBuffer(v6packed + 46, v6packed + 50)));
boost::shared_ptr<OptionInt<uint32_t> >
vsi(new OptionInt<uint32_t>(Option::V6, D6O_VENDOR_OPTS,
VENDOR_ID_CABLE_LABS));
vsi->addOption(cm_mac);
vsi->addOption(cmts_caps);
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));
opts.insert(make_pair(opt1->getType(), vsi));
OutputBuffer assembled(512);
EXPECT_NO_THROW(LibDHCP::packOptions6(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::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)),
DHCP6_OPTION_SPACE, options);
});
EXPECT_EQ(options.size(), 6); // there should be 5 options
isc::dhcp::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<uint16_t> 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<OptionIntArray<uint16_t> > opt_oro =
boost::dynamic_pointer_cast<OptionIntArray<uint16_t> >(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<uint16_t> opts = opt_oro->getValues();
// Prepare the reference data.
std::vector<uint16_t> 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<uint16_t> value that holds single
// uint16_t value.
boost::shared_ptr<OptionInt<uint16_t> > opt_elapsed_time =
boost::dynamic_pointer_cast<OptionInt<uint16_t> >(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());
// Check if Vendor Specific Information Option along with suboptions
// have been parsed correctly.
x = options.find(D6O_VENDOR_OPTS);
EXPECT_FALSE(x == options.end());
EXPECT_EQ(D6O_VENDOR_OPTS, x->second->getType());
EXPECT_EQ(26, x->second->len());
OptionVendorPtr vendor = boost::dynamic_pointer_cast<OptionVendor>(x->second);
ASSERT_TRUE(vendor);
ASSERT_EQ(vendor->getVendorId(), VENDOR_ID_CABLE_LABS);
// CM MAC Address Option
OptionPtr cm_mac = vendor->getOption(OPTION_CM_MAC);
ASSERT_TRUE(cm_mac);
EXPECT_EQ(OPTION_CM_MAC, cm_mac->getType());
ASSERT_EQ(10, cm_mac->len());
EXPECT_EQ(0, memcmp(&cm_mac->getData()[0], v6packed + 54, 6));
// CMTS Capabilities
OptionPtr cmts_caps = vendor->getOption(OPTION_CMTS_CAPS);
ASSERT_TRUE(cmts_caps);
EXPECT_EQ(OPTION_CMTS_CAPS, cmts_caps->getType());
ASSERT_EQ(8, cmts_caps->len());
EXPECT_EQ(0, memcmp(&cmts_caps->getData()[0], v6packed + 46, 4));
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 */
}
// Check parsing of an empty DHCPv6 option.
TEST_F(LibDhcpTest, unpackEmptyOption6) {
// Create option definition for the option code 1024 without fields.
OptionDefinitionPtr opt_def(new OptionDefinition("option-empty", 1024,
DHCP6_OPTION_SPACE,
"empty", false));
// Use it as runtime option definition within standard options space.
// The tested code should find this option definition within runtime
// option definitions set when it detects that this definition is
// not a standard definition.
OptionDefSpaceContainer defs;
defs.addItem(opt_def);
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
// Create the buffer holding the structure of the empty option.
OptionBuffer buf = {
0x04, 0x00, // option code = 1024
0x00, 0x00 // option length = 0
};
// Parse options.
OptionCollection options;
ASSERT_NO_THROW(LibDHCP::unpackOptions6(buf, DHCP6_OPTION_SPACE,
options));
// There should be one option.
ASSERT_EQ(1, options.size());
OptionPtr option_empty = options.begin()->second;
ASSERT_TRUE(option_empty);
EXPECT_EQ(1024, option_empty->getType());
EXPECT_EQ(4, option_empty->len());
}
// This test verifies that the following option structure can be parsed:
// - option (option space 'foobar')
// - sub option (option space 'foo')
// - sub option (option space 'bar')
TEST_F(LibDhcpTest, unpackSubOptions6) {
// Create option definition for each level of encapsulation. Each option
// definition is for the option code 1. Options may have the same
// option code because they belong to different option spaces.
// Top level option encapsulates options which belong to 'space-foo'.
OptionDefinitionPtr opt_def(new OptionDefinition("option-foobar", 1,
"space-foobar",
"uint32",
"space-foo"));
// Middle option encapsulates options which belong to 'space-bar'
OptionDefinitionPtr opt_def2(new OptionDefinition("option-foo", 1,
"space-foo",
"uint16",
"space-bar"));
// Low level option doesn't encapsulate any option space.
OptionDefinitionPtr opt_def3(new OptionDefinition("option-bar", 1,
"space-bar",
"uint8"));
// Register created option definitions as runtime option definitions.
OptionDefSpaceContainer defs;
ASSERT_NO_THROW(defs.addItem(opt_def));
ASSERT_NO_THROW(defs.addItem(opt_def2));
ASSERT_NO_THROW(defs.addItem(opt_def3));
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
// Create the buffer holding the structure of options.
OptionBuffer buf = {
// First option starts here.
0x00, 0x01, // option code = 1
0x00, 0x0F, // option length = 15
0x00, 0x01, 0x02, 0x03, // This option carries uint32 value
// Sub option starts here.
0x00, 0x01, // option code = 1
0x00, 0x07, // option length = 7
0x01, 0x02, // this option carries uint16 value
// Last option starts here.
0x00, 0x01, // option code = 1
0x00, 0x01, // option length = 1
0x00 // This option carries a single uint8 value and has no sub options.
};
// Parse options.
OptionCollection options;
ASSERT_NO_THROW(LibDHCP::unpackOptions6(buf, "space-foobar", options, 0, 0));
// There should be one top level option.
ASSERT_EQ(1, options.size());
boost::shared_ptr<OptionInt<uint32_t> > option_foobar =
boost::dynamic_pointer_cast<OptionInt<uint32_t> >(options.begin()->
second);
ASSERT_TRUE(option_foobar);
EXPECT_EQ(1, option_foobar->getType());
EXPECT_EQ(0x00010203, option_foobar->getValue());
// There should be a middle level option held in option_foobar.
boost::shared_ptr<OptionInt<uint16_t> > option_foo =
boost::dynamic_pointer_cast<OptionInt<uint16_t> >(option_foobar->
getOption(1));
ASSERT_TRUE(option_foo);
EXPECT_EQ(1, option_foo->getType());
EXPECT_EQ(0x0102, option_foo->getValue());
// Finally, there should be a low level option under option_foo.
boost::shared_ptr<OptionInt<uint8_t> > option_bar =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >(option_foo->getOption(1));
ASSERT_TRUE(option_bar);
EXPECT_EQ(1, option_bar->getType());
EXPECT_EQ(0x0, option_bar->getValue());
}
/// 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
125, 11, 0, 0, 0x11, 0x8B, // V-I Vendor-Specific Information (Cable Labs)
6, 2, 4, 10, 0, 0, 10, // TFTP servers suboption (2)
43, 2, // Vendor Specific Information
0xDC, 0, // VSI suboption
0x52, 0x19, // RAI
0x01, 0x04, 0x20, 0x00, 0x02, 0x00, // Agent Circuit ID
0x02, 0x06, 0x20, 0xE5, 0x2A, 0xB8, 0x15, 0x00, // Agent Remote ID
0x09, 0x09, 0x00, 0x00, 0x11, 0x8B, 0x04, // Vendor Specific Information
0x01, 0x02, 0x03, 0x00 // Vendor Specific Information continued
};
// This test verifies that split options throws if there is no space left in the
// packet buffer.
TEST_F(LibDhcpTest, splitOptionNoBuffer) {
OptionDefinition opt_def("option-foo", 231, "my-space", "binary",
"option-foo-space");
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(2560);
for (uint32_t i = 0; i < 2560; ++i) {
buf_in[i] = i;
}
boost::shared_ptr<OptionCustom> option;
ASSERT_NO_THROW(option.reset(new OptionCustom(opt_def, Option::V4, buf_in)));
ASSERT_TRUE(option);
splitOptionNoBuffer(option);
}
// This test verifies that split options throws if there is no space left in the
// packet buffer.
TEST_F(LibDhcpTest, splitOptionNoBufferMultiThreading) {
OptionDefinition opt_def("option-foo", 231, "my-space", "binary",
"option-foo-space");
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(2560);
for (uint32_t i = 0; i < 2560; ++i) {
buf_in[i] = i;
}
boost::shared_ptr<OptionCustom> option;
ASSERT_NO_THROW(option.reset(new OptionCustom(opt_def, Option::V4, buf_in)));
ASSERT_TRUE(option);
typedef function<void()> CallBack;
ThreadPool<CallBack> tp;
tp.start(256);
// Options are shared between threads to mimic the server defined options
// in the packet which are added from running configuration.
for (uint32_t count = 0; count < 1024; ++count) {
auto const& work = [&] {
splitOptionNoBuffer(option);
};
boost::shared_ptr<CallBack> call_back = boost::make_shared<CallBack>(work);
tp.add(call_back);
}
ASSERT_TRUE(tp.wait(30));
}
// This test verifies that split options works if there is only one byte
// available for data in the packet buffer.
TEST_F(LibDhcpTest, splitOptionOneByteLeftBuffer) {
OptionDefinition opt_def("option-foo", 231, "my-space", "binary",
"option-foo-space");
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(64);
for (uint32_t i = 0; i < 64; ++i) {
buf_in[i] = i;
}
boost::shared_ptr<OptionCustom> option;
ASSERT_NO_THROW(option.reset(new OptionCustom(opt_def, Option::V4, buf_in)));
ASSERT_TRUE(option);
splitOptionOneByteLeftBuffer(option);
}
// This test verifies that split options works if there is only one byte
// available for data in the packet buffer.
TEST_F(LibDhcpTest, splitOptionOneByteLeftBufferMultiThreading) {
OptionDefinition opt_def("option-foo", 231, "my-space", "binary",
"option-foo-space");
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(64);
for (uint32_t i = 0; i < 64; ++i) {
buf_in[i] = i;
}
boost::shared_ptr<OptionCustom> option;
ASSERT_NO_THROW(option.reset(new OptionCustom(opt_def, Option::V4, buf_in)));
ASSERT_TRUE(option);
typedef function<void()> CallBack;
ThreadPool<CallBack> tp;
tp.start(256);
// Options are shared between threads to mimic the server defined options
// in the packet which are added from running configuration.
for (uint32_t count = 0; count < 1024; ++count) {
auto const& work = [&] {
splitOptionOneByteLeftBuffer(option);
};
boost::shared_ptr<CallBack> call_back = boost::make_shared<CallBack>(work);
tp.add(call_back);
}
ASSERT_TRUE(tp.wait(30));
}
// This test verifies that split options for v4 is working correctly.
TEST_F(LibDhcpTest, splitLongOption) {
OptionDefinition opt_def("option-foo", 231, "my-space", "binary",
"option-foo-space");
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(2560);
for (uint32_t i = 0; i < 2560; ++i) {
buf_in[i] = i;
}
boost::shared_ptr<OptionCustom> option;
ASSERT_NO_THROW(option.reset(new OptionCustom(opt_def, Option::V4, buf_in)));
ASSERT_TRUE(option);
splitLongOption(option);
}
// This test verifies that split options for v4 is working correctly.
TEST_F(LibDhcpTest, splitLongOptionMultiThreading) {
OptionDefinition opt_def("option-foo", 231, "my-space", "binary",
"option-foo-space");
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(2560);
for (uint32_t i = 0; i < 2560; ++i) {
buf_in[i] = i;
}
boost::shared_ptr<OptionCustom> option;
ASSERT_NO_THROW(option.reset(new OptionCustom(opt_def, Option::V4, buf_in)));
ASSERT_TRUE(option);
typedef function<void()> CallBack;
ThreadPool<CallBack> tp;
tp.start(256);
// Options are shared between threads to mimic the server defined options
// in the packet which are added from running configuration.
for (uint32_t count = 0; count < 1024; ++count) {
auto const& work = [&] {
splitLongOption(option);
};
boost::shared_ptr<CallBack> call_back = boost::make_shared<CallBack>(work);
tp.add(call_back);
}
ASSERT_TRUE(tp.wait(30));
}
// This test verifies that split options for v4 is working correctly even if
// every suboption is smaller than 255 bytes, but the parent option still
// overflows.
TEST_F(LibDhcpTest, splitOptionWithSuboptionWhichOverflow) {
const OptionDefinition& rai_def = LibDHCP::DHO_DHCP_AGENT_OPTIONS_DEF();
// Create RAI options which should be fused by the server.
OptionCustomPtr rai(new OptionCustom(rai_def, Option::V4));
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(128);
for (uint32_t i = 0; i < 128; ++i) {
buf_in[i] = i;
}
OptionPtr circuit_id_opt(new Option(Option::V4,
RAI_OPTION_AGENT_CIRCUIT_ID, buf_in));
ASSERT_TRUE(circuit_id_opt);
rai->addOption(circuit_id_opt);
OptionPtr remote_id_opt(new Option(Option::V4,
RAI_OPTION_REMOTE_ID, buf_in));
ASSERT_TRUE(remote_id_opt);
rai->addOption(remote_id_opt);
OptionStringPtr subscriber_id_opt(new OptionString(Option::V4,
RAI_OPTION_SUBSCRIBER_ID,
buf_in.begin(),
buf_in.end()));
ASSERT_TRUE(subscriber_id_opt);
rai->addOption(subscriber_id_opt);
splitOptionWithSuboptionWhichOverflow(rai, circuit_id_opt, remote_id_opt, subscriber_id_opt);
}
// This test verifies that split options for v4 is working correctly even if
// every suboption is smaller than 255 bytes, but the parent option still
// overflows.
TEST_F(LibDhcpTest, splitOptionWithSuboptionWhichOverflowMultiThreading) {
const OptionDefinition& rai_def = LibDHCP::DHO_DHCP_AGENT_OPTIONS_DEF();
// Create RAI options which should be fused by the server.
OptionCustomPtr rai(new OptionCustom(rai_def, Option::V4));
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(128);
for (uint32_t i = 0; i < 128; ++i) {
buf_in[i] = i;
}
OptionPtr circuit_id_opt(new Option(Option::V4,
RAI_OPTION_AGENT_CIRCUIT_ID, buf_in));
ASSERT_TRUE(circuit_id_opt);
rai->addOption(circuit_id_opt);
OptionPtr remote_id_opt(new Option(Option::V4,
RAI_OPTION_REMOTE_ID, buf_in));
ASSERT_TRUE(remote_id_opt);
rai->addOption(remote_id_opt);
OptionStringPtr subscriber_id_opt(new OptionString(Option::V4,
RAI_OPTION_SUBSCRIBER_ID,
buf_in.begin(),
buf_in.end()));
ASSERT_TRUE(subscriber_id_opt);
rai->addOption(subscriber_id_opt);
typedef function<void()> CallBack;
ThreadPool<CallBack> tp;
tp.start(256);
// Options are shared between threads to mimic the server defined options
// in the packet which are added from running configuration.
for (uint32_t count = 0; count < 1024; ++count) {
auto const& work = [&] {
splitOptionWithSuboptionWhichOverflow(rai, circuit_id_opt, remote_id_opt, subscriber_id_opt);
};
boost::shared_ptr<CallBack> call_back = boost::make_shared<CallBack>(work);
tp.add(call_back);
}
ASSERT_TRUE(tp.wait(30));
}
// This test verifies that split options for v4 is working correctly.
TEST_F(LibDhcpTest, splitLongOptionWithLongSuboption) {
const OptionDefinition& rai_def = LibDHCP::DHO_DHCP_AGENT_OPTIONS_DEF();
// Create RAI options which should be fused by the server.
OptionCustomPtr rai(new OptionCustom(rai_def, Option::V4));
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(2560);
for (uint32_t i = 0; i < 2560; ++i) {
buf_in[i] = i;
}
OptionPtr circuit_id_opt(new Option(Option::V4,
RAI_OPTION_AGENT_CIRCUIT_ID, buf_in));
ASSERT_TRUE(circuit_id_opt);
rai->addOption(circuit_id_opt);
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer small_buf_in(64);
for (uint32_t i = 0; i < 64; ++i) {
small_buf_in[i] = i;
}
OptionPtr remote_id_opt(new Option(Option::V4,
RAI_OPTION_REMOTE_ID, small_buf_in));
ASSERT_TRUE(remote_id_opt);
rai->addOption(remote_id_opt);
OptionStringPtr subscriber_id_opt(new OptionString(Option::V4,
RAI_OPTION_SUBSCRIBER_ID,
buf_in.begin(),
buf_in.end()));
ASSERT_TRUE(subscriber_id_opt);
rai->addOption(subscriber_id_opt);
splitLongOptionWithLongSuboption(rai, circuit_id_opt, remote_id_opt, subscriber_id_opt);
}
// This test verifies that split options for v4 is working correctly.
TEST_F(LibDhcpTest, splitLongOptionWithLongSuboptionMultiThreading) {
const OptionDefinition& rai_def = LibDHCP::DHO_DHCP_AGENT_OPTIONS_DEF();
// Create RAI options which should be fused by the server.
OptionCustomPtr rai(new OptionCustom(rai_def, Option::V4));
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer buf_in(2560);
for (uint32_t i = 0; i < 2560; ++i) {
buf_in[i] = i;
}
OptionPtr circuit_id_opt(new Option(Option::V4,
RAI_OPTION_AGENT_CIRCUIT_ID, buf_in));
ASSERT_TRUE(circuit_id_opt);
rai->addOption(circuit_id_opt);
// Create a buffer holding some binary data. This data will be
// used as reference when we read back the data from a created
// option.
OptionBuffer small_buf_in(64);
for (uint32_t i = 0; i < 64; ++i) {
small_buf_in[i] = i;
}
OptionPtr remote_id_opt(new Option(Option::V4,
RAI_OPTION_REMOTE_ID, small_buf_in));
ASSERT_TRUE(remote_id_opt);
rai->addOption(remote_id_opt);
OptionStringPtr subscriber_id_opt(new OptionString(Option::V4,
RAI_OPTION_SUBSCRIBER_ID,
buf_in.begin(),
buf_in.end()));
ASSERT_TRUE(subscriber_id_opt);
rai->addOption(subscriber_id_opt);
typedef function<void()> CallBack;
ThreadPool<CallBack> tp;
tp.start(256);
// Options are shared between threads to mimic the server defined options
// in the packet which are added from running configuration.
for (uint32_t count = 0; count < 1024; ++count) {
auto const& work = [&] {
splitLongOptionWithLongSuboption(rai, circuit_id_opt, remote_id_opt, subscriber_id_opt);
};
boost::shared_ptr<CallBack> call_back = boost::make_shared<CallBack>(work);
tp.add(call_back);
}
ASSERT_TRUE(tp.wait(30));
}
// This test verifies that pack options for v4 is working correctly.
TEST_F(LibDhcpTest, packOptions4) {
vector<uint8_t> payload[5];
for (unsigned 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]));
// Create vendor option instance with DOCSIS3.0 enterprise id.
OptionVendorPtr vivsi(new OptionVendor(Option::V4, VENDOR_ID_CABLE_LABS));
vivsi->addOption(OptionPtr(new Option4AddrLst(DOCSIS3_V4_TFTP_SERVERS,
IOAddress("10.0.0.10"))));
OptionPtr vsi(new Option(Option::V4, DHO_VENDOR_ENCAPSULATED_OPTIONS,
OptionBuffer()));
vsi->addOption(OptionPtr(new Option(Option::V4, 0xDC, OptionBuffer())));
// Add RAI option, which comprises 3 sub-options.
// Get the option definition for RAI option. This option is represented
// by OptionCustom which requires a definition to be passed to
// the constructor.
const OptionDefinition& rai_def = LibDHCP::DHO_DHCP_AGENT_OPTIONS_DEF();
// Create RAI option.
OptionCustomPtr rai(new OptionCustom(rai_def, Option::V4));
// The sub-options are created using the bits of v4_opts buffer because
// we want to use this buffer as a reference to verify that produced
// option in on-wire format is correct.
// Create Circuit ID sub-option and add to RAI.
OptionPtr circuit_id(new Option(Option::V4, RAI_OPTION_AGENT_CIRCUIT_ID,
OptionBuffer(v4_opts + 46,
v4_opts + 50)));
rai->addOption(circuit_id);
// Create Remote ID option and add to RAI.
OptionPtr remote_id(new Option(Option::V4, RAI_OPTION_REMOTE_ID,
OptionBuffer(v4_opts + 52, v4_opts + 58)));
rai->addOption(remote_id);
// Create Vendor Specific Information and add to RAI.
OptionPtr rai_vsi(new Option(Option::V4, RAI_OPTION_VSI,
OptionBuffer(v4_opts + 60, v4_opts + 69)));
rai->addOption(rai_vsi);
isc::dhcp::OptionCollection opts; // list of options
// Note that we insert each option under the same option code into
// the map. This guarantees that options are packed in the same order
// they were added. Otherwise, options would get sorted by code and
// the resulting buffer wouldn't match with the reference buffer.
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));
opts.insert(make_pair(opt1->getType(), vivsi));
opts.insert(make_pair(opt1->getType(), vsi));
opts.insert(make_pair(opt1->getType(), rai));
OutputBuffer buf(100);
EXPECT_NO_THROW(LibDHCP::packOptions4(buf, opts));
ASSERT_EQ(buf.getLength(), sizeof(v4_opts));
EXPECT_EQ(0, memcmp(v4_opts, buf.getData(), sizeof(v4_opts)));
}
// This test verifies that pack options for v4 is working correctly
// and RAI option is packed last.
TEST_F(LibDhcpTest, packOptions4Order) {
uint8_t expected[] = {
12, 3, 0, 1, 2, // Just a random option
99, 3, 10, 11, 12, // Another random option
82, 3, 20, 21, 22 // Relay Agent Info option
};
vector<uint8_t> payload[3];
for (unsigned i = 0; i < 3; i++) {
payload[i].resize(3);
payload[i][0] = i*10;
payload[i][1] = i*10+1;
payload[i][2] = i*10+2;
}
OptionPtr opt12(new Option(Option::V4, 12, payload[0]));
OptionPtr opt99(new Option(Option::V4, 99, payload[1]));
OptionPtr opt82(new Option(Option::V4, 82, payload[2]));
// Let's create options. They are added in 82,12,99, but the should be
// packed in 12,99,82 order (82, which is RAI, should go last)
isc::dhcp::OptionCollection opts;
opts.insert(make_pair(opt82->getType(), opt82));
opts.insert(make_pair(opt12->getType(), opt12));
opts.insert(make_pair(opt99->getType(), opt99));
OutputBuffer buf(100);
EXPECT_NO_THROW(LibDHCP::packOptions4(buf, opts));
ASSERT_EQ(buf.getLength(), sizeof(expected));
EXPECT_EQ(0, memcmp(expected, buf.getData(), sizeof(expected)));
}
TEST_F(LibDhcpTest, unpackOptions4) {
vector<uint8_t> v4packed(v4_opts, v4_opts + sizeof(v4_opts));
isc::dhcp::OptionCollection options; // list of options
list<uint16_t> deferred;
ASSERT_NO_THROW(
LibDHCP::unpackOptions4(v4packed, DHCP4_OPTION_SPACE, options,
deferred, false);
);
ASSERT_NO_THROW(LibDHCP::extendVendorOptions4(options));
isc::dhcp::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<OptionString>(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<OptionString>(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 4 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 5 should exist
EXPECT_EQ(128, x->second->getType()); // this should be option 128
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
// Verify that V-I Vendor Specific Information option is parsed correctly.
x = options.find(125);
ASSERT_FALSE(x == options.end());
OptionVendorPtr vivsi = boost::dynamic_pointer_cast<OptionVendor>(x->second);
ASSERT_TRUE(vivsi);
EXPECT_EQ(DHO_VIVSO_SUBOPTIONS, vivsi->getType());
EXPECT_EQ(VENDOR_ID_CABLE_LABS, vivsi->getVendorId());
OptionCollection suboptions = vivsi->getOptions();
// There should be one suboption of V-I VSI.
ASSERT_EQ(1, suboptions.size());
// This vendor option has a standard definition and thus should be
// converted to appropriate class, i.e. Option4AddrLst. If this cast
// fails, it means that its definition was not used while it was
// parsed.
Option4AddrLstPtr tftp =
boost::dynamic_pointer_cast<Option4AddrLst>(suboptions.begin()->second);
ASSERT_TRUE(tftp);
EXPECT_EQ(DOCSIS3_V4_TFTP_SERVERS, tftp->getType());
EXPECT_EQ(6, tftp->len());
Option4AddrLst::AddressContainer addresses = tftp->getAddresses();
ASSERT_EQ(1, addresses.size());
EXPECT_EQ("10.0.0.10", addresses[0].toText());
// Checking DHCP Relay Agent Information Option.
x = options.find(DHO_DHCP_AGENT_OPTIONS);
ASSERT_FALSE(x == options.end());
EXPECT_EQ(DHO_DHCP_AGENT_OPTIONS, x->second->getType());
// RAI is represented by OptionCustom.
OptionCustomPtr rai = boost::dynamic_pointer_cast<OptionCustom>(x->second);
ASSERT_TRUE(rai);
// RAI should have 3 sub-options: Circuit ID, Agent Remote ID, Vendor
// Specific Information option. Note that by parsing these suboptions we
// are checking that unpackOptions4 differentiates between standard option
// space called "dhcp4" and other option spaces. These sub-options do not
// belong to standard option space and should be parsed using different
// option definitions.
// Check that Circuit ID option is among parsed options.
OptionPtr rai_option = rai->getOption(RAI_OPTION_AGENT_CIRCUIT_ID);
ASSERT_TRUE(rai_option);
EXPECT_EQ(RAI_OPTION_AGENT_CIRCUIT_ID, rai_option->getType());
ASSERT_EQ(6, rai_option->len());
EXPECT_EQ(0, memcmp(&rai_option->getData()[0], v4_opts + 46, 4));
// Check that Remote ID option is among parsed options.
rai_option = rai->getOption(RAI_OPTION_REMOTE_ID);
ASSERT_TRUE(rai_option);
EXPECT_EQ(RAI_OPTION_REMOTE_ID, rai_option->getType());
ASSERT_EQ(8, rai_option->len());
EXPECT_EQ(0, memcmp(&rai_option->getData()[0], v4_opts + 52, 6));
// Check that Vendor Specific Information option is among parsed options.
rai_option = rai->getOption(RAI_OPTION_VSI);
ASSERT_TRUE(rai_option);
EXPECT_EQ(RAI_OPTION_VSI, rai_option->getType());
ASSERT_EQ(11, rai_option->len());
EXPECT_EQ(0, memcmp(&rai_option->getData()[0], v4_opts + 60, 9));
// Make sure, that option other than those above is not present.
EXPECT_FALSE(rai->getOption(10));
// Check the same for the global option space.
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
}
// Check parsing of an empty option.
TEST_F(LibDhcpTest, unpackEmptyOption4) {
// Create option definition for the option code 254 without fields.
OptionDefinitionPtr opt_def(new OptionDefinition("option-empty", 254,
DHCP4_OPTION_SPACE,
"empty", false));
// Use it as runtime option definition within standard options space.
// The tested code should find this option definition within runtime
// option definitions set when it detects that this definition is
// not a standard definition.
OptionDefSpaceContainer defs;
defs.addItem(opt_def);
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
// Create the buffer holding the structure of the empty option.
OptionBuffer buf = {
0xFE, // option code = 254
0x00 // option length = 0
};
// Parse options.
OptionCollection options;
list<uint16_t> deferred;
ASSERT_NO_THROW(LibDHCP::unpackOptions4(buf, DHCP4_OPTION_SPACE,
options, deferred, false));
// There should be one option.
ASSERT_EQ(1, options.size());
OptionPtr option_empty = options.begin()->second;
ASSERT_TRUE(option_empty);
EXPECT_EQ(254, option_empty->getType());
EXPECT_EQ(2, option_empty->len());
}
// This test verifies that the following option structure can be parsed:
// - option (option space 'foobar')
// - sub option (option space 'foo')
// - sub option (option space 'bar')
// @todo Add more thorough unit tests for unpackOptions.
TEST_F(LibDhcpTest, unpackSubOptions4) {
// Create option definition for each level of encapsulation. Each option
// definition is for the option code 1. Options may have the same
// option code because they belong to different option spaces.
// Top level option encapsulates options which belong to 'space-foo'.
OptionDefinitionPtr opt_def(new OptionDefinition("option-foobar", 1,
"space-foobar",
"uint32",
"space-foo")); \
// Middle option encapsulates options which belong to 'space-bar'
OptionDefinitionPtr opt_def2(new OptionDefinition("option-foo", 1,
"space-foo",
"uint16",
"space-bar"));
// Low level option doesn't encapsulate any option space.
OptionDefinitionPtr opt_def3(new OptionDefinition("option-bar", 1,
"space-bar",
"uint8"));
// Register created option definitions as runtime option definitions.
OptionDefSpaceContainer defs;
ASSERT_NO_THROW(defs.addItem(opt_def));
ASSERT_NO_THROW(defs.addItem(opt_def2));
ASSERT_NO_THROW(defs.addItem(opt_def3));
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
// Create the buffer holding the structure of options.
OptionBuffer buf = {
// First option starts here.
0x01, // option code = 1
0x0B, // option length = 11
0x00, 0x01, 0x02, 0x03, // This option carries uint32 value
// Sub option starts here.
0x01, // option code = 1
0x05, // option length = 5
0x01, 0x02, // this option carries uint16 value
// Last option starts here.
0x01, // option code = 1
0x01, // option length = 1
0x00 // This option carries a single uint8
// value and has no sub options.
};
// Parse options.
OptionCollection options;
list<uint16_t> deferred;
ASSERT_NO_THROW(LibDHCP::unpackOptions4(buf, "space-foobar",
options, deferred, false));
// There should be one top level option.
ASSERT_EQ(1, options.size());
boost::shared_ptr<OptionInt<uint32_t> > option_foobar =
boost::dynamic_pointer_cast<OptionInt<uint32_t> >(options.begin()->
second);
ASSERT_TRUE(option_foobar);
EXPECT_EQ(1, option_foobar->getType());
EXPECT_EQ(0x00010203, option_foobar->getValue());
// There should be a middle level option held in option_foobar.
boost::shared_ptr<OptionInt<uint16_t> > option_foo =
boost::dynamic_pointer_cast<OptionInt<uint16_t> >(option_foobar->
getOption(1));
ASSERT_TRUE(option_foo);
EXPECT_EQ(1, option_foo->getType());
EXPECT_EQ(0x0102, option_foo->getValue());
// Finally, there should be a low level option under option_foo.
boost::shared_ptr<OptionInt<uint8_t> > option_bar =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >(option_foo->getOption(1));
ASSERT_TRUE(option_bar);
EXPECT_EQ(1, option_bar->getType());
EXPECT_EQ(0x0, option_bar->getValue());
}
// Verifies that options 0 (PAD) and 255 (END) are handled as PAD and END
// in and only in the dhcp4 space.
TEST_F(LibDhcpTest, unpackPadEnd) {
// Create option definition for the container.
OptionDefinitionPtr opt_def(new OptionDefinition("container", 200,
DHCP4_OPTION_SPACE,
"empty", "my-space"));
// Create option definition for option 0.
OptionDefinitionPtr opt_def0(new OptionDefinition("zero", 0,
"my-space", "uint8"));
// Create option definition for option 255.
OptionDefinitionPtr opt_def255(new OptionDefinition("max", 255,
"my-space", "uint8"));
// Create option definition for another option.
OptionDefinitionPtr opt_def2(new OptionDefinition("my-option", 1,
"my-space", "string"));
// Register created option definitions as runtime option definitions.
OptionDefSpaceContainer defs;
ASSERT_NO_THROW(defs.addItem(opt_def));
ASSERT_NO_THROW(defs.addItem(opt_def0));
ASSERT_NO_THROW(defs.addItem(opt_def255));
ASSERT_NO_THROW(defs.addItem(opt_def2));
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
// Create the buffer holding the structure of options.
OptionBuffer buf = {
// Add a PAD
0x00, // option code = 0 (PAD)
// Container option starts here.
0xc8, // option code = 200 (container)
0x0b, // option length = 11
// Suboption 0.
0x00, 0x01, 0x00, // code = 0, length = 1, content = 0
// Suboption 255.
0xff, 0x01, 0xff, // code = 255, length = 1, content = 255
// Suboption 1.
0x01, 0x03, 0x66, 0x6f, 0x6f, // code = 1, length = 2, content = "foo"
// END
0xff,
// Extra bytes at tail.
0x01, 0x02, 0x03, 0x04
};
// Parse options.
OptionCollection options;
list<uint16_t> deferred;
size_t offset = 0;
ASSERT_NO_THROW(offset = LibDHCP::unpackOptions4(buf, DHCP4_OPTION_SPACE,
options, deferred, false));
// Returned offset should point to the END.
EXPECT_EQ(0xff, buf[offset]);
// There should be one top level option.
ASSERT_EQ(1, options.size());
// Get it.
OptionPtr option = options.begin()->second;
ASSERT_TRUE(option);
EXPECT_EQ(200, option->getType());
// There should be 3 suboptions.
ASSERT_EQ(3, option->getOptions().size());
// Get suboption 0.
boost::shared_ptr<OptionInt<uint8_t> > sub0 =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >
(option->getOption(0));
ASSERT_TRUE(sub0);
EXPECT_EQ(0, sub0->getType());
EXPECT_EQ(0, sub0->getValue());
// Get suboption 255.
boost::shared_ptr<OptionInt<uint8_t> > sub255 =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >
(option->getOption(255));
ASSERT_TRUE(sub255);
EXPECT_EQ(255, sub255->getType());
EXPECT_EQ(255, sub255->getValue());
// Get suboption 1.
boost::shared_ptr<OptionString> sub =
boost::dynamic_pointer_cast<OptionString>(option->getOption(1));
ASSERT_TRUE(sub);
EXPECT_EQ(1, sub->getType());
EXPECT_EQ("foo", sub->getValue());
}
// Verifies that option 0 (PAD) is handled as PAD in option 43 (so when
// flexible pad end flag is true) only when option 0 (PAD) is not defined.
TEST_F(LibDhcpTest, option43Pad) {
string space = "my-option43-space";
// Create option definition for option 1.
OptionDefinitionPtr opt_def1(new OptionDefinition("one", 1, space, "binary"));
// Create option definition for option 2.
OptionDefinitionPtr opt_def2(new OptionDefinition("two", 2, space, "uint8"));
// Register created option definitions as runtime option definitions.
OptionDefSpaceContainer defs;
ASSERT_NO_THROW(defs.addItem(opt_def1));
ASSERT_NO_THROW(defs.addItem(opt_def2));
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
// Create the buffer holding an option 43 content.
OptionBuffer buf = {
// Suboption 0,
0x00, 0x01, 0x00, // code = 0, length = 1, content = 0
// or option code = 0 (PAD) followed by
// code = 1, length = 0
// Suboption 2.
0x02, 0x01, 0x01, // code = 2, length = 1, content = 1
};
// Parse options.
OptionCollection options;
list<uint16_t> deferred;
ASSERT_NO_THROW(LibDHCP::unpackOptions4(buf, space, options, deferred, true));
// There should be 2 suboptions (1 and 2) because no sub-option 0
// was defined so code 0 means PAD.
ASSERT_EQ(2, options.size());
// Get suboption 1.
OptionPtr sub1 = options.begin()->second;
ASSERT_TRUE(sub1);
EXPECT_EQ(1, sub1->getType());
EXPECT_EQ(0, sub1->len() - sub1->getHeaderLen());
// Get suboption 2.
boost::shared_ptr<OptionInt<uint8_t> > sub2 =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >
(options.rbegin()->second);
ASSERT_TRUE(sub2);
EXPECT_EQ(2, sub2->getType());
EXPECT_EQ(1, sub2->getValue());
// Create option definition for option 0 and register it.
OptionDefinitionPtr opt_def0(new OptionDefinition("zero", 0, space, "uint8"));
ASSERT_NO_THROW(defs.addItem(opt_def0));
LibDHCP::clearRuntimeOptionDefs();
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
options.clear();
ASSERT_NO_THROW(LibDHCP::unpackOptions4(buf, space, options, deferred, true));
// There should be 2 suboptions (0 and 1).
EXPECT_EQ(2, options.size());
// Get suboption 0
boost::shared_ptr<OptionInt<uint8_t> > sub0 =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >
(options.begin()->second);
ASSERT_TRUE(sub0);
EXPECT_EQ(0, sub0->getType());
EXPECT_EQ(0, sub0->getValue());
// Get suboption 2.
sub2 =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >
(options.rbegin()->second);
ASSERT_TRUE(sub2);
EXPECT_EQ(2, sub2->getType());
EXPECT_EQ(1, sub2->getValue());
}
// Verifies that option 255 (END) is handled as END in option 43 (so when
//flexible pad end flag is true) only when option 255 (END) is not defined.
TEST_F(LibDhcpTest, option43End) {
string space = "my-option43-space";
// Create the buffer holding an option 43 content.
OptionBuffer buf = {
// Suboption 255,
0xff, 0x01, 0x02 // code = 255, length = 1, content = 2
};
// Parse options.
OptionCollection options;
list<uint16_t> deferred;
size_t offset = 0;
ASSERT_NO_THROW(offset = LibDHCP::unpackOptions4(buf, space,
options, deferred, true));
// Parsing should stop at the first byte.
EXPECT_EQ(0, offset);
// There should be 0 suboptions.
EXPECT_EQ(0, options.size());
// Create option definition for option 255.
OptionDefinitionPtr opt_def255(new OptionDefinition("max", 255, space, "uint8"));
// Register created option definition as runtime option definitions.
OptionDefSpaceContainer defs;
ASSERT_NO_THROW(defs.addItem(opt_def255));
LibDHCP::setRuntimeOptionDefs(defs);
LibDHCP::commitRuntimeOptionDefs();
options.clear();
ASSERT_NO_THROW(offset = LibDHCP::unpackOptions4(buf, space,
options, deferred, true));
// There should be 1 suboption.
ASSERT_EQ(1, options.size());
// Get suboption 255.
boost::shared_ptr<OptionInt<uint8_t> > sub255 =
boost::dynamic_pointer_cast<OptionInt<uint8_t> >
(options.begin()->second);
ASSERT_TRUE(sub255);
EXPECT_EQ(255, sub255->getType());
EXPECT_EQ(2, sub255->getValue());
}
// Verify the option 43 END bug is fixed (#950: option code 255 was not
// parse at END, now it is not parse at END only when an option code 255
// is defined in the corresponding option space).
TEST_F(LibDhcpTest, option43Factory) {
// Create the buffer holding the structure of option 43 content.
OptionBuffer buf = {
// Suboption 1.
0x01, 0x00, // option code = 1, option length = 0
// END
0xff
};
// Get last resort definition.
OptionDefinitionPtr def =
LibDHCP::getLastResortOptionDef(DHCP4_OPTION_SPACE, 43);
ASSERT_TRUE(def);
// Apply the definition.
OptionPtr option;
ASSERT_NO_THROW(option = def->optionFactory(Option::V4, 43, buf));
ASSERT_TRUE(option);
EXPECT_EQ(DHO_VENDOR_ENCAPSULATED_OPTIONS, option->getType());
EXPECT_EQ(def->getEncapsulatedSpace(), option->getEncapsulatedSpace());
// There should be 1 suboption.
EXPECT_EQ(1, option->getOptions().size());
// Get suboption 1.
OptionPtr sub1 = option->getOption(1);
ASSERT_TRUE(sub1);
EXPECT_EQ(1, sub1->getType());
EXPECT_EQ(0, sub1->len() - sub1->getHeaderLen());
// Of course no suboption 255.
EXPECT_FALSE(option->getOption(255));
}
// Verifies that an Host Name (option 12), will be dropped when empty,
// while subsequent options will still be unpacked.
TEST_F(LibDhcpTest, emptyHostName) {
uint8_t opts[] = {
12, 0, // Empty Hostname
60, 3, 10, 11, 12 // Class Id
};
vector<uint8_t> packed(opts, opts + sizeof(opts));
isc::dhcp::OptionCollection options; // list of options
list<uint16_t> deferred;
ASSERT_NO_THROW(
LibDHCP::unpackOptions4(packed, DHCP4_OPTION_SPACE, options, deferred, false);
);
// Host Name should not exist, we quietly drop it when empty.
isc::dhcp::OptionCollection::const_iterator x = options.find(12);
ASSERT_TRUE(x == options.end());
// Verify Option 60 exists correctly
x = options.find(60);
ASSERT_FALSE(x == options.end());
EXPECT_EQ(60, x->second->getType());
ASSERT_EQ(3, x->second->getData().size());
EXPECT_EQ(5, x->second->len());
EXPECT_EQ(0, memcmp(&x->second->getData()[0], opts + 4, 3));
};
TEST_F(LibDhcpTest, stdOptionDefs4) {
// Create a buffer that holds dummy option data.
// It will be used to create most of the options.
std::vector<uint8_t> 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<int32_t>));
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(Option4AddrLst));
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<uint16_t>));
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<uint16_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DEFAULT_IP_TTL, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_PATH_MTU_AGING_TIMEOUT, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_PATH_MTU_PLATEAU_TABLE, begin, begin + 10,
typeid(OptionIntArray<uint16_t>));
LibDhcpTest::testStdOptionDefs4(DHO_INTERFACE_MTU, begin, begin + 2,
typeid(OptionInt<uint16_t>));
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<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_IEEE802_3_ENCAPSULATION, begin, end,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_DEFAULT_TCP_TTL, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_TCP_KEEPALIVE_INTERVAL, begin,
begin + 4, typeid(OptionInt<uint32_t>));
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_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<uint8_t>));
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<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_OPTION_OVERLOAD, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_MESSAGE_TYPE, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_SERVER_IDENTIFIER, begin, end,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_PARAMETER_REQUEST_LIST, begin, end,
typeid(OptionUint8Array));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_MESSAGE, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_MAX_MESSAGE_SIZE, begin, begin + 2,
typeid(OptionInt<uint16_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_RENEWAL_TIME, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_REBINDING_TIME, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_VENDOR_CLASS_IDENTIFIER, begin, end,
typeid(OptionString));
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_NISP_DOMAIN_NAME, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_NISP_SERVER_ADDR, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_TFTP_SERVER_NAME, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_BOOT_FILE_NAME, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_HOME_AGENT_ADDRS, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_SMTP_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_POP3_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_NNTP_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_WWW_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_FINGER_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_IRC_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_STREETTALK_SERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_STDASERVER, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_USER_CLASS, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs4(DHO_DIRECTORY_AGENT, begin, begin + 5,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_DIRECTORY_AGENT, begin, begin + 9,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_DIRECTORY_AGENT, begin, begin + 45,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_SERVICE_SCOPE, begin, end,
typeid(Option4SlpServiceScope));
// Check also with empty scope list
LibDhcpTest::testStdOptionDefs4(DHO_SERVICE_SCOPE, begin, begin + 1,
typeid(Option4SlpServiceScope));
LibDhcpTest::testStdOptionDefs4(DHO_FQDN, begin, begin + 3,
typeid(Option4ClientFqdn));
// The following option requires well formed buffer to be created from.
// Not just a dummy one. This buffer includes some suboptions.
OptionBuffer agent_info_buf = createAgentInformationOption();
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_AGENT_OPTIONS,
agent_info_buf.begin(),
agent_info_buf.end(),
typeid(OptionCustom),
"dhcp-agent-options-space");
LibDhcpTest::testStdOptionDefs4(DHO_NDS_SERVERS, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_NDS_TREE_NAME, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_NDS_CONTEXT, begin, end,
typeid(OptionString));
// Prepare buffer holding an array of FQDNs.
const char fqdn_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<uint8_t> fqdn_buf(fqdn_data, fqdn_data + sizeof(fqdn_data));
LibDhcpTest::testStdOptionDefs4(DHO_BCMCS_DOMAIN_NAME_LIST,
fqdn_buf.begin(),
fqdn_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_BCMCS_IPV4_ADDR, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_AUTHENTICATE, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs4(DHO_CLIENT_LAST_TRANSACTION_TIME,
begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_ASSOCIATED_IP, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_AUTO_CONFIG, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_NAME_SERVICE_SEARCH, begin, begin + 4,
typeid(OptionIntArray<uint16_t>));
LibDhcpTest::testStdOptionDefs4(DHO_SUBNET_SELECTION, begin, end,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_SYSTEM, begin, end,
typeid(OptionIntArray<uint16_t>));
LibDhcpTest::testStdOptionDefs4(DHO_NDI, begin, begin + 3,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_UUID_GUID, begin, begin + 17,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_USER_AUTH, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_GEOCONF_CIVIC, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs4(DHO_PCODE, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_TCODE, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_V6_ONLY_PREFERRED, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_NETINFO_ADDR, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_NETINFO_TAG, begin, end,
typeid(OptionString));
/* Option 114 URL (RFC 3679) was retired and replaced with CAPTIVE_PORTAL (RFC8910)
which was previously 160, but was reassigned (compare RFC7710 and RFC8910) */
LibDhcpTest::testStdOptionDefs4(DHO_V4_CAPTIVE_PORTAL, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs4(DHO_DOMAIN_SEARCH, fqdn_buf.begin(),
fqdn_buf.end(), typeid(OptionCustom));
// V-I Vendor option requires specially crafted data.
const char vivco_data[] = {
1, 2, 3, 4, // enterprise id
3, 1, 2, 3 // first byte is opaque data length, the rest is opaque data
};
std::vector<uint8_t> vivco_buf(vivco_data, vivco_data + sizeof(vivco_data));
const char vivsio_data[] = {
1, 2, 3, 4, // enterprise id
4, // first byte is vendor block length
1, 2, 3, 4 // option type=1 length=2
};
std::vector<uint8_t> vivsio_buf(vivsio_data, vivsio_data + sizeof(vivsio_data));
LibDhcpTest::testStdOptionDefs4(DHO_VIVCO_SUBOPTIONS, vivco_buf.begin(),
vivco_buf.end(), typeid(OptionVendorClass));
LibDhcpTest::testStdOptionDefs4(DHO_VIVSO_SUBOPTIONS, vivsio_buf.begin(),
vivsio_buf.end(), typeid(OptionVendor));
LibDhcpTest::testStdOptionDefs4(DHO_PANA_AGENT, begin, end,
typeid(Option4AddrLst));
// Prepare buffer holding one FQDN.
const char fqdn1_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
};
// Initialize a vector with the FQDN data.
std::vector<uint8_t> fqdn1_buf(fqdn1_data,
fqdn1_data + sizeof(fqdn1_data));
LibDhcpTest::testStdOptionDefs4(DHO_V4_LOST, fqdn1_buf.begin(),
fqdn1_buf.end(), typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_CAPWAP_AC_V4, begin, end,
typeid(Option4AddrLst));
LibDhcpTest::testStdOptionDefs4(DHO_SIP_UA_CONF_SERVICE_DOMAINS,
fqdn_buf.begin(),
fqdn_buf.end(),
typeid(OptionCustom));
// V4_SZTP_REDIRECT is using an array of tuples so let's create example data
const char opaque_tuple_data[] = {
0, 3, 1, 2, 3 // first 2 bytes are opaque data length, the rest is opaque data
};
std::vector<uint8_t> opaque_tuple_buf(opaque_tuple_data,
opaque_tuple_data + sizeof(opaque_tuple_data));
LibDhcpTest::testStdOptionDefs4(DHO_V4_SZTP_REDIRECT,
opaque_tuple_buf.begin(),
opaque_tuple_buf.end(),
typeid(OptionOpaqueDataTuples));
std::vector<uint8_t> rdnss1_buf(begin, begin + 9);
rdnss1_buf.insert(rdnss1_buf.end(), fqdn1_buf.begin(), fqdn1_buf.end());
LibDhcpTest::testStdOptionDefs4(DHO_RDNSS_SELECT, rdnss1_buf.begin(),
rdnss1_buf.end(),
typeid(OptionCustom));
std::vector<uint8_t> rdnss_buf(begin, begin + 9);
rdnss_buf.insert(rdnss_buf.end(), fqdn_buf.begin(), fqdn_buf.end());
LibDhcpTest::testStdOptionDefs4(DHO_RDNSS_SELECT, rdnss_buf.begin(),
rdnss_buf.end(),
typeid(OptionCustom));
// Initialize test buffer for Vendor Class option.
const char status_code_data[] = {
0x02, 0x65, 0x72, 0x72, 0x6f, 0x72
};
std::vector<uint8_t> status_code_buf(status_code_data,
status_code_data + sizeof(status_code_data));
LibDhcpTest::testStdOptionDefs4(DHO_STATUS_CODE, status_code_buf.begin(),
status_code_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_BASE_TIME, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_START_TIME_OF_STATE, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_QUERY_START_TIME, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_QUERY_END_TIME, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DHCP_STATE, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_DATA_SOURCE, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs4(DHO_V4_PORTPARAMS, begin, begin + 4,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_6RD, begin, begin + 22,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_6RD, begin, begin + 46,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs4(DHO_V4_ACCESS_DOMAIN, fqdn1_buf.begin(),
fqdn1_buf.end(), typeid(OptionCustom));
}
// 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<uint8_t> buf(48, 1);
OptionBufferConstIter begin = buf.begin();
OptionBufferConstIter end = buf.end();
// Prepare buffer holding one FQDN.
const char data1[] = {
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
};
// Initialize a vector with the FQDN data1.
std::vector<uint8_t> fqdn1_buf(data1, data1 + sizeof(data1));
// 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<uint8_t> fqdn_buf(data, data + sizeof(data));
// Prepare buffer holding a vendor option
const char vopt_data[] = {
1, 2, 3, 4, // enterprise=0x1020304
0, 100, // type=100
0, 6, // length=6
102, 111, 111, 98, 97, 114 // data="foobar"
};
// Initialize a vector with the suboption data.
std::vector<uint8_t> vopt_buf(vopt_data, vopt_data + sizeof(vopt_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<uint8_t> client_fqdn_buf(1);
client_fqdn_buf.insert(client_fqdn_buf.end(), fqdn_buf.begin(),
fqdn_buf.end());
// Initialize test buffer for Vendor Class option.
const char vclass_data[] = {
0x00, 0x01, 0x02, 0x03,
0x00, 0x01, 0x02
};
std::vector<uint8_t> vclass_buf(vclass_data,
vclass_data + sizeof(vclass_data));
// Initialize test buffer for Bootfile Param option.
const char bparam_data[] = {
0x00, 0x01, 0x02
};
std::vector<uint8_t> bparam_buf(bparam_data,
bparam_data + sizeof(bparam_data));
// 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<uint32_t>));
LibDhcpTest::testStdOptionDefs6(D6O_IAADDR, begin, end,
typeid(Option6IAAddr));
LibDhcpTest::testStdOptionDefs6(D6O_ORO, begin, end,
typeid(OptionIntArray<uint16_t>));
LibDhcpTest::testStdOptionDefs6(D6O_PREFERENCE, begin, begin + 1,
typeid(OptionInt<uint8_t>));
LibDhcpTest::testStdOptionDefs6(D6O_ELAPSED_TIME, begin, begin + 2,
typeid(OptionInt<uint16_t>));
LibDhcpTest::testStdOptionDefs6(D6O_RELAY_MSG, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_AUTH, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_UNICAST, begin, begin + 16,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_STATUS_CODE, begin, end,
typeid(Option6StatusCode));
LibDhcpTest::testStdOptionDefs6(D6O_RAPID_COMMIT, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_USER_CLASS, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_VENDOR_CLASS, vclass_buf.begin(),
vclass_buf.end(),
typeid(OptionVendorClass));
LibDhcpTest::testStdOptionDefs6(D6O_VENDOR_OPTS, vopt_buf.begin(),
vopt_buf.end(),
typeid(OptionVendor));
LibDhcpTest::testStdOptionDefs6(D6O_INTERFACE_ID, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_RECONF_MSG, begin, begin + 1,
typeid(OptionInt<uint8_t>));
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, begin + 25,
typeid(Option6IAPrefix));
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<uint32_t>));
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<uint16_t>));
LibDhcpTest::testStdOptionDefs6(D6O_LQ_QUERY, begin, end,
typeid(OptionCustom), DHCP6_OPTION_SPACE);
LibDhcpTest::testStdOptionDefs6(D6O_CLIENT_DATA, begin, end,
typeid(OptionCustom), DHCP6_OPTION_SPACE);
LibDhcpTest::testStdOptionDefs6(D6O_CLT_TIME, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs6(D6O_LQ_RELAY_DATA, begin, end,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_LQ_CLIENT_LINK, begin, end,
typeid(Option6AddrLst));
LibDhcpTest::testStdOptionDefs6(D6O_V6_LOST,
fqdn1_buf.begin(), fqdn1_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_CAPWAP_AC_V6, begin, end,
typeid(Option6AddrLst));
LibDhcpTest::testStdOptionDefs6(D6O_RELAY_ID, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_V6_ACCESS_DOMAIN,
fqdn1_buf.begin(), fqdn1_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_SIP_UA_CS_LIST,
fqdn_buf.begin(), fqdn_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_BOOTFILE_URL, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs6(D6O_BOOTFILE_PARAM, bparam_buf.begin(),
bparam_buf.end(),
typeid(OptionOpaqueDataTuples));
LibDhcpTest::testStdOptionDefs6(D6O_CLIENT_ARCH_TYPE, begin, end,
typeid(OptionIntArray<uint16_t>));
LibDhcpTest::testStdOptionDefs6(D6O_NII, begin, begin + 3,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_AFTR_NAME, fqdn1_buf.begin(),
fqdn1_buf.end(), typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_ERP_LOCAL_DOMAIN_NAME,
fqdn_buf.begin(), fqdn_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_RSOO, begin, end,
typeid(OptionCustom),
"rsoo-opts");
LibDhcpTest::testStdOptionDefs6(D6O_PD_EXCLUDE, begin, end,
typeid(Option6PDExclude));
std::vector<uint8_t> rdnss1_buf(begin, begin + 17);
rdnss1_buf.insert(rdnss1_buf.end(), fqdn1_buf.begin(), fqdn1_buf.end());
LibDhcpTest::testStdOptionDefs6(D6O_RDNSS_SELECTION, rdnss1_buf.begin(),
rdnss1_buf.end(),
typeid(OptionCustom));
std::vector<uint8_t> rdnss_buf(begin, begin + 17);
rdnss_buf.insert(rdnss_buf.end(), fqdn_buf.begin(), fqdn_buf.end());
LibDhcpTest::testStdOptionDefs6(D6O_RDNSS_SELECTION, rdnss_buf.begin(),
rdnss_buf.end(),
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_CLIENT_LINKLAYER_ADDR, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_LINK_ADDRESS, begin, begin + 16,
typeid(OptionCustom));
LibDhcpTest::testStdOptionDefs6(D6O_SOL_MAX_RT, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs6(D6O_INF_MAX_RT, begin, begin + 4,
typeid(OptionInt<uint32_t>));
LibDhcpTest::testStdOptionDefs6(D6O_DHCPV4_MSG, begin, end,
typeid(Option));
LibDhcpTest::testStdOptionDefs6(D6O_DHCPV4_O_DHCPV6_SERVER, begin, end,
typeid(Option6AddrLst));
LibDhcpTest::testStdOptionDefs6(D6O_V6_CAPTIVE_PORTAL, begin, end,
typeid(OptionString));
LibDhcpTest::testStdOptionDefs6(D6O_RELAY_SOURCE_PORT, begin, begin + 2,
typeid(OptionInt<uint16_t>));
// V6_SZTP_REDIRECT is using an array of tuples so let's create example data
const char opaque_tuple_data[] = {
0, 3, 1, 2, 3 // first 2 bytes are opaque data length, the rest is opaque data
};
std::vector<uint8_t> opaque_tuple_buf(opaque_tuple_data,
opaque_tuple_data + sizeof(opaque_tuple_data));
LibDhcpTest::testStdOptionDefs6(D60_V6_SZTP_REDIRECT,
opaque_tuple_buf.begin(),
opaque_tuple_buf.end(),
typeid(OptionOpaqueDataTuples));
LibDhcpTest::testStdOptionDefs6(D6O_IPV6_ADDRESS_ANDSF, begin, end,
typeid(Option6AddrLst));
// RFC7598 options
LibDhcpTest::testOptionDefs6(MAPE_V6_OPTION_SPACE, D6O_S46_RULE, begin, end,
typeid(OptionCustom), V4V6_RULE_OPTION_SPACE);
LibDhcpTest::testOptionDefs6(MAPT_V6_OPTION_SPACE, D6O_S46_RULE, begin, end,
typeid(OptionCustom), V4V6_RULE_OPTION_SPACE);
LibDhcpTest::testOptionDefs6(MAPE_V6_OPTION_SPACE, D6O_S46_BR, begin, end,
typeid(OptionCustom));
LibDhcpTest::testOptionDefs6(LW_V6_OPTION_SPACE, D6O_S46_BR, begin, end,
typeid(OptionCustom));
LibDhcpTest::testOptionDefs6(MAPT_V6_OPTION_SPACE, D6O_S46_DMR, begin, end,
typeid(OptionCustom));
LibDhcpTest::testOptionDefs6(LW_V6_OPTION_SPACE, D6O_S46_V4V6BIND, begin,
end, typeid(OptionCustom),
V4V6_BIND_OPTION_SPACE);
LibDhcpTest::testOptionDefs6(V4V6_RULE_OPTION_SPACE, D6O_S46_PORTPARAMS,
begin, end, typeid(OptionCustom), "");
LibDhcpTest::testStdOptionDefs6(D6O_S46_CONT_MAPE, begin, end,
typeid(OptionCustom),
MAPE_V6_OPTION_SPACE);
LibDhcpTest::testStdOptionDefs6(D6O_S46_CONT_MAPT, begin, end,
typeid(OptionCustom),
MAPT_V6_OPTION_SPACE);
LibDhcpTest::testStdOptionDefs6(D6O_S46_CONT_LW, begin, end,
typeid(OptionCustom),
LW_V6_OPTION_SPACE);
}
// This test checks if the DHCPv6 option definition can be searched by
// an option name.
TEST_F(LibDhcpTest, getOptionDefByName6) {
// Get all definitions.
const OptionDefContainerPtr defs = LibDHCP::getOptionDefs(DHCP6_OPTION_SPACE);
// For each definition try to find it using option name.
for (auto const& def : *defs) {
OptionDefinitionPtr def_by_name =
LibDHCP::getOptionDef(DHCP6_OPTION_SPACE, def->getName());
ASSERT_TRUE(def_by_name);
ASSERT_TRUE(*def == *def_by_name);
}
}
// This test checks if the DHCPv4 option definition can be searched by
// an option name.
TEST_F(LibDhcpTest, getOptionDefByName4) {
// Get all definitions.
const OptionDefContainerPtr defs = LibDHCP::getOptionDefs(DHCP4_OPTION_SPACE);
// For each definition try to find it using option name.
for (auto const& def : *defs) {
OptionDefinitionPtr def_by_name =
LibDHCP::getOptionDef(DHCP4_OPTION_SPACE, def->getName());
ASSERT_TRUE(def_by_name);
ASSERT_TRUE(*def == *def_by_name);
}
}
// This test checks if the definition of the DHCPv6 vendor option can
// be searched by option name.
TEST_F(LibDhcpTest, getVendorOptionDefByName6) {
const OptionDefContainerPtr& defs =
LibDHCP::getVendorOptionDefs(Option::V6, VENDOR_ID_CABLE_LABS);
ASSERT_TRUE(defs);
for (auto const& def : *defs) {
OptionDefinitionPtr def_by_name =
LibDHCP::getVendorOptionDef(Option::V6, VENDOR_ID_CABLE_LABS,
def->getName());
ASSERT_TRUE(def_by_name);
ASSERT_TRUE(*def == *def_by_name);
}
}
// This test checks if the definition of the DHCPv4 vendor option can
// be searched by option name.
TEST_F(LibDhcpTest, getVendorOptionDefByName4) {
const OptionDefContainerPtr& defs =
LibDHCP::getVendorOptionDefs(Option::V4, VENDOR_ID_CABLE_LABS);
ASSERT_TRUE(defs);
for (auto const& def : *defs) {
OptionDefinitionPtr def_by_name =
LibDHCP::getVendorOptionDef(Option::V4, VENDOR_ID_CABLE_LABS,
def->getName());
ASSERT_TRUE(def_by_name);
ASSERT_TRUE(*def == *def_by_name);
}
}
// This test checks handling of uncompressed FQDN list.
TEST_F(LibDhcpTest, fqdnList) {
const OptionDefinition& def = LibDHCP::DHO_DOMAIN_SEARCH_DEF();
// Prepare buffer holding an array of FQDNs.
const uint8_t fqdn[] = {
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,
3, 99, 111, 109, // "com"
0
};
/* This size is used later so protect ourselves against changes */
static_assert(sizeof(fqdn) == 40,
"incorrect uncompressed domain list size");
// Initialize a vector with the FQDN data.
std::vector<uint8_t> fqdn_buf(fqdn, fqdn + sizeof(fqdn));
OptionPtr option;
ASSERT_NO_THROW(option = def.optionFactory(Option::V4,
DHO_DOMAIN_SEARCH,
fqdn_buf.begin(),
fqdn_buf.end()));
ASSERT_TRUE(option);
OptionCustomPtr names = boost::dynamic_pointer_cast<OptionCustom>(option);
ASSERT_TRUE(names);
EXPECT_EQ(sizeof(fqdn), names->len() - names->getHeaderLen());
ASSERT_EQ(3, names->getDataFieldsNum());
EXPECT_EQ("mydomain.example.com.", names->readFqdn(0));
EXPECT_EQ("example.com.", names->readFqdn(1));
EXPECT_EQ("com.", names->readFqdn(2));
LibDhcpTest::testStdOptionDefs4(DHO_DOMAIN_SEARCH, fqdn_buf.begin(),
fqdn_buf.end(), typeid(OptionCustom));
}
// This test checks handling of compressed FQDN list.
// See RFC3397, section 2 (and 4.1.4 of RFC1035 for the actual
// compression algorithm).
TEST_F(LibDhcpTest, fqdnListCompressed) {
const OptionDefinition& def = LibDHCP::DHO_DOMAIN_SEARCH_DEF();
const uint8_t compressed[] = {
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,
192, 9, // pointer to example.com
192, 17 // pointer to com
};
std::vector<uint8_t> compressed_buf(compressed,
compressed + sizeof(compressed));
OptionPtr option;
ASSERT_NO_THROW(option = def.optionFactory(Option::V4,
DHO_DOMAIN_SEARCH,
compressed_buf.begin(),
compressed_buf.end()));
ASSERT_TRUE(option);
OptionCustomPtr names = boost::dynamic_pointer_cast<OptionCustom>(option);
ASSERT_TRUE(names);
/* Use the uncompress length here (cf fqdnList) */
EXPECT_EQ(40, names->len() - names->getHeaderLen());
ASSERT_EQ(3, names->getDataFieldsNum());
EXPECT_EQ("mydomain.example.com.", names->readFqdn(0));
EXPECT_EQ("example.com.", names->readFqdn(1));
EXPECT_EQ("com.", names->readFqdn(2));
}
// Check that incorrect FQDN list compression is rejected.
// See RFC3397, section 2 (and 4.1.4 of RFC1035 for the actual
// compression algorithm).
TEST_F(LibDhcpTest, fqdnListBad) {
const OptionDefinition& def = LibDHCP::DHO_DOMAIN_SEARCH_DEF();
const uint8_t bad[] = {
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,
192, 80, // too big/forward pointer
192, 11 // pointer to com
};
std::vector<uint8_t> bad_buf(bad, bad + sizeof(bad));
OptionPtr option;
EXPECT_THROW(option = def.optionFactory(Option::V4,
DHO_DOMAIN_SEARCH,
bad_buf.begin(),
bad_buf.end()),
InvalidOptionValue);
}
// Check that empty (truncated) option is rejected.
TEST_F(LibDhcpTest, fqdnListTrunc) {
const OptionDefinition& def = LibDHCP::DHO_DOMAIN_SEARCH_DEF();
std::vector<uint8_t> empty;
OptionPtr option;
EXPECT_THROW(option = def.optionFactory(Option::V4,
DHO_DOMAIN_SEARCH,
empty.begin(),
empty.end()),
InvalidOptionValue);
}
// tests whether v6 vendor-class option can be parsed properly.
TEST_F(LibDhcpTest, vendorClass6) {
isc::dhcp::OptionCollection options; // Will store parsed option here
// Exported from wireshark: vendor-class option with enterprise-id = 4491
// and a single data entry containing "eRouter1.0"
string vendor_class_hex = "001000100000118b000a65526f75746572312e30";
OptionBuffer bin;
// Decode the hex string and store it in bin (which happens
// to be OptionBuffer format)
isc::util::encode::decodeHex(vendor_class_hex, bin);
ASSERT_NO_THROW ({
LibDHCP::unpackOptions6(bin, DHCP6_OPTION_SPACE, options);
});
EXPECT_EQ(options.size(), 1); // There should be 1 option.
// Option vendor-class should be there
ASSERT_FALSE(options.find(D6O_VENDOR_CLASS) == options.end());
// It should be of type OptionVendorClass
boost::shared_ptr<OptionVendorClass> vclass =
boost::dynamic_pointer_cast<OptionVendorClass>(options.begin()->second);
ASSERT_TRUE(vclass);
// Let's investigate if the option content is correct
// 3 fields expected: vendor-id, data-len and data
EXPECT_EQ(VENDOR_ID_CABLE_LABS, vclass->getVendorId());
EXPECT_EQ(20, vclass->len());
ASSERT_EQ(1, vclass->getTuplesNum());
EXPECT_EQ("eRouter1.0", vclass->getTuple(0).getText());
}
// This test verifies that it is possible to add runtime option definitions,
// retrieve them and remove them.
TEST_F(LibDhcpTest, setRuntimeOptionDefs) {
// Create option definitions in 5 namespaces.
OptionDefSpaceContainer defs;
createRuntimeOptionDefs(5, 100, defs);
// Apply option definitions.
ASSERT_NO_THROW(LibDHCP::setRuntimeOptionDefs(defs));
// Retrieve all inserted option definitions.
testRuntimeOptionDefs(5, 100, true);
// Attempting to retrieve non existing definitions.
EXPECT_FALSE(LibDHCP::getRuntimeOptionDef("option-space-non-existent", 1));
EXPECT_FALSE(LibDHCP::getRuntimeOptionDef("option-space-0", 145));
// Remove all runtime option definitions.
ASSERT_NO_THROW(LibDHCP::clearRuntimeOptionDefs());
// All option definitions should be gone now.
testRuntimeOptionDefs(5, 100, false);
}
// This test verifies the processing of option 43
TEST_F(LibDhcpTest, option43) {
// Check shouldDeferOptionUnpack()
EXPECT_TRUE(LibDHCP::shouldDeferOptionUnpack(DHCP4_OPTION_SPACE, 43));
EXPECT_FALSE(LibDHCP::shouldDeferOptionUnpack(DHCP4_OPTION_SPACE, 44));
EXPECT_FALSE(LibDHCP::shouldDeferOptionUnpack(DHCP6_OPTION_SPACE, 43));
// Check last resort
OptionDefinitionPtr def;
def = LibDHCP::getLastResortOptionDef(DHCP6_OPTION_SPACE, 43);
EXPECT_FALSE(def);
def = LibDHCP::getLastResortOptionDef(DHCP4_OPTION_SPACE, 44);
EXPECT_FALSE(def);
def = LibDHCP::getLastResortOptionDef(DHCP4_OPTION_SPACE, 43);
ASSERT_TRUE(def);
EXPECT_FALSE(def->getArrayType());
EXPECT_EQ(43, def->getCode());
EXPECT_EQ(VENDOR_ENCAPSULATED_OPTION_SPACE, def->getEncapsulatedSpace());
EXPECT_EQ("vendor-encapsulated-options", def->getName());
EXPECT_EQ(0, def->getRecordFields().size());
EXPECT_EQ(OptionDataType::OPT_EMPTY_TYPE, def->getType());
OptionDefinitionPtr def_by_name =
LibDHCP::getLastResortOptionDef(DHCP4_OPTION_SPACE,
"vendor-encapsulated-options");
EXPECT_TRUE(def_by_name);
EXPECT_EQ(def, def_by_name);
}
// RFC7598 defines several options for configuration of lw4over6 devices.
// These options are have complex structure, so dedicated tests are needed
// to test them reliably.
TEST_F(LibDhcpTest, sw46options) {
// This constant defines the following structure:
// MAP-E container
// - BR address option
// - S46 rule option
// - portparameters
// - S46 rule option
std::vector<uint8_t> mape_bin = {
0, 94, 0, 64, // MAP-E container with 3 suboptions
0, 90, 0, 16, // BR address
0x20, 0x01, 0xd, 0xb8, 0, 0, 0, 0, // 2001:db8::abcd
0, 0, 0, 0, 0, 0, 0xab, 0xcd,
0, 89, 0, 16+8, // S46 rule
128, // flags = 128 (F flag set)
4, // ea-len
30, // prefix4-len
192, 0, 2, 192, // ipv4-prefix = 192.168.0.192
64, // prefix6-len = /64
0x20, 0x01, 0xd, 0xb8, 0, 1, 2, 3, // ipv6-prefix = 2001:db8::1:203::/64
0, 93, 0, 4, // S46_PORTPARAMS option
8, 6, 0xfc, 0x00, // offset is 8, psid-len 6, psid is fc00
0, 89, 0, 12, // S46 rule
0, // flags = 0 (F flag clear)
6, // ea-len
32, // prefix4-len
192, 0, 2, 1, // ipv4-prefix = 192.168.0.1
32, // prefix6-len = /32
0x20, 0x01, 0xd, 0xb8 // ipv6-prefix = 2001:db8::/32
};
// List of parsed options will be stored here.
isc::dhcp::OptionCollection options;
OptionBuffer buf(mape_bin);
size_t parsed = 0;
EXPECT_NO_THROW (parsed = LibDHCP::unpackOptions6(buf, DHCP6_OPTION_SPACE, options));
EXPECT_EQ(mape_bin.size(), parsed);
// We expect to have exactly one option (with tons of suboptions, but we'll
// get to that in a minute)
EXPECT_EQ(1, options.size());
auto opt = options.find(D6O_S46_CONT_MAPE);
ASSERT_FALSE(opt == options.end());
// Ok, let's iterate over the options. Start with the top one.
using boost::shared_ptr;
shared_ptr<OptionCustom> mape = dynamic_pointer_cast<OptionCustom>(opt->second);
ASSERT_TRUE(mape);
EXPECT_EQ(D6O_S46_CONT_MAPE, mape->getType());
EXPECT_EQ(68, mape->len());
EXPECT_EQ(64, mape->getData().size());
// Let's check if there's a border router option.
ASSERT_TRUE(mape->getOption(D6O_S46_BR));
// Make sure the option is of proper type, not just plain Option
shared_ptr<OptionCustom> br =
dynamic_pointer_cast<OptionCustom>(mape->getOption(D6O_S46_BR));
ASSERT_TRUE(br);
EXPECT_EQ("type=00090, len=00016: 2001:db8::abcd (ipv6-address)", br->toText());
// Now let's check the suboptions. There should be 3 (BR, 2x rule)
const OptionCollection& subopts = mape->getOptions();
ASSERT_EQ(3, subopts.size());
EXPECT_EQ(1, subopts.count(D6O_S46_BR));
EXPECT_EQ(2, subopts.count(D6O_S46_RULE));
// Let's check the rules. There should be two of them.
auto range = subopts.equal_range(D6O_S46_RULE);
ASSERT_EQ(2, std::distance(range.first, range.second));
OptionPtr opt1 = range.first->second;
OptionPtr opt2 = (++range.first)->second;
shared_ptr<OptionCustom> rule1 = dynamic_pointer_cast<OptionCustom>(opt1);
shared_ptr<OptionCustom> rule2 = dynamic_pointer_cast<OptionCustom>(opt2);
ASSERT_TRUE(rule1);
ASSERT_TRUE(rule2);
EXPECT_EQ("type=00089, len=00024: 128 (uint8) 4 (uint8) 30 (uint8) "
"192.0.2.192 (ipv4-address) (ipv6-prefix),\noptions:\n"
" type=00093, len=00004: 8 (uint8) len=6,psid=63 (psid)", rule1->toText());
EXPECT_EQ("type=00089, len=00012: 0 (uint8) 6 (uint8) 32 (uint8) "
"192.0.2.1 (ipv4-address) (ipv6-prefix)", rule2->toText());
// Finally, check that the subsuboption in the first rule is ok
OptionPtr subsubopt = opt1->getOption(D6O_S46_PORTPARAMS);
shared_ptr<OptionCustom> portparam = dynamic_pointer_cast<OptionCustom>(subsubopt);
ASSERT_TRUE(portparam);
EXPECT_EQ("type=00093, len=00004: 8 (uint8) len=6,psid=63 (psid)", portparam->toText());
}
} // namespace
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