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// Copyright (C) 2011-2023 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.

#include <config.h>

#include <dhcp/dhcp4.h>
#include <dhcp/dhcp6.h>
#include <dhcp/libdhcp++.h>
#include <dhcp/option.h>
#include <dhcp/option_vendor.h>
#include <dhcp/option6_ia.h>
#include <dhcp/option6_iaaddr.h>
#include <dhcp/option_definition.h>
#include <dhcp/option_int_array.h>
#include <dhcp/option_vendor_class.h>
#include <dhcp/std_option_defs.h>
#include <dhcp/docsis3_option_defs.h>
#include <exceptions/exceptions.h>
#include <exceptions/isc_assert.h>
#include <util/buffer.h>

#include <boost/lexical_cast.hpp>
#include <boost/shared_array.hpp>
#include <boost/shared_ptr.hpp>

#include <limits>
#include <list>

using namespace std;
using namespace isc::dhcp;
using namespace isc::util;

namespace isc {
namespace dhcp {

namespace {

/// @brief the option definitions and the respective space mapping
///
/// used for easier initialization of option definitions by space name
const OptionDefParamsEncapsulation OPTION_DEF_PARAMS[] = {
    { STANDARD_V4_OPTION_DEFINITIONS,       STANDARD_V4_OPTION_DEFINITIONS_SIZE,     DHCP4_OPTION_SPACE          },
    { STANDARD_V6_OPTION_DEFINITIONS,       STANDARD_V6_OPTION_DEFINITIONS_SIZE,     DHCP6_OPTION_SPACE          },
    { DOCSIS3_V4_OPTION_DEFINITIONS,        DOCSIS3_V4_OPTION_DEFINITIONS_SIZE,      DOCSIS3_V4_OPTION_SPACE     },
    { DOCSIS3_V6_OPTION_DEFINITIONS,        DOCSIS3_V6_OPTION_DEFINITIONS_SIZE,      DOCSIS3_V6_OPTION_SPACE     },
    { ISC_V6_OPTION_DEFINITIONS,            ISC_V6_OPTION_DEFINITIONS_SIZE,          ISC_V6_OPTION_SPACE         },
    { MAPE_V6_OPTION_DEFINITIONS,           MAPE_V6_OPTION_DEFINITIONS_SIZE,         MAPE_V6_OPTION_SPACE        },
    { MAPT_V6_OPTION_DEFINITIONS,           MAPT_V6_OPTION_DEFINITIONS_SIZE,         MAPT_V6_OPTION_SPACE        },
    { LW_V6_OPTION_DEFINITIONS,             LW_V6_OPTION_DEFINITIONS_SIZE,           LW_V6_OPTION_SPACE          },
    { V4V6_RULE_OPTION_DEFINITIONS,         V4V6_RULE_OPTION_DEFINITIONS_SIZE,       V4V6_RULE_OPTION_SPACE      },
    { V4V6_BIND_OPTION_DEFINITIONS,         V4V6_BIND_OPTION_DEFINITIONS_SIZE,       V4V6_BIND_OPTION_SPACE      },
    { DHCP_AGENT_OPTION_DEFINITIONS,        DHCP_AGENT_OPTION_DEFINITIONS_SIZE,      DHCP_AGENT_OPTION_SPACE     },
    { LAST_RESORT_V4_OPTION_DEFINITIONS,    LAST_RESORT_V4_OPTION_DEFINITIONS_SIZE,  LAST_RESORT_V4_OPTION_SPACE },
    { NULL,                                 0,                                       ""                          }
};

}  // namespace

}  // namespace dhcp
}  // namespace isc

// static array with factories for options
map<unsigned short, Option::Factory*> LibDHCP::v4factories_;

// static array with factories for options
map<unsigned short, Option::Factory*> LibDHCP::v6factories_;

// Static container with option definitions grouped by option space.
OptionDefContainers LibDHCP::option_defs_;

// Static container with option definitions created in runtime.
StagedValue<OptionDefSpaceContainer> LibDHCP::runtime_option_defs_;

// Null container.
const OptionDefContainerPtr null_option_def_container_(new OptionDefContainer());

// Those two vendor classes are used for cable modems:

/// DOCSIS3.0 compatible cable modem
const char* isc::dhcp::DOCSIS3_CLASS_MODEM = "docsis3.0";

/// DOCSIS3.0 cable modem that has router built-in
const char* isc::dhcp::DOCSIS3_CLASS_EROUTER = "eRouter1.0";

// Let's keep it in .cc file. Moving it to .h would require including optionDefParams
// definitions there
void initOptionSpace(OptionDefContainerPtr& defs,
                     const OptionDefParams* params,
                     size_t params_size);

bool LibDHCP::initialized_ = LibDHCP::initOptionDefs();

const OptionDefContainerPtr
LibDHCP::getOptionDefs(const string& space) {
    auto const& container = option_defs_.find(space);
    if (container != option_defs_.end()) {
        return (container->second);
    }

    return (null_option_def_container_);
}

const OptionDefContainerPtr
LibDHCP::getVendorOptionDefs(const Option::Universe u, const uint32_t vendor_id) {
    if (Option::V4 == u) {
        if (VENDOR_ID_CABLE_LABS == vendor_id) {
            return getOptionDefs(DOCSIS3_V4_OPTION_SPACE);
        }
    } else if (Option::V6 == u) {
        if (VENDOR_ID_CABLE_LABS == vendor_id) {
            return getOptionDefs(DOCSIS3_V6_OPTION_SPACE);
        } else if (ENTERPRISE_ID_ISC == vendor_id) {
            return getOptionDefs(ISC_V6_OPTION_SPACE);
        }
    }

    return (null_option_def_container_);
}

OptionDefinitionPtr
LibDHCP::getOptionDef(const string& space, const uint16_t code) {
    const OptionDefContainerPtr& defs = getOptionDefs(space);
    const OptionDefContainerTypeIndex& idx = defs->get<1>();
    const OptionDefContainerTypeRange& range = idx.equal_range(code);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefinitionPtr
LibDHCP::getOptionDef(const string& space, const string& name) {
    const OptionDefContainerPtr& defs = getOptionDefs(space);
    const OptionDefContainerNameIndex& idx = defs->get<2>();
    const OptionDefContainerNameRange& range = idx.equal_range(name);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefinitionPtr
LibDHCP::getVendorOptionDef(const Option::Universe u, const uint32_t vendor_id,
                            const string& name) {
    const OptionDefContainerPtr& defs = getVendorOptionDefs(u, vendor_id);

    if (!defs) {
        return (OptionDefinitionPtr());
    }

    const OptionDefContainerNameIndex& idx = defs->get<2>();
    const OptionDefContainerNameRange& range = idx.equal_range(name);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefinitionPtr
LibDHCP::getVendorOptionDef(const Option::Universe u, const uint32_t vendor_id,
                            const uint16_t code) {
    const OptionDefContainerPtr& defs = getVendorOptionDefs(u, vendor_id);

    if (!defs) {
        // Weird universe or unknown vendor_id. We don't care. No definitions
        // one way or another
        // What is it anyway?
        return (OptionDefinitionPtr());
    }

    const OptionDefContainerTypeIndex& idx = defs->get<1>();
    const OptionDefContainerTypeRange& range = idx.equal_range(code);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefinitionPtr
LibDHCP::getRuntimeOptionDef(const string& space, const uint16_t code) {
    OptionDefContainerPtr container = runtime_option_defs_.getValue().getItems(space);
    const OptionDefContainerTypeIndex& index = container->get<1>();
    const OptionDefContainerTypeRange& range = index.equal_range(code);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefinitionPtr
LibDHCP::getRuntimeOptionDef(const string& space, const string& name) {
    OptionDefContainerPtr container = runtime_option_defs_.getValue().getItems(space);
    const OptionDefContainerNameIndex& index = container->get<2>();
    const OptionDefContainerNameRange& range = index.equal_range(name);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefContainerPtr
LibDHCP::getRuntimeOptionDefs(const string& space) {
    return (runtime_option_defs_.getValue().getItems(space));
}

void
LibDHCP::setRuntimeOptionDefs(const OptionDefSpaceContainer& defs) {
    OptionDefSpaceContainer defs_copy;
    list<string> option_space_names = defs.getOptionSpaceNames();
    for (auto const& name : option_space_names) {
        OptionDefContainerPtr container = defs.getItems(name);
        for (auto const& def : *container) {
            OptionDefinitionPtr def_copy(new OptionDefinition(*def));
            defs_copy.addItem(def_copy);
        }
    }
    runtime_option_defs_ = defs_copy;
}

void
LibDHCP::clearRuntimeOptionDefs() {
    runtime_option_defs_.reset();
}

void
LibDHCP::revertRuntimeOptionDefs() {
    runtime_option_defs_.revert();
}

void
LibDHCP::commitRuntimeOptionDefs() {
    runtime_option_defs_.commit();
}

OptionDefinitionPtr
LibDHCP::getLastResortOptionDef(const string& space, const uint16_t code) {
    OptionDefContainerPtr container = getLastResortOptionDefs(space);
    const OptionDefContainerTypeIndex& index = container->get<1>();
    const OptionDefContainerTypeRange& range = index.equal_range(code);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefinitionPtr
LibDHCP::getLastResortOptionDef(const string& space, const string& name) {
    OptionDefContainerPtr container = getLastResortOptionDefs(space);
    const OptionDefContainerNameIndex& index = container->get<2>();
    const OptionDefContainerNameRange& range = index.equal_range(name);
    if (range.first != range.second) {
        return (*range.first);
    }

    return (OptionDefinitionPtr());
}

OptionDefContainerPtr
LibDHCP::getLastResortOptionDefs(const string& space) {
    if (space == DHCP4_OPTION_SPACE) {
        return getOptionDefs(LAST_RESORT_V4_OPTION_SPACE);
    }

    return (null_option_def_container_);
}

bool
LibDHCP::shouldDeferOptionUnpack(const string& space, const uint16_t code) {
    return ((space == DHCP4_OPTION_SPACE) &&
            ((code == DHO_VENDOR_ENCAPSULATED_OPTIONS) ||
             ((code >= 224) && (code <= 254))));
}

OptionPtr
LibDHCP::optionFactory(Option::Universe u,
                       uint16_t type,
                       const OptionBuffer& buf) {
    FactoryMap::iterator it;
    if (u == Option::V4) {
        it = v4factories_.find(type);
        if (it == v4factories_.end()) {
            isc_throw(BadValue, "factory function not registered "
            "for DHCP v4 option type " << type);
        }
    } else if (u == Option::V6) {
        it = v6factories_.find(type);
        if (it == v6factories_.end()) {
            isc_throw(BadValue, "factory function not registered "
                      "for DHCPv6 option type " << type);
        }
    } else {
        isc_throw(BadValue, "invalid universe specified (expected "
                  "Option::V4 or Option::V6");
    }
    return (it->second(u, type, buf));
}

size_t
LibDHCP::unpackOptions6(const OptionBuffer& buf, const string& option_space,
                        OptionCollection& options,
                        size_t* relay_msg_offset /* = 0 */,
                        size_t* relay_msg_len /* = 0 */) {
    size_t offset = 0;
    size_t length = buf.size();
    size_t last_offset = 0;

    // Get the list of standard option definitions.
    const OptionDefContainerPtr& option_defs = LibDHCP::getOptionDefs(option_space);
    // Runtime option definitions for non standard option space and if
    // the definition doesn't exist within the standard option definitions.
    const OptionDefContainerPtr& runtime_option_defs = LibDHCP::getRuntimeOptionDefs(option_space);

    // @todo Once we implement other option spaces we should add else clause
    // here and gather option definitions for them. For now leaving option_defs
    // empty will imply creation of generic Option.

    // Get the search indexes #1. It allows to search for option definitions
    // using option code.
    const OptionDefContainerTypeIndex& idx = option_defs->get<1>();
    const OptionDefContainerTypeIndex& runtime_idx = runtime_option_defs->get<1>();

    // The buffer being read comprises a set of options, each starting with
    // a two-byte type code and a two-byte length field.
    while (offset < length) {
        // Save the current offset for backtracking
        last_offset = offset;

        // Check if there is room for another option
        if (offset + 4 > length) {
            // Still something but smaller than an option
            return (last_offset);
        }

        // Parse the option header
        uint16_t opt_type = readUint16(&buf[offset], 2);
        offset += 2;

        uint16_t opt_len = readUint16(&buf[offset], 2);
        offset += 2;

        if (offset + opt_len > length) {
            // We peeked at the option header of the next option, but
            // discovered that it would end up beyond buffer end, so
            // the option is truncated. Hence we can't parse
            // it. Therefore we revert back by those bytes (as if
            // we never parsed them).
            //
            // @note it is the responsibility of the caller to throw
            // an exception on partial parsing
            return (last_offset);
        }

        if (opt_type == D6O_RELAY_MSG && relay_msg_offset && relay_msg_len) {
            // remember offset of the beginning of the relay-msg option
            *relay_msg_offset = offset;
            *relay_msg_len = opt_len;

            // do not create that relay-msg option
            offset += opt_len;
            continue;
        }

        if (opt_type == D6O_VENDOR_OPTS) {
            if (offset + 4 > length) {
                // Truncated vendor-option. We expect at least
                // 4 bytes for the enterprise-id field. Let's roll back
                // option code + option length (4 bytes) and return.
                return (last_offset);
            }

            // Parse this as vendor option
            OptionPtr vendor_opt(new OptionVendor(Option::V6, buf.begin() + offset,
                                                  buf.begin() + offset + opt_len));
            options.insert(std::make_pair(opt_type, vendor_opt));

            offset += opt_len;
            continue;
        }

        // Get all definitions with the particular option code. Note
        // that option code is non-unique within this container
        // however at this point we expect to get one option
        // definition with the particular code. If more are returned
        // we report an error.
        OptionDefContainerTypeRange range;
        // Number of option definitions returned.
        size_t num_defs = 0;

        // We previously did the lookup only for dhcp6 option space, but with the
        // addition of S46 options, we now do it for every space.
        range = idx.equal_range(opt_type);
        num_defs = std::distance(range.first, range.second);

        // Standard option definitions do not include the definition for
        // our option or we're searching for non-standard option. Try to
        // find the definition among runtime option definitions.
        if (num_defs == 0) {
            range = runtime_idx.equal_range(opt_type);
            num_defs = std::distance(range.first, range.second);
        }

        OptionPtr opt;
        if (num_defs > 1) {
            // Multiple options of the same code are not supported right now!
            isc_throw(isc::Unexpected, "Internal error: multiple option"
                      " definitions for option type " << opt_type <<
                      " returned. Currently it is not supported to initialize"
                      " multiple option definitions for the same option code."
                      " This will be supported once support for option spaces"
                      " is implemented");
        } else if (num_defs == 0) {
            // @todo Don't crash if definition does not exist because
            // only a few option definitions are initialized right
            // now. In the future we will initialize definitions for
            // all options and we will remove this elseif. For now,
            // return generic option.
            opt = OptionPtr(new Option(Option::V6, opt_type,
                                       buf.begin() + offset,
                                       buf.begin() + offset + opt_len));
        } else {
            try {
                // The option definition has been found. Use it to create
                // the option instance from the provided buffer chunk.
                const OptionDefinitionPtr& def = *(range.first);
                isc_throw_assert(def);
                opt = def->optionFactory(Option::V6, opt_type,
                                         buf.begin() + offset,
                                         buf.begin() + offset + opt_len);
            } catch (const SkipThisOptionError&) {
                opt.reset();
            }
        }

        // add option to options
        if (opt) {
            options.insert(std::make_pair(opt_type, opt));
        }

        offset += opt_len;
    }

    last_offset = offset;
    return (last_offset);
}

size_t
LibDHCP::unpackOptions4(const OptionBuffer& buf, const string& option_space,
                        OptionCollection& options, list<uint16_t>& deferred,
                        bool check) {
    size_t offset = 0;
    size_t last_offset = 0;

    // Special case when option_space is dhcp4.
    bool space_is_dhcp4 = (option_space == DHCP4_OPTION_SPACE);

    // Get the list of standard option definitions.
    const OptionDefContainerPtr& option_defs = LibDHCP::getOptionDefs(option_space);
    // Runtime option definitions for non standard option space and if
    // the definition doesn't exist within the standard option definitions.
    const OptionDefContainerPtr& runtime_option_defs = LibDHCP::getRuntimeOptionDefs(option_space);

    // Get the search indexes #1. It allows to search for option definitions
    // using option code.
    const OptionDefContainerTypeIndex& idx = option_defs->get<1>();
    const OptionDefContainerTypeIndex& runtime_idx = runtime_option_defs->get<1>();

    // Flexible PAD and END parsing.
    bool flex_pad = (check && (runtime_idx.count(DHO_PAD) == 0));
    bool flex_end = (check && (runtime_idx.count(DHO_END) == 0));

    // The buffer being read comprises a set of options, each starting with
    // a one-byte type code and a one-byte length field.
    while (offset < buf.size()) {
        // Save the current offset for backtracking
        last_offset = offset;

        // Get the option type
        uint8_t opt_type = buf[offset++];

        // DHO_END is a special, one octet long option
        // Valid in dhcp4 space or when check is true and
        // there is a sub-option configured for this code.
        if ((opt_type == DHO_END) && (space_is_dhcp4 || flex_end)) {
            // just return. Don't need to add DHO_END option
            // Don't return offset because it makes this condition
            // and partial parsing impossible to recognize.
            return (last_offset);
        }

        // DHO_PAD is just a padding after DHO_END. Let's continue parsing
        // in case we receive a message without DHO_END.
        // Valid in dhcp4 space or when check is true and
        // there is a sub-option configured for this code.
        if ((opt_type == DHO_PAD) && (space_is_dhcp4 || flex_pad)) {
            continue;
        }

        if (offset + 1 > buf.size()) {
            // We peeked at the option header of the next option, but
            // discovered that it would end up beyond buffer end, so
            // the option is truncated. Hence we can't parse
            // it. Therefore we revert back (as if we never parsed it).
            //
            // @note it is the responsibility of the caller to throw
            // an exception on partial parsing
            return (last_offset);
        }

        uint8_t opt_len = buf[offset++];
        if (offset + opt_len > buf.size()) {
            // We peeked at the option header of the next option, but
            // discovered that it would end up beyond buffer end, so
            // the option is truncated. Hence we can't parse
            // it. Therefore we revert back (as if we never parsed it).
            return (last_offset);
        }

        // While an empty Host Name option is non-RFC compliant, some clients
        // do send it.  In the spirit of being liberal, we'll just drop it,
        // rather than the dropping the whole packet.  We do not have a
        // way to log this from here but meh...  a PCAP will show it arriving,
        // and we know we drop it.
        if (space_is_dhcp4 && opt_len == 0 && opt_type == DHO_HOST_NAME) {
            continue;
        }

        // Get all definitions with the particular option code. Note
        // that option code is non-unique within this container
        // however at this point we expect to get one option
        // definition with the particular code. If more are returned
        // we report an error.
        OptionDefContainerTypeRange range;
        // Number of option definitions returned.
        size_t num_defs = 0;

        // Previously we did the lookup only for "dhcp4" option space, but there
        // may be standard options in other spaces (e.g. radius). So we now do
        // the lookup for every space.
        range = idx.equal_range(opt_type);
        num_defs = std::distance(range.first, range.second);

        // Standard option definitions do not include the definition for
        // our option or we're searching for non-standard option. Try to
        // find the definition among runtime option definitions.
        if (num_defs == 0) {
            range = runtime_idx.equal_range(opt_type);
            num_defs = std::distance(range.first, range.second);
        }

        // Check if option unpacking must be deferred
        if (shouldDeferOptionUnpack(option_space, opt_type)) {
            num_defs = 0;
            // Store deferred option only once.
            bool found = false;
            for (auto const& existing : deferred) {
                if (existing == opt_type) {
                    found = true;
                    break;
                }
            }
            if (!found) {
                deferred.push_back(opt_type);
            }
        }

        if (space_is_dhcp4 &&
            (opt_type == DHO_VIVSO_SUBOPTIONS ||
             opt_type == DHO_VIVCO_SUBOPTIONS)) {
            num_defs = 0;
        }

        OptionPtr opt;
        if (num_defs > 1) {
            // Multiple options of the same code are not supported right now!
            isc_throw(isc::Unexpected, "Internal error: multiple option"
                      " definitions for option type " <<
                      static_cast<int>(opt_type) <<
                      " returned. Currently it is not supported to initialize"
                      " multiple option definitions for the same option code."
                      " This will be supported once support for option spaces"
                      " is implemented");
        } else if (num_defs == 0) {
            opt = OptionPtr(new Option(Option::V4, opt_type,
                                       buf.begin() + offset,
                                       buf.begin() + offset + opt_len));
            opt->setEncapsulatedSpace(DHCP4_OPTION_SPACE);
        } else {
            try {
                // The option definition has been found. Use it to create
                // the option instance from the provided buffer chunk.
                const OptionDefinitionPtr& def = *(range.first);
                isc_throw_assert(def);
                opt = def->optionFactory(Option::V4, opt_type,
                                         buf.begin() + offset,
                                         buf.begin() + offset + opt_len);
            } catch (const SkipThisOptionError&) {
                opt.reset();
            }
        }

        // If we have the option, insert it
        if (opt) {
            options.insert(std::make_pair(opt_type, opt));
        }

        offset += opt_len;
    }
    last_offset = offset;
    return (last_offset);
}

bool
LibDHCP::fuseOptions4(OptionCollection& options) {
    bool result = false;
    // We need to loop until all options have been fused.
    for (;;) {
        uint32_t found = 0;
        bool found_suboptions = false;
        // Iterate over all options in the container.
        for (auto const& option : options) {
            OptionPtr candidate = option.second;
            OptionCollection& sub_options = candidate->getMutableOptions();
            // Fuse suboptions recursively, if any.
            if (sub_options.size()) {
                // Fusing suboptions might result in new options with multiple
                // options having the same code, so we need to iterate again
                // until no option needs fusing.
                found_suboptions = LibDHCP::fuseOptions4(sub_options);
                if (found_suboptions) {
                    result = true;
                }
            }
            OptionBuffer data;
            OptionCollection suboptions;
            // Make a copy of the options so we can safely iterate over the
            // old container.
            OptionCollection copy = options;
            for (auto const& old_option : copy) {
                if (old_option.first == option.first) {
                    // Copy the option data to the buffer.
                    data.insert(data.end(), old_option.second->getData().begin(),
                                old_option.second->getData().end());
                    suboptions.insert(old_option.second->getOptions().begin(),
                                      old_option.second->getOptions().end());
                    // Other options might need fusing, so we need to iterate
                    // again until no options needs fusing.
                    found++;
                }
            }
            if (found > 1) {
                result = true;
                // Erase the old options from the new container so that only the
                // new option is present.
                copy.erase(option.first);
                // Create new option with entire data.
                OptionPtr new_option(new Option(candidate->getUniverse(),
                                                candidate->getType(), data));
                // Recreate suboptions container.
                new_option->getMutableOptions() = suboptions;
                // Add the new option to the new container.
                copy.insert(make_pair(candidate->getType(), new_option));
                // After all options have been fused and new option added,
                // update the option container with the new container.
                options = copy;
                break;
            } else {
                found = 0;
            }
        }
        // No option needs fusing, so we can exit the loop.
        if ((found <= 1) && !found_suboptions) {
            break;
        }
    }
    return (result);
}

namespace { // Anonymous namespace.

// VIVCO part of extendVendorOptions4.

void
extendVivco(OptionCollection& options) {
    typedef vector<OpaqueDataTuple> TuplesCollection;
    map<uint32_t, TuplesCollection> vendors_tuples;
    const auto& range = options.equal_range(DHO_VIVCO_SUBOPTIONS);
    for (auto it = range.first; it != range.second; ++it) {
        uint32_t offset = 0;
        auto const& data = it->second->getData();
        size_t size;
        while ((size = data.size() - offset) != 0) {
            if (size < sizeof(uint32_t)) {
                options.erase(DHO_VIVCO_SUBOPTIONS);
                isc_throw(SkipRemainingOptionsError,
                          "Truncated vendor-class information option"
                          << ", length=" << size);
            }
            uint32_t vendor_id = readUint32(&data[offset], data.size());
            offset += 4;
            try {
                // From OptionVendorClass::unpack.
                OpaqueDataTuple tuple(OpaqueDataTuple::LENGTH_1_BYTE,
                                      data.begin() + offset, data.end());
                vendors_tuples[vendor_id].push_back(tuple);
                offset += tuple.getTotalLength();
            } catch (const OpaqueDataTupleError&) {
                // Ignore this kind of error and continue.
                break;
            } catch (const isc::Exception&) {
                options.erase(DHO_VIVCO_SUBOPTIONS);
                throw;
            }
        }
    }
    if (vendors_tuples.empty()) {
        return;
    }
    // Delete the initial option.
    options.erase(DHO_VIVCO_SUBOPTIONS);
    // Create a new instance of OptionVendor for each enterprise ID.
    for (auto const& vendor : vendors_tuples) {
        if (vendor.second.empty()) {
            continue;
        }
        OptionVendorClassPtr vendor_opt(new OptionVendorClass(Option::V4,
                                                              vendor.first));
        for (size_t i = 0; i < vendor.second.size(); ++i) {
            if (i == 0) {
                vendor_opt->setTuple(0, vendor.second[0]);
            } else {
                vendor_opt->addTuple(vendor.second[i]);
            }
        }
        // Add the new instance of VendorOption with respective sub-options for
        // this enterprise ID.
        options.insert(std::make_pair(DHO_VIVCO_SUBOPTIONS, vendor_opt));
    }
}

// VIVSO part of extendVendorOptions4.

void
extendVivso(OptionCollection& options) {
    map<uint32_t, OptionCollection> vendors_data;
    const auto& range = options.equal_range(DHO_VIVSO_SUBOPTIONS);
    for (auto it = range.first; it != range.second; ++it) {
        uint32_t offset = 0;
        auto const& data = it->second->getData();
        size_t size;
        while ((size = data.size() - offset) != 0) {
            if (size < sizeof(uint32_t)) {
                options.erase(DHO_VIVSO_SUBOPTIONS);
                isc_throw(SkipRemainingOptionsError,
                          "Truncated vendor-specific information option"
                          << ", length=" << size);
            }
            uint32_t vendor_id = readUint32(&data[offset], data.size());
            offset += 4;
            const OptionBuffer vendor_buffer(data.begin() + offset, data.end());
            try {
                offset += LibDHCP::unpackVendorOptions4(vendor_id, vendor_buffer,
                                                        vendors_data[vendor_id]);
            } catch (const SkipThisOptionError&) {
                // Ignore this kind of error and continue.
                break;
            } catch (const isc::Exception&) {
                options.erase(DHO_VIVSO_SUBOPTIONS);
                throw;
            }
        }
    }
    if (vendors_data.empty()) {
        return;
    }
    // Delete the initial option.
    options.erase(DHO_VIVSO_SUBOPTIONS);
    // Create a new instance of OptionVendor for each enterprise ID.
    for (auto const& vendor : vendors_data) {
        OptionVendorPtr vendor_opt(new OptionVendor(Option::V4, vendor.first));
        for (auto const& option : vendor.second) {
            vendor_opt->addOption(option.second);
        }
        // Add the new instance of VendorOption with respective sub-options for
        // this enterprise ID.
        options.insert(std::make_pair(DHO_VIVSO_SUBOPTIONS, vendor_opt));
    }
}

} // end of anonymous namespace.

void
LibDHCP::extendVendorOptions4(OptionCollection& options) {
    extendVivco(options);
    extendVivso(options);
}

size_t
LibDHCP::unpackVendorOptions6(const uint32_t vendor_id, const OptionBuffer& buf,
                              OptionCollection& options) {
    size_t offset = 0;
    size_t length = buf.size();

    // Get the list of option definitions for this particular vendor-id
    const OptionDefContainerPtr& option_defs =
        LibDHCP::getVendorOptionDefs(Option::V6, vendor_id);

    // Get the search index #1. It allows to search for option definitions
    // using option code. If there's no such vendor-id space, we're out of luck
    // anyway.
    const OptionDefContainerTypeIndex* idx = NULL;
    if (option_defs) {
        idx = &(option_defs->get<1>());
    }

    // The buffer being read comprises a set of options, each starting with
    // a two-byte type code and a two-byte length field.
    while (offset < length) {
        if (offset + 4 > length) {
            isc_throw(SkipRemainingOptionsError,
                      "Vendor option parse failed: truncated header");
        }

        uint16_t opt_type = readUint16(&buf[offset], 2);
        offset += 2;

        uint16_t opt_len = readUint16(&buf[offset], 2);
        offset += 2;

        if (offset + opt_len > length) {
            isc_throw(SkipRemainingOptionsError,
                      "Vendor option parse failed. Tried to parse "
                      << offset + opt_len << " bytes from " << length
                      << "-byte long buffer.");
        }

        OptionPtr opt;
        opt.reset();

        // If there is a definition for such a vendor option...
        if (idx) {
            // Get all definitions with the particular option
            // code. Note that option code is non-unique within this
            // container however at this point we expect to get one
            // option definition with the particular code. If more are
            // returned we report an error.
            const OptionDefContainerTypeRange& range =
                idx->equal_range(opt_type);
            // Get the number of returned option definitions for the
            // option code.
            size_t num_defs = std::distance(range.first, range.second);

            if (num_defs > 1) {
                // Multiple options of the same code are not supported
                // right now!
                isc_throw(isc::Unexpected, "Internal error: multiple option"
                          " definitions for option type " << opt_type <<
                          " returned. Currently it is not supported to"
                          " initialize multiple option definitions for the"
                          " same option code. This will be supported once"
                          " support for option spaces is implemented");
            } else if (num_defs == 1) {
                // The option definition has been found. Use it to create
                // the option instance from the provided buffer chunk.
                const OptionDefinitionPtr& def = *(range.first);
                isc_throw_assert(def);
                opt = def->optionFactory(Option::V6, opt_type,
                                         buf.begin() + offset,
                                         buf.begin() + offset + opt_len);
            }
        }

        // This can happen in one of 2 cases:
        // 1. we do not have definitions for that vendor-space
        // 2. we do have definitions, but that particular option was
        //    not defined

        if (!opt) {
            opt = OptionPtr(new Option(Option::V6, opt_type,
                                       buf.begin() + offset,
                                       buf.begin() + offset + opt_len));
        }

        // add option to options
        if (opt) {
            options.insert(std::make_pair(opt_type, opt));
        }
        offset += opt_len;
    }

    return (offset);
}

size_t
LibDHCP::unpackVendorOptions4(const uint32_t vendor_id, const OptionBuffer& buf,
                              OptionCollection& options) {
    size_t offset = 0;

    // Get the list of standard option definitions.
    const OptionDefContainerPtr& option_defs =
        LibDHCP::getVendorOptionDefs(Option::V4, vendor_id);
    // Get the search index #1. It allows to search for option definitions
    // using option code.
    const OptionDefContainerTypeIndex* idx = NULL;
    if (option_defs) {
        idx = &(option_defs->get<1>());
    }

    // The buffer being read comprises a set of options, each starting with
    // a one-byte type code and a one-byte length field.
    while (offset < buf.size()) {
        // Note that Vendor-Specific info option (RFC3925) has a
        // different option format than Vendor-Spec info for
        // DHCPv6. (there's additional layer of data-length)
        uint8_t data_len = buf[offset++];

        if (offset + data_len > buf.size()) {
            // The option is truncated.
            isc_throw(SkipRemainingOptionsError,
                      "Attempt to parse truncated vendor option");
        }

        uint8_t offset_end = offset + data_len;

        // beginning of data-chunk parser
        while (offset < offset_end) {
            uint8_t opt_type = buf[offset++];

            // No DHO_END or DHO_PAD in vendor options

            if (offset + 1 > offset_end) {
                // opt_type must be cast to integer so as it is not
                // treated as unsigned char value (a number is
                // presented in error message).
                isc_throw(SkipRemainingOptionsError,
                          "Attempt to parse truncated vendor option "
                          << static_cast<int>(opt_type));
            }

            uint8_t opt_len = buf[offset++];
            if (offset + opt_len > offset_end) {
                isc_throw(SkipRemainingOptionsError,
                          "Option parse failed. Tried to parse "
                          << offset + opt_len << " bytes from " << buf.size()
                          << "-byte long buffer.");
            }

            OptionPtr opt;
            opt.reset();

            if (idx) {
                // Get all definitions with the particular option
                // code. Note that option code is non-unique within
                // this container however at this point we expect to
                // get one option definition with the particular
                // code. If more are returned we report an error.
                const OptionDefContainerTypeRange& range =
                    idx->equal_range(opt_type);
                // Get the number of returned option definitions for
                // the option code.
                size_t num_defs = std::distance(range.first, range.second);

                if (num_defs > 1) {
                    // Multiple options of the same code are not
                    // supported right now!
                    isc_throw(isc::Unexpected, "Internal error: multiple"
                              " option definitions for option type "
                              << opt_type << " returned. Currently it is"
                              " not supported to initialize multiple option"
                              " definitions for the same option code."
                              " This will be supported once support for"
                              " option spaces is implemented");
                } else if (num_defs == 1) {
                    // The option definition has been found. Use it to create
                    // the option instance from the provided buffer chunk.
                    const OptionDefinitionPtr& def = *(range.first);
                    isc_throw_assert(def);
                    opt = def->optionFactory(Option::V4, opt_type,
                                             buf.begin() + offset,
                                             buf.begin() + offset + opt_len);
                }
            }

            if (!opt) {
                opt = OptionPtr(new Option(Option::V4, opt_type,
                                           buf.begin() + offset,
                                           buf.begin() + offset + opt_len));
            }

            options.insert(std::make_pair(opt_type, opt));
            offset += opt_len;

        } // end of data-chunk

        break; // end of the vendor block.
    }
    return (offset);
}

void
LibDHCP::packOptions4(OutputBuffer& buf, const OptionCollection& options,
                      bool top, bool check) {
    OptionCollection agent;
    OptionPtr end;

    // We only look for type when we're the top level
    // call that starts packing for options for a packet.
    // This way we avoid doing type logic in all ensuing
    // recursive calls.
    if (top) {
        auto x = options.find(DHO_DHCP_MESSAGE_TYPE);
        if (x != options.end()) {
            x->second->pack(buf, check);
        }
    }

    for (auto const& option : options) {
        // TYPE is already done, RAI and END options must be last.
        switch (option.first) {
            case DHO_DHCP_MESSAGE_TYPE:
                break;
            case DHO_DHCP_AGENT_OPTIONS:
                agent.insert(make_pair(DHO_DHCP_AGENT_OPTIONS, option.second));
                break;
            case DHO_END:
                end = option.second;
                break;
            default:
                option.second->pack(buf, check);
                break;
        }
    }

    // Add the RAI option if it exists.
    for (auto const& option : agent) {
        option.second->pack(buf, check);
    }

    // And at the end the END option.
    if (end) {
        end->pack(buf, check);
    }
}

bool
LibDHCP::splitOptions4(OptionCollection& options,
                       ScopedOptionsCopyContainer& scoped_options,
                       uint32_t used) {
    bool result = false;
    // We need to loop until all options have been split.
    uint32_t tries = 0;
    for (;; tries++) {
        // Let's not do this forever if there is a bug hiding here somewhere...
        // 65535 times should be enough for any packet load...
        if (tries == std::numeric_limits<uint16_t>::max()) {
            isc_throw(Unexpected, "packet split failed after trying "
                     << tries << " times.");
        }
        bool found = false;
        // Make a copy of the options so we can safely iterate over the
        // old container.
        OptionCollection copy = options;
        // Iterate over all options in the container.
        for (auto const& option : options) {
            OptionPtr candidate = option.second;
            OptionCollection& sub_options = candidate->getMutableOptions();
            // Split suboptions recursively, if any.
            OptionCollection distinct_options;
            bool updated = false;
            bool found_suboptions = false;
            // There are 3 cases when the total size is larger than (255 - used):
            // 1. option has no suboptions and has large data
            // 2. option has large suboptions and has no data
            // 3. option has both options and suboptions:
            // 3.1. suboptions are large and data is large
            // 3.2. suboptions are large and data is small
            // 3.3. suboptions are small and data is large
            // 3.4. suboptions are small and data is small but combined they are large
            // All other combinations reside in total size smaller than (255 - used):
            // 4. no split of any suboption or data:
            // 4.1 option has no suboptions and has small data
            // 4.2 option has small suboptions and has no data
            // 4.3 option has both small suboptions and small data
            // 4.4 option has no suboptions and has no data
            if (sub_options.size()) {
                // The 2. and 3. and 4.2 and 4.3 cases are handled here (the suboptions part).
                ScopedOptionsCopyPtr candidate_scoped_options(new ScopedSubOptionsCopy(candidate));
                found_suboptions = LibDHCP::splitOptions4(sub_options, scoped_options,
                                                          used + candidate->getHeaderLen());
                // There are 3 cases here:
                // 2. option has large suboptions and has no data
                // 3. option has both options and suboptions:
                // 3.1. suboptions are large and data is large so there is suboption splitting
                // and found_suboptions is true
                // 3.2. suboptions are large and data is small so there is suboption splitting
                // and found_suboptions is true
                // 3.3. suboptions are small and data is large so there is no suboption splitting
                // and found_suboptions is false
                // 3.4. suboptions are small and data is small so there is no suboption splitting
                // and found_suboptions is false but combined they are large
                // 4. no split of any suboption or data
                // Also split if the overflow is caused by adding the suboptions
                // to the option data.
                if (found_suboptions || candidate->len() > (255 - used)) {
                    // The 2. and 3. cases are handled here (the suboptions part).
                    updated = true;
                    scoped_options.push_back(candidate_scoped_options);
                    // Erase the old options from the new container so that only
                    // the new options are present.
                    copy.erase(option.first);
                    result = true;
                    // If there are suboptions which have been split, one parent
                    // option will be created for each of the chunk of the
                    // suboptions. If the suboptions have not been split,
                    // but they cause overflow when added to the option data,
                    // one parent option will contain the option data and one
                    // parent option will be created for each suboption.
                    // This will guarantee that none of the options plus
                    // suboptions will have more than 255 bytes.
                    for (auto sub_option : candidate->getMutableOptions()) {
                        OptionPtr data_sub_option(new Option(candidate->getUniverse(),
                                                             candidate->getType(),
                                                             OptionBuffer(0)));
                        data_sub_option->addOption(sub_option.second);
                        distinct_options.insert(make_pair(candidate->getType(), data_sub_option));
                    }
                }
            }
            // The 1. and 3. and 4. cases are handled here (the data part).
            // Create a new option containing only data that needs to be split
            // and no suboptions (which are inserted in completely separate
            // options which are added at the end).
            OptionPtr data_option(new Option(candidate->getUniverse(),
                                             candidate->getType(),
                                             OptionBuffer(candidate->getData().begin(),
                                                          candidate->getData().end())));
            OutputBuffer buf(0);
            data_option->pack(buf, false);
            uint32_t header_len = candidate->getHeaderLen();
            // At least 1 + header length bytes must be available.
            if (used >= 255 - header_len) {
                isc_throw(BadValue, "there is no space left to split option "
                         << candidate->getType() << " after parent already used "
                         << used);
            }
            // Maximum option buffer size is 255 - header size - buffer size
            // already used by parent options.
            uint8_t len = 255 - header_len - used;
            // Current option size after split is the sum of the data and the
            // header size. The suboptions are serialized in separate options.
            // The header is duplicated in all new options, but the rest of the
            // data must be split and serialized.
            uint32_t size = buf.getLength() - header_len;
            // Only split if data does not fit in the current option.
            // There are 3 cases here:
            // 1. option has no suboptions and has large data
            // 3. option has both options and suboptions:
            // 3.1. suboptions are large and data is large
            // 3.2. suboptions are large and data is small
            // 3.3. suboptions are small and data is large
            // 3.4. suboptions are small and data is small but combined they are large
            // 4. no split of any suboption or data
            if (size > len) {
                // The 1. and 3.1. and 3.3 cases are handled here (the data part).
                // Erase the old option from the new container so that only new
                // options are present.
                if (!updated) {
                    updated = true;
                    // Erase the old options from the new container so that only
                    // the new options are present.
                    copy.erase(option.first);
                    result = true;
                }
                uint32_t offset = 0;
                // Drain the option buffer in multiple new options until all
                // data is serialized.
                for (; offset != size;) {
                    // Adjust the data length of the new option if remaining
                    // data is less than the 255 - header size (for the last
                    // option).
                    if (size - offset < len) {
                        len = size - offset;
                    }
                    // Create new option with data starting from offset and
                    // containing truncated length.
                    const uint8_t* data = static_cast<const uint8_t*>(buf.getData());
                    data += header_len;
                    OptionPtr new_option(new Option(candidate->getUniverse(),
                                                    candidate->getType(),
                                                    OptionBuffer(data + offset,
                                                                 data + offset + len)));
                    // Adjust the offset for remaining data to be written to the
                    // next new option.
                    offset += len;
                    // Add the new option to the new container.
                    copy.insert(make_pair(candidate->getType(), new_option));
                }
            } else if ((candidate->len() > (255 - used)) && size) {
                // The 3.2 and 3.4 cases are handled here (the data part).
                // Also split if the overflow is caused by adding the suboptions
                // to the option data (which should be of non zero size).
                // Add the new option to the new container.
                copy.insert(make_pair(candidate->getType(), data_option));
            }
            if (updated) {
                // Add the new options containing the split suboptions, if any,
                // to the new container.
                copy.insert(distinct_options.begin(), distinct_options.end());
                // After all new options have been split and added, update the
                // option container with the new container.
                options = copy;
                // Other options might need splitting, so we need to iterate
                // again until no option needs splitting.
                found = true;
                break;
            }
        }
        // No option needs splitting, so we can exit the loop.
        if (!found) {
            break;
        }
    }
    return (result);
}

void
LibDHCP::packOptions6(OutputBuffer& buf, const OptionCollection& options) {
    for (auto const& option : options) {
        option.second->pack(buf);
    }
}

void
LibDHCP::OptionFactoryRegister(Option::Universe u, uint16_t opt_type,
                               Option::Factory* factory) {
    switch (u) {
    case Option::V6:
    {
        if (v6factories_.find(opt_type) != v6factories_.end()) {
            isc_throw(BadValue, "There is already DHCPv6 factory registered "
                     << "for option type " << opt_type);
        }
        v6factories_[opt_type] = factory;
        return;
    }
    case Option::V4:
    {
        // Option 0 is special (a one octet-long, equal 0) PAD option. It is never
        // instantiated as an Option object, but rather consumed during packet parsing.
        if (opt_type == 0) {
            isc_throw(BadValue, "Cannot redefine PAD option (code=0)");
        }
        // Option 255 is never instantiated as an option object. It is special
        // (a one-octet equal 255) option that is added at the end of all options
        // during packet assembly. It is also silently consumed during packet parsing.
        if (opt_type > 254) {
            isc_throw(BadValue, "Too big option type for DHCPv4, only 0-254 allowed.");
        }
        if (v4factories_.find(opt_type) != v4factories_.end()) {
            isc_throw(BadValue, "There is already DHCPv4 factory registered "
                     << "for option type " << opt_type);
        }
        v4factories_[opt_type] = factory;
        return;
    }
    default:
        isc_throw(BadValue, "Invalid universe type specified.");
    }

    return;
}

bool
LibDHCP::initOptionDefs() {
    for (uint32_t i = 0; OPTION_DEF_PARAMS[i].optionDefParams; ++i) {
        string space = OPTION_DEF_PARAMS[i].space;
        option_defs_[space] = OptionDefContainerPtr(new OptionDefContainer);
        initOptionSpace(option_defs_[space],
                        OPTION_DEF_PARAMS[i].optionDefParams,
                        OPTION_DEF_PARAMS[i].size);
    }

    return (true);
}

uint32_t
LibDHCP::optionSpaceToVendorId(const string& option_space) {
    // 8 is a minimal length of "vendor-X" format
    if ((option_space.size() < 8) || (option_space.substr(0,7) != "vendor-")) {
        return (0);
    }

    int64_t check;
    try {
        // text after "vendor-", supposedly numbers only
        string x = option_space.substr(7);

        check = boost::lexical_cast<int64_t>(x);
    } catch (const boost::bad_lexical_cast &) {
        return (0);
    }

    if ((check < 0) || (check > std::numeric_limits<uint32_t>::max())) {
        return (0);
    }

    // value is small enough to fit
    return (static_cast<uint32_t>(check));
}

void
initOptionSpace(OptionDefContainerPtr& defs, const OptionDefParams* params,
                size_t params_size) {
    // Container holding vendor options is typically not initialized, as it
    // is held in map of null pointers. We need to initialize here in this
    // case.
    if (!defs) {
        defs.reset(new OptionDefContainer());
    } else {
        defs->clear();
    }

    for (size_t i = 0; i < params_size; ++i) {
        string encapsulates(params[i].encapsulates);
        if (!encapsulates.empty() && params[i].array) {
            isc_throw(isc::BadValue, "invalid standard option definition: "
                      << "option with code '" << params[i].code
                      << "' may not encapsulate option space '"
                      << encapsulates << "' because the definition"
                      << " indicates that this option comprises an array"
                      << " of values");
        }

        // Depending whether an option encapsulates an option space or not
        // we pick different constructor to create an instance of the option
        // definition.
        OptionDefinitionPtr definition;
        if (encapsulates.empty()) {
            // Option does not encapsulate any option space.
            definition.reset(new OptionDefinition(params[i].name,
                                                  params[i].code,
                                                  params[i].space,
                                                  params[i].type,
                                                  params[i].array));
        } else {
            // Option does encapsulate an option space.
            definition.reset(new OptionDefinition(params[i].name,
                                                  params[i].code,
                                                  params[i].space,
                                                  params[i].type,
                                                  params[i].encapsulates));

        }

        for (size_t rec = 0; rec < params[i].records_size; ++rec) {
            definition->addRecordField(params[i].records[rec]);
        }

        try {
            definition->validate();
        } catch (const isc::Exception&) {
            // This is unlikely event that validation fails and may
            // be only caused by programming error. To guarantee the
            // data consistency we clear all option definitions that
            // have been added so far and pass the exception forward.
            defs->clear();
            throw;
        }

        // option_defs is a multi-index container with no unique indexes
        // so push_back can't fail).
        static_cast<void>(defs->push_back(definition));
    }
}