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|
// Copyright (C) 2017-2023 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/.
#ifndef NETWORK_H
#define NETWORK_H
#include <cc/cfg_to_element.h>
#include <cc/data.h>
#include <cc/element_value.h>
#include <cc/stamped_element.h>
#include <cc/user_context.h>
#include <dhcp/classify.h>
#include <dhcp/option.h>
#include <dhcpsrv/cfg_globals.h>
#include <dhcpsrv/cfg_option.h>
#include <dhcpsrv/cfg_4o6.h>
#include <dhcpsrv/d2_client_cfg.h>
#include <util/triplet.h>
#include <util/optional.h>
#include <boost/multi_index/hashed_index.hpp>
#include <boost/multi_index/identity.hpp>
#include <boost/multi_index/indexed_by.hpp>
#include <boost/multi_index/sequenced_index.hpp>
#include <boost/multi_index_container.hpp>
#include <boost/shared_ptr.hpp>
#include <boost/weak_ptr.hpp>
#include <cstdint>
#include <functional>
#include <string>
/// @brief Template to ignore unused arguments.
namespace {
template <typename... Args>
inline void unused(Args const& ...) {}
} // end of anonymous namespace
namespace isc {
namespace dhcp {
/// @brief Tag for the list of IO addresses as a list.
struct IOAddressListListTag { };
/// @brief Tag for the list of IO addresses as a set.
struct IOAddressListSetTag { };
/// @brief List of IO addresses
typedef boost::multi_index_container<
// Multi index container holds IO addresses.
asiolink::IOAddress,
// Indexes.
boost::multi_index::indexed_by<
// First and default index allows for in order iteration.
boost::multi_index::sequenced<
boost::multi_index::tag<IOAddressListListTag>
>,
// Second index allows for checking existence.
boost::multi_index::hashed_unique<
boost::multi_index::tag<IOAddressListSetTag>,
boost::multi_index::identity<asiolink::IOAddress>
>
>
> IOAddressList;
// @brief Forward declaration of the Network class.
class Network;
/// @brief Pointer to the @ref Network object.
typedef boost::shared_ptr<Network> NetworkPtr;
/// @brief Weak pointer to the @ref Network object.
typedef boost::weak_ptr<Network> WeakNetworkPtr;
/// @brief Callback function for @c Network that retrieves globally
/// configured parameters.
typedef std::function<ConstCfgGlobalsPtr()> FetchNetworkGlobalsFn;
/// @brief Common interface representing a network to which the DHCP clients
/// are connected.
///
/// The most common type of network, in Kea's terminology, is a subnet. The
/// @ref Subnet derives from this class. Another types of objects implementing
/// this interface are @ref SharedNetwork4 and @ref SharedNetwork6 objects.
/// They group multiple subnets together to provide means for
/// extending available address pools (a single client may obtain IP
/// address from any of the pools belonging to subnets in the shared
/// network), or for selecting a subnet on a given link, depending on the
/// class of the client (e.g. cable network case: different subnet is
/// selected for cable modems, different one for routers).
///
/// The subnets and shared networks share many data structures, e.g. DHCP
/// options, local interface name, address manipulation methods. Both subnets
/// and shared networks derive from this class to provide the common
/// functionality.
///
/// The DHCP server configuration is complex because many parameters may
/// be specified at different levels of hierarchy. The lower level values,
/// e.g. subnet specific values, take precedence over upper level values,
/// e.g. shared network specific ones. For historical reasons, the DHCP
/// servers expect that the appropriate values are inherited from the
/// upper configuration levels to the lower configuration levels upon
/// the reconfiguration. For example: if a user didn't specify
/// valid-lifetime for a subnet, calling @c Subnet4::getValid() should
/// result in returning a global value of valid-lifetime. In the early
/// Kea days it was achieved by the configuration parsers which would
/// explicitly assign the global valid lifetime to the @c Subnet4
/// instances for which the subnet specific value was not provided. This
/// approach has a major benefit that it is fast. However, it makes
/// the subnets tightly dependent on the global values (and shared
/// network specific values). Modification of the global value must
/// result in modification of this value in all subnets for which
/// there is no explicit value provided. This issue became a serious
/// road block during the implementation of the Configuration Backend.
///
/// The @c Network object has been modified to address the problem of
/// inheritance of global, shared network specific and subnet specific
/// parameters in a generic way, at the same time minimizing the need to
/// change the existing server logic.
///
/// The @c Network object now holds the pointer to the "parent" @c Network
/// object. Thus subnets which belong to a shared network will have
/// that shared network as its parent. Stand-alone subnets, will have
/// no parent.
///
/// The general idea is that the accessor functions of the network
/// will first check if the accessed value is specified or not (that
/// is handled by @c util::Optional object). If the value is specified
/// it is returned. Otherwise, the object will check if there is a
/// parent object it belongs to and will call the appropriate method
/// of that object. If the value is present it is returned. Otherwise
/// the global value is returned.
///
/// Accessing global values from the @c Network object is troublesome.
/// There is no uniform way to access those values. For example, the
/// given network may be in a staging or current configuration and
/// it really has no means to know in which of the two it belongs.
/// In fact, an attempt to pass the pointer to the @c SrvConfig object
/// would cause a circular dependency between the @c Network and the
/// @c SrvConfig. Even if it was possible and the @c Network had
/// access to the specific @c SrvConfig instance, it doesn't handle
/// the cases when the @c SrvConfig instance was modified.
///
/// To deal with the problem of accessing the global parameters in a
/// flexible manner, we elected to use an optional callback function
/// which can be associated with the @c Network object. This callback
/// implements the logic to retrieve global parameters and return them
/// in a well known form, so as the @c Network accessors can use them.
class Network : public virtual isc::data::StampedElement,
public virtual isc::data::UserContext,
public isc::data::CfgToElement {
public:
/// @brief Holds optional information about relay.
///
/// In some cases it is beneficial to have additional information about
/// a relay configured in the subnet. For now, the structure holds only
/// IP addresses, but there may potentially be additional parameters added
/// later, e.g. relay interface-id or relay-id.
class RelayInfo {
public:
/// @brief Adds an address to the list of addresses
///
/// @param addr address to add
/// @throw BadValue if the address is already in the list
void addAddress(const asiolink::IOAddress& addr);
/// @brief Returns const reference to the list of addresses
///
/// @return const reference to the list of addresses
const IOAddressList& getAddresses() const;
/// @brief Indicates whether or not the address list has entries
///
/// @return True if the address list is not empty
bool hasAddresses() const;
/// @brief Checks the address list for the given address
///
/// @return True if the address is found in the address list
bool containsAddress(const asiolink::IOAddress& addr) const;
private:
/// @brief List of relay IP addresses
IOAddressList addresses_;
};
/// @brief Inheritance "mode" used when fetching an optional @c Network
/// parameter.
///
/// The following modes are currently supported:
/// - NONE: no inheritance is used, the network specific value is returned
/// regardless if it is specified or not.
/// - PARENT_NETWORK: parent network specific value is returned or unspecified
/// if the parent network doesn't exist.
/// - GLOBAL: global specific value is returned.
/// - ALL: inheritance is used on all levels: network specific value takes
/// precedence over parent specific value over the global value.
enum class Inheritance {
NONE,
PARENT_NETWORK,
GLOBAL,
ALL
};
/// Pointer to the RelayInfo structure
typedef boost::shared_ptr<Network::RelayInfo> RelayInfoPtr;
/// @brief Constructor.
Network()
: iface_name_(), client_class_(), t1_(), t2_(), valid_(),
reservations_global_(false, true), reservations_in_subnet_(true, true),
reservations_out_of_pool_(false, true), cfg_option_(new CfgOption()),
calculate_tee_times_(), t1_percent_(), t2_percent_(),
ddns_send_updates_(), ddns_override_no_update_(), ddns_override_client_update_(),
ddns_replace_client_name_mode_(), ddns_generated_prefix_(), ddns_qualifying_suffix_(),
hostname_char_set_(), hostname_char_replacement_(), store_extended_info_(),
cache_threshold_(), cache_max_age_(), ddns_update_on_renew_(),
ddns_use_conflict_resolution_(), ddns_ttl_percent_(), allocator_type_(),
default_allocator_type_() {
}
/// @brief Virtual destructor.
///
/// Does nothing at the moment.
virtual ~Network() { };
/// @brief Sets the optional callback function used to fetch globally
/// configured parameters.
///
/// @param fetch_globals_fn Pointer to the function.
void setFetchGlobalsFn(FetchNetworkGlobalsFn fetch_globals_fn) {
fetch_globals_fn_ = fetch_globals_fn;
}
/// @brief Checks if the network is associated with a function used to
/// fetch globally configured parameters.
///
/// @return true if it is associated, false otherwise.
bool hasFetchGlobalsFn() const {
return (static_cast<bool>(fetch_globals_fn_));
}
/// @brief Sets local name of the interface for which this network is
/// selected.
///
/// If the interface is specified, the server will use the network
/// associated with this local interface to allocate IP addresses and
/// other resources to a client.
/// Empty values are translated into unspecified.
///
/// @param iface_name Interface name.
void setIface(const util::Optional<std::string>& iface_name) {
if (iface_name.empty()) {
iface_name_ = util::Optional<std::string>("", true);
} else {
iface_name_ = iface_name;
}
}
/// @brief Returns name of the local interface for which this network is
/// selected.
///
/// @param inheritance inheritance mode to be used.
/// @return Interface name as optional text.
util::Optional<std::string>
getIface(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getIface, iface_name_,
inheritance));
};
/// @brief Sets information about relay
///
/// In some situations where there are shared subnets (i.e. two different
/// subnets are available on the same physical link), there is only one
/// relay that handles incoming requests from clients. In such a case,
/// the usual subnet selection criteria based on relay belonging to the
/// subnet being selected are no longer sufficient and we need to explicitly
/// specify a relay. One notable example of such uncommon, but valid
/// scenario is a cable network, where there is only one CMTS (one relay),
/// but there are 2 distinct subnets behind it: one for cable modems
/// and another one for CPEs and other user equipment behind modems.
/// From manageability perspective, it is essential that modems get addresses
/// from different subnet, so users won't tinker with their modems.
///
/// Setting this parameter is not needed in most deployments.
/// This structure holds IP address only for now, but it is expected to
/// be extended in the future.
///
/// @param relay structure that contains relay information
void setRelayInfo(const RelayInfo& relay) {
relay_ = relay;
}
/// @brief Returns const reference to relay information
///
/// @note The returned reference is only valid as long as the object
/// returned it is valid.
///
/// @return const reference to the relay information
const RelayInfo& getRelayInfo() const {
return (relay_);
}
/// @brief Adds an address to the list addresses in the network's relay info
///
/// @param addr address of the relay
/// @throw BadValue if the address is already in the list
void addRelayAddress(const asiolink::IOAddress& addr);
/// @brief Returns the list of relay addresses from the network's relay info
///
/// @return const reference to the list of addresses
const IOAddressList& getRelayAddresses() const;
/// @brief Indicates if network's relay info has relay addresses
///
/// @return True the relay list is not empty, false otherwise
bool hasRelays() const;
/// @brief Tests if the network's relay info contains the given address
///
/// @param address address to search for in the relay list
/// @return True if a relay with the given address is found, false otherwise
bool hasRelayAddress(const asiolink::IOAddress& address) const;
/// @brief Checks whether this network supports client that belongs to
/// specified classes.
///
/// This method checks whether a client that belongs to given classes can
/// use this network. For example, if this class is reserved for client
/// class "foo" and the client belongs to classes "foo", "bar" and "baz",
/// it is supported. On the other hand, client belonging to classes
/// "foobar" and "zyxxy" is not supported.
///
/// @note: changed the planned white and black lists idea to a simple
/// client class name.
///
/// @param client_classes list of all classes the client belongs to
/// @return true if client can be supported, false otherwise
virtual bool
clientSupported(const isc::dhcp::ClientClasses& client_classes) const;
/// @brief Sets the supported class to class class_name
///
/// @param class_name client class to be supported by this network
void allowClientClass(const isc::dhcp::ClientClass& class_name);
/// @brief Adds class class_name to classes required to be evaluated.
///
/// @param class_name client class required to be evaluated
void requireClientClass(const isc::dhcp::ClientClass& class_name);
/// @brief Returns classes which are required to be evaluated
const ClientClasses& getRequiredClasses() const;
/// @brief returns the client class
///
/// @note The returned reference is only valid as long as the object
/// returned it is valid.
///
/// @param inheritance inheritance mode to be used.
/// @return client class @ref client_class_
util::Optional<ClientClass>
getClientClass(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getClientClass, client_class_,
inheritance));
}
/// @brief Return valid-lifetime for addresses in that prefix
///
/// @param inheritance inheritance mode to be used.
isc::util::Triplet<uint32_t> getValid(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getValid, valid_, inheritance,
CfgGlobals::VALID_LIFETIME,
CfgGlobals::MIN_VALID_LIFETIME,
CfgGlobals::MAX_VALID_LIFETIME));
}
/// @brief Sets new valid lifetime for a network.
///
/// @param valid New valid lifetime in seconds.
void setValid(const isc::util::Triplet<uint32_t>& valid) {
valid_ = valid;
}
/// @brief Returns T1 (renew timer), expressed in seconds
///
/// @param inheritance inheritance mode to be used.
isc::util::Triplet<uint32_t> getT1(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getT1, t1_, inheritance,
CfgGlobals::RENEW_TIMER));
}
/// @brief Sets new renew timer for a network.
///
/// @param t1 New renew timer value in seconds.
void setT1(const isc::util::Triplet<uint32_t>& t1) {
t1_ = t1;
}
/// @brief Returns T2 (rebind timer), expressed in seconds
///
/// @param inheritance inheritance mode to be used.
isc::util::Triplet<uint32_t> getT2(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getT2, t2_, inheritance,
CfgGlobals::REBIND_TIMER));
}
/// @brief Sets new rebind timer for a network.
///
/// @param t2 New rebind timer value in seconds.
void setT2(const isc::util::Triplet<uint32_t>& t2) {
t2_ = t2;
}
/// @brief Returns whether global reservations should be fetched.
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getReservationsGlobal(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getReservationsGlobal,
reservations_global_,
inheritance,
CfgGlobals::RESERVATIONS_GLOBAL));
}
/// @brief Sets whether global reservations should be fetched.
///
/// @param reservations_global new value of enabled/disabled.
void setReservationsGlobal(const util::Optional<bool>& reservations_global) {
reservations_global_ = reservations_global;
}
/// @brief Returns whether subnet reservations should be fetched.
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getReservationsInSubnet(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getReservationsInSubnet,
reservations_in_subnet_,
inheritance,
CfgGlobals::RESERVATIONS_IN_SUBNET));
}
/// @brief Sets whether subnet reservations should be fetched.
///
/// @param reservations_in_subnet new value of enabled/disabled.
void setReservationsInSubnet(const util::Optional<bool>& reservations_in_subnet) {
reservations_in_subnet_ = reservations_in_subnet;
}
/// @brief Returns whether only out-of-pool reservations are allowed.
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getReservationsOutOfPool(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getReservationsOutOfPool,
reservations_out_of_pool_,
inheritance,
CfgGlobals::RESERVATIONS_OUT_OF_POOL));
}
/// @brief Sets whether only out-of-pool reservations are allowed.
///
/// @param reservations_out_of_pool new value of enabled/disabled.
void setReservationsOutOfPool(const util::Optional<bool>& reservations_out_of_pool) {
reservations_out_of_pool_ = reservations_out_of_pool;
}
/// @brief Returns pointer to the option data configuration for this network.
CfgOptionPtr getCfgOption() {
return (cfg_option_);
}
/// @brief Returns const pointer to the option data configuration for this
/// network.
ConstCfgOptionPtr getCfgOption() const {
return (cfg_option_);
}
/// @brief Returns whether or not T1/T2 calculation is enabled.
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getCalculateTeeTimes(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getCalculateTeeTimes,
calculate_tee_times_,
inheritance,
CfgGlobals::CALCULATE_TEE_TIMES));
}
/// @brief Sets whether or not T1/T2 calculation is enabled.
///
/// @param calculate_tee_times new value of enabled/disabled.
void setCalculateTeeTimes(const util::Optional<bool>& calculate_tee_times) {
calculate_tee_times_ = calculate_tee_times;
}
/// @brief Returns percentage to use when calculating the T1 (renew timer).
///
/// @param inheritance inheritance mode to be used.
util::Optional<double>
getT1Percent(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getT1Percent, t1_percent_,
inheritance, CfgGlobals::T1_PERCENT));
}
/// @brief Sets new percentage for calculating T1 (renew timer).
///
/// @param t1_percent New percentage to use.
void setT1Percent(const util::Optional<double>& t1_percent) {
t1_percent_ = t1_percent;
}
/// @brief Returns percentage to use when calculating the T2 (rebind timer).
///
/// @param inheritance inheritance mode to be used.
util::Optional<double>
getT2Percent(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getT2Percent, t2_percent_,
inheritance, CfgGlobals::T2_PERCENT));
}
/// @brief Sets new percentage for calculating T2 (rebind timer).
///
/// @param t2_percent New percentage to use.
void setT2Percent(const util::Optional<double>& t2_percent) {
t2_percent_ = t2_percent;
}
/// @brief Returns ddns-send-updates
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getDdnsSendUpdates(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsSendUpdates,
ddns_send_updates_, inheritance,
CfgGlobals::DDNS_SEND_UPDATES));
}
/// @brief Sets new ddns-send-updates
///
/// @param ddns_send_updates New value to use.
void setDdnsSendUpdates(const util::Optional<bool>& ddns_send_updates) {
ddns_send_updates_ = ddns_send_updates;
}
/// @brief Returns ddns-override-no-update
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getDdnsOverrideNoUpdate(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsOverrideNoUpdate,
ddns_override_no_update_, inheritance,
CfgGlobals::DDNS_OVERRIDE_NO_UPDATE));
}
/// @brief Sets new ddns-override-no-update
///
/// @param ddns_override_no_update New value to use.
void setDdnsOverrideNoUpdate(const util::Optional<bool>& ddns_override_no_update) {
ddns_override_no_update_ = ddns_override_no_update;
}
/// @brief Returns ddns-override-client-update
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getDdnsOverrideClientUpdate(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsOverrideClientUpdate,
ddns_override_client_update_, inheritance,
CfgGlobals::DDNS_OVERRIDE_CLIENT_UPDATE));
}
/// @brief Sets new ddns-override-client-update
///
/// @param ddns_override_client_update New value to use.
void setDdnsOverrideClientUpdate(const util::Optional<bool>&
ddns_override_client_update) {
ddns_override_client_update_ = ddns_override_client_update;
}
/// @brief Returns ddns-replace-client-name-mode
///
/// @param inheritance inheritance mode to be used.
util::Optional<D2ClientConfig::ReplaceClientNameMode>
getDdnsReplaceClientNameMode(const Inheritance& inheritance = Inheritance::ALL) const {
// Inheritance for ddns-replace-client-name is a little different than for other
// parameters. The value at the global level is given as a string.
// Thus we call getProperty here without a global name to check if it
// is specified on network level only.
const util::Optional<D2ClientConfig::ReplaceClientNameMode>& mode =
getProperty<Network>(&Network::getDdnsReplaceClientNameMode,
ddns_replace_client_name_mode_, inheritance);
// If it is not specified at network level we need this special
// case code to convert the global string value to an enum.
if (mode.unspecified() && (inheritance != Inheritance::NONE) &&
(inheritance != Inheritance::PARENT_NETWORK)) {
// Get global mode.
util::Optional<std::string> mode_label;
mode_label = getGlobalProperty(mode_label,
CfgGlobals::DDNS_REPLACE_CLIENT_NAME);
if (!mode_label.unspecified()) {
try {
// If the mode is globally configured, convert it to an enum.
return (D2ClientConfig::stringToReplaceClientNameMode(mode_label.get()));
} catch (...) {
// This should not really happen because the configuration
// parser should have already verified the globally configured
// mode. However, we want to be 100% sure that this
// method doesn't throw. Let's just return unspecified.
return (mode);
}
}
}
return (mode);
}
/// @brief Sets new ddns-replace-client-name-mode
///
/// @param ddns_replace_client_name_mode New value to use.
void
setDdnsReplaceClientNameMode(const util::Optional<D2ClientConfig::ReplaceClientNameMode>&
ddns_replace_client_name_mode) {
ddns_replace_client_name_mode_ = ddns_replace_client_name_mode;
}
/// @brief Returns ddns-generated-prefix
///
/// @param inheritance inheritance mode to be used.
util::Optional<std::string>
getDdnsGeneratedPrefix(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsGeneratedPrefix,
ddns_generated_prefix_, inheritance,
CfgGlobals::DDNS_GENERATED_PREFIX));
}
/// @brief Sets new ddns-generated-prefix
///
/// @param ddns_generated_prefix New value to use.
void setDdnsGeneratedPrefix(const util::Optional<std::string>& ddns_generated_prefix) {
ddns_generated_prefix_ = ddns_generated_prefix;
}
/// @brief Returns ddns-qualifying-suffix
///
/// @param inheritance inheritance mode to be used.
util::Optional<std::string>
getDdnsQualifyingSuffix(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsQualifyingSuffix,
ddns_qualifying_suffix_, inheritance,
CfgGlobals::DDNS_QUALIFYING_SUFFIX));
}
/// @brief Sets new ddns-qualifying-suffix
///
/// @param ddns_qualifying_suffix New value to use.
void setDdnsQualifyingSuffix(const util::Optional<std::string>& ddns_qualifying_suffix) {
ddns_qualifying_suffix_ = ddns_qualifying_suffix;
}
/// @brief Returns ddns-ttl-percent
///
/// @param inheritance inheritance mode to be used.
util::Optional<double>
getDdnsTtlPercent(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsTtlPercent,
ddns_ttl_percent_, inheritance,
CfgGlobals::DDNS_TTL_PERCENT));
}
/// @brief Sets new ddns-ttl-percent
///
/// @param ddns_ttl_percent New value to use.
void setDdnsTtlPercent(const util::Optional<double>& ddns_ttl_percent) {
ddns_ttl_percent_ = ddns_ttl_percent;
}
/// @brief Return the char set regexp used to sanitize client hostnames.
util::Optional<std::string>
getHostnameCharSet(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getHostnameCharSet,
hostname_char_set_, inheritance,
CfgGlobals::HOSTNAME_CHAR_SET));
}
/// @brief Sets new hostname-char-set
///
/// @param hostname_char_set New value to use.
void setHostnameCharSet(const util::Optional<std::string>& hostname_char_set) {
hostname_char_set_ = hostname_char_set;
}
/// @brief Return the invalid char replacement used to sanitize client hostnames.
util::Optional<std::string>
getHostnameCharReplacement(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getHostnameCharReplacement,
hostname_char_replacement_, inheritance,
CfgGlobals::HOSTNAME_CHAR_REPLACEMENT));
}
/// @brief Sets new hostname-char-replacement
///
/// @param hostname_char_replacement New value to use.
void setHostnameCharReplacement(const util::Optional<std::string>&
hostname_char_replacement) {
hostname_char_replacement_ = hostname_char_replacement;
}
/// @brief Returns store-extended-info
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getStoreExtendedInfo(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getStoreExtendedInfo,
store_extended_info_, inheritance,
CfgGlobals::STORE_EXTENDED_INFO));
}
/// @brief Sets new store-extended-info
///
/// @param store_extended_info New value to use.
void setStoreExtendedInfo(const util::Optional<bool>& store_extended_info) {
store_extended_info_ = store_extended_info;
}
/// @brief Returns percentage to use as cache threshold.
///
/// @param inheritance inheritance mode to be used.
util::Optional<double>
getCacheThreshold(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getCacheThreshold,
cache_threshold_, inheritance,
CfgGlobals::CACHE_THRESHOLD));
}
/// @brief Sets cache threshold for a network.
///
/// @param cache_threshold New cache threshold percentage to use.
void setCacheThreshold(const util::Optional<double>& cache_threshold) {
cache_threshold_ = cache_threshold;
}
/// @brief Returns value in seconds to use as cache maximum age.
///
/// @param inheritance inheritance mode to be used.
util::Optional<uint32_t>
getCacheMaxAge(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getCacheMaxAge, cache_max_age_,
inheritance, CfgGlobals::CACHE_MAX_AGE));
}
/// @brief Sets cache max for a network.
///
/// @param cache_max_age New cache maximum value in seconds to use.
void setCacheMaxAge(const util::Optional<uint32_t>& cache_max_age) {
cache_max_age_ = cache_max_age;
}
/// @brief Returns ddns-update-on-renew
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getDdnsUpdateOnRenew(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsUpdateOnRenew,
ddns_update_on_renew_, inheritance,
CfgGlobals::DDNS_UPDATE_ON_RENEW));
}
/// @brief Sets new ddns-update-on-renew
///
/// @param ddns_update_on_renew New value to use.
void setDdnsUpdateOnRenew(const util::Optional<bool>& ddns_update_on_renew) {
ddns_update_on_renew_ = ddns_update_on_renew;
}
/// @brief Returns ddns-use-conflict-resolution
///
/// @param inheritance inheritance mode to be used.
util::Optional<bool>
getDdnsUseConflictResolution(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDdnsUseConflictResolution,
ddns_use_conflict_resolution_,
inheritance,
CfgGlobals::DDNS_USE_CONFLICT_RESOLUTION));
}
/// @brief Sets new ddns-use-conflict-resolution
///
/// @param ddns_use_conflict_resolution New value to use.
void setDdnsUseConflictResolution(const util::Optional<bool>& ddns_use_conflict_resolution) {
ddns_use_conflict_resolution_ = ddns_use_conflict_resolution;
}
/// @brief Returns allocator type.
///
/// @param inheritance inheritance mode to be used.
util::Optional<std::string>
getAllocatorType(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getAllocatorType,
allocator_type_,
inheritance,
CfgGlobals::ALLOCATOR));
}
/// @brief Sets new allocator type.
///
/// It doesn't set the actual allocator instance. It merely remembers the
/// value specified in the configuration, so it can be output in the
/// @c toElement call.
///
/// @param allocator_type new allocator type to use.
void setAllocatorType(const util::Optional<std::string>& allocator_type) {
allocator_type_ = allocator_type;
}
/// @brief Returns a default allocator type.
///
/// This allocator type is used when the allocator type is neither specified
/// at the shared network nor subnet level.
///
/// @return an allocator type as a string.
util::Optional<std::string>
getDefaultAllocatorType(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network>(&Network::getDefaultAllocatorType,
default_allocator_type_,
inheritance));
}
/// @brief Sets a defalt allocator type.
///
/// @param allocator_type a new default allocator type.
void setDefaultAllocatorType(const std::string& allocator_type) {
default_allocator_type_ = allocator_type;
}
/// @brief Unparses network object.
///
/// @return A pointer to unparsed network configuration.
virtual data::ElementPtr toElement() const;
/// @brief Generates an identifying label for logging.
///
/// @return string containing the label
virtual std::string getLabel() const {
return ("base-network");
}
protected:
/// @brief Gets the optional callback function used to fetch globally
/// configured parameters.
///
/// @return Pointer to the function.
FetchNetworkGlobalsFn getFetchGlobalsFn() const {
return (fetch_globals_fn_);
}
/// @brief Returns a value of global configuration parameter with
/// a given index.
///
/// If the @c ferch_globals_fn_ function is non-null, this method will
/// invoke this function to retrieve a global value having the given
/// index. Typically, this method is invoked by @c getProperty when
/// network specific value of the parameter is not found. In some cases
/// it may be called by other methods. One such example is the
/// @c getDdnsReplaceClientNameMode which needs to call @c getGlobalProperty
/// explicitly to convert the global replace client name mode value from
/// a string to an enum.
///
/// @tparam ReturnType Type of the returned value, e.g.
/// @c Optional<std::string>.
///
/// @param property Value to be returned when it is specified or when
/// no global value is found.
/// @param global_index Index of the global parameter which value should
/// be returned
/// @param min_index Index of the min global parameter which value should
/// be returned for triplets
/// @param max_index Index of the max global parameter which value should
/// be returned for triplets
///
/// @return Optional value fetched from the global level or the value
/// of @c property.
template<typename ReturnType>
ReturnType getGlobalProperty(ReturnType property,
const int global_index,
const int min_index = -1,
const int max_index = -1) const {
unused(min_index, max_index);
if ((global_index >= 0) && fetch_globals_fn_) {
ConstCfgGlobalsPtr globals = fetch_globals_fn_();
if (globals) {
data::ConstElementPtr global_param = globals->get(global_index);
if (global_param) {
// If there is a global parameter, convert it to the
// optional value of the given type and return.
return (data::ElementValue<typename ReturnType::ValueType>()(global_param));
}
}
}
return (property);
}
/// @brief The @c getGlobalProperty specialization for isc::util::Triplet<T>.
///
/// @note: use overloading vs specialization because full specialization
/// is not allowed in this scope.
///
/// @tparam NumType Type of the encapsulated value(s).
///
/// @param property Value to be returned when it is specified or when
/// no global value is found.
/// @param global_index Index of the global parameter which value should
/// be returned
/// @param min_index Index of the min global parameter which value should
/// be returned for triplets
/// @param max_index Index of the max global parameter which value should
/// be returned for triplets
///
/// @return Optional value fetched from the global level or the value
/// of @c property.
template<typename NumType>
isc::util::Triplet<NumType> getGlobalProperty(isc::util::Triplet<NumType> property,
const int global_index,
const int min_index = -1,
const int max_index = -1) const {
if ((global_index >= 0) && fetch_globals_fn_) {
ConstCfgGlobalsPtr globals = fetch_globals_fn_();
if (globals) {
data::ConstElementPtr param = globals->get(global_index);
if (param) {
NumType def_value = static_cast<NumType>(param->intValue());
if ((min_index < 0) || (max_index < 0)) {
return (def_value);
} else {
NumType min_value = def_value;
NumType max_value = def_value;
data::ConstElementPtr min_param = globals->get(min_index);
if (min_param) {
min_value = static_cast<NumType>(min_param->intValue());
}
data::ConstElementPtr max_param = globals->get(max_index);
if (max_param) {
max_value = static_cast<NumType>(max_param->intValue());
}
return (isc::util::Triplet<NumType>(min_value, def_value, max_value));
}
}
}
}
return (property);
}
/// @brief The @c getGlobalProperty specialization for Optional<IOAddress>.
///
/// This does two things:
/// - uses the string value of the parameter
/// - falls back when the value is empty
///
/// @note: use overloading vs specialization because full specialization
/// is not allowed in this scope.
///
/// @param property Value to be returned when it is specified or when
/// no global value is found.
/// @param global_index Index of the global parameter which value should
/// be returned
/// @param min_index Index of the min global parameter which value should
/// be returned for triplets
/// @param max_index Index of the max global parameter which value should
/// be returned for triplets
///
/// @return Optional value fetched from the global level or the value
/// of @c property.
util::Optional<asiolink::IOAddress>
getGlobalProperty(util::Optional<asiolink::IOAddress> property,
const int global_index,
const int min_index = -1,
const int max_index = -1) const;
/// @brief Returns a value associated with a network using inheritance.
///
/// This template method provides a generic mechanism to retrieve a
/// network parameter using inheritance. It is called from public
/// accessor methods which return an @c OptionalValue or @c isc::util::Triplet.
///
/// @tparam BaseType Type of this instance, e.g. @c Network, @c Network4
/// etc, which exposes a method to be called.
/// @tparam ReturnType Type of the returned value, e.g.
/// @c Optional<std::string>.
///
/// @param MethodPointer Pointer to the method of the base class which
/// should be called on the parent network instance (typically on
/// @c SharedNetwork4 or @c SharedNetwork6) to fetch the parent specific
/// value if the value is unspecified for this instance.
/// @param property Value to be returned when it is specified or when
/// no explicit value is specified on upper inheritance levels.
/// @param inheritance inheritance mode to be used.
/// @param global_index Optional index of the global parameter which value
/// should be returned if the given parameter is not specified on network
/// level. This value is empty by default, which indicates that the
/// global value for the given parameter is not supported and shouldn't
/// be fetched.
/// @param min_index Index of the min global parameter which value should
/// be returned for triplets
/// @param max_index Index of the max global parameter which value should
/// be returned for triplets
///
/// @return Optional value fetched from this instance level, parent
/// network level or global level
template<typename BaseType, typename ReturnType>
ReturnType getProperty(ReturnType(BaseType::*MethodPointer)(const Inheritance&) const,
ReturnType property,
const Inheritance& inheritance,
const int global_index = -1,
const int min_index = -1,
const int max_index = -1) const {
// If no inheritance is to be used, return the value for this
// network regardless if it is specified or not.
if (inheritance == Inheritance::NONE) {
return (property);
} else if (inheritance == Inheritance::PARENT_NETWORK) {
ReturnType parent_property;
// Check if this instance has a parent network.
auto parent = boost::dynamic_pointer_cast<BaseType>(parent_network_.lock());
if (parent) {
parent_property = ((*parent).*MethodPointer)(Network::Inheritance::NONE);
}
return (parent_property);
// If global value requested, return it.
} else if (inheritance == Inheritance::GLOBAL) {
return (getGlobalProperty(ReturnType(), global_index, min_index, max_index));
}
// We use inheritance and the value is not specified on the network level.
// Hence, we need to get the parent network specific value or global value.
if (property.unspecified()) {
// Check if this instance has a parent network.
auto parent = boost::dynamic_pointer_cast<BaseType>(parent_network_.lock());
// If the parent network exists, let's fetch the parent specific
// value.
if (parent) {
// We're using inheritance so ask for the parent specific network
// and return it only if it is specified.
auto parent_property = ((*parent).*MethodPointer)(inheritance);
if (!parent_property.unspecified()) {
return (parent_property);
}
}
// The value is not specified on network level. If the value
// can be specified on global level and there is a callback
// that returns the global values, try to find this parameter
// at the global scope.
return (getGlobalProperty(property, global_index, min_index, max_index));
}
// We haven't found the value at any level, so return the unspecified.
return (property);
}
/// @brief Returns option pointer associated with a network using inheritance.
///
/// This template method provides a generic mechanism to retrieve a
/// network parameter using inheritance. It is called from public
/// accessor methods which return an @c OptionPtr.
///
/// @tparam BaseType Type of this instance, e.g. @c Network, @c Network4
/// etc, which exposes a method to be called.
///
/// @param MethodPointer Pointer to the method of the base class which
/// should be called on the parent network instance (typically on
/// @c SharedNetwork4 or @c SharedNetwork6) to fetch the parent specific
/// value if the value is unspecified for this instance.
/// @param property the value to return when inheritance mode is NONE, or
/// when the mode is PARENT_NETWORK and the property has not been specified
/// by a parent network.
/// @param inheritance inheritance mode to be used.
///
/// @return Option pointer fetched from this instance level or parent
/// network level.
template<typename BaseType>
OptionPtr
getOptionProperty(OptionPtr(BaseType::*MethodPointer)(const Inheritance& inheritance) const,
OptionPtr property,
const Inheritance& inheritance) const {
if (inheritance == Network::Inheritance::NONE) {
return (property);
} else if (inheritance == Network::Inheritance::PARENT_NETWORK) {
OptionPtr parent_property;
// Check if this instance has a parent network.
auto parent = boost::dynamic_pointer_cast<BaseType>(parent_network_.lock());
// If the parent network exists, let's fetch the parent specific
// value.
if (parent) {
parent_property = ((*parent).*MethodPointer)(Network::Inheritance::NONE);
}
return (parent_property);
} else if (inheritance == Network::Inheritance::GLOBAL) {
return (OptionPtr());
}
// We use inheritance and the value is not specified on the network level.
// Hence, we need to get the parent network specific value.
if (!property) {
// Check if this instance has a parent network.
auto parent = boost::dynamic_pointer_cast<BaseType>(parent_network_.lock());
if (parent) {
// We're using inheritance so ask for the parent specific network
// and return it only if it is specified.
OptionPtr parent_property = (((*parent).*MethodPointer)(inheritance));
if (parent_property) {
return (parent_property);
}
}
}
// We haven't found the value at any level, so return the unspecified.
return (property);
}
/// @brief Holds interface name for which this network is selected.
util::Optional<std::string> iface_name_;
/// @brief Relay information
///
/// See @ref RelayInfo for detailed description.
RelayInfo relay_;
/// @brief Optional definition of a client class
///
/// If defined, only clients belonging to that class will be allowed to use
/// this particular network. The default value for this is an empty string,
/// which means that any client is allowed, regardless of its class.
util::Optional<ClientClass> client_class_;
/// @brief Required classes
///
/// If the network is selected these classes will be added to the
/// incoming packet and their evaluation will be required.
ClientClasses required_classes_;
/// @brief a isc::util::Triplet (min/default/max) holding allowed renew timer values
isc::util::Triplet<uint32_t> t1_;
/// @brief a isc::util::Triplet (min/default/max) holding allowed rebind timer values
isc::util::Triplet<uint32_t> t2_;
/// @brief a isc::util::Triplet (min/default/max) holding allowed valid lifetime values
isc::util::Triplet<uint32_t> valid_;
/// @brief Enables global reservations.
util::Optional<bool> reservations_global_;
/// @brief Enables subnet reservations.
util::Optional<bool> reservations_in_subnet_;
/// @brief Enables out-of-pool reservations optimization.
///
/// When true only out-of-pool reservations are allowed. This allows
/// AllocEngine to skip reservation checks when dealing with addresses
/// that are in pool.
util::Optional<bool> reservations_out_of_pool_;
/// @brief Pointer to the option data configuration for this subnet.
CfgOptionPtr cfg_option_;
/// @brief Enables calculation of T1 and T2 timers
util::Optional<bool> calculate_tee_times_;
/// @brief Percentage of the lease lifetime to use when calculating T1 timer
util::Optional<double> t1_percent_;
/// @brief Percentage of the lease lifetime to use when calculating T2 timer
util::Optional<double> t2_percent_;
/// @brief Should Kea perform DNS updates. Used to provide scoped enabling
/// and disabling of updates.
util::Optional<bool> ddns_send_updates_;
/// @brief Should Kea perform updates, even if client requested no updates.
/// Overrides the client request for no updates via the N flag.
util::Optional<bool> ddns_override_no_update_;
/// @brief Should Kea perform updates, even if client requested delegation.
util::Optional<bool> ddns_override_client_update_;
/// @brief How Kea should handle the domain-name supplied by the client.
util::Optional<D2ClientConfig::ReplaceClientNameMode> ddns_replace_client_name_mode_;
/// @brief Prefix Kea should use when generating domain-names.
util::Optional<std::string> ddns_generated_prefix_;
/// @brief Suffix Kea should use when to qualify partial domain-names.
util::Optional<std::string> ddns_qualifying_suffix_;
/// @brief Regular expression describing invalid characters for client
/// hostnames.
util::Optional<std::string> hostname_char_set_;
/// @brief A string to replace invalid characters when scrubbing hostnames.
/// Meaningful only if hostname_char_set_ is not empty.
util::Optional<std::string> hostname_char_replacement_;
/// @brief Should Kea store additional client query data (e.g. relay-agent-info)
/// on the lease.
util::Optional<bool> store_extended_info_;
/// @brief Percentage of the lease lifetime to use as cache threshold.
util::Optional<double> cache_threshold_;
/// @brief Value in seconds to use as cache maximal age.
util::Optional<uint32_t> cache_max_age_;
/// @brief Should Kea perform updates when leases are extended
util::Optional<bool> ddns_update_on_renew_;
/// @brief Used to to tell kea-dhcp-ddns whether or not to use conflict resolution.
util::Optional<bool> ddns_use_conflict_resolution_;
/// @brief Percentage of the lease lifetime to use for DNS TTL.
util::Optional<double> ddns_ttl_percent_;
/// @brief Allocator used for IP address allocations.
util::Optional<std::string> allocator_type_;
/// @brief Default allocator type.
util::Optional<std::string> default_allocator_type_;
/// @brief Pointer to another network that this network belongs to.
///
/// The most common case is that this instance is a subnet which belongs
/// to a shared network and the @c parent_network_ points to the shared
/// network object. If the network instance (subnet) doesn't belong to
/// a shared network this pointer is null.
WeakNetworkPtr parent_network_;
/// @brief Pointer to the optional callback used to fetch globally
/// configured parameters inherited to the @c Network object.
FetchNetworkGlobalsFn fetch_globals_fn_;
};
/// @brief Specialization of the @ref Network object for DHCPv4 case.
class Network4 : public virtual Network {
public:
/// @brief Constructor.
Network4()
: Network(), match_client_id_(true, true), authoritative_(),
siaddr_(), sname_(), filename_(), offer_lft_() {
}
/// @brief Returns the flag indicating if the client identifiers should
/// be used to identify the client's lease.
///
/// @param inheritance inheritance mode to be used.
/// @return true if client identifiers should be used, false otherwise.
util::Optional<bool>
getMatchClientId(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network4>(&Network4::getMatchClientId,
match_client_id_,
inheritance,
CfgGlobals::MATCH_CLIENT_ID));
}
/// @brief Sets the flag indicating if the client identifier should be
/// used to identify the client's lease.
///
/// @param match If this value is true, the client identifiers are not
/// used for lease lookup.
void setMatchClientId(const util::Optional<bool>& match) {
match_client_id_ = match;
}
/// @brief Returns the flag indicating if requests for unknown IP addresses
/// should be rejected with DHCPNAK instead of ignored.
///
/// @param inheritance inheritance mode to be used.w
/// @return true if requests for unknown IP addresses should be rejected,
/// false otherwise.
util::Optional<bool>
getAuthoritative(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network4>(&Network4::getAuthoritative,
authoritative_, inheritance,
CfgGlobals::AUTHORITATIVE));
}
/// @brief Sets the flag indicating if requests for unknown IP addresses
/// should be rejected with DHCPNAK instead of ignored.
///
/// @param authoritative If this value is true, the requests for unknown IP
/// addresses will be rejected with DHCPNAK messages
void setAuthoritative(const util::Optional<bool>& authoritative) {
authoritative_ = authoritative;
}
/// @brief Sets siaddr for the network.
///
/// Will be used for siaddr field (the next server) that typically is used
/// as TFTP server. If not specified, the default value of 0.0.0.0 is
/// used.
void setSiaddr(const util::Optional<asiolink::IOAddress>& siaddr);
/// @brief Returns siaddr for this network.
///
/// @return siaddr value
util::Optional<asiolink::IOAddress>
getSiaddr(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network4>(&Network4::getSiaddr, siaddr_,
inheritance, CfgGlobals::NEXT_SERVER));
}
/// @brief Sets server hostname for the network.
///
/// Will be used for server hostname field (may be empty if not defined)
void setSname(const util::Optional<std::string>& sname);
/// @brief Returns server hostname for this network.
///
/// @param inheritance inheritance mode to be used.
/// @return server hostname value
util::Optional<std::string>
getSname(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network4>(&Network4::getSname, sname_,
inheritance,
CfgGlobals::SERVER_HOSTNAME));
}
/// @brief Sets boot file name for the network.
///
/// Will be used for boot file name (may be empty if not defined)
void setFilename(const util::Optional<std::string>& filename);
/// @brief Returns boot file name for this subnet
///
/// @param inheritance inheritance mode to be used.
/// @return boot file name value
util::Optional<std::string>
getFilename(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network4>(&Network4::getFilename, filename_,
inheritance,
CfgGlobals::BOOT_FILE_NAME));
}
/// @brief Sets offer lifetime for the network.
///
/// @param offer_lft the offer lifetime assigned to the class (may be empty if not defined)
void setOfferLft(const util::Optional<uint32_t>& offer_lft) {
offer_lft_ = offer_lft;
}
/// @brief Returns offer lifetime for the network
///
/// @param inheritance inheritance mode to be used.
/// @return offer lifetime value
util::Optional<uint32_t>
getOfferLft(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network4>(&Network4::getOfferLft, offer_lft_,
inheritance,
CfgGlobals::OFFER_LIFETIME));
}
/// @brief Unparses network object.
///
/// @return A pointer to unparsed network configuration.
virtual data::ElementPtr toElement() const;
/// @brief Returns binary representation of the dhcp-server-identifier option (54).
///
/// @return Server identifier option as IPv4 address. Zero IPv4 address
/// indicates that server identifier hasn't been specified.
virtual asiolink::IOAddress getServerId() const;
private:
/// @brief Should server use client identifiers for client lease
/// lookup.
util::Optional<bool> match_client_id_;
/// @brief Should requests for unknown IP addresses be rejected.
util::Optional<bool> authoritative_;
/// @brief siaddr value for this network
util::Optional<asiolink::IOAddress> siaddr_;
/// @brief server hostname for this network
util::Optional<std::string> sname_;
/// @brief boot file name for this network
util::Optional<std::string> filename_;
/// @brief offer lifetime for this network
util::Optional<uint32_t> offer_lft_;
};
/// @brief Pointer to the @ref Network4 object.
typedef boost::shared_ptr<Network4> Network4Ptr;
class Network6;
/// @brief Pointer to the @ref Network6 object.
typedef boost::shared_ptr<Network6> Network6Ptr;
/// @brief Specialization of the @ref Network object for DHCPv6 case.
class Network6 : public virtual Network {
public:
/// @brief Constructor.
Network6()
: Network(), preferred_(), interface_id_(), rapid_commit_(),
default_pd_allocator_type_(){
}
/// @brief Returns preferred lifetime (in seconds)
///
/// @param inheritance inheritance mode to be used.
/// @return a triplet with preferred lifetime
isc::util::Triplet<uint32_t>
getPreferred(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network6>(&Network6::getPreferred, preferred_,
inheritance,
CfgGlobals::PREFERRED_LIFETIME,
CfgGlobals::MIN_PREFERRED_LIFETIME,
CfgGlobals::MAX_PREFERRED_LIFETIME));
}
/// @brief Sets new preferred lifetime for a network.
///
/// @param preferred New preferred lifetime in seconds.
void setPreferred(const isc::util::Triplet<uint32_t>& preferred) {
preferred_ = preferred;
}
/// @brief Returns interface-id value (if specified)
///
/// @param inheritance inheritance mode to be used.
/// @return interface-id option (if defined)
OptionPtr getInterfaceId(const Inheritance& inheritance = Inheritance::ALL) const {
return (getOptionProperty<Network6>(&Network6::getInterfaceId, interface_id_,
inheritance));
}
/// @brief sets interface-id option (if defined)
///
/// @param ifaceid pointer to interface-id option
void setInterfaceId(const OptionPtr& ifaceid) {
interface_id_ = ifaceid;
}
/// @brief Returns boolean value indicating that the Rapid Commit option
/// is supported or unsupported for the subnet.
///
/// @note This parameter does not exist at the global level.
///
/// @param inheritance inheritance mode to be used.
/// @return true if the Rapid Commit option is supported, false otherwise.
util::Optional<bool>
getRapidCommit(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network6>(&Network6::getRapidCommit, rapid_commit_,
inheritance));
}
/// @brief Enables or disables Rapid Commit option support for the subnet.
///
/// @param rapid_commit A boolean value indicating that the Rapid Commit
/// option support is enabled (if true), or disabled (if false).
void setRapidCommit(const util::Optional<bool>& rapid_commit) {
rapid_commit_ = rapid_commit;
};
/// @brief Returns allocator type for prefix delegation.
///
/// @param inheritance inheritance mode to be used.
util::Optional<std::string>
getPdAllocatorType(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network6>(&Network6::getPdAllocatorType,
pd_allocator_type_,
inheritance,
CfgGlobals::PD_ALLOCATOR));
}
/// @brief Sets new allocator type for prefix delegation.
///
/// It doesn't set the actual allocator instance. It merely remembers the
/// value specified in the configuration, so it can be output in the
/// @c toElement call.
///
/// @param allocator_type new allocator type to use.
void setPdAllocatorType(const util::Optional<std::string>& allocator_type) {
pd_allocator_type_ = allocator_type;
}
/// @brief Returns a default allocator type for prefix delegation.
///
/// This allocator type is used when the allocator type is neither specified
/// at the shared network nor subnet level.
///
/// @return an allocator type as a string.
util::Optional<std::string>
getDefaultPdAllocatorType(const Inheritance& inheritance = Inheritance::ALL) const {
return (getProperty<Network6>(&Network6::getDefaultPdAllocatorType,
default_pd_allocator_type_,
inheritance));
}
/// @brief Sets a defalt allocator type for prefix delegation.
///
/// @param allocator_type a new default allocator type.
void setDefaultPdAllocatorType(const std::string& allocator_type) {
default_pd_allocator_type_ = allocator_type;
}
/// @brief Unparses network object.
///
/// @return A pointer to unparsed network configuration.
virtual data::ElementPtr toElement() const;
private:
/// @brief a triplet with preferred lifetime (in seconds)
isc::util::Triplet<uint32_t> preferred_;
/// @brief specifies optional interface-id
OptionPtr interface_id_;
/// @brief A flag indicating if Rapid Commit option is supported
/// for this network.
///
/// It's default value is false, which indicates that the Rapid
/// Commit is disabled for the subnet.
util::Optional<bool> rapid_commit_;
/// @brief Allocator used for prefix delegation.
util::Optional<std::string> pd_allocator_type_;
// @brief Default allocator type for prefix delegation.
util::Optional<std::string> default_pd_allocator_type_;
};
} // end of namespace isc::dhcp
} // end of namespace isc
#endif // NETWORK_H
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