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|
// Copyright (C) 2014-2022 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/iface_mgr.h>
#include <dhcpsrv/dhcpsrv_log.h>
#include <dhcpsrv/cfg_iface.h>
#include <dhcpsrv/timer_mgr.h>
#include <util/reconnect_ctl.h>
#include <util/multi_threading_mgr.h>
#include <util/strutil.h>
#include <algorithm>
#include <functional>
using namespace isc::asiolink;
using namespace isc::data;
using namespace isc::util;
namespace ph = std::placeholders;
namespace isc {
namespace dhcp {
const char* CfgIface::ALL_IFACES_KEYWORD = "*";
CfgIface::OpenSocketsFailedCallback CfgIface::open_sockets_failed_callback_ = 0;
CfgIface::CfgIface()
: wildcard_used_(false), socket_type_(SOCKET_RAW), re_detect_(false),
service_socket_require_all_(false), service_sockets_retry_wait_time_(5000),
service_sockets_max_retries_(0),
outbound_iface_(SAME_AS_INBOUND) {
}
void
CfgIface::closeSockets() const {
IfaceMgr::instance().closeSockets();
}
bool
CfgIface::equals(const CfgIface& other) const {
return (iface_set_ == other.iface_set_ &&
address_map_ == other.address_map_ &&
wildcard_used_ == other.wildcard_used_ &&
socket_type_ == other.socket_type_);
}
bool
CfgIface::multipleAddressesPerInterfaceActive() {
for (IfacePtr iface : IfaceMgr::instance().getIfaces()) {
if (iface->countActive4() > 1) {
return (true);
}
}
return (false);
}
void
CfgIface::openSockets(const uint16_t family, const uint16_t port,
const bool use_bcast) {
// Close any open sockets because we're going to modify some properties
// of the IfaceMgr. Those modifications require that sockets are closed.
closeSockets();
// The loopback interface can be used only when:
// - UDP socket will be used, i.e. not IPv4 and RAW socket
// - the loopback interface is in the interface set or the address map.
bool loopback_used_ = false;
if ((family == AF_INET6) || (socket_type_ == SOCKET_UDP)) {
// Check interface set
for (IfaceSet::const_iterator iface_name = iface_set_.begin();
iface_name != iface_set_.end(); ++iface_name) {
IfacePtr iface = IfaceMgr::instance().getIface(*iface_name);
if (iface && iface->flag_loopback_) {
loopback_used_ = true;
}
}
// Check address map
for (ExplicitAddressMap::const_iterator unicast = address_map_.begin();
unicast != address_map_.end(); ++unicast) {
IfacePtr iface = IfaceMgr::instance().getIface(unicast->first);
if (iface && iface->flag_loopback_) {
loopback_used_ = true;
}
}
}
// If wildcard interface '*' was not specified, set all interfaces to
// inactive state. We will later enable them selectively using the
// interface names specified by the user. If wildcard interface was
// specified, mark all interfaces active. Mark loopback inactive when
// not explicitly allowed.
setState(family, !wildcard_used_, !loopback_used_);
IfaceMgr& iface_mgr = IfaceMgr::instance();
// Remove selection of unicast addresses from all interfaces.
iface_mgr.clearUnicasts();
// Allow the loopback interface when required.
iface_mgr.setAllowLoopBack(loopback_used_);
// For the DHCPv4 server, if the user has selected that raw sockets
// should be used, we will try to configure the Interface Manager to
// support the direct responses to the clients that don't have the
// IP address. This should effectively turn on the use of raw
// sockets. However, this may be unsupported on some operating
// systems, so there is no guarantee.
if ((family == AF_INET) && (!IfaceMgr::instance().isTestMode())) {
iface_mgr.setMatchingPacketFilter(socket_type_ == SOCKET_RAW);
if ((socket_type_ == SOCKET_RAW) &&
!iface_mgr.isDirectResponseSupported()) {
LOG_WARN(dhcpsrv_logger, DHCPSRV_CFGMGR_SOCKET_RAW_UNSUPPORTED);
}
}
// If there is no wildcard interface specified, we will have to iterate
// over the names specified by the caller and enable them.
if (!wildcard_used_) {
for (IfaceSet::const_iterator iface_name = iface_set_.begin();
iface_name != iface_set_.end(); ++iface_name) {
IfacePtr iface = IfaceMgr::instance().getIface(*iface_name);
// This shouldn't really happen because we are checking the
// names of interfaces when they are being added (use()
// function). But, if someone has triggered detection of
// interfaces since then, some interfaces may have disappeared.
if (iface == NULL) {
isc_throw(Unexpected,
"fail to open socket on interface '"
<< *iface_name << "' as this interface doesn't"
" exist");
} else if (family == AF_INET) {
iface->inactive4_ = false;
setIfaceAddrsState(family, true, *iface);
} else {
iface->inactive6_ = false;
}
}
}
// Select unicast sockets for DHCPv6 or activate specific IPv4 addresses
// for DHCPv4.
for (ExplicitAddressMap::const_iterator unicast = address_map_.begin();
unicast != address_map_.end(); ++unicast) {
IfacePtr iface = IfaceMgr::instance().getIface(unicast->first);
if (iface == NULL) {
isc_throw(Unexpected,
"fail to open unicast socket on interface '"
<< unicast->first << "' as this interface doesn't"
" exist");
}
if (family == AF_INET6) {
iface->addUnicast(unicast->second);
iface->inactive6_ = false;
} else {
iface->setActive(unicast->second, true);
iface->inactive4_ = false;
}
}
// Use broadcast only if we're using raw sockets. For the UDP sockets,
// we only handle the relayed (unicast) traffic.
const bool can_use_bcast = use_bcast && (socket_type_ == SOCKET_RAW);
// Opening multiple raw sockets handling brodcast traffic on the single
// interface may lead to processing the same message multiple times.
// We don't prohibit such configuration because raw sockets can as well
// handle the relayed traffic. We have to issue a warning, however, to
// draw administrator's attention.
if (family == AF_INET && can_use_bcast && multipleAddressesPerInterfaceActive()) {
LOG_WARN(dhcpsrv_logger, DHCPSRV_MULTIPLE_RAW_SOCKETS_PER_IFACE);
}
reconnect_ctl_ = makeReconnectCtl();
auto sopen = openSocketsWithRetry(reconnect_ctl_, family, port, can_use_bcast);
if (!sopen) {
// If no socket were opened, log a warning because the server will
// not respond to any queries.
LOG_WARN(dhcpsrv_logger, DHCPSRV_NO_SOCKETS_OPEN);
}
}
std::pair<bool, bool>
CfgIface::openSocketsForFamily(const uint16_t family, const uint16_t port,
const bool can_use_bcast, const bool skip_opened) {
bool no_errors = true;
// Set the callbacks which are called when the socket fails to open
// for some specific interface.
auto error_callback = [&no_errors](const std::string& errmsg) {
socketOpenErrorHandler(errmsg);
no_errors = false;
};
IfaceMgr::instance().detectIfaces(true);
bool sopen = false;
if (family == AF_INET) {
sopen = IfaceMgr::instance().openSockets4(port, can_use_bcast,
error_callback, skip_opened);
} else {
// use_bcast is ignored for V6.
sopen = IfaceMgr::instance().openSockets6(port, error_callback,
skip_opened);
}
return (std::make_pair(sopen, no_errors));
}
ReconnectCtlPtr CfgIface::makeReconnectCtl() const {
// Create unique timer name per instance.
std::string timer_name = "SocketReopenTimer";
auto on_fail_action = OnFailAction::SERVE_RETRY_CONTINUE;
if (CfgIface::getServiceSocketsRequireAll()) {
on_fail_action = OnFailAction::SERVE_RETRY_EXIT;
}
// Add one attempt for an initial call.
auto reconnect_ctl = boost::make_shared<ReconnectCtl>("Socket", timer_name,
CfgIface::getServiceSocketsMaxRetries(),
CfgIface::getServiceSocketsRetryWaitTime(),
on_fail_action);
return (reconnect_ctl);
}
bool
CfgIface::openSocketsWithRetry(ReconnectCtlPtr reconnect_ctl,
const uint16_t family, const uint16_t port,
const bool can_use_bcast) {
MultiThreadingCriticalSection cs;
// Skip opened sockets in the retry calls.
bool is_initial_call = (reconnect_ctl->retriesLeft() == reconnect_ctl->maxRetries());
auto result_pair = openSocketsForFamily(family, port, can_use_bcast, !is_initial_call);
bool sopen = result_pair.first;
bool has_errors = !result_pair.second;
auto timer_name = reconnect_ctl->timerName();
// On the initial call, unregister the previous, pending timer.
if (is_initial_call && TimerMgr::instance()->isTimerRegistered(timer_name)) {
TimerMgr::instance()->unregisterTimer(timer_name);
}
// Has errors and can retry
if (has_errors && reconnect_ctl->retriesLeft() > 0) {
// Initial call is excluded from retries counter.
reconnect_ctl->checkRetries();
// Start the timer.
if (!TimerMgr::instance()->isTimerRegistered(timer_name)) {
TimerMgr::instance()->registerTimer(timer_name,
std::bind(&CfgIface::openSocketsWithRetry,
reconnect_ctl, family,
port, can_use_bcast),
reconnect_ctl->retryInterval(),
asiolink::IntervalTimer::ONE_SHOT);
}
TimerMgr::instance()->setup(timer_name);
} else {
// Cancel the timer.
if (TimerMgr::instance()->isTimerRegistered(timer_name)) {
TimerMgr::instance()->unregisterTimer(timer_name);
}
// Has errors but retries exceed
if (has_errors) {
if (open_sockets_failed_callback_) {
open_sockets_failed_callback_(reconnect_ctl);
}
}
}
return (sopen);
}
void
CfgIface::reset() {
wildcard_used_ = false;
iface_set_.clear();
address_map_.clear();
useSocketType(AF_INET, SOCKET_RAW);
}
void
CfgIface::setState(const uint16_t family, const bool inactive,
const bool loopback_inactive) const {
for (IfacePtr iface : IfaceMgr::instance().getIfaces()) {
bool iface_inactive = iface->flag_loopback_ ? loopback_inactive : inactive;
if (family == AF_INET) {
iface->inactive4_ = iface_inactive;
} else {
iface->inactive6_ = iface_inactive;
}
// Activate/deactivate all addresses.
setIfaceAddrsState(family, !inactive, *iface);
}
}
void
CfgIface::setIfaceAddrsState(const uint16_t family, const bool active,
Iface& iface) const {
// Activate/deactivate all addresses.
for (Iface::Address addr : iface.getAddresses()) {
if (addr.get().getFamily() == family) {
iface.setActive(addr.get(), active);
}
}
}
void
CfgIface::socketOpenErrorHandler(const std::string& errmsg) {
LOG_WARN(dhcpsrv_logger, DHCPSRV_OPEN_SOCKET_FAIL).arg(errmsg);
}
std::string
CfgIface::socketTypeToText() const {
switch (socket_type_) {
case SOCKET_RAW:
return ("raw");
case SOCKET_UDP:
return ("udp");
default:
;
}
isc_throw(Unexpected, "unsupported socket type " << socket_type_);
}
CfgIface::SocketType
CfgIface::textToSocketType(const std::string& socket_type_name) const {
if (socket_type_name == "udp") {
return (SOCKET_UDP);
} else if (socket_type_name == "raw") {
return (SOCKET_RAW);
} else {
isc_throw(InvalidSocketType, "unsupported socket type '"
<< socket_type_name << "'");
}
}
CfgIface::OutboundIface
CfgIface::getOutboundIface() const {
return (outbound_iface_);
}
std::string
CfgIface::outboundTypeToText() const {
switch (outbound_iface_) {
case SAME_AS_INBOUND:
return ("same-as-inbound");
case USE_ROUTING:
return ("use-routing");
default:
isc_throw(Unexpected, "unsupported outbound-type " << socket_type_);
}
}
CfgIface::OutboundIface
CfgIface::textToOutboundIface(const std::string& txt) {
if (txt == "same-as-inbound") {
return (SAME_AS_INBOUND);
} else if (txt == "use-routing") {
return (USE_ROUTING);
} else {
isc_throw(BadValue, "unsupported outbound interface type '"
<< txt << "'");
}
}
void
CfgIface::setOutboundIface(const OutboundIface& outbound_iface) {
outbound_iface_ = outbound_iface;
}
void
CfgIface::use(const uint16_t family, const std::string& iface_name) {
// The interface name specified may have two formats:
// - "interface-name", e.g. eth0
// - "interface-name/address", e.g. eth0/10.0.0.1 or eth/2001:db8:1::1
// The latter format is used to open unicast socket on the specified
// interface. Here we are detecting which format was used and we strip
// all extraneous spaces.
size_t pos = iface_name.find("/");
std::string name;
std::string addr_str;
// There is no unicast address so the whole string is an interface name.
if (pos == std::string::npos) {
name = util::str::trim(iface_name);
if (name.empty()) {
isc_throw(InvalidIfaceName,
"empty interface name used in configuration");
} else if (name != ALL_IFACES_KEYWORD) {
if (IfaceMgr::instance().getIface(name) == NULL) {
isc_throw(NoSuchIface, "interface '" << name
<< "' doesn't exist in the system");
}
} else if (wildcard_used_) {
isc_throw(DuplicateIfaceName, "the wildcard interface '"
<< ALL_IFACES_KEYWORD << "' can only be specified once");
} else {
LOG_DEBUG(dhcpsrv_logger, DHCPSRV_DBG_TRACE,
DHCPSRV_CFGMGR_ALL_IFACES_ACTIVE);
wildcard_used_ = true;
}
} else {
// The interface name includes the address on which the socket should
// be opened, and we need to split interface name and the address to
// two variables.
name = util::str::trim(iface_name.substr(0, pos));
addr_str = util::str::trim(iface_name.substr(pos + 1));
// Interface name must not be empty.
if (name.empty()) {
isc_throw(InvalidIfaceName,
"empty interface name specified in the"
" interface configuration");
}
// An address following the interface name must not be empty.
if (addr_str.empty()) {
isc_throw(InvalidIfaceName,
"empty address specified in the interface"
<< " configuration");
}
// Interface name must not be the wildcard name.
if (name == ALL_IFACES_KEYWORD) {
isc_throw(InvalidIfaceName,
"wildcard interface name '" << ALL_IFACES_KEYWORD
<< "' must not be used in conjunction with an"
" address");
}
// Interface must exist.
IfacePtr iface = IfaceMgr::instance().getIface(name);
if (!iface) {
isc_throw(NoSuchIface, "interface '" << name
<< "' doesn't exist in the system");
}
// Convert address string. This may throw an exception if the address
// is invalid.
IOAddress addr(addr_str);
// Validate V6 address.
if (family == AF_INET6) {
// Check that the address is a valid unicast address.
if (!addr.isV6() || addr.isV6Multicast()) {
isc_throw(InvalidIfaceName, "address '" << addr << "' is not"
" a valid IPv6 unicast address");
}
// There are valid cases where link local address can be specified to
// receive unicast traffic, e.g. sent by relay agent.
if (addr.isV6LinkLocal()) {
LOG_WARN(dhcpsrv_logger, DHCPSRV_CFGMGR_UNICAST_LINK_LOCAL)
.arg(addr.toText()).arg(name);
}
} else {
if (!addr.isV4()) {
isc_throw(InvalidIfaceName, "address '" << addr << "' is not"
" a valid IPv4 address");
}
}
// Interface must have this address assigned.
if (!iface->hasAddress(addr)) {
isc_throw(NoSuchAddress,
"interface '" << name << "' doesn't have address '"
<< addr << "' assigned");
}
// For the IPv4, if the interface name was specified (instead of the interface-
// address tuple) all addresses are already activated. Adding an explicit address
// for the interface should result in error.
if ((family == AF_INET) && (iface_set_.find(iface->getName()) != iface_set_.end())) {
isc_throw(DuplicateIfaceName, "interface '" << iface->getName()
<< "' has already been selected");
}
// Check if the address hasn't been selected already.
std::pair<const std::string, IOAddress> iface_address_tuple(name, addr);
if (std::find(address_map_.begin(), address_map_.end(),
iface_address_tuple) != address_map_.end()) {
isc_throw(DuplicateAddress, "must not select address '"
<< addr << "' for interface '" << name << "' "
"because this address is already selected");
}
if (family == AF_INET6) {
LOG_INFO(dhcpsrv_logger, DHCPSRV_CFGMGR_USE_UNICAST)
.arg(addr.toText()).arg(name);
} else {
LOG_INFO(dhcpsrv_logger, DHCPSRV_CFGMGR_USE_ADDRESS)
.arg(addr.toText()).arg(name);
}
address_map_.insert(std::pair<std::string, IOAddress>(name, addr));
}
// If interface name was explicitly specified without an address, we will
// insert the interface name to the set of enabled interfaces.
if ((name != ALL_IFACES_KEYWORD) && addr_str.empty()) {
// An interface has been selected or an IPv4 address on this interface
// has been selected it is not allowed to select the whole interface.
if ((iface_set_.find(name) != iface_set_.end()) ||
((family == AF_INET) && address_map_.count(name) > 0)) {
isc_throw(DuplicateIfaceName, "interface '" << name
<< "' has already been specified");
}
// Log that we're listening on the specific interface and that the
// address is not explicitly specified.
if (addr_str.empty()) {
LOG_INFO(dhcpsrv_logger, DHCPSRV_CFGMGR_ADD_IFACE).arg(name);
}
iface_set_.insert(name);
}
}
void
CfgIface::useSocketType(const uint16_t family,
const SocketType& socket_type) {
if (family != AF_INET) {
isc_throw(InvalidSocketType, "socket type must not be specified for"
" the DHCPv6 server");
}
socket_type_ = socket_type;
LOG_INFO(dhcpsrv_logger, DHCPSRV_CFGMGR_SOCKET_TYPE_SELECT)
.arg(socketTypeToText());
}
void
CfgIface::useSocketType(const uint16_t family,
const std::string& socket_type_name) {
useSocketType(family, textToSocketType(socket_type_name));
}
ElementPtr
CfgIface::toElement() const {
ElementPtr result = Element::createMap();
// Set user context
contextToElement(result);
// Set interfaces
ElementPtr ifaces = Element::createList();
if (wildcard_used_) {
ifaces->add(Element::create(std::string(ALL_IFACES_KEYWORD)));
}
for (IfaceSet::const_iterator iface = iface_set_.cbegin();
iface != iface_set_.cend(); ++iface) {
ifaces->add(Element::create(*iface));
}
for (ExplicitAddressMap::const_iterator address = address_map_.cbegin();
address != address_map_.cend(); ++address) {
std::string spec = address->first + "/" + address->second.toText();
ifaces->add(Element::create(spec));
}
result->set("interfaces", ifaces);
// Set dhcp-socket-type (no default because it is DHCPv4 specific)
// @todo emit raw if and only if DHCPv4
if (socket_type_ != SOCKET_RAW) {
result->set("dhcp-socket-type", Element::create(std::string("udp")));
}
if (outbound_iface_ != SAME_AS_INBOUND) {
result->set("outbound-interface", Element::create(outboundTypeToText()));
}
// Set re-detect
result->set("re-detect", Element::create(re_detect_));
// Set server socket binding
if (service_socket_require_all_) {
result->set("service-sockets-require-all", Element::create(service_socket_require_all_));
}
if (service_sockets_max_retries_ != 0) {
result->set("service-sockets-max-retries", Element::create(static_cast<int>(service_sockets_max_retries_)));
// If the max retries parameter is zero, the wait time is not used.
result->set("service-sockets-retry-wait-time", Element::create(static_cast<int>(service_sockets_retry_wait_time_)));
}
return (result);
}
} // end of isc::dhcp namespace
} // end of isc namespace
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