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|
// Copyright (C) 2012-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <dhcp/duid.h>
#include <dhcp/dhcp4.h>
#include <dhcp/dhcp6.h>
#include <dhcp/pkt4.h>
#include <dhcp/pkt6.h>
#include <dhcpsrv/host_mgr.h>
#include <dhcpsrv/lease_mgr.h>
#include <dhcpsrv/memfile_lease_mgr.h>
#include <hooks/hooks_manager.h>
#include <hooks/callout_handle.h>
#include <stats/stats_mgr.h>
#include <dhcpsrv/testutils/test_utils.h>
#include <dhcpsrv/tests/alloc_engine_utils.h>
#include <boost/shared_ptr.hpp>
#include <boost/scoped_ptr.hpp>
#include <iostream>
#include <sstream>
#include <algorithm>
#include <set>
#include <time.h>
using namespace std;
using namespace isc::hooks;
using namespace isc::asiolink;
using namespace isc::stats;
using namespace isc::util;
namespace isc {
namespace dhcp {
namespace test {
bool testStatistics(const std::string& stat_name, const int64_t exp_value,
const SubnetID subnet_id, bool fail_missing) {
try {
std::string name = (subnet_id == SUBNET_ID_UNUSED ? stat_name :
StatsMgr::generateName("subnet", subnet_id, stat_name));
ObservationPtr observation = StatsMgr::instance().getObservation(name);
if (observation) {
if (observation->getInteger().first != exp_value) {
ADD_FAILURE()
<< "value of the observed statistics '"
<< name << "' ("
<< observation->getInteger().first << ") "
<< "doesn't match expected value (" << exp_value << ")";
}
return (observation->getInteger().first == exp_value);
} else {
if (fail_missing) {
ADD_FAILURE() << "Expected statistic " << name
<< " not found.";
} else {
if (exp_value) {
ADD_FAILURE() << "Checking non existent statistic and expected value is not 0. Broken test?";
}
}
}
if (subnet_id != SUBNET_ID_UNUSED) {
name = StatsMgr::generateName("subnet", subnet_id, StatsMgr::generateName("pool", 0, stat_name));
observation = StatsMgr::instance().getObservation(name);
if (observation) {
if (observation->getInteger().first != exp_value) {
ADD_FAILURE()
<< "value of the observed statistics '"
<< name << "' ("
<< observation->getInteger().first << ") "
<< "doesn't match expected value (" << exp_value << ")";
}
return (observation->getInteger().first == exp_value);
} else {
if (fail_missing) {
ADD_FAILURE() << "Expected statistic " << name
<< " not found.";
} else {
if (exp_value) {
ADD_FAILURE() << "Checking non existent statistic and expected value is not 0. Broken test?";
}
}
}
}
} catch (const std::exception& e) {
ADD_FAILURE() << "Uncaught exception " << e.what();
} catch (...) {
ADD_FAILURE() << "Unknown exception";
}
return (false);
}
int64_t getStatistics(const std::string& stat_name, const SubnetID subnet_id) {
try {
std::string name = (subnet_id == SUBNET_ID_UNUSED ? stat_name :
StatsMgr::generateName("subnet", subnet_id, stat_name));
ObservationPtr observation = StatsMgr::instance().getObservation(name);
if (observation) {
return (observation->getInteger().first);
}
} catch (const std::exception& e) {
ADD_FAILURE() << "Uncaught exception " << e.what();
} catch (...) {
ADD_FAILURE() << "Unknown exception";
}
return (0);
}
void
AllocEngine4Test::testReuseLease4(const AllocEnginePtr& engine,
Lease4Ptr& existing_lease,
const std::string& addr,
const bool fake_allocation,
ExpectedResult exp_result,
Lease4Ptr& result) {
ASSERT_TRUE(engine);
if (existing_lease) {
// If an existing lease was specified, we need to add it to the
// database. Let's wipe any leases for that address (if any). We
// ignore any errors (previous lease may not exist)
(void) LeaseMgrFactory::instance().deleteLease(existing_lease);
// Let's add it.
ASSERT_TRUE(LeaseMgrFactory::instance().addLease(existing_lease));
}
// A client comes along, asking specifically for a given address
AllocEngine::ClientContext4 ctx(subnet_, clientid_, hwaddr_,
IOAddress(addr), false, false,
"", fake_allocation);
if (fake_allocation) {
ctx.query_.reset(new Pkt4(DHCPDISCOVER, 1234));
} else {
ctx.query_.reset(new Pkt4(DHCPREQUEST, 1234));
}
result = engine->allocateLease4(ctx);
switch (exp_result) {
case SHOULD_PASS:
ASSERT_TRUE(result);
checkLease4(result);
break;
case SHOULD_FAIL:
ASSERT_FALSE(result);
break;
}
}
Lease4Ptr
AllocEngine4Test::generateDeclinedLease(const std::string& addr,
time_t probation_period,
int32_t expired) {
// There's an assumption that hardware address is always present for IPv4
// packet (always non-null). Client-id is optional (may be null).
HWAddrPtr hwaddr(new HWAddr());
time_t now = time(NULL);
Lease4Ptr declined(new Lease4(addr, hwaddr, ClientIdPtr(), 495,
now, subnet_->getID()));
declined->decline(probation_period);
declined->cltt_ = now - probation_period + expired;
return (declined);
}
AllocEngine6Test::AllocEngine6Test() {
// No longer used but this means too that tests relied far too much on it.
//Subnet::resetSubnetID();
CfgMgr::instance().clear();
// This lease mgr needs to exist to before configuration commits.
factory_.create("type=memfile universe=6 persist=false");
duid_ = DuidPtr(new DUID(std::vector<uint8_t>(8, 0x42)));
iaid_ = 42;
// Create fresh instance of the HostMgr, and drop any previous HostMgr state.
HostMgr::instance().create();
// Let's use odd hardware type to check if there is no Ethernet
// hardcoded anywhere.
const uint8_t mac[] = { 0, 1, 22, 33, 44, 55 };
hwaddr_ = HWAddrPtr(new HWAddr(mac, sizeof(mac), HTYPE_FDDI));
// Initialize a subnet and short address pool.
initSubnet(IOAddress("2001:db8:1::"),
IOAddress("2001:db8:1::10"),
IOAddress("2001:db8:1::20"),
IOAddress("2001:db8:1:2::"),
64, 80);
initFqdn("", false, false);
StatsMgr::instance().resetAll();
}
void
AllocEngine6Test::initSubnet(const asiolink::IOAddress& subnet,
const asiolink::IOAddress& pool_start,
const asiolink::IOAddress& pool_end,
const asiolink::IOAddress& pd_pool_prefix,
const uint8_t pd_pool_length,
const uint8_t pd_delegated_length) {
CfgMgr& cfg_mgr = CfgMgr::instance();
static SubnetID id(1);
subnet_ = Subnet6::create(subnet, 56, 100, 200, 300, 400, id++);
pool_ = Pool6Ptr(new Pool6(Lease::TYPE_NA, pool_start, pool_end));
subnet_->addPool(pool_);
if (!pd_pool_prefix.isV6Zero()) {
pd_pool_ = Pool6Ptr(new Pool6(Lease::TYPE_PD, pd_pool_prefix,
pd_pool_length, pd_delegated_length));
}
subnet_->addPool(pd_pool_);
cfg_mgr.getStagingCfg()->getCfgSubnets6()->add(subnet_);
cfg_mgr.commit();
}
void
AllocEngine6Test::findReservation(AllocEngine& engine,
AllocEngine::ClientContext6& ctx) {
engine.findReservation(ctx);
// Let's check whether there's a hostname specified in the reservation
if (ctx.currentHost()) {
std::string hostname = ctx.currentHost()->getHostname();
// If there is, let's use it
if (!hostname.empty()) {
ctx.hostname_ = hostname;
}
}
}
HostPtr
AllocEngine6Test::createHost6HWAddr(bool add_to_host_mgr, IPv6Resrv::Type type,
HWAddrPtr& hwaddr, const asiolink::IOAddress& addr,
uint8_t prefix_len) {
HostPtr host(new Host(&hwaddr->hwaddr_[0], hwaddr->hwaddr_.size(),
Host::IDENT_HWADDR, SUBNET_ID_UNUSED, subnet_->getID(),
asiolink::IOAddress("0.0.0.0")));
IPv6Resrv resv(type, addr, prefix_len);
host->addReservation(resv);
if (add_to_host_mgr) {
CfgMgr::instance().getStagingCfg()->getCfgHosts()->add(host);
CfgMgr::instance().commit();
}
return (host);
}
Lease6Collection
AllocEngine6Test::allocateTest(AllocEngine& engine, const Pool6Ptr& pool,
const asiolink::IOAddress& hint, bool fake,
bool in_pool, uint8_t hint_prefix_length) {
Lease::Type type = pool->getType();
uint8_t expected_len = pool->getLength();
Pkt6Ptr query(new Pkt6(fake ? DHCPV6_SOLICIT : DHCPV6_REQUEST, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid_, false, false, "",
fake, query);
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().type_ = type;
ctx.currentIA().addHint(hint, hint_prefix_length);
Lease6Collection leases;
findReservation(engine, ctx);
EXPECT_NO_THROW(leases = engine.allocateLeases6(ctx));
for (auto const& it : leases) {
// Do all checks on the lease
checkLease6(duid_, it, type, expected_len, in_pool, in_pool);
// Check that context has been updated with allocated addresses or
// prefixes.
checkAllocatedResources(it, ctx);
// Check that the lease is indeed in LeaseMgr
Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(type,
it->addr_);
if (!fake) {
// This is a real (REQUEST) allocation, the lease must be in the DB
EXPECT_TRUE(from_mgr) << "Lease " << from_mgr->addr_.toText()
<< " returned by allocateLeases6(), "
<< "but was not present in LeaseMgr";
if (!from_mgr) {
return (leases);
}
// Now check that the lease in LeaseMgr has the same parameters
detailCompareLease(it, from_mgr);
} else {
// This is a fake (SOLICIT) allocation, the lease must not be in DB
EXPECT_FALSE(from_mgr) << "Lease " << from_mgr->addr_.toText()
<< " returned by allocateLeases6(), "
<< "was present in LeaseMgr (expected to be"
<< " not present)";
if (from_mgr) {
return (leases);
}
}
}
return (leases);
}
Lease6Ptr
AllocEngine6Test::simpleAlloc6Test(const Pool6Ptr& pool, const IOAddress& hint,
bool fake, bool in_pool) {
return (simpleAlloc6Test(pool, duid_, hint, fake, in_pool));
}
Lease6Ptr
AllocEngine6Test::simpleAlloc6Test(const Pool6Ptr& pool, const IOAddress& hint,
uint32_t preferred, uint32_t valid,
uint32_t exp_preferred, uint32_t exp_valid,
ClientClassDefPtr class_def) {
Lease::Type type = pool->getType();
uint8_t expected_len = pool->getLength();
boost::scoped_ptr<AllocEngine> engine;
EXPECT_NO_THROW(engine.reset(new AllocEngine(100)));
// We can't use ASSERT macros in non-void methods
EXPECT_TRUE(engine);
if (!engine) {
return (Lease6Ptr());
}
Pkt6Ptr query(new Pkt6(DHCPV6_REQUEST, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid_, false, false, "", false, query);
ctx.hwaddr_ = hwaddr_;
ctx.addHostIdentifier(Host::IDENT_HWADDR, hwaddr_->hwaddr_);
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().type_ = type;
ctx.currentIA().addHint(hint, expected_len, preferred, valid);
subnet_->setPreferred(Triplet<uint32_t>(200, 300, 400));
subnet_->setValid(Triplet<uint32_t>(300, 400, 500));
if (class_def) {
std::cout << "adding class defintion" << std::endl;
CfgMgr::instance().getStagingCfg()->getClientClassDictionary()->addClass(class_def);
ctx.query_->addClass(class_def->getName());
}
// Set some non-standard callout status to make sure it doesn't affect the
// allocation.
ctx.callout_handle_ = HooksManager::createCalloutHandle();
ctx.callout_handle_->setStatus(CalloutHandle::NEXT_STEP_SKIP);
findReservation(*engine, ctx);
Lease6Ptr lease;
EXPECT_NO_THROW(lease = expectOneLease(engine->allocateLeases6(ctx)));
// Check that we got a lease
EXPECT_TRUE(lease);
if (!lease) {
return (Lease6Ptr());
}
// Do all checks on the lease
checkLease6(duid_, lease, type, expected_len, true, true);
// Check expected preferred and valid lifetimes.
EXPECT_EQ(exp_preferred, lease->preferred_lft_);
EXPECT_EQ(exp_valid, lease->valid_lft_);
return (lease);
}
Lease6Ptr
AllocEngine6Test::simpleAlloc6Test(const Pool6Ptr& pool, const DuidPtr& duid,
const IOAddress& hint, bool fake, bool in_pool) {
Lease::Type type = pool->getType();
uint8_t expected_len = pool->getLength();
boost::scoped_ptr<AllocEngine> engine;
EXPECT_NO_THROW(engine.reset(new AllocEngine(100)));
// We can't use ASSERT macros in non-void methods
EXPECT_TRUE(engine);
if (!engine) {
return (Lease6Ptr());
}
Pkt6Ptr query(new Pkt6(fake ? DHCPV6_SOLICIT : DHCPV6_REQUEST, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid, false, false, "", fake, query);
ctx.hwaddr_ = hwaddr_;
ctx.addHostIdentifier(Host::IDENT_HWADDR, hwaddr_->hwaddr_);
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().type_ = type;
ctx.currentIA().addHint(hint);
// Set some non-standard callout status to make sure it doesn't affect the
// allocation.
ctx.callout_handle_ = HooksManager::createCalloutHandle();
ctx.callout_handle_->setStatus(CalloutHandle::NEXT_STEP_SKIP);
findReservation(*engine, ctx);
Lease6Ptr lease;
EXPECT_NO_THROW(lease = expectOneLease(engine->allocateLeases6(ctx)));
// Check that we got a lease
EXPECT_TRUE(lease);
if (!lease) {
return (Lease6Ptr());
}
// Do all checks on the lease
checkLease6(duid, lease, type, expected_len, in_pool, in_pool);
// Check that the lease is indeed in LeaseMgr
Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(type, lease->addr_);
if (!fake) {
// This is a real (REQUEST) allocation, the lease must be in the DB
EXPECT_TRUE(from_mgr);
if (!from_mgr) {
return (Lease6Ptr());
}
// Now check that the lease in LeaseMgr has the same parameters
detailCompareLease(lease, from_mgr);
} else {
// This is a fake (SOLICIT) allocation, the lease must not be in DB
EXPECT_FALSE(from_mgr);
if (from_mgr) {
return (Lease6Ptr());
}
}
return (lease);
}
Lease6Collection
AllocEngine6Test::renewTest(AllocEngine& engine, const Pool6Ptr& pool,
AllocEngine::HintContainer& hints,
bool in_subnet, bool in_pool) {
Lease::Type type = pool->getType();
uint8_t expected_len = pool->getLength();
Pkt6Ptr query(new Pkt6(DHCPV6_RENEW, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid_, false, false, "",
false, query);
ctx.currentIA().hints_ = hints;
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().type_ = type;
findReservation(engine, ctx);
Lease6Collection leases = engine.renewLeases6(ctx);
for (auto const& it : leases) {
// Do all checks on the lease
checkLease6(duid_, it, type, expected_len, in_subnet, in_pool);
// Check that context has been updated with allocated addresses or
// prefixes.
checkAllocatedResources(it, ctx);
// Check that the lease is indeed in LeaseMgr
Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(type,
it->addr_);
// This is a real (REQUEST) allocation, the lease must be in the DB
EXPECT_TRUE(from_mgr) << "Lease " << from_mgr->addr_.toText()
<< " returned by allocateLeases6(), "
<< "but was not present in LeaseMgr";
if (!from_mgr) {
return (leases);
}
// Now check that the lease in LeaseMgr has the same parameters
detailCompareLease(it, from_mgr);
}
return (leases);
}
void
AllocEngine6Test::allocWithUsedHintTest(Lease::Type type, IOAddress used_addr,
IOAddress requested,
uint8_t expected_pd_len) {
boost::scoped_ptr<AllocEngine> engine;
ASSERT_NO_THROW(engine.reset(new AllocEngine(100)));
ASSERT_TRUE(engine);
// Let's create a lease and put it in the LeaseMgr
DuidPtr duid2 = boost::shared_ptr<DUID>(new DUID(vector<uint8_t>(8, 0xff)));
time_t now = time(NULL);
Lease6Ptr used(new Lease6(type, used_addr,
duid2, 1, 2, now, subnet_->getID()));
ASSERT_TRUE(LeaseMgrFactory::instance().addLease(used));
// Another client comes in and request an address that is in pool, but
// unfortunately it is used already. The same address must not be allocated
// twice.
Pkt6Ptr query(new Pkt6(DHCPV6_REQUEST, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid_, false, false, "", false,
query);
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().type_ = type;
ctx.currentIA().addHint(requested);
Lease6Ptr lease;
EXPECT_NO_THROW(lease = expectOneLease(engine->allocateLeases6(ctx)));
// Check that we got a lease
ASSERT_TRUE(lease);
// Allocated address must be different
EXPECT_NE(used_addr, lease->addr_);
// We should NOT get what we asked for, because it is used already
EXPECT_NE(requested, lease->addr_);
// Do all checks on the lease
checkLease6(duid_, lease, type, expected_pd_len);
// Check that the lease is indeed in LeaseMgr
Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(lease->type_,
lease->addr_);
ASSERT_TRUE(from_mgr);
// Now check that the lease in LeaseMgr has the same parameters
detailCompareLease(lease, from_mgr);
}
void
AllocEngine6Test::allocBogusHint6(Lease::Type type, asiolink::IOAddress hint,
uint8_t expected_pd_len) {
boost::scoped_ptr<AllocEngine> engine;
ASSERT_NO_THROW(engine.reset(new AllocEngine(100)));
ASSERT_TRUE(engine);
// Client would like to get a 3000::abc lease, which does not belong to any
// supported lease. Allocation engine should ignore it and carry on
// with the normal allocation
Pkt6Ptr query(new Pkt6(DHCPV6_REQUEST, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid_, false, false, "", false,
query);
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().type_ = type;
ctx.currentIA().addHint(hint);
Lease6Ptr lease;
EXPECT_NO_THROW(lease = expectOneLease(engine->allocateLeases6(ctx)));
// Check that we got a lease
ASSERT_TRUE(lease);
// We should NOT get what we asked for, because it is used already
EXPECT_NE(hint, lease->addr_);
// Do all checks on the lease
checkLease6(duid_, lease, type, expected_pd_len);
// Check that the lease is indeed in LeaseMgr
Lease6Ptr from_mgr = LeaseMgrFactory::instance().getLease6(lease->type_,
lease->addr_);
ASSERT_TRUE(from_mgr);
// Now check that the lease in LeaseMgr has the same parameters
detailCompareLease(lease, from_mgr);
}
void
AllocEngine6Test::testReuseLease6(const AllocEnginePtr& engine,
Lease6Ptr& existing_lease,
const std::string& addr,
const bool fake_allocation,
ExpectedResult exp_result,
Lease6Ptr& result) {
ASSERT_TRUE(engine);
if (existing_lease) {
// If an existing lease was specified, we need to add it to the
// database. Let's wipe any leases for that address (if any). We
// ignore any errors (previous lease may not exist)
(void) LeaseMgrFactory::instance().deleteLease(existing_lease);
// Let's add it.
ASSERT_TRUE(LeaseMgrFactory::instance().addLease(existing_lease));
}
// A client comes along, asking specifically for a given address
Pkt6Ptr query(new Pkt6(fake_allocation ? DHCPV6_SOLICIT : DHCPV6_REQUEST, 1234));
AllocEngine::ClientContext6 ctx(subnet_, duid_, false, false, "",
fake_allocation, query);
ctx.currentIA().iaid_ = iaid_;
ctx.currentIA().addHint(IOAddress(addr));
Lease6Collection leases;
leases = engine->allocateLeases6(ctx);
switch (exp_result) {
case SHOULD_PASS:
ASSERT_FALSE(leases.empty());
ASSERT_EQ(1, leases.size());
result = leases[0];
checkLease6(duid_, result, Lease::TYPE_NA, 128);
break;
case SHOULD_FAIL:
ASSERT_TRUE(leases.empty());
break;
}
}
Lease6Ptr
AllocEngine6Test::generateDeclinedLease(const std::string& addr,
time_t probation_period,
int32_t expired) {
Lease6Ptr declined(new Lease6(Lease::TYPE_NA, IOAddress(addr),
duid_, iaid_, 100, 100, subnet_->getID()));
time_t now = time(NULL);
declined->decline(probation_period);
declined->cltt_ = now - probation_period + expired;
return (declined);
}
void
AllocEngine4Test::initSubnet(const asiolink::IOAddress& pool_start,
const asiolink::IOAddress& pool_end) {
CfgMgr& cfg_mgr = CfgMgr::instance();
static SubnetID id(1);
subnet_ = Subnet4::create(IOAddress("192.0.2.0"), 24, 1, 2, 3, id++);
pool_ = Pool4Ptr(new Pool4(pool_start, pool_end));
subnet_->addPool(pool_);
cfg_mgr.getStagingCfg()->getCfgSubnets4()->add(subnet_);
}
AllocEngine4Test::AllocEngine4Test() {
// No longer used but this means too that tests relied far too much on it.
//Subnet::resetSubnetID();
CfgMgr::instance().clear();
// This lease mgr needs to exist to before configuration commits.
factory_.create("type=memfile universe=4 persist=false");
// Create fresh instance of the HostMgr, and drop any previous HostMgr state.
HostMgr::instance().create();
clientid_ = ClientIdPtr(new ClientId(vector<uint8_t>(8, 0x44)));
clientid2_ = ClientIdPtr(new ClientId(vector<uint8_t>(8, 0x56)));
uint8_t mac[] = { 0, 1, 22, 33, 44, 55};
// Let's use odd hardware type to check if there is no Ethernet
// hardcoded anywhere.
hwaddr_ = HWAddrPtr(new HWAddr(mac, sizeof(mac), HTYPE_FDDI));
// Allocate different MAC address for the tests that require two
// different MAC addresses.
++mac[sizeof(mac) - 1];
hwaddr2_ = HWAddrPtr(new HWAddr(mac, sizeof (mac), HTYPE_FDDI));
// instantiate cfg_mgr
CfgMgr& cfg_mgr = CfgMgr::instance();
initSubnet(IOAddress("192.0.2.100"), IOAddress("192.0.2.109"));
cfg_mgr.commit();
// Create a default context. Note that remaining parameters must be
// assigned when needed.
ctx_.subnet_ = subnet_;
ctx_.clientid_ = clientid_;
ctx_.hwaddr_ = hwaddr_;
ctx_.callout_handle_ = HooksManager::createCalloutHandle();
ctx_.query_.reset(new Pkt4(DHCPREQUEST, 1234));
StatsMgr::instance().resetAll();
}
} // namespace test
} // namespace dhcp
} // namespace isc
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