blob: 022e80b123fcb5cf28cead3b9b441e34b685f962 [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/**
* Copyright (c) 2013-2017 Regents of the University of California.
*
* This file is part of ndn-cxx library (NDN C++ library with eXperimental eXtensions).
*
* ndn-cxx library is free software: you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License as published by the Free Software
* Foundation, either version 3 of the License, or (at your option) any later version.
*
* ndn-cxx library is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
* PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
*
* You should have received copies of the GNU General Public License and GNU Lesser
* General Public License along with ndn-cxx, e.g., in COPYING.md file. If not, see
* <http://www.gnu.org/licenses/>.
*
* See AUTHORS.md for complete list of ndn-cxx authors and contributors.
*/
#include "security/validator-config.hpp"
#include "security/signing-helpers.hpp"
#include "util/io.hpp"
#include "util/scheduler.hpp"
#include "util/dummy-client-face.hpp"
#include "lp/tags.hpp"
#include "lp/nack.hpp"
#include <boost/asio.hpp>
#include <boost/logic/tribool.hpp>
#include "identity-management-fixture.hpp"
#include "../identity-management-time-fixture.hpp"
#include "../make-interest-data.hpp"
#include "boost-test.hpp"
namespace ndn {
namespace security {
namespace tests {
using namespace ndn::tests;
BOOST_AUTO_TEST_SUITE(Security)
BOOST_FIXTURE_TEST_SUITE(TestValidatorConfig, IdentityManagementFixture)
BOOST_AUTO_TEST_CASE(NameFilter)
{
Name identity("/TestValidatorConfig/NameFilter");
identity.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity), "trust-anchor-1.cert"));
Name certName = m_keyChain.getDefaultCertificateNameForIdentity(identity);
Name dataName1("/simple/equal");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity)));
Name dataName2("/simple/different");
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity)));
std::string CONFIG_1 =
"rule\n"
"{\n"
" id \"Simple Rule\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" name /simple/equal\n"
" relation equal\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" name ";
std::string CONFIG_2 =
"\n"
" relation equal\n"
" }\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-1.cert\"\n"
"}\n";
const std::string CONFIG = CONFIG_1 + certName.getPrefix(-1).toUri() + CONFIG_2;
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
}
BOOST_AUTO_TEST_CASE(NameFilter2)
{
Name identity("/TestValidatorConfig/NameFilter2");
identity.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity), "trust-anchor-2.cert"));
Name certName = m_keyChain.getDefaultCertificateNameForIdentity(identity);
Name dataName1("/simple/isPrefixOf");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity)));
Name dataName2("/simple/notPrefixOf");
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity)));
Name dataName3("/simple/isPrefixOf/anotherLevel");
shared_ptr<Data> data3 = make_shared<Data>(dataName3);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data3, security::signingByIdentity(identity)));
std::string CONFIG_1 =
"rule\n"
"{\n"
" id \"Simple2 Rule\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" name /simple/isPrefixOf\n"
" relation is-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" name ";
std::string CONFIG_2 =
"\n"
" relation equal\n"
" }\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-2.cert\"\n"
"}\n";
const std::string CONFIG = CONFIG_1 + certName.getPrefix(-1).toUri() + CONFIG_2;
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*data3,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
}
BOOST_AUTO_TEST_CASE(NameFilter3)
{
Name identity("/TestValidatorConfig/NameFilter3");
identity.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity), "trust-anchor-3.cert"));
Name certName = m_keyChain.getDefaultCertificateNameForIdentity(identity);
Name dataName1("/simple/isStrictPrefixOf");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity)));
Name dataName2("/simple");
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity)));
Name dataName3("/simple/isStrictPrefixOf/anotherLevel");
shared_ptr<Data> data3 = make_shared<Data>(dataName3);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data3, security::signingByIdentity(identity)));
std::string CONFIG_1 =
"rule\n"
"{\n"
" id \"Simple3 Rule\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" name /simple/isStrictPrefixOf\n"
" relation is-strict-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" name ";
std::string CONFIG_2 =
"\n"
" relation equal\n"
" }\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-3.cert\"\n"
"}\n";
const std::string CONFIG = CONFIG_1 + certName.getPrefix(-1).toUri() + CONFIG_2;
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*data3,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
}
BOOST_AUTO_TEST_CASE(NameFilter4)
{
Name identity("/TestValidatorConfig/NameFilter4");
identity.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity), "trust-anchor-4.cert"));
Name certName = m_keyChain.getDefaultCertificateNameForIdentity(identity);
Name dataName1("/simple/regex");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity)));
Name dataName2("/simple/regex-wrong");
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity)));
Name dataName3("/simple/regex/correct");
shared_ptr<Data> data3 = make_shared<Data>(dataName3);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data3, security::signingByIdentity(identity)));
std::string CONFIG_1 =
"rule\n"
"{\n"
" id \"Simple3 Rule\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" regex ^<simple><regex>\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" name ";
std::string CONFIG_2 =
"\n"
" relation equal\n"
" }\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-4.cert\"\n"
"}\n";
const std::string CONFIG = CONFIG_1 + certName.getPrefix(-1).toUri() + CONFIG_2;
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*data3,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
}
BOOST_AUTO_TEST_CASE(KeyLocatorNameChecker1)
{
Name identity("/TestValidatorConfig/KeyLocatorNameChecker1");
identity.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity), "trust-anchor-5.cert"));
Name dataName1 = identity;
dataName1.append("1");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity)));
Name dataName2 = identity;
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity)));
Name dataName3("/TestValidatorConfig/KeyLocatorNameChecker1");
shared_ptr<Data> data3 = make_shared<Data>(dataName3);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data3, security::signingByIdentity(identity)));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"Simple3 Rule\"\n"
" for data\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" hyper-relation\n"
" {\n"
" k-regex ^([^<KEY>]*)<KEY>(<>*)<><ID-CERT>$\n"
" k-expand \\\\1\\\\2\n"
" h-relation is-strict-prefix-of\n"
" p-regex ^(<>*)$\n"
" p-expand \\\\1\n"
" }\n"
" }\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-5.cert\"\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*data3,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
}
BOOST_AUTO_TEST_CASE(FixedSignerChecker)
{
Name identity("/TestValidatorConfig/FixedSignerChecker");
Name identity1 = identity;
identity1.append("1").appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity1), "trust-anchor-7.cert"));
Name identity2 = identity;
identity2.append("2").appendVersion();
addIdentity(identity2);
Name dataName1 = identity;
dataName1.append("data").appendVersion();
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity1)));
Name dataName2 = identity;
dataName2.append("data").appendVersion();
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity2)));
Name interestName("/TestValidatorConfig/FixedSignerChecker/fakeSigInfo/fakeSigValue");
shared_ptr<Interest> interest = make_shared<Interest>(interestName);
const std::string CONFIG =
"rule\n"
"{\n"
" id \"FixedSignerChecker Data Rule\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/FixedSignerChecker\n"
" relation is-strict-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type rsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-7.cert\"\n"
" }\n"
" }\n"
"}\n"
"rule\n"
"{\n"
" id \"FixedSignerChecker Interest Rule\"\n"
" for interest\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/FixedSignerChecker\n"
" relation is-strict-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type rsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-7.cert\"\n"
" }\n"
" }\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*interest,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
}
BOOST_AUTO_TEST_CASE(MultiCheckers)
{
Name identity1("/TestValidatorConfig/MultiCheckers/");
identity1.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity1), "trust-anchor-multi-1.cert"));
Name identity2("/TestValidatorConfig/");
identity2.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity2), "trust-anchor-multi-2.cert"));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"Simple Rule01\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" name /\n"
" relation is-prefix-of\n"
" }\n"
" checker\n" // checker 1, signer should have prefix /TestValidatorConfig/MultiCheckers
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" name /TestValidatorConfig/MultiCheckers/\n"
" relation is-prefix-of\n"
" }\n"
" }\n"
" checker\n" // checker 2, data should have same prefix of its signer
" {\n"
" type hierarchical\n"
" sig-type rsa-sha256\n"
" }\n"
" checker\n" // checker 3, the signer should be identity1
" {\n"
" type fixed-signer\n"
" sig-type rsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-multi-1.cert\"\n"
" }\n"
" }\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-multicheckers.conf"));
ValidatorConfig validator;
validator.load(CONFIG, CONFIG_PATH.c_str());
conf::Checker& checker0 = *validator.m_dataRules.front()->m_checkers[0];
conf::Checker& checker1 = *validator.m_dataRules.front()->m_checkers[1];
conf::Checker& checker2 = *validator.m_dataRules.front()->m_checkers[2];
auto data1 = makeData(Name(identity1).append("Test"));
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity1)));
BOOST_CHECK_EQUAL(checker0.check(*data1), 0);
BOOST_CHECK_EQUAL(checker1.check(*data1), 0);
BOOST_CHECK_EQUAL(checker2.check(*data1), 1);
auto data2 = makeData(Name(identity2).append("Data2"));
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(identity2)));
BOOST_CHECK_EQUAL(checker0.check(*data2), -1);
BOOST_CHECK_EQUAL(checker1.check(*data2), 0);
BOOST_CHECK_EQUAL(checker2.check(*data2), -1);
auto data3 = makeData(Name(identity2).append("Data3"));
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data3, security::signingByIdentity(identity1)));
BOOST_CHECK_EQUAL(checker0.check(*data3), 0);
BOOST_CHECK_EQUAL(checker1.check(*data3), -1);
BOOST_CHECK_EQUAL(checker2.check(*data3), 1);
auto data4 = makeData("/Data4");
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data4, security::signingByIdentity(identity2)));
BOOST_CHECK_EQUAL(checker0.check(*data4), -1);
BOOST_CHECK_EQUAL(checker1.check(*data4), -1);
BOOST_CHECK_EQUAL(checker2.check(*data4), -1);
int count = 0;
validator.validate(*data1,
[&] (const shared_ptr<const Data>&) {
BOOST_CHECK(true);
count++;
},
[] (const shared_ptr<const Data>&, const std::string& str) { BOOST_CHECK(false); });
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[&] (const shared_ptr<const Data>&, const std::string& str) {
BOOST_CHECK(true);
count++;
});
validator.validate(*data3,
[&] (const shared_ptr<const Data>&) {
BOOST_CHECK(true);
count++;
},
[] (const shared_ptr<const Data>&, const std::string& str) { BOOST_CHECK(false); });
validator.validate(*data4,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[&] (const shared_ptr<const Data>&, const std::string& str) {
BOOST_CHECK(true);
count++;
});
BOOST_CHECK_EQUAL(count, 4);
}
BOOST_AUTO_TEST_CASE(Reset)
{
Name root("/TestValidatorConfig/Reload");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(root), "trust-anchor-8.cert"));
Face face(nullptr, m_keyChain);
const std::string CONFIG =
"rule\n"
"{\n"
" id \"NRD Prefix Registration Command Rule\"\n"
" for interest\n"
" filter\n"
" {\n"
" type name\n"
" regex ^<localhost><nrd>[<register><unregister><advertise><withdraw>]<>$\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT>$\n"
" }\n"
" }\n"
"}\n"
"rule\n"
"{\n"
" id \"Testbed Hierarchy Rule\"\n"
" for data\n"
" filter\n"
" {\n"
" type name\n"
" regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT><>$\n"
" }\n"
" checker\n"
" {\n"
" type hierarchical\n"
" sig-type rsa-sha256\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-8.cert\"\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
shared_ptr<ValidatorConfig> validator = shared_ptr<ValidatorConfig>(new ValidatorConfig(face));
validator->load(CONFIG, CONFIG_PATH.c_str());
BOOST_CHECK_EQUAL(validator->isEmpty(), false);
validator->reset();
BOOST_CHECK(validator->isEmpty());
}
BOOST_AUTO_TEST_CASE(TrustAnchorWildcard)
{
Name identity("/TestValidatorConfig/Wildcard");
identity.appendVersion();
addIdentity(identity);
Name dataName1("/any/data");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(identity)));
std::string CONFIG =
"trust-anchor\n"
"{\n"
" type any\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
}
BOOST_AUTO_TEST_CASE(SignedInterestTest)
{
Name identity("/TestValidatorConfig/SignedInterestTest");
Name identity1 = identity;
identity1.appendVersion();
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity1), "trust-anchor-9.cert"));
Name interestName("/TestValidatorConfig/SignedInterestTest");
Name interestName1 = interestName;
interestName1.append("1");
shared_ptr<Interest> interest1 = make_shared<Interest>(interestName1);
Name interestName2 = interestName;
interestName2.append("2");
shared_ptr<Interest> interest2 = make_shared<Interest>(interestName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest1, security::signingByIdentity(identity1)));
usleep(10000);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest2, security::signingByIdentity(identity1)));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"FixedSignerChecker Interest Rule\"\n"
" for interest\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/SignedInterestTest\n"
" relation is-strict-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type rsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-9.cert\"\n"
" }\n"
" }\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest2,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
}
BOOST_AUTO_TEST_CASE(MaxKeyTest)
{
Name identity("/TestValidatorConfig/MaxKeyTest");
Name identity1 = identity;
identity1.append("Key1");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity1), "trust-anchor-10-1.cert"));
Name identity2 = identity;
identity2.append("Key2");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity2), "trust-anchor-10-2.cert"));
Name identity3 = identity;
identity3.append("Key3");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity3), "trust-anchor-10-3.cert"));
Name interestName("/TestValidatorConfig/MaxKeyTest");
Name interestName1 = interestName;
interestName1.append("1");
shared_ptr<Interest> interest1 = make_shared<Interest>(interestName1);
Name interestName2 = interestName;
interestName2.append("2");
shared_ptr<Interest> interest2 = make_shared<Interest>(interestName2);
Name interestName3 = interestName;
interestName3.append("3");
shared_ptr<Interest> interest3 = make_shared<Interest>(interestName3);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest1, security::signingByIdentity(identity1)));
usleep(10000);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest2, security::signingByIdentity(identity2)));
usleep(10000);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest3, security::signingByIdentity(identity3)));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"FixedSignerChecker Interest Rule\"\n"
" for interest\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/MaxKeyTest\n"
" relation is-strict-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type rsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-1.cert\"\n"
" }\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-2.cert\"\n"
" }\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-3.cert\"\n"
" }\n"
" }\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face,
ValidatorConfig::DEFAULT_CERTIFICATE_CACHE,
ValidatorConfig::DEFAULT_GRACE_INTERVAL,
10,
2, // Two keys can be tracked
time::seconds(1)); // TTL is set to 1 sec
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest2,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*interest3,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
// Should succeed because identity1's key has been cleaned up due to space limit.
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
}
BOOST_AUTO_TEST_CASE(MaxKeyTest2)
{
Name identity("/TestValidatorConfig/MaxKeyTest");
Name identity1 = identity;
identity1.append("Key1");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity1), "trust-anchor-10-1.cert"));
Name identity2 = identity;
identity2.append("Key2");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity2), "trust-anchor-10-2.cert"));
Name identity3 = identity;
identity3.append("Key3");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity3), "trust-anchor-10-3.cert"));
Name identity4 = identity;
identity4.append("Key4");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(identity4), "trust-anchor-10-4.cert"));
Name interestName("/TestValidatorConfig/MaxKeyTest");
Name interestName1 = interestName;
interestName1.append("1");
shared_ptr<Interest> interest1 = make_shared<Interest>(interestName1);
Name interestName2 = interestName;
interestName2.append("2");
shared_ptr<Interest> interest2 = make_shared<Interest>(interestName2);
Name interestName3 = interestName;
interestName3.append("3");
shared_ptr<Interest> interest3 = make_shared<Interest>(interestName3);
Name interestName4 = interestName;
interestName4.append("4");
shared_ptr<Interest> interest4 = make_shared<Interest>(interestName4);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest1, security::signingByIdentity(identity1)));
usleep(10000);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest2, security::signingByIdentity(identity2)));
usleep(10000);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest3, security::signingByIdentity(identity3)));
usleep(10000);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest4, security::signingByIdentity(identity4)));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"FixedSignerChecker Interest Rule\"\n"
" for interest\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/MaxKeyTest\n"
" relation is-strict-prefix-of\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type rsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-1.cert\"\n"
" }\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-2.cert\"\n"
" }\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-3.cert\"\n"
" }\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-10-4.cert\"\n"
" }\n"
" }\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face,
ValidatorConfig::DEFAULT_CERTIFICATE_CACHE,
ValidatorConfig::DEFAULT_GRACE_INTERVAL,
10,
3, // Three keys can be tracked
time::seconds(1)); // TTL is set to 1 sec
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest2,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest3,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*interest2,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*interest3,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
sleep(2);
validator.validate(*interest4,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
// Should succeed because identity1 and identity2's key has been cleaned up due to ttl limit.
validator.validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest2,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interest3,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
}
BOOST_AUTO_TEST_CASE(FixedSignerChecker2)
{
Name rsaIdentity("/TestValidatorConfig/FixedSignerChecker2/Rsa");
addIdentity(rsaIdentity);
// Name rsaCertName = m_keyChain.getDefaultCertificateNameForIdentity(rsaIdentity);
Name ecdsaIdentity("/TestValidatorConfig/FixedSignerChecker2/Ecdsa");
auto identity = addIdentity(ecdsaIdentity, EcdsaKeyParams());
BOOST_REQUIRE(saveIdentityCertificate(identity, "trust-anchor-11.cert"));
Name dataName("/TestValidatorConfig/FixedSignerChecker2");
shared_ptr<Data> dataRsa = make_shared<Data>(dataName);
m_keyChain.sign(*dataRsa, security::signingByIdentity(rsaIdentity));
shared_ptr<Data> dataEcdsa = make_shared<Data>(dataName);
m_keyChain.sign(*dataEcdsa, security::signingByIdentity(ecdsaIdentity));
shared_ptr<Interest> interestRsa = make_shared<Interest>(dataName);
m_keyChain.sign(*interestRsa, security::signingByIdentity(rsaIdentity));
shared_ptr<Interest> interestEcdsa = make_shared<Interest>(dataName);
m_keyChain.sign(*interestEcdsa, security::signingByIdentity(ecdsaIdentity));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"FixedSignerChecker Data Rule\"\n"
" for data\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/FixedSignerChecker2\n"
" relation equal\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type ecdsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-11.cert\"\n"
" }\n"
" }\n"
"}\n"
"rule\n"
"{\n"
" id \"FixedSignerChecker Interest Rule\"\n"
" for interest\n"
" filter"
" {\n"
" type name\n"
" name /TestValidatorConfig/FixedSignerChecker2\n"
" relation equal\n"
" }\n"
" checker\n"
" {\n"
" type fixed-signer\n"
" sig-type ecdsa-sha256\n"
" signer\n"
" {\n"
" type file\n"
" file-name \"trust-anchor-11.cert\"\n"
" }\n"
" }\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test.conf"));
Face face(nullptr, m_keyChain);
ValidatorConfig validator(face);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.validate(*dataEcdsa,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*dataRsa,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
validator.validate(*interestEcdsa,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
validator.validate(*interestRsa,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
}
struct FacesFixture : public IdentityManagementTimeFixture
{
FacesFixture()
: face1(io, m_keyChain, {true, true})
, face2(io, m_keyChain, {true, true})
, readInterestOffset1(0)
, readDataOffset1(0)
, readInterestOffset2(0)
, readDataOffset2(0)
{
}
bool
passPacket()
{
bool hasPassed = false;
checkFace(face1.sentInterests, readInterestOffset1, face2, hasPassed);
checkFace(face1.sentData, readDataOffset1, face2, hasPassed);
checkFace(face2.sentInterests, readInterestOffset2, face1, hasPassed);
checkFace(face2.sentData, readDataOffset2, face1, hasPassed);
return hasPassed;
}
template<typename Packet>
void
checkFace(std::vector<Packet>& receivedPackets,
size_t& readPacketOffset,
util::DummyClientFace& receiver,
bool& hasPassed)
{
while (receivedPackets.size() > readPacketOffset) {
receiver.receive(receivedPackets[readPacketOffset]);
readPacketOffset++;
hasPassed = true;
}
}
~FacesFixture()
{
}
public:
util::DummyClientFace face1;
util::DummyClientFace face2;
size_t readInterestOffset1;
size_t readDataOffset1;
size_t readInterestOffset2;
size_t readDataOffset2;
};
BOOST_FIXTURE_TEST_CASE(HierarchicalChecker, FacesFixture)
{
std::vector<v1::CertificateSubjectDescription> subjectDescription;
Name root("/TestValidatorConfig");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(root), "trust-anchor-6.cert"));
Name sld("/TestValidatorConfig/HierarchicalChecker");
addIdentity(sld);
advanceClocks(time::milliseconds(100));
Name sldKeyName = m_keyChain.generateRsaKeyPairAsDefault(sld, true);
shared_ptr<v1::IdentityCertificate> sldCert =
m_keyChain.prepareUnsignedIdentityCertificate(sldKeyName,
root,
time::system_clock::now(),
time::system_clock::now() + time::days(7300),
subjectDescription);
m_keyChain.sign(*sldCert, security::signingByIdentity(root));
m_keyChain.addCertificateAsIdentityDefault(*sldCert);
Name nld("/TestValidatorConfig/HierarchicalChecker/NextLevel");
addIdentity(nld);
advanceClocks(time::milliseconds(100));
Name nldKeyName = m_keyChain.generateRsaKeyPairAsDefault(nld, true);
shared_ptr<v1::IdentityCertificate> nldCert =
m_keyChain.prepareUnsignedIdentityCertificate(nldKeyName,
sld,
time::system_clock::now(),
time::system_clock::now() + time::days(7300),
subjectDescription);
m_keyChain.sign(*nldCert, security::signingByIdentity(sld));
m_keyChain.addCertificateAsIdentityDefault(*nldCert);
face1.setInterestFilter(sldCert->getName().getPrefix(-1),
[&] (const InterestFilter&, const Interest&) { face1.put(*sldCert); },
RegisterPrefixSuccessCallback(),
[] (const Name&, const std::string&) {});
face1.setInterestFilter(nldCert->getName().getPrefix(-1),
[&] (const InterestFilter&, const Interest&) { face1.put(*nldCert); },
RegisterPrefixSuccessCallback(),
[] (const Name&, const std::string&) {});
Name dataName1 = nld;
dataName1.append("data1");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(nld)));
Name dataName2("/ConfValidatorTest");
dataName2.append("data1");
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(nld)));
const std::string CONFIG =
"rule\n"
"{\n"
" id \"Simple3 Rule\"\n"
" for data\n"
" checker\n"
" {\n"
" type hierarchical\n"
" sig-type rsa-sha256\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-6.cert\"\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
auto validator = make_shared<ValidatorConfig>(&face2);
validator->load(CONFIG, CONFIG_PATH.c_str());
advanceClocks(time::milliseconds(2), 100);
validator->validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
do {
advanceClocks(time::milliseconds(2), 10);
} while (passPacket());
validator->validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
do {
advanceClocks(time::milliseconds(2), 10);
} while (passPacket());
}
BOOST_FIXTURE_TEST_CASE(Nrd, FacesFixture)
{
advanceClocks(time::nanoseconds(1));
std::vector<v1::CertificateSubjectDescription> subjectDescription;
Name root("/TestValidatorConfig");
BOOST_REQUIRE(saveIdentityCertificate(addIdentity(root), "trust-anchor-8.cert"));
Name sld("/TestValidatorConfig/Nrd-1");
addIdentity(sld);
advanceClocks(time::milliseconds(100));
Name sldKeyName = m_keyChain.generateRsaKeyPairAsDefault(sld, true);
shared_ptr<v1::IdentityCertificate> sldCert =
m_keyChain.prepareUnsignedIdentityCertificate(sldKeyName,
root,
time::system_clock::now(),
time::system_clock::now() + time::days(7300),
subjectDescription);
m_keyChain.sign(*sldCert, security::signingByIdentity(root));
m_keyChain.addCertificateAsIdentityDefault(*sldCert);
Name nld("/TestValidatorConfig/Nrd-1/Nrd-2");
addIdentity(nld);
advanceClocks(time::milliseconds(100));
Name nldKeyName = m_keyChain.generateRsaKeyPairAsDefault(nld, true);
shared_ptr<v1::IdentityCertificate> nldCert =
m_keyChain.prepareUnsignedIdentityCertificate(nldKeyName,
sld,
time::system_clock::now(),
time::system_clock::now() + time::days(7300),
subjectDescription);
m_keyChain.sign(*nldCert, security::signingByIdentity(sld));
m_keyChain.addCertificateAsIdentityDefault(*nldCert);
face1.setInterestFilter(sldCert->getName().getPrefix(-1),
[&] (const InterestFilter&, const Interest&) { face1.put(*sldCert); },
RegisterPrefixSuccessCallback(),
[] (const Name&, const std::string&) {});
face1.setInterestFilter(nldCert->getName().getPrefix(-1),
[&] (const InterestFilter&, const Interest&) { face1.put(*nldCert); },
RegisterPrefixSuccessCallback(),
[] (const Name&, const std::string&) {});
advanceClocks(time::milliseconds(10));
Name interestName1("/localhost/nrd/register/option");
shared_ptr<Interest> interest1 = make_shared<Interest>(interestName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest1, security::signingByIdentity(nld)));
advanceClocks(time::milliseconds(10));
Name interestName2("/localhost/nrd/non-register");
shared_ptr<Interest> interest2 = make_shared<Interest>(interestName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest2, security::signingByIdentity(nld)));
advanceClocks(time::milliseconds(10));
Name interestName3("/localhost/nrd/register/option");
shared_ptr<Interest> interest3 = make_shared<Interest>(interestName3);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest3, security::signingByIdentity(root)));
advanceClocks(time::milliseconds(10));
Name interestName4("/localhost/nrd/register/option/timestamp/nonce/fakeSigInfo/fakeSigValue");
shared_ptr<Interest> interest4 = make_shared<Interest>(interestName4);
const std::string CONFIG =
"rule\n"
"{\n"
" id \"NRD Prefix Registration Command Rule\"\n"
" for interest\n"
" filter\n"
" {\n"
" type name\n"
" regex ^<localhost><nrd>[<register><unregister><advertise><withdraw>]<>$\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT>$\n"
" }\n"
" }\n"
"}\n"
"rule\n"
"{\n"
" id \"Testbed Hierarchy Rule\"\n"
" for data\n"
" filter\n"
" {\n"
" type name\n"
" regex ^[^<KEY>]*<KEY><>*<ksk-.*><ID-CERT><>$\n"
" }\n"
" checker\n"
" {\n"
" type hierarchical\n"
" sig-type rsa-sha256\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type file\n"
" file-name \"trust-anchor-8.cert\"\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
auto validator = make_shared<ValidatorConfig>(&face2);
validator->load(CONFIG, CONFIG_PATH.c_str());
advanceClocks(time::milliseconds(2), 100);
// should succeed
validator->validate(*interest1,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
do {
advanceClocks(time::milliseconds(2), 10);
} while (passPacket());
// should fail
validator->validate(*interest2,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
do {
advanceClocks(time::milliseconds(2), 10);
} while (passPacket());
// should succeed
validator->validate(*interest3,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(false); });
do {
advanceClocks(time::milliseconds(2), 10);
} while (passPacket());
// should fail
validator->validate(*interest4,
[] (const shared_ptr<const Interest>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Interest>&, const std::string&) { BOOST_CHECK(true); });
do {
advanceClocks(time::milliseconds(2), 10);
} while (passPacket());
}
struct DirTestFixture : public IdentityManagementTimeFixture
{
DirTestFixture()
: face(io, m_keyChain, {true, true})
, validator(&face, ValidatorConfig::DEFAULT_CERTIFICATE_CACHE,
ValidatorConfig::DEFAULT_GRACE_INTERVAL, 0)
{
certDirPath = (boost::filesystem::current_path() / std::string("test-cert-dir"));
boost::filesystem::create_directory(certDirPath);
firstCertPath = (boost::filesystem::current_path() /
std::string("test-cert-dir") /
std::string("trust-anchor-1.cert"));
secondCertPath = (boost::filesystem::current_path() /
std::string("test-cert-dir") /
std::string("trust-anchor-2.cert"));
firstIdentity = Name("/TestValidatorConfig/Dir/First");
addIdentity(firstIdentity);
Name firstCertName = m_keyChain.getDefaultCertificateNameForIdentity(firstIdentity);
firstCert = m_keyChain.getCertificate(firstCertName);
io::save(*firstCert, firstCertPath.string());
secondIdentity = Name("/TestValidatorConfig/Dir/Second");
addIdentity(secondIdentity);
Name secondCertName = m_keyChain.getDefaultCertificateNameForIdentity(secondIdentity);
secondCert = m_keyChain.getCertificate(secondCertName);
}
~DirTestFixture()
{
boost::filesystem::remove_all(certDirPath);
}
public:
boost::filesystem::path certDirPath;
boost::filesystem::path firstCertPath;
boost::filesystem::path secondCertPath;
Name firstIdentity;
Name secondIdentity;
shared_ptr<v1::IdentityCertificate> firstCert;
shared_ptr<v1::IdentityCertificate> secondCert;
util::DummyClientFace face;
ValidatorConfig validator;
};
BOOST_FIXTURE_TEST_CASE(TrustAnchorDir, DirTestFixture)
{
advanceClocks(time::milliseconds(10));
Name dataName1("/any/data/1");
shared_ptr<Data> data1 = make_shared<Data>(dataName1);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data1, security::signingByIdentity(firstIdentity)));
Name dataName2("/any/data/2");
shared_ptr<Data> data2 = make_shared<Data>(dataName2);
BOOST_CHECK_NO_THROW(m_keyChain.sign(*data2, security::signingByIdentity(secondIdentity)));
std::string CONFIG =
"rule\n"
"{\n"
" id \"Any Rule\"\n"
" for data\n"
" filter\n"
" {\n"
" type name\n"
" regex ^<>*$\n"
" }\n"
" checker\n"
" {\n"
" type customized\n"
" sig-type rsa-sha256\n"
" key-locator\n"
" {\n"
" type name\n"
" regex ^<>*$\n"
" }\n"
" }\n"
"}\n"
"trust-anchor\n"
"{\n"
" type dir\n"
" dir test-cert-dir\n"
" refresh 1s\n"
"}\n";
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-nfd.conf"));
validator.load(CONFIG, CONFIG_PATH.c_str());
advanceClocks(time::milliseconds(10), 20);
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
advanceClocks(time::milliseconds(10), 20);
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(false); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(true); });
advanceClocks(time::milliseconds(10), 20);
io::save(*secondCert, secondCertPath.string());
advanceClocks(time::milliseconds(10), 200);
validator.validate(*data1,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
advanceClocks(time::milliseconds(10), 20);
validator.validate(*data2,
[] (const shared_ptr<const Data>&) { BOOST_CHECK(true); },
[] (const shared_ptr<const Data>&, const std::string&) { BOOST_CHECK(false); });
advanceClocks(time::milliseconds(10), 20);
}
class DirectCertFetchFixture : public IdentityManagementTimeFixture
{
public:
DirectCertFetchFixture()
: clientFace(io, m_keyChain, {true, true})
, validationResult(boost::logic::indeterminate)
{
auto certName = addIdentity(ca);
saveIdentityCertificate(certName, "trust-anchor-1.cert");
addSubCertificate(user, ca);
userCertName = m_keyChain.getDefaultCertificateNameForIdentity(user);
userCert = m_keyChain.getCertificate(userCertName);
}
protected:
void
runTest(const std::function<void(const Interest&, const Interest&)> respond)
{
optional<Interest> directInterest;
optional<Interest> infrastructureInterest;
clientFace.onSendInterest.connect([&] (const Interest& interest) {
const Name& interestName = interest.getName();
if (interestName == userCert->getName().getPrefix(-1)) {
auto nextHopFaceIdTag = interest.getTag<lp::NextHopFaceIdTag>();
if (nextHopFaceIdTag != nullptr) {
BOOST_CHECK(!directInterest);
directInterest = interest;
}
else {
BOOST_CHECK(!infrastructureInterest);
infrastructureInterest = interest;
}
if (static_cast<bool>(directInterest) && static_cast<bool>(infrastructureInterest)) {
io.post([directInterest, infrastructureInterest, respond] {
respond(directInterest.value(), infrastructureInterest.value());
});
directInterest = nullopt;
infrastructureInterest = nullopt;
}
}
});
const boost::filesystem::path CONFIG_PATH =
(boost::filesystem::current_path() / std::string("unit-test-direct.conf"));
ValidatorConfig validator(&clientFace);
validator.load(CONFIG, CONFIG_PATH.c_str());
validator.setDirectCertFetchEnabled(true);
shared_ptr<Interest> interest = make_shared<Interest>(interestName);
interest->setTag(make_shared<lp::IncomingFaceIdTag>(123));
BOOST_CHECK_NO_THROW(m_keyChain.sign(*interest, security::signingByIdentity(user)));
validator.validate(*interest,
[&] (const shared_ptr<const Interest>&) {
BOOST_CHECK(boost::logic::indeterminate(validationResult));
validationResult = true;
},
[&] (const shared_ptr<const Interest>&, const std::string& s) {
BOOST_CHECK(boost::logic::indeterminate(validationResult));
validationResult = false;
});
advanceClocks(time::milliseconds(200), 60);
BOOST_CHECK(!boost::logic::indeterminate(validationResult));
}
public:
util::DummyClientFace clientFace;
const Name ca = Name("/DirectCertFetch");
const Name user = Name("/DirectCertFetch/user");
const Name interestName = Name("/DirectCertFetch/user/tag-interest");
const std::string CONFIG = R"_TEXT_(
rule
{
id "RuleForInterest"
for interest
checker
{
type hierarchical
sig-type rsa-sha256
}
}
rule
{
id "RuleForData"
for data
filter
{
type name
regex ^<>*$
}
checker
{
type customized
sig-type rsa-sha256
key-locator
{
type name
regex ^<>*$
}
}
}
trust-anchor
{
type file
file-name "trust-anchor-1.cert"
}
)_TEXT_";
boost::logic::tribool validationResult;
Name userCertName;
shared_ptr<v1::IdentityCertificate> userCert;
};
BOOST_FIXTURE_TEST_SUITE(DirectCertFetch, DirectCertFetchFixture)
BOOST_AUTO_TEST_CASE(CertFetchSuccess)
{
runTest([this] (const Interest& directInterest, const Interest& infrastructureInterest) {
this->clientFace.receive(*userCert);
});
BOOST_CHECK_EQUAL(validationResult, true);
}
BOOST_AUTO_TEST_CASE(CertFetchTimeout)
{
// In this test case, certificate request would time out
runTest([this] (const Interest& directInterest, const Interest& infrastructureInterest) { });
BOOST_CHECK_EQUAL(validationResult, false);
}
BOOST_AUTO_TEST_CASE(CertFetchNack)
{
runTest([this] (const Interest& directInterest, const Interest& infrastructureInterest) {
lp::Nack nackInfrastructureInterest(infrastructureInterest);
nackInfrastructureInterest.setHeader(lp::NackHeader().setReason(lp::NackReason::NO_ROUTE));
this->clientFace.receive(nackInfrastructureInterest);
});
BOOST_CHECK_EQUAL(validationResult, false);
}
BOOST_AUTO_TEST_SUITE_END() // DirectCertFetch
BOOST_AUTO_TEST_SUITE_END() // TestValidatorConfig
BOOST_AUTO_TEST_SUITE_END() // Security
} // namespace tests
} // namespace security
} // namespace ndn