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gerrit.named-data.net / ndn-cxx / 7e7214103e24dd2b891d6912552d0defb89e2c48 / . / src / security / v2 / validator.cpp
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/* -*- 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 "validator.hpp"
#include "face.hpp"
#include "security/transform/public-key.hpp"
#include "util/logger.hpp"
namespace ndn {
namespace security {
namespace v2 {
NDN_LOG_INIT(ndn.security.v2.Validator);
#define NDN_LOG_DEBUG_DEPTH(x) NDN_LOG_DEBUG(std::string(state->getDepth() + 1, '>') << " " << x)
#define NDN_LOG_TRACE_DEPTH(x) NDN_LOG_TRACE(std::string(state->getDepth() + 1, '>') << " " << x)
Validator::Validator(unique_ptr<ValidationPolicy> policy, Face* face)
: m_policy(std::move(policy))
, m_face(face)
, m_verifiedCertificateCache(time::hours(1))
, m_unverifiedCertificateCache(time::minutes(5))
, m_maxDepth(25)
{
}
Validator::~Validator() = default;
void
Validator::setMaxDepth(size_t depth)
{
m_maxDepth = depth;
}
size_t
Validator::getMaxDepth() const
{
return m_maxDepth;
}
void
Validator::validate(const Data& data,
const DataValidationSuccessCallback& successCb,
const DataValidationFailureCallback& failureCb)
{
auto state = make_shared<DataValidationState>(data, successCb, failureCb);
NDN_LOG_DEBUG_DEPTH("Start validating data " << data.getName());
m_policy->checkPolicy(data, state,
[this] (const shared_ptr<CertificateRequest>& certRequest, const shared_ptr<ValidationState>& state) {
if (certRequest == nullptr) {
state->bypassValidation();
}
else {
// need to fetch key and validate it
requestCertificate(certRequest, state);
}
});
}
void
Validator::validate(const Interest& interest,
const InterestValidationSuccessCallback& successCb,
const InterestValidationFailureCallback& failureCb)
{
auto state = make_shared<InterestValidationState>(interest, successCb, failureCb);
NDN_LOG_DEBUG_DEPTH("Start validating interest " << interest.getName());
m_policy->checkPolicy(interest, state,
[this] (const shared_ptr<CertificateRequest>& certRequest, const shared_ptr<ValidationState>& state) {
if (certRequest == nullptr) {
state->bypassValidation();
}
else {
// need to fetch key and validate it
requestCertificate(certRequest, state);
}
});
}
void
Validator::validate(const Certificate& cert, const shared_ptr<ValidationState>& state)
{
NDN_LOG_DEBUG_DEPTH("Start validating certificate " << cert.getName());
m_policy->checkPolicy(cert, state,
[this, cert] (const shared_ptr<CertificateRequest>& certRequest, const shared_ptr<ValidationState>& state) {
if (certRequest == nullptr) {
state->fail({ValidationError::POLICY_ERROR, "Validation policy is not allowed to designate `" +
cert.getName().toUri() + "` as a trust anchor"});
}
else {
// need to fetch key and validate it
state->addCertificate(cert);
requestCertificate(certRequest, state);
}
});
}
const Certificate*
Validator::findTrustedCert(const Interest& interestForCertificate, const shared_ptr<ValidationState>& state)
{
auto anchor = m_trustAnchors.find(interestForCertificate);
if (anchor != nullptr) {
NDN_LOG_TRACE_DEPTH("Found certificate in anchor cache " << anchor->getName());
return anchor;
}
auto key = m_verifiedCertificateCache.find(interestForCertificate);
if (key != nullptr) {
NDN_LOG_TRACE_DEPTH("Found certificate in verified key cache " << key->getName());
return key;
}
return nullptr;
}
void
Validator::requestCertificate(const shared_ptr<CertificateRequest>& certRequest,
const shared_ptr<ValidationState>& state)
{
// TODO configurable check for the maximum number of steps
if (state->getDepth() >= m_maxDepth) {
state->fail({ValidationError::Code::EXCEEDED_DEPTH_LIMIT,
"Exceeded validation depth limit (" + to_string(m_maxDepth) + ")"});
return;
}
NDN_LOG_DEBUG_DEPTH("Retrieving " << certRequest->m_interest.getName());
// Check the trusted cache
auto cert = findTrustedCert(certRequest->m_interest, state);
if (cert != nullptr) {
cert = state->verifyCertificateChain(*cert);
if (cert != nullptr) {
state->verifyOriginalPacket(*cert);
}
for (auto trustedCert = std::make_move_iterator(state->m_certificateChain.begin());
trustedCert != std::make_move_iterator(state->m_certificateChain.end());
++trustedCert) {
cacheVerifiedCertificate(*trustedCert);
}
return;
}
if (state->hasSeenCertificateName(certRequest->m_interest.getName())) {
state->fail({ValidationError::Code::LOOP_DETECTED,
"Loop detected at " + certRequest->m_interest.getName().toUri()});
return;
}
// Check untrusted cache
cert = m_unverifiedCertificateCache.find(certRequest->m_interest);
if (cert != nullptr) {
NDN_LOG_DEBUG_DEPTH("Found certificate in **un**verified key cache " << cert->getName());
return dataCallback(*cert, certRequest, state, false); // to avoid caching the cached key
}
// Attempt to retrieve certificate from the network
fetchCertificateFromNetwork(certRequest, state);
}
void
Validator::fetchCertificateFromNetwork(const shared_ptr<CertificateRequest>& certRequest,
const shared_ptr<ValidationState>& state)
{
if (m_face == nullptr) {
state->fail({ValidationError::Code::CANNOT_RETRIEVE_CERT, "Cannot fetch certificate in offline mode "
"`" + certRequest->m_interest.getName().toUri() + "`"});
return;
}
m_face->expressInterest(certRequest->m_interest,
[=] (const Interest& interest, const Data& data) {
dataCallback(data, certRequest, state);
},
[=] (const Interest& interest, const lp::Nack& nack) {
nackCallback(nack, certRequest, state);
},
[=] (const Interest& interest) {
timeoutCallback(certRequest, state);
});
}
void
Validator::dataCallback(const Data& data,
const shared_ptr<CertificateRequest>& certRequest,
const shared_ptr<ValidationState>& state,
bool isFromNetwork)
{
NDN_LOG_DEBUG_DEPTH("Retrieved certificate " << (isFromNetwork ? "from network " : "from cache ") << data.getName());
Certificate cert;
try {
cert = Certificate(data);
}
catch (const tlv::Error& e) {
return state->fail({ValidationError::Code::MALFORMED_CERT, "Retrieved a malformed certificate "
"`" + data.getName().toUri() + "` (" + e.what() + ")"});
}
if (!cert.isValid()) {
return state->fail({ValidationError::Code::EXPIRED_CERT, "Retrieved certificate is not yet "
"valid or has expired `" + cert.getName().toUri() + "`"});
}
if (isFromNetwork) {
cacheUnverifiedCertificate(Certificate(cert));
}
return validate(cert, state); // recursion step
}
void
Validator::nackCallback(const lp::Nack& nack, const shared_ptr<CertificateRequest>& certRequest,
const shared_ptr<ValidationState>& state)
{
NDN_LOG_DEBUG_DEPTH("NACK (" << nack.getReason() << ") while retrieving certificate "
<< certRequest->m_interest.getName());
--certRequest->m_nRetriesLeft;
if (certRequest->m_nRetriesLeft > 0) {
// TODO implement delay for the the next fetch
fetchCertificateFromNetwork(certRequest, state);
}
else {
state->fail({ValidationError::Code::CANNOT_RETRIEVE_CERT, "Cannot fetch certificate after all "
"retries `" + certRequest->m_interest.getName().toUri() + "`"});
}
}
void
Validator::timeoutCallback(const shared_ptr<CertificateRequest>& certRequest,
const shared_ptr<ValidationState>& state)
{
NDN_LOG_DEBUG_DEPTH("Timeout while retrieving certificate "
<< certRequest->m_interest.getName() << ", retrying");
--certRequest->m_nRetriesLeft;
if (certRequest->m_nRetriesLeft > 0) {
fetchCertificateFromNetwork(certRequest, state);
}
else {
state->fail({ValidationError::Code::CANNOT_RETRIEVE_CERT, "Cannot fetch certificate after all "
"retries `" + certRequest->m_interest.getName().toUri() + "`"});
}
}
////////////////////////////////////////////////////////////////////////
// Trust anchor management
////////////////////////////////////////////////////////////////////////
void
Validator::loadAnchor(const std::string& groupId, Certificate&& cert)
{
m_trustAnchors.insert(groupId, std::move(cert));
}
void
Validator::loadAnchor(const std::string& groupId, const std::string& certfilePath,
time::nanoseconds refreshPeriod, bool isDir)
{
m_trustAnchors.insert(groupId, certfilePath, refreshPeriod, isDir);
}
void
Validator::cacheVerifiedCertificate(Certificate&& cert)
{
m_verifiedCertificateCache.insert(std::move(cert));
}
void
Validator::cacheUnverifiedCertificate(Certificate&& cert)
{
m_unverifiedCertificateCache.insert(std::move(cert));
}
const TrustAnchorContainer&
Validator::getTrustAnchors() const
{
return m_trustAnchors;
}
const CertificateCache&
Validator::getVerifiedCertificateCache() const
{
return m_verifiedCertificateCache;
}
const CertificateCache&
Validator::getUnverifiedCertificateCache() const
{
return m_unverifiedCertificateCache;
}
bool
Validator::isCertificateCached(const Name& certName) const
{
return (getVerifiedCertificateCache().find(certName) != nullptr ||
getVerifiedCertificateCache().find(certName) != nullptr);
}
} // namespace v2
} // namespace security
} // namespace ndn