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214 lines
8.1 KiB
C++
214 lines
8.1 KiB
C++
// Copyright 2016 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/cert/caching_cert_verifier.h"
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#include "base/time/time.h"
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#include "net/base/net_errors.h"
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namespace net {
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namespace {
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// The maximum number of cache entries to use for the ExpiringCache.
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const unsigned kMaxCacheEntries = 256;
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// The number of seconds to cache entries.
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const unsigned kTTLSecs = 1800; // 30 minutes.
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} // namespace
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CachingCertVerifier::CachingCertVerifier(std::unique_ptr<CertVerifier> verifier)
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: verifier_(std::move(verifier)),
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cache_(kMaxCacheEntries),
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requests_(0u),
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cache_hits_(0u) {
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CertDatabase::GetInstance()->AddObserver(this);
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}
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CachingCertVerifier::~CachingCertVerifier() {
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CertDatabase::GetInstance()->RemoveObserver(this);
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}
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int CachingCertVerifier::Verify(const CertVerifier::RequestParams& params,
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CRLSet* crl_set,
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CertVerifyResult* verify_result,
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const CompletionCallback& callback,
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std::unique_ptr<Request>* out_req,
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const NetLogWithSource& net_log) {
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out_req->reset();
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requests_++;
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const CertVerificationCache::value_type* cached_entry =
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cache_.Get(params, CacheValidityPeriod(base::Time::Now()));
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if (cached_entry) {
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++cache_hits_;
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*verify_result = cached_entry->result;
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return cached_entry->error;
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}
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base::Time start_time = base::Time::Now();
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CompletionCallback caching_callback = base::Bind(
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&CachingCertVerifier::OnRequestFinished, base::Unretained(this), params,
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start_time, callback, verify_result);
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int result = verifier_->Verify(params, crl_set, verify_result,
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caching_callback, out_req, net_log);
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if (result != ERR_IO_PENDING) {
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// Synchronous completion; add directly to cache.
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AddResultToCache(params, start_time, *verify_result, result);
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}
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return result;
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}
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bool CachingCertVerifier::SupportsOCSPStapling() {
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return verifier_->SupportsOCSPStapling();
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}
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bool CachingCertVerifier::AddEntry(const RequestParams& params,
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int error,
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const CertVerifyResult& verify_result,
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base::Time verification_time) {
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// If the cache is full, don't bother.
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if (cache_.size() == cache_.max_entries())
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return false;
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// If there is an existing entry, don't bother updating it.
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const CertVerificationCache::value_type* entry =
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cache_.Get(params, CacheValidityPeriod(base::Time::Now()));
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if (entry)
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return false;
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// Otherwise, go and add it.
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AddResultToCache(params, verification_time, verify_result, error);
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return true;
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}
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CachingCertVerifier::CachedResult::CachedResult() : error(ERR_FAILED) {}
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CachingCertVerifier::CachedResult::~CachedResult() = default;
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CachingCertVerifier::CacheValidityPeriod::CacheValidityPeriod(base::Time now)
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: verification_time(now), expiration_time(now) {}
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CachingCertVerifier::CacheValidityPeriod::CacheValidityPeriod(
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base::Time now,
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base::Time expiration)
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: verification_time(now), expiration_time(expiration) {}
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bool CachingCertVerifier::CacheExpirationFunctor::operator()(
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const CacheValidityPeriod& now,
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const CacheValidityPeriod& expiration) const {
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// Ensure this functor is being used for expiration only, and not strict
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// weak ordering/sorting. |now| should only ever contain a single
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// base::Time.
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// Note: DCHECK_EQ is not used due to operator<< overloading requirements.
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DCHECK(now.verification_time == now.expiration_time);
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// |now| contains only a single time (verification_time), while |expiration|
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// contains the validity range - both when the certificate was verified and
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// when the verification result should expire.
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//
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// If the user receives a "not yet valid" message, and adjusts their clock
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// foward to the correct time, this will (typically) cause
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// now.verification_time to advance past expiration.expiration_time, thus
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// treating the cached result as an expired entry and re-verifying.
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// If the user receives a "expired" message, and adjusts their clock
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// backwards to the correct time, this will cause now.verification_time to
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// be less than expiration_verification_time, thus treating the cached
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// result as an expired entry and re-verifying.
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// If the user receives either of those messages, and does not adjust their
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// clock, then the result will be (typically) be cached until the expiration
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// TTL.
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//
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// This algorithm is only problematic if the user consistently keeps
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// adjusting their clock backwards in increments smaller than the expiration
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// TTL, in which case, cached elements continue to be added. However,
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// because the cache has a fixed upper bound, if no entries are expired, a
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// 'random' entry will be, thus keeping the memory constraints bounded over
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// time.
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return now.verification_time >= expiration.verification_time &&
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now.verification_time < expiration.expiration_time;
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};
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void CachingCertVerifier::OnRequestFinished(const RequestParams& params,
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base::Time start_time,
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const CompletionCallback& callback,
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CertVerifyResult* verify_result,
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int error) {
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AddResultToCache(params, start_time, *verify_result, error);
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// Now chain to the user's callback, which may delete |this|.
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callback.Run(error);
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}
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void CachingCertVerifier::AddResultToCache(
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const RequestParams& params,
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base::Time start_time,
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const CertVerifyResult& verify_result,
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int error) {
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// When caching, this uses the time that validation started as the
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// beginning of the validity, rather than the time that it ended (aka
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// base::Time::Now()), to account for the fact that during validation,
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// the clock may have changed.
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//
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// If the clock has changed significantly, then this result will ideally
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// be evicted and the next time the certificate is encountered, it will
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// be revalidated.
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//
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// Because of this, it's possible for situations to arise where the
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// clock was correct at the start of validation, changed to an
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// incorrect time during validation (such as too far in the past or
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// future), and then was reset to the correct time. If this happens,
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// it's likely that the result will not be a valid/correct result,
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// but will still be used from the cache because the clock was reset
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// to the correct time after the (bad) validation result completed.
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//
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// However, this solution optimizes for the case where the clock is
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// bad at the start of validation, and subsequently is corrected. In
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// that situation, the result is also incorrect, but because the clock
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// was corrected after validation, if the cache validity period was
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// computed at the end of validation, it would continue to serve an
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// invalid result for kTTLSecs.
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CachedResult cached_result;
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cached_result.error = error;
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cached_result.result = verify_result;
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cache_.Put(
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params, cached_result, CacheValidityPeriod(start_time),
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CacheValidityPeriod(start_time,
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start_time + base::TimeDelta::FromSeconds(kTTLSecs)));
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}
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void CachingCertVerifier::VisitEntries(CacheVisitor* visitor) const {
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DCHECK(visitor);
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CacheValidityPeriod now(base::Time::Now());
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CacheExpirationFunctor expiration_cmp;
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for (CertVerificationCache::Iterator it(cache_); it.HasNext(); it.Advance()) {
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if (!expiration_cmp(now, it.expiration()))
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continue;
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if (!visitor->VisitEntry(it.key(), it.value().error, it.value().result,
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it.expiration().verification_time,
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it.expiration().expiration_time)) {
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break;
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}
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}
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}
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void CachingCertVerifier::OnCertDBChanged() {
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ClearCache();
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}
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void CachingCertVerifier::ClearCache() {
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cache_.Clear();
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}
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size_t CachingCertVerifier::GetCacheSize() const {
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return cache_.size();
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}
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} // namespace net
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