src/net/base/multi_threaded_cert_verifier.cc - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "net/base/multi_threaded_cert_verifier.h"

 #include <vector>

 #include "base/bind.h"
 #include "base/bind_helpers.h"
 #include "base/compiler_specific.h"
 #include "base/message_loop.h"
 #include "base/metrics/histogram.h"
 #include "base/stl_util.h"
 #include "base/synchronization/lock.h"
 #include "base/time.h"
 #include "base/threading/worker_pool.h"
 #include "net/base/cert_verify_proc.h"
 #include "net/base/crl_set.h"
 #include "net/base/net_errors.h"
 #include "net/base/net_log.h"
 #include "net/base/x509_certificate.h"
 #include "net/base/x509_certificate_net_log_param.h"

 #if defined(USE_NSS) || defined(OS_IOS)
 #include <private/pprthred.h>  // PR_DetachThread
 #endif

 namespace net {

 ////////////////////////////////////////////////////////////////////////////

 // Life of a request:
 //
 // MultiThreadedCertVerifier  CertVerifierJob  CertVerifierWorker     Request
 //      |                                         (origin loop)    (worker loop)
 //      |
 //   Verify()
 //      |---->-------------------------------------<creates>
 //      |
 //      |---->-------------------<creates>
 //      |
 //      |---->-------------------------------------------------------<creates>
 //      |
 //      |---->---------------------------------------Start
 //      |                                              |
 //      |                                           PostTask
 //      |
 //      |                                                     <starts verifying>
 //      |---->-------------------AddRequest                           |
 //                                                                    |
 //                                                                    |
 //                                                                    |
 //                                                                  Finish
 //                                                                    |
 //                                                                 PostTask
 //
 //                                                     |
 //                                                  DoReply
 //      |----<-----------------------------------------|
 //  HandleResult
 //      |
 //      |---->------------------HandleResult
 //                                   |
 //                                   |------>---------------------------Post
 //
 //
 //
 // On a cache hit, MultiThreadedCertVerifier::Verify() returns synchronously
 // without posting a task to a worker thread.

 namespace {

 // The default value of max_cache_entries_.
 const unsigned kMaxCacheEntries = 256;

 // The number of seconds for which we'll cache a cache entry.
 const unsigned kTTLSecs = 1800;  // 30 minutes.

 }  // namespace

 MultiThreadedCertVerifier::CachedResult::CachedResult() : error(ERR_FAILED) {}

 MultiThreadedCertVerifier::CachedResult::~CachedResult() {}

 MultiThreadedCertVerifier::CacheValidityPeriod::CacheValidityPeriod(
     const base::Time& now)
     : verification_time(now),
       expiration_time(now) {
 }

 MultiThreadedCertVerifier::CacheValidityPeriod::CacheValidityPeriod(
     const base::Time& now,
     const base::Time& expiration)
     : verification_time(now),
       expiration_time(expiration) {
 }

 bool MultiThreadedCertVerifier::CacheExpirationFunctor::operator()(
     const CacheValidityPeriod& now,
     const CacheValidityPeriod& expiration) const {
   // Ensure this functor is being used for expiration only, and not strict
   // weak ordering/sorting. |now| should only ever contain a single
   // base::Time.
   // Note: DCHECK_EQ is not used due to operator<< overloading requirements.
   DCHECK(now.verification_time == now.expiration_time);

   // |now| contains only a single time (verification_time), while |expiration|
   // contains the validity range - both when the certificate was verified and
   // when the verification result should expire.
   //
   // If the user receives a "not yet valid" message, and adjusts their clock
   // foward to the correct time, this will (typically) cause
   // now.verification_time to advance past expiration.expiration_time, thus
   // treating the cached result as an expired entry and re-verifying.
   // If the user receives a "expired" message, and adjusts their clock
   // backwards to the correct time, this will cause now.verification_time to
   // be less than expiration_verification_time, thus treating the cached
   // result as an expired entry and re-verifying.
   // If the user receives either of those messages, and does not adjust their
   // clock, then the result will be (typically) be cached until the expiration
   // TTL.
   //
   // This algorithm is only problematic if the user consistently keeps
   // adjusting their clock backwards in increments smaller than the expiration
   // TTL, in which case, cached elements continue to be added. However,
   // because the cache has a fixed upper bound, if no entries are expired, a
   // 'random' entry will be, thus keeping the memory constraints bounded over
   // time.
   return now.verification_time >= expiration.verification_time &&
          now.verification_time < expiration.expiration_time;
 };


 // Represents the output and result callback of a request.
 class CertVerifierRequest {
  public:
   CertVerifierRequest(const CompletionCallback& callback,
                       CertVerifyResult* verify_result,
                       const BoundNetLog& net_log)
       : callback_(callback),
         verify_result_(verify_result),
         net_log_(net_log) {
     net_log_.BeginEvent(NetLog::TYPE_CERT_VERIFIER_REQUEST);
   }

   ~CertVerifierRequest() {
   }

   // Ensures that the result callback will never be made.
   void Cancel() {
     callback_.Reset();
     verify_result_ = NULL;
     net_log_.AddEvent(NetLog::TYPE_CANCELLED);
     net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_REQUEST);
   }

   // Copies the contents of |verify_result| to the caller's
   // CertVerifyResult and calls the callback.
   void Post(const MultiThreadedCertVerifier::CachedResult& verify_result) {
     if (!callback_.is_null()) {
       net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_REQUEST);
       *verify_result_ = verify_result.result;
       callback_.Run(verify_result.error);
     }
     delete this;
   }

   bool canceled() const { return callback_.is_null(); }

   const BoundNetLog& net_log() const { return net_log_; }

  private:
   CompletionCallback callback_;
   CertVerifyResult* verify_result_;
   const BoundNetLog net_log_;
 };


 // CertVerifierWorker runs on a worker thread and takes care of the blocking
 // process of performing the certificate verification.  Deletes itself
 // eventually if Start() succeeds.
 class CertVerifierWorker {
  public:
   CertVerifierWorker(CertVerifyProc* verify_proc,
                      X509Certificate* cert,
                      const std::string& hostname,
                      int flags,
                      CRLSet* crl_set,
                      MultiThreadedCertVerifier* cert_verifier)
       : verify_proc_(verify_proc),
         cert_(cert),
         hostname_(hostname),
         flags_(flags),
         crl_set_(crl_set),
         origin_loop_(MessageLoop::current()),
         cert_verifier_(cert_verifier),
         canceled_(false),
         error_(ERR_FAILED) {
   }

   // Returns the certificate being verified. May only be called /before/
   // Start() is called.
   X509Certificate* certificate() const { return cert_; }

   bool Start() {
     DCHECK_EQ(MessageLoop::current(), origin_loop_);

     return base::WorkerPool::PostTask(
         FROM_HERE, base::Bind(&CertVerifierWorker::Run, base::Unretained(this)),
         true /* task is slow */);
   }

   // Cancel is called from the origin loop when the MultiThreadedCertVerifier is
   // getting deleted.
   void Cancel() {
     DCHECK_EQ(MessageLoop::current(), origin_loop_);
     base::AutoLock locked(lock_);
     canceled_ = true;
   }

  private:
   void Run() {
     // Runs on a worker thread.
     error_ = verify_proc_->Verify(cert_, hostname_, flags_, crl_set_,
                                   &verify_result_);
 #if defined(USE_NSS) || defined(OS_IOS)
     // Detach the thread from NSPR.
     // Calling NSS functions attaches the thread to NSPR, which stores
     // the NSPR thread ID in thread-specific data.
     // The threads in our thread pool terminate after we have called
     // PR_Cleanup.  Unless we detach them from NSPR, net_unittests gets
     // segfaults on shutdown when the threads' thread-specific data
     // destructors run.
     PR_DetachThread();
 #endif
     Finish();
   }

   // DoReply runs on the origin thread.
   void DoReply() {
     DCHECK_EQ(MessageLoop::current(), origin_loop_);
     {
       // We lock here because the worker thread could still be in Finished,
       // after the PostTask, but before unlocking |lock_|. If we do not lock in
       // this case, we will end up deleting a locked Lock, which can lead to
       // memory leaks or worse errors.
       base::AutoLock locked(lock_);
       if (!canceled_) {
         cert_verifier_->HandleResult(cert_, hostname_, flags_,
                                      error_, verify_result_);
       }
     }
     delete this;
   }

   void Finish() {
     // Runs on the worker thread.
     // We assume that the origin loop outlives the MultiThreadedCertVerifier. If
     // the MultiThreadedCertVerifier is deleted, it will call Cancel on us. If
     // it does so before the Acquire, we'll delete ourselves and return. If it's
     // trying to do so concurrently, then it'll block on the lock and we'll call
     // PostTask while the MultiThreadedCertVerifier (and therefore the
     // MessageLoop) is still alive.
     // If it does so after this function, we assume that the MessageLoop will
     // process pending tasks. In which case we'll notice the |canceled_| flag
     // in DoReply.

     bool canceled;
     {
       base::AutoLock locked(lock_);
       canceled = canceled_;
       if (!canceled) {
         origin_loop_->PostTask(
             FROM_HERE, base::Bind(
                 &CertVerifierWorker::DoReply, base::Unretained(this)));
       }
     }

     if (canceled)
       delete this;
   }

   scoped_refptr<CertVerifyProc> verify_proc_;
   scoped_refptr<X509Certificate> cert_;
   const std::string hostname_;
   const int flags_;
   scoped_refptr<CRLSet> crl_set_;
   MessageLoop* const origin_loop_;
   MultiThreadedCertVerifier* const cert_verifier_;

   // lock_ protects canceled_.
   base::Lock lock_;

   // If canceled_ is true,
   // * origin_loop_ cannot be accessed by the worker thread,
   // * cert_verifier_ cannot be accessed by any thread.
   bool canceled_;

   int error_;
   CertVerifyResult verify_result_;

   DISALLOW_COPY_AND_ASSIGN(CertVerifierWorker);
 };

 // A CertVerifierJob is a one-to-one counterpart of a CertVerifierWorker. It
 // lives only on the CertVerifier's origin message loop.
 class CertVerifierJob {
  public:
   CertVerifierJob(CertVerifierWorker* worker,
                   const BoundNetLog& net_log)
       : start_time_(base::TimeTicks::Now()),
         worker_(worker),
         net_log_(net_log) {
     net_log_.BeginEvent(
         NetLog::TYPE_CERT_VERIFIER_JOB,
         base::Bind(&NetLogX509CertificateCallback,
                    base::Unretained(worker_->certificate())));
   }

   ~CertVerifierJob() {
     if (worker_) {
       net_log_.AddEvent(NetLog::TYPE_CANCELLED);
       net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_JOB);
       worker_->Cancel();
       DeleteAllCanceled();
     }
   }

   void AddRequest(CertVerifierRequest* request) {
     request->net_log().AddEvent(
         NetLog::TYPE_CERT_VERIFIER_REQUEST_BOUND_TO_JOB,
         net_log_.source().ToEventParametersCallback());

     requests_.push_back(request);
   }

   void HandleResult(
       const MultiThreadedCertVerifier::CachedResult& verify_result) {
     worker_ = NULL;
     net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_JOB);
     UMA_HISTOGRAM_CUSTOM_TIMES("Net.CertVerifier_Job_Latency",
                                base::TimeTicks::Now() - start_time_,
                                base::TimeDelta::FromMilliseconds(1),
                                base::TimeDelta::FromMinutes(10),
                                100);
     PostAll(verify_result);
   }

  private:
   void PostAll(const MultiThreadedCertVerifier::CachedResult& verify_result) {
     std::vector<CertVerifierRequest*> requests;
     requests_.swap(requests);

     for (std::vector<CertVerifierRequest*>::iterator
          i = requests.begin(); i != requests.end(); i++) {
       (*i)->Post(verify_result);
       // Post() causes the CertVerifierRequest to delete itself.
     }
   }

   void DeleteAllCanceled() {
     for (std::vector<CertVerifierRequest*>::iterator
          i = requests_.begin(); i != requests_.end(); i++) {
       if ((*i)->canceled()) {
         delete *i;
       } else {
         LOG(DFATAL) << "CertVerifierRequest leaked!";
       }
     }
   }

   const base::TimeTicks start_time_;
   std::vector<CertVerifierRequest*> requests_;
   CertVerifierWorker* worker_;
   const BoundNetLog net_log_;
 };

 MultiThreadedCertVerifier::MultiThreadedCertVerifier(
     CertVerifyProc* verify_proc)
     : cache_(kMaxCacheEntries),
       requests_(0),
       cache_hits_(0),
       inflight_joins_(0),
       verify_proc_(verify_proc) {
   CertDatabase::GetInstance()->AddObserver(this);
 }

 MultiThreadedCertVerifier::~MultiThreadedCertVerifier() {
   STLDeleteValues(&inflight_);
   CertDatabase::GetInstance()->RemoveObserver(this);
 }

 int MultiThreadedCertVerifier::Verify(X509Certificate* cert,
                                       const std::string& hostname,
                                       int flags,
                                       CRLSet* crl_set,
                                       CertVerifyResult* verify_result,
                                       const CompletionCallback& callback,
                                       RequestHandle* out_req,
                                       const BoundNetLog& net_log) {
   DCHECK(CalledOnValidThread());

   if (callback.is_null() || !verify_result || hostname.empty()) {
     *out_req = NULL;
     return ERR_INVALID_ARGUMENT;
   }

   requests_++;

   const RequestParams key(cert->fingerprint(), cert->ca_fingerprint(),
                           hostname, flags);
   const CertVerifierCache::value_type* cached_entry =
       cache_.Get(key, CacheValidityPeriod(base::Time::Now()));
   if (cached_entry) {
     ++cache_hits_;
     *out_req = NULL;
     *verify_result = cached_entry->result;
     return cached_entry->error;
   }

   // No cache hit. See if an identical request is currently in flight.
   CertVerifierJob* job;
   std::map<RequestParams, CertVerifierJob*>::const_iterator j;
   j = inflight_.find(key);
   if (j != inflight_.end()) {
     // An identical request is in flight already. We'll just attach our
     // callback.
     inflight_joins_++;
     job = j->second;
   } else {
     // Need to make a new request.
     CertVerifierWorker* worker = new CertVerifierWorker(verify_proc_, cert,
                                                         hostname, flags,
                                                         crl_set, this);
     job = new CertVerifierJob(
         worker,
         BoundNetLog::Make(net_log.net_log(), NetLog::SOURCE_CERT_VERIFIER_JOB));
     if (!worker->Start()) {
       delete job;
       delete worker;
       *out_req = NULL;
       // TODO(wtc): log to the NetLog.
       LOG(ERROR) << "CertVerifierWorker couldn't be started.";
       return ERR_INSUFFICIENT_RESOURCES;  // Just a guess.
     }
     inflight_.insert(std::make_pair(key, job));
   }

   CertVerifierRequest* request =
       new CertVerifierRequest(callback, verify_result, net_log);
   job->AddRequest(request);
   *out_req = request;
   return ERR_IO_PENDING;
 }

 void MultiThreadedCertVerifier::CancelRequest(RequestHandle req) {
   DCHECK(CalledOnValidThread());
   CertVerifierRequest* request = reinterpret_cast<CertVerifierRequest*>(req);
   request->Cancel();
 }

 MultiThreadedCertVerifier::RequestParams::RequestParams(
     const SHA1HashValue& cert_fingerprint_arg,
     const SHA1HashValue& ca_fingerprint_arg,
     const std::string& hostname_arg,
     int flags_arg)
     : cert_fingerprint(cert_fingerprint_arg),
       ca_fingerprint(ca_fingerprint_arg),
       hostname(hostname_arg),
       flags(flags_arg) {}

 // HandleResult is called by CertVerifierWorker on the origin message loop.
 // It deletes CertVerifierJob.
 void MultiThreadedCertVerifier::HandleResult(
     X509Certificate* cert,
     const std::string& hostname,
     int flags,
     int error,
     const CertVerifyResult& verify_result) {
   DCHECK(CalledOnValidThread());

   const RequestParams key(cert->fingerprint(), cert->ca_fingerprint(),
                           hostname, flags);

   CachedResult cached_result;
   cached_result.error = error;
   cached_result.result = verify_result;
   base::Time now = base::Time::Now();
   cache_.Put(
       key, cached_result, CacheValidityPeriod(now),
       CacheValidityPeriod(now, now + base::TimeDelta::FromSeconds(kTTLSecs)));

   std::map<RequestParams, CertVerifierJob*>::iterator j;
   j = inflight_.find(key);
   if (j == inflight_.end()) {
     NOTREACHED();
     return;
   }
   CertVerifierJob* job = j->second;
   inflight_.erase(j);

   job->HandleResult(cached_result);
   delete job;
 }

 void MultiThreadedCertVerifier::OnCertTrustChanged(
     const X509Certificate* cert) {
   DCHECK(CalledOnValidThread());

   ClearCache();
 }

 }  // namespace net
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "net/base/multi_threaded_cert_verifier.h"

	#include <vector>

	#include "base/bind.h"
	#include "base/bind_helpers.h"
	#include "base/compiler_specific.h"
	#include "base/message_loop.h"
	#include "base/metrics/histogram.h"
	#include "base/stl_util.h"
	#include "base/synchronization/lock.h"
	#include "base/time.h"
	#include "base/threading/worker_pool.h"
	#include "net/base/cert_verify_proc.h"
	#include "net/base/crl_set.h"
	#include "net/base/net_errors.h"
	#include "net/base/net_log.h"
	#include "net/base/x509_certificate.h"
	#include "net/base/x509_certificate_net_log_param.h"

	#if defined(USE_NSS) \|\| defined(OS_IOS)
	#include <private/pprthred.h> // PR_DetachThread
	#endif

	namespace net {

	////////////////////////////////////////////////////////////////////////////

	// Life of a request:
	//
	// MultiThreadedCertVerifier CertVerifierJob CertVerifierWorker Request
	// \| (origin loop) (worker loop)
	// \|
	// Verify()
	// \|---->-------------------------------------<creates>
	// \|
	// \|---->-------------------<creates>
	// \|
	// \|---->-------------------------------------------------------<creates>
	// \|
	// \|---->---------------------------------------Start
	// \| \|
	// \| PostTask
	// \|
	// \| <starts verifying>
	// \|---->-------------------AddRequest \|
	// \|
	// \|
	// \|
	// Finish
	// \|
	// PostTask
	//
	// \|
	// DoReply
	// \|----<-----------------------------------------\|
	// HandleResult
	// \|
	// \|---->------------------HandleResult
	// \|
	// \|------>---------------------------Post
	//
	//
	//
	// On a cache hit, MultiThreadedCertVerifier::Verify() returns synchronously
	// without posting a task to a worker thread.

	namespace {

	// The default value of max_cache_entries_.
	const unsigned kMaxCacheEntries = 256;

	// The number of seconds for which we'll cache a cache entry.
	const unsigned kTTLSecs = 1800; // 30 minutes.

	} // namespace

	MultiThreadedCertVerifier::CachedResult::CachedResult() : error(ERR_FAILED) {}

	MultiThreadedCertVerifier::CachedResult::~CachedResult() {}

	MultiThreadedCertVerifier::CacheValidityPeriod::CacheValidityPeriod(
	const base::Time& now)
	: verification_time(now),
	expiration_time(now) {
	}

	MultiThreadedCertVerifier::CacheValidityPeriod::CacheValidityPeriod(
	const base::Time& now,
	const base::Time& expiration)
	: verification_time(now),
	expiration_time(expiration) {
	}

	bool MultiThreadedCertVerifier::CacheExpirationFunctor::operator()(
	const CacheValidityPeriod& now,
	const CacheValidityPeriod& expiration) const {
	// Ensure this functor is being used for expiration only, and not strict
	// weak ordering/sorting. \|now\| should only ever contain a single
	// base::Time.
	// Note: DCHECK_EQ is not used due to operator<< overloading requirements.
	DCHECK(now.verification_time == now.expiration_time);

	// \|now\| contains only a single time (verification_time), while \|expiration\|
	// contains the validity range - both when the certificate was verified and
	// when the verification result should expire.
	//
	// If the user receives a "not yet valid" message, and adjusts their clock
	// foward to the correct time, this will (typically) cause
	// now.verification_time to advance past expiration.expiration_time, thus
	// treating the cached result as an expired entry and re-verifying.
	// If the user receives a "expired" message, and adjusts their clock
	// backwards to the correct time, this will cause now.verification_time to
	// be less than expiration_verification_time, thus treating the cached
	// result as an expired entry and re-verifying.
	// If the user receives either of those messages, and does not adjust their
	// clock, then the result will be (typically) be cached until the expiration
	// TTL.
	//
	// This algorithm is only problematic if the user consistently keeps
	// adjusting their clock backwards in increments smaller than the expiration
	// TTL, in which case, cached elements continue to be added. However,
	// because the cache has a fixed upper bound, if no entries are expired, a
	// 'random' entry will be, thus keeping the memory constraints bounded over
	// time.
	return now.verification_time >= expiration.verification_time &&
	now.verification_time < expiration.expiration_time;
	};


	// Represents the output and result callback of a request.
	class CertVerifierRequest {
	public:
	CertVerifierRequest(const CompletionCallback& callback,
	CertVerifyResult* verify_result,
	const BoundNetLog& net_log)
	: callback_(callback),
	verify_result_(verify_result),
	net_log_(net_log) {
	net_log_.BeginEvent(NetLog::TYPE_CERT_VERIFIER_REQUEST);
	}

	~CertVerifierRequest() {
	}

	// Ensures that the result callback will never be made.
	void Cancel() {
	callback_.Reset();
	verify_result_ = NULL;
	net_log_.AddEvent(NetLog::TYPE_CANCELLED);
	net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_REQUEST);
	}

	// Copies the contents of \|verify_result\| to the caller's
	// CertVerifyResult and calls the callback.
	void Post(const MultiThreadedCertVerifier::CachedResult& verify_result) {
	if (!callback_.is_null()) {
	net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_REQUEST);
	*verify_result_ = verify_result.result;
	callback_.Run(verify_result.error);
	}
	delete this;
	}

	bool canceled() const { return callback_.is_null(); }

	const BoundNetLog& net_log() const { return net_log_; }

	private:
	CompletionCallback callback_;
	CertVerifyResult* verify_result_;
	const BoundNetLog net_log_;
	};


	// CertVerifierWorker runs on a worker thread and takes care of the blocking
	// process of performing the certificate verification. Deletes itself
	// eventually if Start() succeeds.
	class CertVerifierWorker {
	public:
	CertVerifierWorker(CertVerifyProc* verify_proc,
	X509Certificate* cert,
	const std::string& hostname,
	int flags,
	CRLSet* crl_set,
	MultiThreadedCertVerifier* cert_verifier)
	: verify_proc_(verify_proc),
	cert_(cert),
	hostname_(hostname),
	flags_(flags),
	crl_set_(crl_set),
	origin_loop_(MessageLoop::current()),
	cert_verifier_(cert_verifier),
	canceled_(false),
	error_(ERR_FAILED) {
	}

	// Returns the certificate being verified. May only be called /before/
	// Start() is called.
	X509Certificate* certificate() const { return cert_; }

	bool Start() {
	DCHECK_EQ(MessageLoop::current(), origin_loop_);

	return base::WorkerPool::PostTask(
	FROM_HERE, base::Bind(&CertVerifierWorker::Run, base::Unretained(this)),
	true /* task is slow */);
	}

	// Cancel is called from the origin loop when the MultiThreadedCertVerifier is
	// getting deleted.
	void Cancel() {
	DCHECK_EQ(MessageLoop::current(), origin_loop_);
	base::AutoLock locked(lock_);
	canceled_ = true;
	}

	private:
	void Run() {
	// Runs on a worker thread.
	error_ = verify_proc_->Verify(cert_, hostname_, flags_, crl_set_,
	&verify_result_);
	#if defined(USE_NSS) \|\| defined(OS_IOS)
	// Detach the thread from NSPR.
	// Calling NSS functions attaches the thread to NSPR, which stores
	// the NSPR thread ID in thread-specific data.
	// The threads in our thread pool terminate after we have called
	// PR_Cleanup. Unless we detach them from NSPR, net_unittests gets
	// segfaults on shutdown when the threads' thread-specific data
	// destructors run.
	PR_DetachThread();
	#endif
	Finish();
	}

	// DoReply runs on the origin thread.
	void DoReply() {
	DCHECK_EQ(MessageLoop::current(), origin_loop_);
	{
	// We lock here because the worker thread could still be in Finished,
	// after the PostTask, but before unlocking \|lock_\|. If we do not lock in
	// this case, we will end up deleting a locked Lock, which can lead to
	// memory leaks or worse errors.
	base::AutoLock locked(lock_);
	if (!canceled_) {
	cert_verifier_->HandleResult(cert_, hostname_, flags_,
	error_, verify_result_);
	}
	}
	delete this;
	}

	void Finish() {
	// Runs on the worker thread.
	// We assume that the origin loop outlives the MultiThreadedCertVerifier. If
	// the MultiThreadedCertVerifier is deleted, it will call Cancel on us. If
	// it does so before the Acquire, we'll delete ourselves and return. If it's
	// trying to do so concurrently, then it'll block on the lock and we'll call
	// PostTask while the MultiThreadedCertVerifier (and therefore the
	// MessageLoop) is still alive.
	// If it does so after this function, we assume that the MessageLoop will
	// process pending tasks. In which case we'll notice the \|canceled_\| flag
	// in DoReply.

	bool canceled;
	{
	base::AutoLock locked(lock_);
	canceled = canceled_;
	if (!canceled) {
	origin_loop_->PostTask(
	FROM_HERE, base::Bind(
	&CertVerifierWorker::DoReply, base::Unretained(this)));
	}
	}

	if (canceled)
	delete this;
	}

	scoped_refptr<CertVerifyProc> verify_proc_;
	scoped_refptr<X509Certificate> cert_;
	const std::string hostname_;
	const int flags_;
	scoped_refptr<CRLSet> crl_set_;
	MessageLoop* const origin_loop_;
	MultiThreadedCertVerifier* const cert_verifier_;

	// lock_ protects canceled_.
	base::Lock lock_;

	// If canceled_ is true,
	// * origin_loop_ cannot be accessed by the worker thread,
	// * cert_verifier_ cannot be accessed by any thread.
	bool canceled_;

	int error_;
	CertVerifyResult verify_result_;

	DISALLOW_COPY_AND_ASSIGN(CertVerifierWorker);
	};

	// A CertVerifierJob is a one-to-one counterpart of a CertVerifierWorker. It
	// lives only on the CertVerifier's origin message loop.
	class CertVerifierJob {
	public:
	CertVerifierJob(CertVerifierWorker* worker,
	const BoundNetLog& net_log)
	: start_time_(base::TimeTicks::Now()),
	worker_(worker),
	net_log_(net_log) {
	net_log_.BeginEvent(
	NetLog::TYPE_CERT_VERIFIER_JOB,
	base::Bind(&NetLogX509CertificateCallback,
	base::Unretained(worker_->certificate())));
	}

	~CertVerifierJob() {
	if (worker_) {
	net_log_.AddEvent(NetLog::TYPE_CANCELLED);
	net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_JOB);
	worker_->Cancel();
	DeleteAllCanceled();
	}
	}

	void AddRequest(CertVerifierRequest* request) {
	request->net_log().AddEvent(
	NetLog::TYPE_CERT_VERIFIER_REQUEST_BOUND_TO_JOB,
	net_log_.source().ToEventParametersCallback());

	requests_.push_back(request);
	}

	void HandleResult(
	const MultiThreadedCertVerifier::CachedResult& verify_result) {
	worker_ = NULL;
	net_log_.EndEvent(NetLog::TYPE_CERT_VERIFIER_JOB);
	UMA_HISTOGRAM_CUSTOM_TIMES("Net.CertVerifier_Job_Latency",
	base::TimeTicks::Now() - start_time_,
	base::TimeDelta::FromMilliseconds(1),
	base::TimeDelta::FromMinutes(10),
	100);
	PostAll(verify_result);
	}

	private:
	void PostAll(const MultiThreadedCertVerifier::CachedResult& verify_result) {
	std::vector<CertVerifierRequest*> requests;
	requests_.swap(requests);

	for (std::vector<CertVerifierRequest*>::iterator
	i = requests.begin(); i != requests.end(); i++) {
	(*i)->Post(verify_result);
	// Post() causes the CertVerifierRequest to delete itself.
	}
	}

	void DeleteAllCanceled() {
	for (std::vector<CertVerifierRequest*>::iterator
	i = requests_.begin(); i != requests_.end(); i++) {
	if ((*i)->canceled()) {
	delete *i;
	} else {
	LOG(DFATAL) << "CertVerifierRequest leaked!";
	}
	}
	}

	const base::TimeTicks start_time_;
	std::vector<CertVerifierRequest*> requests_;
	CertVerifierWorker* worker_;
	const BoundNetLog net_log_;
	};

	MultiThreadedCertVerifier::MultiThreadedCertVerifier(
	CertVerifyProc* verify_proc)
	: cache_(kMaxCacheEntries),
	requests_(0),
	cache_hits_(0),
	inflight_joins_(0),
	verify_proc_(verify_proc) {
	CertDatabase::GetInstance()->AddObserver(this);
	}

	MultiThreadedCertVerifier::~MultiThreadedCertVerifier() {
	STLDeleteValues(&inflight_);
	CertDatabase::GetInstance()->RemoveObserver(this);
	}

	int MultiThreadedCertVerifier::Verify(X509Certificate* cert,
	const std::string& hostname,
	int flags,
	CRLSet* crl_set,
	CertVerifyResult* verify_result,
	const CompletionCallback& callback,
	RequestHandle* out_req,
	const BoundNetLog& net_log) {
	DCHECK(CalledOnValidThread());

	if (callback.is_null() \|\| !verify_result \|\| hostname.empty()) {
	*out_req = NULL;
	return ERR_INVALID_ARGUMENT;
	}

	requests_++;

	const RequestParams key(cert->fingerprint(), cert->ca_fingerprint(),
	hostname, flags);
	const CertVerifierCache::value_type* cached_entry =
	cache_.Get(key, CacheValidityPeriod(base::Time::Now()));
	if (cached_entry) {
	++cache_hits_;
	*out_req = NULL;
	*verify_result = cached_entry->result;
	return cached_entry->error;
	}

	// No cache hit. See if an identical request is currently in flight.
	CertVerifierJob* job;
	std::map<RequestParams, CertVerifierJob*>::const_iterator j;
	j = inflight_.find(key);
	if (j != inflight_.end()) {
	// An identical request is in flight already. We'll just attach our
	// callback.
	inflight_joins_++;
	job = j->second;
	} else {
	// Need to make a new request.
	CertVerifierWorker* worker = new CertVerifierWorker(verify_proc_, cert,
	hostname, flags,
	crl_set, this);
	job = new CertVerifierJob(
	worker,
	BoundNetLog::Make(net_log.net_log(), NetLog::SOURCE_CERT_VERIFIER_JOB));
	if (!worker->Start()) {
	delete job;
	delete worker;
	*out_req = NULL;
	// TODO(wtc): log to the NetLog.
	LOG(ERROR) << "CertVerifierWorker couldn't be started.";
	return ERR_INSUFFICIENT_RESOURCES; // Just a guess.
	}
	inflight_.insert(std::make_pair(key, job));
	}

	CertVerifierRequest* request =
	new CertVerifierRequest(callback, verify_result, net_log);
	job->AddRequest(request);
	*out_req = request;
	return ERR_IO_PENDING;
	}

	void MultiThreadedCertVerifier::CancelRequest(RequestHandle req) {
	DCHECK(CalledOnValidThread());
	CertVerifierRequest* request = reinterpret_cast<CertVerifierRequest*>(req);
	request->Cancel();
	}

	MultiThreadedCertVerifier::RequestParams::RequestParams(
	const SHA1HashValue& cert_fingerprint_arg,
	const SHA1HashValue& ca_fingerprint_arg,
	const std::string& hostname_arg,
	int flags_arg)
	: cert_fingerprint(cert_fingerprint_arg),
	ca_fingerprint(ca_fingerprint_arg),
	hostname(hostname_arg),
	flags(flags_arg) {}

	// HandleResult is called by CertVerifierWorker on the origin message loop.
	// It deletes CertVerifierJob.
	void MultiThreadedCertVerifier::HandleResult(
	X509Certificate* cert,
	const std::string& hostname,
	int flags,
	int error,
	const CertVerifyResult& verify_result) {
	DCHECK(CalledOnValidThread());

	const RequestParams key(cert->fingerprint(), cert->ca_fingerprint(),
	hostname, flags);

	CachedResult cached_result;
	cached_result.error = error;
	cached_result.result = verify_result;
	base::Time now = base::Time::Now();
	cache_.Put(
	key, cached_result, CacheValidityPeriod(now),
	CacheValidityPeriod(now, now + base::TimeDelta::FromSeconds(kTTLSecs)));

	std::map<RequestParams, CertVerifierJob*>::iterator j;
	j = inflight_.find(key);
	if (j == inflight_.end()) {
	NOTREACHED();
	return;
	}
	CertVerifierJob* job = j->second;
	inflight_.erase(j);

	job->HandleResult(cached_result);
	delete job;
	}

	void MultiThreadedCertVerifier::OnCertTrustChanged(
	const X509Certificate* cert) {
	DCHECK(CalledOnValidThread());

	ClearCache();
	}

	} // namespace net