Cronet: Use stale DNS cache entries experimentally.

components/cronet/stale_host_resolver.cc

+// Copyright 2016 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 "components/cronet/stale_host_resolver.h"
+
+#include "base/callback_helpers.h"
+#include "base/memory/ptr_util.h"
+#include "base/metrics/histogram_macros.h"
+#include "base/stl_util.h"
+#include "base/timer/timer.h"
+#include "base/values.h"
+#include "net/base/net_errors.h"
+#include "net/dns/dns_util.h"
+#include "net/dns/host_resolver_impl.h"
+
+namespace cronet {
+
+namespace {
+
+// Used in histograms; do not modify existing values.
+enum RequestOutcome {
+  // Served from (valid) cache, hosts file, IP literal, etc.
+  SYNCHRONOUS = 0,
+
+  // Network responded; there was no usable stale data.
+  NETWORK_WITHOUT_STALE = 1,
+
+  // Network responded before stale delay; there was usable stale data.
+  NETWORK_WITH_STALE = 2,
+
+  // Stale data returned; network didn't respond before the stale delay.
+  STALE_BEFORE_NETWORK = 3,
+
+  // Request canceled; there was no usable stale data.
+  CANCELED_WITHOUT_STALE = 4,
+
+  // Request canceled; there was usable stale data.
+  CANCELED_WITH_STALE = 5,
+
+  MAX_REQUEST_OUTCOME
+};
+
+void RecordRequestOutcome(RequestOutcome outcome) {
+  UMA_HISTOGRAM_ENUMERATION("DNS.StaleHostResolver.RequestOutcome", outcome,
+                            MAX_REQUEST_OUTCOME);
+}
+
+void RecordAddressListDelta(net::AddressListDeltaType delta) {
+  UMA_HISTOGRAM_ENUMERATION("DNS.StaleHostResolver.StaleAddressListDelta",
+                            delta, net::MAX_DELTA_TYPE);
+}
+
+void RecordTimeDelta(base::TimeTicks network_time, base::TimeTicks stale_time) {
+  if (network_time <= stale_time) {
+    UMA_HISTOGRAM_LONG_TIMES_100("DNS.StaleHostResolver.NetworkEarly",
+                                 stale_time - network_time);
+  } else {
+    UMA_HISTOGRAM_LONG_TIMES_100("DNS.StaleHostResolver.NetworkLate",
+                                 network_time - stale_time);
+  }
+}
+
+bool StaleEntryIsUsable(const StaleHostResolver::StaleOptions& options,
+                        const net::HostCache::EntryStaleness& entry) {
+  if (options.max_expired_time != base::TimeDelta() &&
+      entry.expired_by > options.max_expired_time) {
+    return false;
+  }
+  if (options.max_stale_uses > 0 && entry.stale_hits > options.max_stale_uses)
+    return false;
+  if (!options.allow_other_network && entry.network_changes > 0)
+    return false;
+  return true;
+}
+
+}  // namespace
+
+// A request made by the StaleHostResolver. May return fresh cached data,
+// network data, or stale cached data.
+class StaleHostResolver::RequestImpl {
+ public:
+  RequestImpl();
+  ~RequestImpl();
+
+  // A callback for the caller to decide whether a stale entry is usable or not.
+  typedef base::Callback<bool(const net::HostCache::EntryStaleness&)>
+      StaleEntryUsableCallback;
+
+  // Starts the request. May call |usable_callback| inline if |resolver| returns
+  // stale data to let the caller decide whether the data is usable.
+  //
+  // Returns the result if the request finishes synchronously. Returns
+  // ERR_IO_PENDING and calls |result_callback| with the result if it finishes
+  // asynchronously (unless destroyed first).
+  //
+  // |addresses| must remain valid until the Request completes (synchronously or
+  // via |result_callback|) or is canceled by destroying the Request.
+  int Start(net::HostResolverImpl* resolver,
+            const RequestInfo& info,
+            net::RequestPriority priority,
+            net::AddressList* addresses,
+            const net::CompletionCallback& result_callback,
+            std::unique_ptr<net::HostResolver::Request>* out_req,
+            const net::BoundNetLog& net_log,
+            const StaleEntryUsableCallback& usable_callback,
+            base::TimeDelta stale_delay);
+
+  void ChangeRequestPriority(net::RequestPriority priority);
+
+ private:
+  class Handle : public net::HostResolver::Request {
+   public:
+    Handle(RequestImpl* request) : request_(request) {}
+    ~Handle() override { request_->OnHandleDestroyed(); }
+
+    void ChangeRequestPriority(net::RequestPriority priority) override {
+      request_->ChangeRequestPriority(priority);
+    }
+
+   private:
+    RequestImpl* request_;
+  };
+
+  bool have_network_request() const {
+    return network_request_.get() != nullptr;
+  }
+  bool have_stale_data() const {
+    return stale_error_ != net::ERR_DNS_CACHE_MISS;
+  }
+  bool have_returned() const { return result_callback_.is_null(); }
+  bool have_handle() const { return handle_ != nullptr; }
+
+  // Callback for |stale_timer_| that returns stale results.
+  void OnStaleDelayElapsed();
+  // Callback for network request that returns fresh results if the request
+  // hasn't already returned stale results, and completes the request.
+  void OnNetworkRequestComplete(int error);
+  void OnHandleDestroyed();
+
+  // Fills |*result_addresses_| if rv is OK and returns rv.
+  int HandleResult(int rv, net::AddressList* addresses);
+  // Fills |*result_addresses_| if rv is OK and calls |result_callback_| with
+  // rv.
+  void ReturnResult(int rv, net::AddressList* addresses);
+
+  void MaybeDeleteThis();
+
+  void RecordSynchronousRequest();
+  void RecordNetworkRequest(int error, bool returned_stale_data);
+  void RecordCanceledRequest();
+
+  // The address list passed into |Start()| to be filled in when the request
+  // returns.
+  net::AddressList* result_addresses_;
+  // The callback passed into |Start()| to be called when the request returns.
+  net::CompletionCallback result_callback_;
+  // Set when |result_callback_| is being called so |OnHandleDestroyed()|
+  // doesn't delete the request.
+  bool returning_result_;
+
+  // The error from the stale cache entry, if there was one.
+  // If not, net::ERR_DNS_CACHE_MISS.
+  int stale_error_;
+  // The address list from the stale cache entry, if there was one.
+  net::AddressList stale_addresses_;
+  // A timer that fires when the |Request| should return stale results, if the
+  // underlying network request has not finished yet.
+  base::OneShotTimer stale_timer_;
+
+  // The address list the underlying network request will fill in. (Can't be the
+  // one passed to |Start()|, or else the network request would overwrite stale
+  // results after they are returned.)
+  net::AddressList network_addresses_;
+  // The underlying network request, so the priority can be changed.
+  std::unique_ptr<net::HostResolver::Request> network_request_;
+
+  // Handle that caller can use to cancel the request before it returns.
+  // Owned by the caller; cleared via |OnHandleDestroyed()| when destroyed.
+  Handle* handle_;
+};
+
+StaleHostResolver::RequestImpl::RequestImpl()
+    : result_addresses_(nullptr),
+      returning_result_(false),
+      stale_error_(net::ERR_DNS_CACHE_MISS),
+      handle_(nullptr) {}
+
+StaleHostResolver::RequestImpl::~RequestImpl() {}
+
+int StaleHostResolver::RequestImpl::Start(
+    net::HostResolverImpl* resolver,
+    const RequestInfo& info,
+    net::RequestPriority priority,
+    net::AddressList* addresses,
+    const net::CompletionCallback& result_callback,
+    std::unique_ptr<net::HostResolver::Request>* out_req,
+    const net::BoundNetLog& net_log,
+    const StaleEntryUsableCallback& usable_callback,
+    base::TimeDelta stale_delay) {
+  DCHECK(resolver);
+  DCHECK(addresses);
+  DCHECK(!result_callback.is_null());
+  DCHECK(out_req);
+  DCHECK(!usable_callback.is_null());
+
+  result_addresses_ = addresses;
+
+  net::AddressList cache_addresses;
+  net::HostCache::EntryStaleness stale_info;
+  int cache_rv = resolver->ResolveStaleFromCache(info, &cache_addresses,
+                                                 &stale_info, net_log);
+  // If it's a fresh cache hit (or literal), return it synchronously.
+  if (cache_rv != net::ERR_DNS_CACHE_MISS && !stale_info.is_stale()) {
+    RecordSynchronousRequest();
+    return HandleResult(cache_rv, &cache_addresses);
+  }
+
+  result_callback_ = result_callback;
+  handle_ = new Handle(this);
+  *out_req = std::unique_ptr<net::HostResolver::Request>(handle_);
+
+  if (cache_rv != net::ERR_DNS_CACHE_MISS && usable_callback.Run(stale_info)) {
+    stale_error_ = cache_rv;
+    stale_addresses_ = cache_addresses;
+    // |stale_timer_| is deleted when the Request is deleted, so it's safe to
+    // use Unretained here.
+    base::Callback<void()> stale_callback =
+        base::Bind(&StaleHostResolver::RequestImpl::OnStaleDelayElapsed,
+                   base::Unretained(this));
+    stale_timer_.Start(FROM_HERE, stale_delay, stale_callback);
+  }
+
+  // Don't check the cache again.
+  net::HostResolver::RequestInfo no_cache_info(info);
+  no_cache_info.set_allow_cached_response(false);
+  int network_rv = resolver->Resolve(
+      no_cache_info, priority, &network_addresses_,
+      base::Bind(&StaleHostResolver::RequestImpl::OnNetworkRequestComplete,
+                 base::Unretained(this)),
+      &network_request_, net_log);
+  DCHECK_EQ(net::ERR_IO_PENDING, network_rv);
+  return net::ERR_IO_PENDING;
+}
+
+void StaleHostResolver::RequestImpl::ChangeRequestPriority(
+    net::RequestPriority priority) {
+  DCHECK(have_network_request());
+
+  network_request_->ChangeRequestPriority(priority);
+}
+
+void StaleHostResolver::RequestImpl::OnStaleDelayElapsed() {
+  DCHECK(!have_returned());
+  DCHECK(have_stale_data());
+
+  ReturnResult(stale_error_, &stale_addresses_);
+
+  // The request needs to wait for both the network request to complete (to
+  // backfill the cache) and the caller to delete the handle before deleting
+  // itself.
+  DCHECK(have_network_request());
+}
+
+void StaleHostResolver::RequestImpl::OnNetworkRequestComplete(int error) {
+  DCHECK(have_network_request());
+  network_request_.reset();
+
+  RecordNetworkRequest(error, /* returned_stale_data = */ have_returned());
+
+  if (!have_returned()) {
+    if (have_stale_data())
+      stale_timer_.Stop();
+    ReturnResult(error, &network_addresses_);
+  }
+
+  if (!have_handle())
+    delete this;
+}
+
+void StaleHostResolver::RequestImpl::OnHandleDestroyed() {
+  DCHECK(have_handle());
+  handle_ = nullptr;
+
+  // If the caller deletes the handle *before* the request has returned, treat
+  // it as a cancel.
+  if (!have_returned()) {
+    network_request_.reset();
+    result_callback_ = net::CompletionCallback();
+    RecordCanceledRequest();
+  }
+
+  if (!returning_result_ && !have_handle() && !have_network_request())
+    delete this;
+}
+
+int StaleHostResolver::RequestImpl::HandleResult(int rv,
+                                                 net::AddressList* addresses) {
+  DCHECK(result_addresses_);
+
+  if (rv == net::OK) {
+    *result_addresses_ = *addresses;
+    addresses->clear();
+  }
+  result_addresses_ = nullptr;
+  return rv;
+}
+
+void StaleHostResolver::RequestImpl::ReturnResult(int rv,
+                                                  net::AddressList* addresses) {
+  DCHECK(result_callback_);
+  returning_result_ = true;
+  base::ResetAndReturn(&result_callback_).Run(HandleResult(rv, addresses));
+  returning_result_ = false;
+}
+
+void StaleHostResolver::RequestImpl::RecordSynchronousRequest() {
+  RecordRequestOutcome(SYNCHRONOUS);
+}
+
+void StaleHostResolver::RequestImpl::RecordNetworkRequest(
+    int error,
+    bool returned_stale_data) {
+  if (have_stale_data())
+    RecordTimeDelta(base::TimeTicks::Now(), stale_timer_.desired_run_time());
+
+  if (returned_stale_data && stale_error_ == net::OK && error == net::OK) {
+    RecordAddressListDelta(
+        FindAddressListDeltaType(stale_addresses_, network_addresses_));
+  }
+
+  if (returned_stale_data)
+    RecordRequestOutcome(STALE_BEFORE_NETWORK);
+  else if (have_stale_data())
+    RecordRequestOutcome(NETWORK_WITH_STALE);
+  else
+    RecordRequestOutcome(NETWORK_WITHOUT_STALE);
+}
+
+void StaleHostResolver::RequestImpl::RecordCanceledRequest() {
+  if (have_stale_data())
+    RecordRequestOutcome(CANCELED_WITH_STALE);
+  else
+    RecordRequestOutcome(CANCELED_WITHOUT_STALE);
+}
+
+StaleHostResolver::StaleOptions::StaleOptions()
+    : delay(),
+      max_expired_time(),
+      allow_other_network(false),
+      max_stale_uses(0) {}
+
+StaleHostResolver::StaleHostResolver(
+    std::unique_ptr<net::HostResolverImpl> inner_resolver,
+    const StaleOptions& stale_options)
+    : inner_resolver_(std::move(inner_resolver)), options_(stale_options) {
+  DCHECK_LE(0, stale_options.max_expired_time.InMicroseconds());
+  DCHECK_LE(0, stale_options.max_stale_uses);
+}
+
+StaleHostResolver::~StaleHostResolver() {}
+
+int StaleHostResolver::Resolve(const RequestInfo& info,
+                               net::RequestPriority priority,
+                               net::AddressList* addresses,
+                               const net::CompletionCallback& callback,
+                               std::unique_ptr<Request>* out_req,
+                               const net::BoundNetLog& net_log) {
+  StaleHostResolver::RequestImpl::StaleEntryUsableCallback usable_callback =
+      base::Bind(&StaleEntryIsUsable, options_);
+
+  RequestImpl* request = new RequestImpl();
+  int rv =
+      request->Start(inner_resolver_.get(), info, priority, addresses, callback,
+                     out_req, net_log, usable_callback, options_.delay);
+  if (rv != net::ERR_IO_PENDING)
+    delete request;
+
+  return rv;
+}
+
+int StaleHostResolver::ResolveFromCache(const RequestInfo& info,
+                                        net::AddressList* addresses,
+                                        const net::BoundNetLog& net_log) {
+  return inner_resolver_->ResolveFromCache(info, addresses, net_log);
+}
+
+void StaleHostResolver::SetDnsClientEnabled(bool enabled) {
+  inner_resolver_->SetDnsClientEnabled(enabled);
+}
+
+net::HostCache* StaleHostResolver::GetHostCache() {
+  return inner_resolver_->GetHostCache();
+}
+
+std::unique_ptr<base::Value> StaleHostResolver::GetDnsConfigAsValue() const {
+  return inner_resolver_->GetDnsConfigAsValue();
+}
+
+}  // namespace net