net/proxy_resolution/dhcp_pac_file_fetcher_win.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/proxy_resolution/dhcp_pac_file_fetcher_win.h"

 #include <memory>
 #include <vector>

 #include "starboard/types.h"

 #include "starboard/memory.h"

 #include "base/bind.h"
 #include "base/bind_helpers.h"
 #include "base/containers/queue.h"
 #include "base/memory/free_deleter.h"
 #include "base/synchronization/lock.h"
 #include "base/task/post_task.h"
 #include "base/task_runner.h"
 #include "base/threading/scoped_blocking_call.h"
 #include "base/values.h"
 #include "net/base/net_errors.h"
 #include "net/log/net_log.h"
 #include "net/proxy_resolution/dhcp_pac_file_adapter_fetcher_win.h"

 #include <winsock2.h>
 #include <iphlpapi.h>

 namespace net {

 namespace {

 // Returns true if |adapter| should be considered when probing for WPAD via
 // DHCP.
 bool IsDhcpCapableAdapter(IP_ADAPTER_ADDRESSES* adapter) {
   if (adapter->IfType == IF_TYPE_SOFTWARE_LOOPBACK)
     return false;
   if ((adapter->Flags & IP_ADAPTER_DHCP_ENABLED) == 0)
     return false;

   // Don't probe interfaces which are not up and ready to pass packets.
   //
   // This is a speculative fix for https://crbug.com/770201, in case calling
   // dhcpsvc!DhcpRequestParams on interfaces that aren't ready yet blocks for
   // a long time.
   //
   // Since ProxyResolutionService restarts WPAD probes in response to other
   // network level changes, this will likely get called again once the
   // interface is up.
   if (adapter->OperStatus != IfOperStatusUp)
     return false;

   return true;
 }

 }  // namespace

 // This struct contains logging information describing how
 // GetCandidateAdapterNames() performed, for output to NetLog.
 struct DhcpAdapterNamesLoggingInfo {
   DhcpAdapterNamesLoggingInfo() = default;
   ~DhcpAdapterNamesLoggingInfo() = default;

   // The error that iphlpapi!GetAdaptersAddresses returned.
   ULONG error;

   // The adapters list that iphlpapi!GetAdaptersAddresses returned.
   std::unique_ptr<IP_ADAPTER_ADDRESSES, base::FreeDeleter> adapters;

   // The time immediately before GetCandidateAdapterNames was posted to a worker
   // thread from the origin thread.
   base::TimeTicks origin_thread_start_time;

   // The time when GetCandidateAdapterNames began running on the worker thread.
   base::TimeTicks worker_thread_start_time;

   // The time when GetCandidateAdapterNames completed running on the worker
   // thread.
   base::TimeTicks worker_thread_end_time;

   // The time when control returned to the origin thread
   // (OnGetCandidateAdapterNamesDone)
   base::TimeTicks origin_thread_end_time;

  private:
   DISALLOW_COPY_AND_ASSIGN(DhcpAdapterNamesLoggingInfo);
 };

 namespace {

 // Maximum number of DHCP lookup tasks running concurrently. This is chosen
 // based on the following UMA data:
 // - When OnWaitTimer fires, ~99.8% of users have 6 or fewer network
 //   adapters enabled for DHCP in total.
 // - At the same measurement point, ~99.7% of users have 3 or fewer pending
 //   DHCP adapter lookups.
 // - There is however a very long and thin tail of users who have
 //   systems reporting up to 100+ adapters (this must be some very weird
 //   OS bug (?), probably the cause of http://crbug.com/240034).
 //
 // Th value is chosen such that DHCP lookup tasks don't prevent other tasks from
 // running even on systems that report a huge number of network adapters, while
 // giving a good chance of getting back results for any responsive adapters.
 constexpr int kMaxConcurrentDhcpLookupTasks = 12;

 // How long to wait at maximum after we get results (a PAC file or
 // knowledge that no PAC file is configured) from whichever network
 // adapter finishes first.
 constexpr base::TimeDelta kMaxWaitAfterFirstResult =
     base::TimeDelta::FromMilliseconds(400);

 // A TaskRunner that never schedules more than |kMaxConcurrentDhcpLookupTasks|
 // tasks concurrently.
 class TaskRunnerWithCap : public base::TaskRunner {
  public:
   TaskRunnerWithCap() = default;

   bool PostDelayedTask(const base::Location& from_here,
                        base::OnceClosure task,
                        base::TimeDelta delay) override {
     // Delayed tasks are not supported.
     DCHECK(delay.is_zero());

     // Wrap the task in a callback that runs |task|, then tries to schedule a
     // task from |pending_tasks_|.
     base::OnceClosure wrapped_task =
         base::BindOnce(&TaskRunnerWithCap::RunTaskAndSchedulePendingTask, this,
                        std::move(task));

     {
       base::AutoLock auto_lock(lock_);

       // If |kMaxConcurrentDhcpLookupTasks| tasks are scheduled, move the task
       // to |pending_tasks_|.
       DCHECK_LE(num_scheduled_tasks_, kMaxConcurrentDhcpLookupTasks);
       if (num_scheduled_tasks_ == kMaxConcurrentDhcpLookupTasks) {
         pending_tasks_.emplace(from_here, std::move(wrapped_task));
         return true;
       }

       // If less than |kMaxConcurrentDhcpLookupTasks| tasks are scheduled,
       // increment |num_scheduled_tasks_| and schedule the task.
       ++num_scheduled_tasks_;
     }

     task_runner_->PostTask(from_here, std::move(wrapped_task));
     return true;
   }

   bool RunsTasksInCurrentSequence() const override {
     return task_runner_->RunsTasksInCurrentSequence();
   }

  private:
   struct LocationAndTask {
     LocationAndTask() = default;
     LocationAndTask(const base::Location& from_here, base::OnceClosure task)
         : from_here(from_here), task(std::move(task)) {}
     base::Location from_here;
     base::OnceClosure task;
   };

   ~TaskRunnerWithCap() override = default;

   void RunTaskAndSchedulePendingTask(base::OnceClosure task) {
     // Run |task|.
     std::move(task).Run();

     // If |pending_tasks_| is non-empty, schedule a task from it. Otherwise,
     // decrement |num_scheduled_tasks_|.
     LocationAndTask task_to_schedule;

     {
       base::AutoLock auto_lock(lock_);

       DCHECK_GT(num_scheduled_tasks_, 0);
       if (pending_tasks_.empty()) {
         --num_scheduled_tasks_;
         return;
       }

       task_to_schedule = std::move(pending_tasks_.front());
       pending_tasks_.pop();
     }

     DCHECK(task_to_schedule.task);
     task_runner_->PostTask(task_to_schedule.from_here,
                            std::move(task_to_schedule.task));
   }

   const scoped_refptr<base::TaskRunner> task_runner_ =
       base::CreateTaskRunnerWithTraits(
           {base::MayBlock(), base::TaskShutdownBehavior::CONTINUE_ON_SHUTDOWN,
            base::TaskPriority::USER_VISIBLE});

   // Synchronizes access to members below.
   base::Lock lock_;

   // Number of tasks that are currently scheduled.
   int num_scheduled_tasks_ = 0;

   // Tasks that are waiting to be scheduled.
   base::queue<LocationAndTask> pending_tasks_;

   DISALLOW_COPY_AND_ASSIGN(TaskRunnerWithCap);
 };

 // Helper to set an integer value into a base::DictionaryValue. Because of
 // C++'s implicit narrowing casts to |int|, this can be called with int64_t and
 // ULONG too.
 void SetInt(base::StringPiece key, int value, base::DictionaryValue* dict) {
   dict->SetKey(key, base::Value(value));
 }

 std::unique_ptr<base::Value> NetLogGetAdaptersDoneCallback(
     DhcpAdapterNamesLoggingInfo* info,
     NetLogCaptureMode /* capture_mode */) {
   std::unique_ptr<base::DictionaryValue> result =
       std::make_unique<base::DictionaryValue>();

   // Add information on each of the adapters enumerated (including those that
   // were subsequently skipped).
   base::ListValue adapters_value;
   for (IP_ADAPTER_ADDRESSES* adapter = info->adapters.get(); adapter;
        adapter = adapter->Next) {
     base::DictionaryValue adapter_value;

     adapter_value.SetKey("AdapterName", base::Value(adapter->AdapterName));
     SetInt("IfType", adapter->IfType, &adapter_value);
     SetInt("Flags", adapter->Flags, &adapter_value);
     SetInt("OperStatus", adapter->OperStatus, &adapter_value);
     SetInt("TunnelType", adapter->TunnelType, &adapter_value);

     // "skipped" means the adapter was not ultimately chosen as a candidate for
     // testing WPAD.
     bool skipped = !IsDhcpCapableAdapter(adapter);
     adapter_value.SetKey("skipped", base::Value(skipped));

     adapters_value.GetList().push_back(std::move(adapter_value));
   }
   result->SetKey("adapters", std::move(adapters_value));

   SetInt("origin_to_worker_thread_hop_dt",
          (info->worker_thread_start_time - info->origin_thread_start_time)
              .InMilliseconds(),
          result.get());
   SetInt("worker_to_origin_thread_hop_dt",
          (info->origin_thread_end_time - info->worker_thread_end_time)
              .InMilliseconds(),
          result.get());
   SetInt("worker_dt",
          (info->worker_thread_end_time - info->worker_thread_start_time)
              .InMilliseconds(),
          result.get());

   if (info->error != ERROR_SUCCESS)
     SetInt("error", info->error, result.get());

   return result;
 }

 std::unique_ptr<base::Value> NetLogFetcherDoneCallback(
     int fetcher_index,
     int net_error,
     NetLogCaptureMode /* capture_mode */) {
   std::unique_ptr<base::DictionaryValue> result =
       std::make_unique<base::DictionaryValue>();

   result->SetKey("fetcher_index", base::Value(fetcher_index));
   result->SetKey("net_error", base::Value(net_error));

   return result;
 }

 }  // namespace

 DhcpPacFileFetcherWin::DhcpPacFileFetcherWin(
     URLRequestContext* url_request_context)
     : state_(STATE_START),
       num_pending_fetchers_(0),
       destination_string_(NULL),
       url_request_context_(url_request_context),
       task_runner_(base::MakeRefCounted<TaskRunnerWithCap>()) {
   DCHECK(url_request_context_);
 }

 DhcpPacFileFetcherWin::~DhcpPacFileFetcherWin() {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
   // Count as user-initiated if we are not yet in STATE_DONE.
   Cancel();
 }

 int DhcpPacFileFetcherWin::Fetch(
     base::string16* utf16_text,
     CompletionOnceCallback callback,
     const NetLogWithSource& net_log,
     const NetworkTrafficAnnotationTag traffic_annotation) {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
   if (state_ != STATE_START && state_ != STATE_DONE) {
     NOTREACHED();
     return ERR_UNEXPECTED;
   }

   net_log_ = net_log;

   if (!url_request_context_)
     return ERR_CONTEXT_SHUT_DOWN;

   state_ = STATE_WAIT_ADAPTERS;
   callback_ = std::move(callback);
   destination_string_ = utf16_text;

   net_log.BeginEvent(NetLogEventType::WPAD_DHCP_WIN_FETCH);

   // TODO(eroman): This event is not ended in the case of cancellation.
   net_log.BeginEvent(NetLogEventType::WPAD_DHCP_WIN_GET_ADAPTERS);

   last_query_ = ImplCreateAdapterQuery();
   last_query_->logging_info()->origin_thread_start_time =
       base::TimeTicks::Now();

   task_runner_->PostTaskAndReply(
       FROM_HERE,
       base::Bind(&DhcpPacFileFetcherWin::AdapterQuery::GetCandidateAdapterNames,
                  last_query_.get()),
       base::Bind(&DhcpPacFileFetcherWin::OnGetCandidateAdapterNamesDone,
                  AsWeakPtr(), last_query_, traffic_annotation));

   return ERR_IO_PENDING;
 }

 void DhcpPacFileFetcherWin::Cancel() {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

   CancelImpl();
 }

 void DhcpPacFileFetcherWin::OnShutdown() {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

   // Back up callback, if there is one, as CancelImpl() will destroy it.
   net::CompletionOnceCallback callback = std::move(callback_);

   // Cancel current request, if there is one.
   CancelImpl();

   // Prevent future network requests.
   url_request_context_ = nullptr;

   // Invoke callback with error, if present.
   if (callback)
     std::move(callback).Run(ERR_CONTEXT_SHUT_DOWN);
 }

 void DhcpPacFileFetcherWin::CancelImpl() {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

   if (state_ != STATE_DONE) {
     callback_.Reset();
     wait_timer_.Stop();
     state_ = STATE_DONE;

     for (FetcherVector::iterator it = fetchers_.begin();
          it != fetchers_.end();
          ++it) {
       (*it)->Cancel();
     }

     fetchers_.clear();
   }
 }

 void DhcpPacFileFetcherWin::OnGetCandidateAdapterNamesDone(
     scoped_refptr<AdapterQuery> query,
     const NetworkTrafficAnnotationTag traffic_annotation) {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

   // This can happen if this object is reused for multiple queries,
   // and a previous query was cancelled before it completed.
   if (query.get() != last_query_.get())
     return;
   last_query_ = NULL;

   DhcpAdapterNamesLoggingInfo* logging_info = query->logging_info();
   logging_info->origin_thread_end_time = base::TimeTicks::Now();

   net_log_.EndEvent(NetLogEventType::WPAD_DHCP_WIN_GET_ADAPTERS,
                     base::Bind(&NetLogGetAdaptersDoneCallback,
                                base::Unretained(logging_info)));

   // Enable unit tests to wait for this to happen; in production this function
   // call is a no-op.
   ImplOnGetCandidateAdapterNamesDone();

   // We may have been cancelled.
   if (state_ != STATE_WAIT_ADAPTERS)
     return;

   state_ = STATE_NO_RESULTS;

   const std::set<std::string>& adapter_names = query->adapter_names();

   if (adapter_names.empty()) {
     TransitionToDone();
     return;
   }

   for (const std::string& adapter_name : adapter_names) {
     std::unique_ptr<DhcpPacFileAdapterFetcher> fetcher(
         ImplCreateAdapterFetcher());
     size_t fetcher_index = fetchers_.size();
     fetcher->Fetch(adapter_name,
                    base::Bind(&DhcpPacFileFetcherWin::OnFetcherDone,
                               base::Unretained(this), fetcher_index),
                    traffic_annotation);
     fetchers_.push_back(std::move(fetcher));
   }
   num_pending_fetchers_ = fetchers_.size();
 }

 std::string DhcpPacFileFetcherWin::GetFetcherName() const {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
   return "win";
 }

 const GURL& DhcpPacFileFetcherWin::GetPacURL() const {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
   DCHECK_EQ(state_, STATE_DONE);

   return pac_url_;
 }

 void DhcpPacFileFetcherWin::OnFetcherDone(size_t fetcher_index,
                                           int result) {
   DCHECK(state_ == STATE_NO_RESULTS || state_ == STATE_SOME_RESULTS);

   net_log_.AddEvent(
       NetLogEventType::WPAD_DHCP_WIN_ON_FETCHER_DONE,
       base::Bind(&NetLogFetcherDoneCallback, fetcher_index, result));

   if (--num_pending_fetchers_ == 0) {
     TransitionToDone();
     return;
   }

   // If the only pending adapters are those less preferred than one
   // with a valid PAC script, we do not need to wait any longer.
   for (FetcherVector::iterator it = fetchers_.begin();
        it != fetchers_.end();
        ++it) {
     bool did_finish = (*it)->DidFinish();
     int result = (*it)->GetResult();
     if (did_finish && result == OK) {
       TransitionToDone();
       return;
     }
     if (!did_finish || result != ERR_PAC_NOT_IN_DHCP) {
       break;
     }
   }

   // Once we have a single result, we set a maximum on how long to wait
   // for the rest of the results.
   if (state_ == STATE_NO_RESULTS) {
     state_ = STATE_SOME_RESULTS;
     net_log_.AddEvent(NetLogEventType::WPAD_DHCP_WIN_START_WAIT_TIMER);
     wait_timer_.Start(FROM_HERE,
         ImplGetMaxWait(), this, &DhcpPacFileFetcherWin::OnWaitTimer);
   }
 }

 void DhcpPacFileFetcherWin::OnWaitTimer() {
   DCHECK_EQ(state_, STATE_SOME_RESULTS);

   net_log_.AddEvent(NetLogEventType::WPAD_DHCP_WIN_ON_WAIT_TIMER);
   TransitionToDone();
 }

 void DhcpPacFileFetcherWin::TransitionToDone() {
   DCHECK(state_ == STATE_NO_RESULTS || state_ == STATE_SOME_RESULTS);

   int used_fetcher_index = -1;
   int result = ERR_PAC_NOT_IN_DHCP;  // Default if no fetchers.
   if (!fetchers_.empty()) {
     // Scan twice for the result; once through the whole list for success,
     // then if no success, return result for most preferred network adapter,
     // preferring "real" network errors to the ERR_PAC_NOT_IN_DHCP error.
     // Default to ERR_ABORTED if no fetcher completed.
     result = ERR_ABORTED;
     for (size_t i = 0; i < fetchers_.size(); ++i) {
       const auto& fetcher = fetchers_[i];
       if (fetcher->DidFinish() && fetcher->GetResult() == OK) {
         result = OK;
         *destination_string_ = fetcher->GetPacScript();
         pac_url_ = fetcher->GetPacURL();
         used_fetcher_index = i;
         break;
       }
     }
     if (result != OK) {
       destination_string_->clear();
       for (size_t i = 0; i < fetchers_.size(); ++i) {
         const auto& fetcher = fetchers_[i];
         if (fetcher->DidFinish()) {
           result = fetcher->GetResult();
           used_fetcher_index = i;
           if (result != ERR_PAC_NOT_IN_DHCP) {
             break;
           }
         }
       }
     }
   }

   CompletionOnceCallback callback = std::move(callback_);
   CancelImpl();
   DCHECK_EQ(state_, STATE_DONE);
   DCHECK(fetchers_.empty());

   net_log_.EndEvent(
       NetLogEventType::WPAD_DHCP_WIN_FETCH,
       base::Bind(&NetLogFetcherDoneCallback, used_fetcher_index, result));

   // We may be deleted re-entrantly within this outcall.
   std::move(callback).Run(result);
 }

 int DhcpPacFileFetcherWin::num_pending_fetchers() const {
   return num_pending_fetchers_;
 }

 URLRequestContext* DhcpPacFileFetcherWin::url_request_context() const {
   return url_request_context_;
 }

 scoped_refptr<base::TaskRunner> DhcpPacFileFetcherWin::GetTaskRunner() {
   return task_runner_;
 }

 DhcpPacFileAdapterFetcher* DhcpPacFileFetcherWin::ImplCreateAdapterFetcher() {
   return new DhcpPacFileAdapterFetcher(url_request_context_, task_runner_);
 }

 DhcpPacFileFetcherWin::AdapterQuery*
 DhcpPacFileFetcherWin::ImplCreateAdapterQuery() {
   return new AdapterQuery();
 }

 base::TimeDelta DhcpPacFileFetcherWin::ImplGetMaxWait() {
   return kMaxWaitAfterFirstResult;
 }

 bool DhcpPacFileFetcherWin::GetCandidateAdapterNames(
     std::set<std::string>* adapter_names,
     DhcpAdapterNamesLoggingInfo* info) {
   DCHECK(adapter_names);
   adapter_names->clear();

   // The GetAdaptersAddresses MSDN page recommends using a size of 15000 to
   // avoid reallocation.
   ULONG adapters_size = 15000;
   std::unique_ptr<IP_ADAPTER_ADDRESSES, base::FreeDeleter> adapters;
   ULONG error = ERROR_SUCCESS;
   int num_tries = 0;

   do {
     adapters.reset(
         static_cast<IP_ADAPTER_ADDRESSES*>(SbMemoryAllocate(adapters_size)));
     // Return only unicast addresses, and skip information we do not need.
     base::ScopedBlockingCall scoped_blocking_call(
         base::BlockingType::MAY_BLOCK);
     error = GetAdaptersAddresses(AF_UNSPEC,
                                  GAA_FLAG_SKIP_ANYCAST |
                                  GAA_FLAG_SKIP_MULTICAST |
                                  GAA_FLAG_SKIP_DNS_SERVER |
                                  GAA_FLAG_SKIP_FRIENDLY_NAME,
                                  NULL,
                                  adapters.get(),
                                  &adapters_size);
     ++num_tries;
   } while (error == ERROR_BUFFER_OVERFLOW && num_tries <= 3);

   if (info)
     info->error = error;

   if (error == ERROR_NO_DATA) {
     // There are no adapters that we care about.
     return true;
   }

   if (error != ERROR_SUCCESS) {
     LOG(WARNING) << "Unexpected error retrieving WPAD configuration from DHCP.";
     return false;
   }

   IP_ADAPTER_ADDRESSES* adapter = NULL;
   for (adapter = adapters.get(); adapter; adapter = adapter->Next) {
     if (IsDhcpCapableAdapter(adapter)) {
       DCHECK(adapter->AdapterName);
       adapter_names->insert(adapter->AdapterName);
     }
   }

   // Transfer the buffer containing the adapters, so it can be used later for
   // emitting NetLog parameters from the origin thread.
   if (info)
     info->adapters = std::move(adapters);
   return true;
 }

 DhcpPacFileFetcherWin::AdapterQuery::AdapterQuery()
     : logging_info_(new DhcpAdapterNamesLoggingInfo()) {}

 void DhcpPacFileFetcherWin::AdapterQuery::GetCandidateAdapterNames() {
   logging_info_->error = ERROR_NO_DATA;
   logging_info_->adapters.reset();
   logging_info_->worker_thread_start_time = base::TimeTicks::Now();

   ImplGetCandidateAdapterNames(&adapter_names_, logging_info_.get());

   logging_info_->worker_thread_end_time = base::TimeTicks::Now();
 }

 const std::set<std::string>&
 DhcpPacFileFetcherWin::AdapterQuery::adapter_names() const {
   return adapter_names_;
 }

 bool DhcpPacFileFetcherWin::AdapterQuery::ImplGetCandidateAdapterNames(
     std::set<std::string>* adapter_names,
     DhcpAdapterNamesLoggingInfo* info) {
   return DhcpPacFileFetcherWin::GetCandidateAdapterNames(adapter_names,
                                                          info);
 }

 DhcpPacFileFetcherWin::AdapterQuery::~AdapterQuery() {}

 }  // 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/proxy_resolution/dhcp_pac_file_fetcher_win.h"

	#include <memory>
	#include <vector>

	#include "starboard/types.h"

	#include "starboard/memory.h"

	#include "base/bind.h"
	#include "base/bind_helpers.h"
	#include "base/containers/queue.h"
	#include "base/memory/free_deleter.h"
	#include "base/synchronization/lock.h"
	#include "base/task/post_task.h"
	#include "base/task_runner.h"
	#include "base/threading/scoped_blocking_call.h"
	#include "base/values.h"
	#include "net/base/net_errors.h"
	#include "net/log/net_log.h"
	#include "net/proxy_resolution/dhcp_pac_file_adapter_fetcher_win.h"

	#include <winsock2.h>
	#include <iphlpapi.h>

	namespace net {

	namespace {

	// Returns true if \|adapter\| should be considered when probing for WPAD via
	// DHCP.
	bool IsDhcpCapableAdapter(IP_ADAPTER_ADDRESSES* adapter) {
	if (adapter->IfType == IF_TYPE_SOFTWARE_LOOPBACK)
	return false;
	if ((adapter->Flags & IP_ADAPTER_DHCP_ENABLED) == 0)
	return false;

	// Don't probe interfaces which are not up and ready to pass packets.
	//
	// This is a speculative fix for https://crbug.com/770201, in case calling
	// dhcpsvc!DhcpRequestParams on interfaces that aren't ready yet blocks for
	// a long time.
	//
	// Since ProxyResolutionService restarts WPAD probes in response to other
	// network level changes, this will likely get called again once the
	// interface is up.
	if (adapter->OperStatus != IfOperStatusUp)
	return false;

	return true;
	}

	} // namespace

	// This struct contains logging information describing how
	// GetCandidateAdapterNames() performed, for output to NetLog.
	struct DhcpAdapterNamesLoggingInfo {
	DhcpAdapterNamesLoggingInfo() = default;
	~DhcpAdapterNamesLoggingInfo() = default;

	// The error that iphlpapi!GetAdaptersAddresses returned.
	ULONG error;

	// The adapters list that iphlpapi!GetAdaptersAddresses returned.
	std::unique_ptr<IP_ADAPTER_ADDRESSES, base::FreeDeleter> adapters;

	// The time immediately before GetCandidateAdapterNames was posted to a worker
	// thread from the origin thread.
	base::TimeTicks origin_thread_start_time;

	// The time when GetCandidateAdapterNames began running on the worker thread.
	base::TimeTicks worker_thread_start_time;

	// The time when GetCandidateAdapterNames completed running on the worker
	// thread.
	base::TimeTicks worker_thread_end_time;

	// The time when control returned to the origin thread
	// (OnGetCandidateAdapterNamesDone)
	base::TimeTicks origin_thread_end_time;

	private:
	DISALLOW_COPY_AND_ASSIGN(DhcpAdapterNamesLoggingInfo);
	};

	namespace {

	// Maximum number of DHCP lookup tasks running concurrently. This is chosen
	// based on the following UMA data:
	// - When OnWaitTimer fires, ~99.8% of users have 6 or fewer network
	// adapters enabled for DHCP in total.
	// - At the same measurement point, ~99.7% of users have 3 or fewer pending
	// DHCP adapter lookups.
	// - There is however a very long and thin tail of users who have
	// systems reporting up to 100+ adapters (this must be some very weird
	// OS bug (?), probably the cause of http://crbug.com/240034).
	//
	// Th value is chosen such that DHCP lookup tasks don't prevent other tasks from
	// running even on systems that report a huge number of network adapters, while
	// giving a good chance of getting back results for any responsive adapters.
	constexpr int kMaxConcurrentDhcpLookupTasks = 12;

	// How long to wait at maximum after we get results (a PAC file or
	// knowledge that no PAC file is configured) from whichever network
	// adapter finishes first.
	constexpr base::TimeDelta kMaxWaitAfterFirstResult =
	base::TimeDelta::FromMilliseconds(400);

	// A TaskRunner that never schedules more than \|kMaxConcurrentDhcpLookupTasks\|
	// tasks concurrently.
	class TaskRunnerWithCap : public base::TaskRunner {
	public:
	TaskRunnerWithCap() = default;

	bool PostDelayedTask(const base::Location& from_here,
	base::OnceClosure task,
	base::TimeDelta delay) override {
	// Delayed tasks are not supported.
	DCHECK(delay.is_zero());

	// Wrap the task in a callback that runs \|task\|, then tries to schedule a
	// task from \|pending_tasks_\|.
	base::OnceClosure wrapped_task =
	base::BindOnce(&TaskRunnerWithCap::RunTaskAndSchedulePendingTask, this,
	std::move(task));

	{
	base::AutoLock auto_lock(lock_);

	// If \|kMaxConcurrentDhcpLookupTasks\| tasks are scheduled, move the task
	// to \|pending_tasks_\|.
	DCHECK_LE(num_scheduled_tasks_, kMaxConcurrentDhcpLookupTasks);
	if (num_scheduled_tasks_ == kMaxConcurrentDhcpLookupTasks) {
	pending_tasks_.emplace(from_here, std::move(wrapped_task));
	return true;
	}

	// If less than \|kMaxConcurrentDhcpLookupTasks\| tasks are scheduled,
	// increment \|num_scheduled_tasks_\| and schedule the task.
	++num_scheduled_tasks_;
	}

	task_runner_->PostTask(from_here, std::move(wrapped_task));
	return true;
	}

	bool RunsTasksInCurrentSequence() const override {
	return task_runner_->RunsTasksInCurrentSequence();
	}

	private:
	struct LocationAndTask {
	LocationAndTask() = default;
	LocationAndTask(const base::Location& from_here, base::OnceClosure task)
	: from_here(from_here), task(std::move(task)) {}
	base::Location from_here;
	base::OnceClosure task;
	};

	~TaskRunnerWithCap() override = default;

	void RunTaskAndSchedulePendingTask(base::OnceClosure task) {
	// Run \|task\|.
	std::move(task).Run();

	// If \|pending_tasks_\| is non-empty, schedule a task from it. Otherwise,
	// decrement \|num_scheduled_tasks_\|.
	LocationAndTask task_to_schedule;

	{
	base::AutoLock auto_lock(lock_);

	DCHECK_GT(num_scheduled_tasks_, 0);
	if (pending_tasks_.empty()) {
	--num_scheduled_tasks_;
	return;
	}

	task_to_schedule = std::move(pending_tasks_.front());
	pending_tasks_.pop();
	}

	DCHECK(task_to_schedule.task);
	task_runner_->PostTask(task_to_schedule.from_here,
	std::move(task_to_schedule.task));
	}

	const scoped_refptr<base::TaskRunner> task_runner_ =
	base::CreateTaskRunnerWithTraits(
	{base::MayBlock(), base::TaskShutdownBehavior::CONTINUE_ON_SHUTDOWN,
	base::TaskPriority::USER_VISIBLE});

	// Synchronizes access to members below.
	base::Lock lock_;

	// Number of tasks that are currently scheduled.
	int num_scheduled_tasks_ = 0;

	// Tasks that are waiting to be scheduled.
	base::queue<LocationAndTask> pending_tasks_;

	DISALLOW_COPY_AND_ASSIGN(TaskRunnerWithCap);
	};

	// Helper to set an integer value into a base::DictionaryValue. Because of
	// C++'s implicit narrowing casts to \|int\|, this can be called with int64_t and
	// ULONG too.
	void SetInt(base::StringPiece key, int value, base::DictionaryValue* dict) {
	dict->SetKey(key, base::Value(value));
	}

	std::unique_ptr<base::Value> NetLogGetAdaptersDoneCallback(
	DhcpAdapterNamesLoggingInfo* info,
	NetLogCaptureMode /* capture_mode */) {
	std::unique_ptr<base::DictionaryValue> result =
	std::make_unique<base::DictionaryValue>();

	// Add information on each of the adapters enumerated (including those that
	// were subsequently skipped).
	base::ListValue adapters_value;
	for (IP_ADAPTER_ADDRESSES* adapter = info->adapters.get(); adapter;
	adapter = adapter->Next) {
	base::DictionaryValue adapter_value;

	adapter_value.SetKey("AdapterName", base::Value(adapter->AdapterName));
	SetInt("IfType", adapter->IfType, &adapter_value);
	SetInt("Flags", adapter->Flags, &adapter_value);
	SetInt("OperStatus", adapter->OperStatus, &adapter_value);
	SetInt("TunnelType", adapter->TunnelType, &adapter_value);

	// "skipped" means the adapter was not ultimately chosen as a candidate for
	// testing WPAD.
	bool skipped = !IsDhcpCapableAdapter(adapter);
	adapter_value.SetKey("skipped", base::Value(skipped));

	adapters_value.GetList().push_back(std::move(adapter_value));
	}
	result->SetKey("adapters", std::move(adapters_value));

	SetInt("origin_to_worker_thread_hop_dt",
	(info->worker_thread_start_time - info->origin_thread_start_time)
	.InMilliseconds(),
	result.get());
	SetInt("worker_to_origin_thread_hop_dt",
	(info->origin_thread_end_time - info->worker_thread_end_time)
	.InMilliseconds(),
	result.get());
	SetInt("worker_dt",
	(info->worker_thread_end_time - info->worker_thread_start_time)
	.InMilliseconds(),
	result.get());

	if (info->error != ERROR_SUCCESS)
	SetInt("error", info->error, result.get());

	return result;
	}

	std::unique_ptr<base::Value> NetLogFetcherDoneCallback(
	int fetcher_index,
	int net_error,
	NetLogCaptureMode /* capture_mode */) {
	std::unique_ptr<base::DictionaryValue> result =
	std::make_unique<base::DictionaryValue>();

	result->SetKey("fetcher_index", base::Value(fetcher_index));
	result->SetKey("net_error", base::Value(net_error));

	return result;
	}

	} // namespace

	DhcpPacFileFetcherWin::DhcpPacFileFetcherWin(
	URLRequestContext* url_request_context)
	: state_(STATE_START),
	num_pending_fetchers_(0),
	destination_string_(NULL),
	url_request_context_(url_request_context),
	task_runner_(base::MakeRefCounted<TaskRunnerWithCap>()) {
	DCHECK(url_request_context_);
	}

	DhcpPacFileFetcherWin::~DhcpPacFileFetcherWin() {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	// Count as user-initiated if we are not yet in STATE_DONE.
	Cancel();
	}

	int DhcpPacFileFetcherWin::Fetch(
	base::string16* utf16_text,
	CompletionOnceCallback callback,
	const NetLogWithSource& net_log,
	const NetworkTrafficAnnotationTag traffic_annotation) {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	if (state_ != STATE_START && state_ != STATE_DONE) {
	NOTREACHED();
	return ERR_UNEXPECTED;
	}

	net_log_ = net_log;

	if (!url_request_context_)
	return ERR_CONTEXT_SHUT_DOWN;

	state_ = STATE_WAIT_ADAPTERS;
	callback_ = std::move(callback);
	destination_string_ = utf16_text;

	net_log.BeginEvent(NetLogEventType::WPAD_DHCP_WIN_FETCH);

	// TODO(eroman): This event is not ended in the case of cancellation.
	net_log.BeginEvent(NetLogEventType::WPAD_DHCP_WIN_GET_ADAPTERS);

	last_query_ = ImplCreateAdapterQuery();
	last_query_->logging_info()->origin_thread_start_time =
	base::TimeTicks::Now();

	task_runner_->PostTaskAndReply(
	FROM_HERE,
	base::Bind(&DhcpPacFileFetcherWin::AdapterQuery::GetCandidateAdapterNames,
	last_query_.get()),
	base::Bind(&DhcpPacFileFetcherWin::OnGetCandidateAdapterNamesDone,
	AsWeakPtr(), last_query_, traffic_annotation));

	return ERR_IO_PENDING;
	}

	void DhcpPacFileFetcherWin::Cancel() {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

	CancelImpl();
	}

	void DhcpPacFileFetcherWin::OnShutdown() {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

	// Back up callback, if there is one, as CancelImpl() will destroy it.
	net::CompletionOnceCallback callback = std::move(callback_);

	// Cancel current request, if there is one.
	CancelImpl();

	// Prevent future network requests.
	url_request_context_ = nullptr;

	// Invoke callback with error, if present.
	if (callback)
	std::move(callback).Run(ERR_CONTEXT_SHUT_DOWN);
	}

	void DhcpPacFileFetcherWin::CancelImpl() {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

	if (state_ != STATE_DONE) {
	callback_.Reset();
	wait_timer_.Stop();
	state_ = STATE_DONE;

	for (FetcherVector::iterator it = fetchers_.begin();
	it != fetchers_.end();
	++it) {
	(*it)->Cancel();
	}

	fetchers_.clear();
	}
	}

	void DhcpPacFileFetcherWin::OnGetCandidateAdapterNamesDone(
	scoped_refptr<AdapterQuery> query,
	const NetworkTrafficAnnotationTag traffic_annotation) {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

	// This can happen if this object is reused for multiple queries,
	// and a previous query was cancelled before it completed.
	if (query.get() != last_query_.get())
	return;
	last_query_ = NULL;

	DhcpAdapterNamesLoggingInfo* logging_info = query->logging_info();
	logging_info->origin_thread_end_time = base::TimeTicks::Now();

	net_log_.EndEvent(NetLogEventType::WPAD_DHCP_WIN_GET_ADAPTERS,
	base::Bind(&NetLogGetAdaptersDoneCallback,
	base::Unretained(logging_info)));

	// Enable unit tests to wait for this to happen; in production this function
	// call is a no-op.
	ImplOnGetCandidateAdapterNamesDone();

	// We may have been cancelled.
	if (state_ != STATE_WAIT_ADAPTERS)
	return;

	state_ = STATE_NO_RESULTS;

	const std::set<std::string>& adapter_names = query->adapter_names();

	if (adapter_names.empty()) {
	TransitionToDone();
	return;
	}

	for (const std::string& adapter_name : adapter_names) {
	std::unique_ptr<DhcpPacFileAdapterFetcher> fetcher(
	ImplCreateAdapterFetcher());
	size_t fetcher_index = fetchers_.size();
	fetcher->Fetch(adapter_name,
	base::Bind(&DhcpPacFileFetcherWin::OnFetcherDone,
	base::Unretained(this), fetcher_index),
	traffic_annotation);
	fetchers_.push_back(std::move(fetcher));
	}
	num_pending_fetchers_ = fetchers_.size();
	}

	std::string DhcpPacFileFetcherWin::GetFetcherName() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	return "win";
	}

	const GURL& DhcpPacFileFetcherWin::GetPacURL() const {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);
	DCHECK_EQ(state_, STATE_DONE);

	return pac_url_;
	}

	void DhcpPacFileFetcherWin::OnFetcherDone(size_t fetcher_index,
	int result) {
	DCHECK(state_ == STATE_NO_RESULTS \|\| state_ == STATE_SOME_RESULTS);

	net_log_.AddEvent(
	NetLogEventType::WPAD_DHCP_WIN_ON_FETCHER_DONE,
	base::Bind(&NetLogFetcherDoneCallback, fetcher_index, result));

	if (--num_pending_fetchers_ == 0) {
	TransitionToDone();
	return;
	}

	// If the only pending adapters are those less preferred than one
	// with a valid PAC script, we do not need to wait any longer.
	for (FetcherVector::iterator it = fetchers_.begin();
	it != fetchers_.end();
	++it) {
	bool did_finish = (*it)->DidFinish();
	int result = (*it)->GetResult();
	if (did_finish && result == OK) {
	TransitionToDone();
	return;
	}
	if (!did_finish \|\| result != ERR_PAC_NOT_IN_DHCP) {
	break;
	}
	}

	// Once we have a single result, we set a maximum on how long to wait
	// for the rest of the results.
	if (state_ == STATE_NO_RESULTS) {
	state_ = STATE_SOME_RESULTS;
	net_log_.AddEvent(NetLogEventType::WPAD_DHCP_WIN_START_WAIT_TIMER);
	wait_timer_.Start(FROM_HERE,
	ImplGetMaxWait(), this, &DhcpPacFileFetcherWin::OnWaitTimer);
	}
	}

	void DhcpPacFileFetcherWin::OnWaitTimer() {
	DCHECK_EQ(state_, STATE_SOME_RESULTS);

	net_log_.AddEvent(NetLogEventType::WPAD_DHCP_WIN_ON_WAIT_TIMER);
	TransitionToDone();
	}

	void DhcpPacFileFetcherWin::TransitionToDone() {
	DCHECK(state_ == STATE_NO_RESULTS \|\| state_ == STATE_SOME_RESULTS);

	int used_fetcher_index = -1;
	int result = ERR_PAC_NOT_IN_DHCP; // Default if no fetchers.
	if (!fetchers_.empty()) {
	// Scan twice for the result; once through the whole list for success,
	// then if no success, return result for most preferred network adapter,
	// preferring "real" network errors to the ERR_PAC_NOT_IN_DHCP error.
	// Default to ERR_ABORTED if no fetcher completed.
	result = ERR_ABORTED;
	for (size_t i = 0; i < fetchers_.size(); ++i) {
	const auto& fetcher = fetchers_[i];
	if (fetcher->DidFinish() && fetcher->GetResult() == OK) {
	result = OK;
	*destination_string_ = fetcher->GetPacScript();
	pac_url_ = fetcher->GetPacURL();
	used_fetcher_index = i;
	break;
	}
	}
	if (result != OK) {
	destination_string_->clear();
	for (size_t i = 0; i < fetchers_.size(); ++i) {
	const auto& fetcher = fetchers_[i];
	if (fetcher->DidFinish()) {
	result = fetcher->GetResult();
	used_fetcher_index = i;
	if (result != ERR_PAC_NOT_IN_DHCP) {
	break;
	}
	}
	}
	}
	}

	CompletionOnceCallback callback = std::move(callback_);
	CancelImpl();
	DCHECK_EQ(state_, STATE_DONE);
	DCHECK(fetchers_.empty());

	net_log_.EndEvent(
	NetLogEventType::WPAD_DHCP_WIN_FETCH,
	base::Bind(&NetLogFetcherDoneCallback, used_fetcher_index, result));

	// We may be deleted re-entrantly within this outcall.
	std::move(callback).Run(result);
	}

	int DhcpPacFileFetcherWin::num_pending_fetchers() const {
	return num_pending_fetchers_;
	}

	URLRequestContext* DhcpPacFileFetcherWin::url_request_context() const {
	return url_request_context_;
	}

	scoped_refptr<base::TaskRunner> DhcpPacFileFetcherWin::GetTaskRunner() {
	return task_runner_;
	}

	DhcpPacFileAdapterFetcher* DhcpPacFileFetcherWin::ImplCreateAdapterFetcher() {
	return new DhcpPacFileAdapterFetcher(url_request_context_, task_runner_);
	}

	DhcpPacFileFetcherWin::AdapterQuery*
	DhcpPacFileFetcherWin::ImplCreateAdapterQuery() {
	return new AdapterQuery();
	}

	base::TimeDelta DhcpPacFileFetcherWin::ImplGetMaxWait() {
	return kMaxWaitAfterFirstResult;
	}

	bool DhcpPacFileFetcherWin::GetCandidateAdapterNames(
	std::set<std::string>* adapter_names,
	DhcpAdapterNamesLoggingInfo* info) {
	DCHECK(adapter_names);
	adapter_names->clear();

	// The GetAdaptersAddresses MSDN page recommends using a size of 15000 to
	// avoid reallocation.
	ULONG adapters_size = 15000;
	std::unique_ptr<IP_ADAPTER_ADDRESSES, base::FreeDeleter> adapters;
	ULONG error = ERROR_SUCCESS;
	int num_tries = 0;

	do {
	adapters.reset(
	static_cast<IP_ADAPTER_ADDRESSES*>(SbMemoryAllocate(adapters_size)));
	// Return only unicast addresses, and skip information we do not need.
	base::ScopedBlockingCall scoped_blocking_call(
	base::BlockingType::MAY_BLOCK);
	error = GetAdaptersAddresses(AF_UNSPEC,
	GAA_FLAG_SKIP_ANYCAST \|
	GAA_FLAG_SKIP_MULTICAST \|
	GAA_FLAG_SKIP_DNS_SERVER \|
	GAA_FLAG_SKIP_FRIENDLY_NAME,
	NULL,
	adapters.get(),
	&adapters_size);
	++num_tries;
	} while (error == ERROR_BUFFER_OVERFLOW && num_tries <= 3);

	if (info)
	info->error = error;

	if (error == ERROR_NO_DATA) {
	// There are no adapters that we care about.
	return true;
	}

	if (error != ERROR_SUCCESS) {
	LOG(WARNING) << "Unexpected error retrieving WPAD configuration from DHCP.";
	return false;
	}

	IP_ADAPTER_ADDRESSES* adapter = NULL;
	for (adapter = adapters.get(); adapter; adapter = adapter->Next) {
	if (IsDhcpCapableAdapter(adapter)) {
	DCHECK(adapter->AdapterName);
	adapter_names->insert(adapter->AdapterName);
	}
	}

	// Transfer the buffer containing the adapters, so it can be used later for
	// emitting NetLog parameters from the origin thread.
	if (info)
	info->adapters = std::move(adapters);
	return true;
	}

	DhcpPacFileFetcherWin::AdapterQuery::AdapterQuery()
	: logging_info_(new DhcpAdapterNamesLoggingInfo()) {}

	void DhcpPacFileFetcherWin::AdapterQuery::GetCandidateAdapterNames() {
	logging_info_->error = ERROR_NO_DATA;
	logging_info_->adapters.reset();
	logging_info_->worker_thread_start_time = base::TimeTicks::Now();

	ImplGetCandidateAdapterNames(&adapter_names_, logging_info_.get());

	logging_info_->worker_thread_end_time = base::TimeTicks::Now();
	}

	const std::set<std::string>&
	DhcpPacFileFetcherWin::AdapterQuery::adapter_names() const {
	return adapter_names_;
	}

	bool DhcpPacFileFetcherWin::AdapterQuery::ImplGetCandidateAdapterNames(
	std::set<std::string>* adapter_names,
	DhcpAdapterNamesLoggingInfo* info) {
	return DhcpPacFileFetcherWin::GetCandidateAdapterNames(adapter_names,
	info);
	}

	DhcpPacFileFetcherWin::AdapterQuery::~AdapterQuery() {}

	} // namespace net