media: Add RAPPOR metrics for EME usage.
[chromium-blink-merge.git] / net / proxy / dhcp_proxy_script_fetcher_win_unittest.cc
blob59927dc2cb6d568ee911532beb93584d905bac01
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "net/proxy/dhcp_proxy_script_fetcher_win.h"
7 #include <vector>
9 #include "base/bind.h"
10 #include "base/bind_helpers.h"
11 #include "base/message_loop/message_loop.h"
12 #include "base/rand_util.h"
13 #include "base/test/test_timeouts.h"
14 #include "base/threading/platform_thread.h"
15 #include "base/timer/elapsed_timer.h"
16 #include "net/base/completion_callback.h"
17 #include "net/proxy/dhcp_proxy_script_adapter_fetcher_win.h"
18 #include "net/url_request/url_request_test_util.h"
19 #include "testing/gtest/include/gtest/gtest.h"
21 namespace net {
23 namespace {
25 TEST(DhcpProxyScriptFetcherWin, AdapterNamesAndPacURLFromDhcp) {
26 // This tests our core Win32 implementation without any of the wrappers
27 // we layer on top to achieve asynchronous and parallel operations.
29 // We don't make assumptions about the environment this unit test is
30 // running in, so it just exercises the code to make sure there
31 // is no crash and no error returned, but does not assert on the number
32 // of interfaces or the information returned via DHCP.
33 std::set<std::string> adapter_names;
34 DhcpProxyScriptFetcherWin::GetCandidateAdapterNames(&adapter_names);
35 for (std::set<std::string>::const_iterator it = adapter_names.begin();
36 it != adapter_names.end();
37 ++it) {
38 const std::string& adapter_name = *it;
39 DhcpProxyScriptAdapterFetcher::GetPacURLFromDhcp(adapter_name);
43 // Helper for RealFetch* tests below.
44 class RealFetchTester {
45 public:
46 RealFetchTester()
47 : context_(new TestURLRequestContext),
48 fetcher_(new DhcpProxyScriptFetcherWin(context_.get())),
49 finished_(false),
50 on_completion_is_error_(false) {
51 // Make sure the test ends.
52 timeout_.Start(FROM_HERE,
53 base::TimeDelta::FromSeconds(5), this, &RealFetchTester::OnTimeout);
56 void RunTest() {
57 int result = fetcher_->Fetch(
58 &pac_text_,
59 base::Bind(&RealFetchTester::OnCompletion, base::Unretained(this)));
60 if (result != ERR_IO_PENDING)
61 finished_ = true;
64 void RunTestWithCancel() {
65 RunTest();
66 fetcher_->Cancel();
69 void RunTestWithDeferredCancel() {
70 // Put the cancellation into the queue before even running the
71 // test to avoid the chance of one of the adapter fetcher worker
72 // threads completing before cancellation. See http://crbug.com/86756.
73 cancel_timer_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds(0),
74 this, &RealFetchTester::OnCancelTimer);
75 RunTest();
78 void OnCompletion(int result) {
79 if (on_completion_is_error_) {
80 FAIL() << "Received completion for test in which this is error.";
82 finished_ = true;
85 void OnTimeout() {
86 OnCompletion(0);
89 void OnCancelTimer() {
90 fetcher_->Cancel();
91 finished_ = true;
94 void WaitUntilDone() {
95 while (!finished_) {
96 base::MessageLoop::current()->RunUntilIdle();
98 base::MessageLoop::current()->RunUntilIdle();
101 // Attempts to give worker threads time to finish. This is currently
102 // very simplistic as completion (via completion callback or cancellation)
103 // immediately "detaches" any worker threads, so the best we can do is give
104 // them a little time. If we start running into Valgrind leaks, we can
105 // do something a bit more clever to track worker threads even when the
106 // DhcpProxyScriptFetcherWin state machine has finished.
107 void FinishTestAllowCleanup() {
108 base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(30));
111 scoped_ptr<URLRequestContext> context_;
112 scoped_ptr<DhcpProxyScriptFetcherWin> fetcher_;
113 bool finished_;
114 base::string16 pac_text_;
115 base::OneShotTimer<RealFetchTester> timeout_;
116 base::OneShotTimer<RealFetchTester> cancel_timer_;
117 bool on_completion_is_error_;
120 TEST(DhcpProxyScriptFetcherWin, RealFetch) {
121 // This tests a call to Fetch() with no stubbing out of dependencies.
123 // We don't make assumptions about the environment this unit test is
124 // running in, so it just exercises the code to make sure there
125 // is no crash and no unexpected error returned, but does not assert on
126 // results beyond that.
127 RealFetchTester fetcher;
128 fetcher.RunTest();
130 fetcher.WaitUntilDone();
131 fetcher.fetcher_->GetPacURL().possibly_invalid_spec();
133 fetcher.FinishTestAllowCleanup();
136 TEST(DhcpProxyScriptFetcherWin, RealFetchWithCancel) {
137 // Does a Fetch() with an immediate cancel. As before, just
138 // exercises the code without stubbing out dependencies.
139 RealFetchTester fetcher;
140 fetcher.RunTestWithCancel();
141 base::MessageLoop::current()->RunUntilIdle();
143 // Attempt to avoid Valgrind leak reports in case worker thread is
144 // still running.
145 fetcher.FinishTestAllowCleanup();
148 // For RealFetchWithDeferredCancel, below.
149 class DelayingDhcpProxyScriptAdapterFetcher
150 : public DhcpProxyScriptAdapterFetcher {
151 public:
152 DelayingDhcpProxyScriptAdapterFetcher(
153 URLRequestContext* url_request_context,
154 scoped_refptr<base::TaskRunner> task_runner)
155 : DhcpProxyScriptAdapterFetcher(url_request_context, task_runner) {
158 class DelayingDhcpQuery : public DhcpQuery {
159 public:
160 explicit DelayingDhcpQuery() : DhcpQuery() {}
162 std::string ImplGetPacURLFromDhcp(
163 const std::string& adapter_name) override {
164 base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(20));
165 return DhcpQuery::ImplGetPacURLFromDhcp(adapter_name);
168 private:
169 ~DelayingDhcpQuery() override {}
172 DhcpQuery* ImplCreateDhcpQuery() override {
173 return new DelayingDhcpQuery();
177 // For RealFetchWithDeferredCancel, below.
178 class DelayingDhcpProxyScriptFetcherWin
179 : public DhcpProxyScriptFetcherWin {
180 public:
181 explicit DelayingDhcpProxyScriptFetcherWin(
182 URLRequestContext* context)
183 : DhcpProxyScriptFetcherWin(context) {
186 DhcpProxyScriptAdapterFetcher* ImplCreateAdapterFetcher() override {
187 return new DelayingDhcpProxyScriptAdapterFetcher(url_request_context(),
188 GetTaskRunner());
192 TEST(DhcpProxyScriptFetcherWin, RealFetchWithDeferredCancel) {
193 // Does a Fetch() with a slightly delayed cancel. As before, just
194 // exercises the code without stubbing out dependencies, but
195 // introduces a guaranteed 20 ms delay on the worker threads so that
196 // the cancel is called before they complete.
197 RealFetchTester fetcher;
198 fetcher.fetcher_.reset(
199 new DelayingDhcpProxyScriptFetcherWin(fetcher.context_.get()));
200 fetcher.on_completion_is_error_ = true;
201 fetcher.RunTestWithDeferredCancel();
202 fetcher.WaitUntilDone();
205 // The remaining tests are to exercise our state machine in various
206 // situations, with actual network access fully stubbed out.
208 class DummyDhcpProxyScriptAdapterFetcher
209 : public DhcpProxyScriptAdapterFetcher {
210 public:
211 DummyDhcpProxyScriptAdapterFetcher(URLRequestContext* context,
212 scoped_refptr<base::TaskRunner> runner)
213 : DhcpProxyScriptAdapterFetcher(context, runner),
214 did_finish_(false),
215 result_(OK),
216 pac_script_(L"bingo"),
217 fetch_delay_ms_(1) {
220 void Fetch(const std::string& adapter_name,
221 const CompletionCallback& callback) override {
222 callback_ = callback;
223 timer_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds(fetch_delay_ms_),
224 this, &DummyDhcpProxyScriptAdapterFetcher::OnTimer);
227 void Cancel() override {
228 timer_.Stop();
231 bool DidFinish() const override {
232 return did_finish_;
235 int GetResult() const override {
236 return result_;
239 base::string16 GetPacScript() const override {
240 return pac_script_;
243 void OnTimer() {
244 callback_.Run(result_);
247 void Configure(bool did_finish,
248 int result,
249 base::string16 pac_script,
250 int fetch_delay_ms) {
251 did_finish_ = did_finish;
252 result_ = result;
253 pac_script_ = pac_script;
254 fetch_delay_ms_ = fetch_delay_ms;
257 private:
258 bool did_finish_;
259 int result_;
260 base::string16 pac_script_;
261 int fetch_delay_ms_;
262 CompletionCallback callback_;
263 base::OneShotTimer<DummyDhcpProxyScriptAdapterFetcher> timer_;
266 class MockDhcpProxyScriptFetcherWin : public DhcpProxyScriptFetcherWin {
267 public:
268 class MockAdapterQuery : public AdapterQuery {
269 public:
270 MockAdapterQuery() {
273 bool ImplGetCandidateAdapterNames(
274 std::set<std::string>* adapter_names) override {
275 adapter_names->insert(
276 mock_adapter_names_.begin(), mock_adapter_names_.end());
277 return true;
280 std::vector<std::string> mock_adapter_names_;
282 private:
283 ~MockAdapterQuery() override {}
286 MockDhcpProxyScriptFetcherWin(URLRequestContext* context)
287 : DhcpProxyScriptFetcherWin(context),
288 num_fetchers_created_(0),
289 worker_finished_event_(true, false) {
290 ResetTestState();
293 ~MockDhcpProxyScriptFetcherWin() override { ResetTestState(); }
295 using DhcpProxyScriptFetcherWin::GetTaskRunner;
297 // Adds a fetcher object to the queue of fetchers used by
298 // |ImplCreateAdapterFetcher()|, and its name to the list of adapters
299 // returned by ImplGetCandidateAdapterNames.
300 void PushBackAdapter(const std::string& adapter_name,
301 DhcpProxyScriptAdapterFetcher* fetcher) {
302 adapter_query_->mock_adapter_names_.push_back(adapter_name);
303 adapter_fetchers_.push_back(fetcher);
306 void ConfigureAndPushBackAdapter(const std::string& adapter_name,
307 bool did_finish,
308 int result,
309 base::string16 pac_script,
310 base::TimeDelta fetch_delay) {
311 scoped_ptr<DummyDhcpProxyScriptAdapterFetcher> adapter_fetcher(
312 new DummyDhcpProxyScriptAdapterFetcher(url_request_context(),
313 GetTaskRunner()));
314 adapter_fetcher->Configure(
315 did_finish, result, pac_script, fetch_delay.InMilliseconds());
316 PushBackAdapter(adapter_name, adapter_fetcher.release());
319 DhcpProxyScriptAdapterFetcher* ImplCreateAdapterFetcher() override {
320 ++num_fetchers_created_;
321 return adapter_fetchers_[next_adapter_fetcher_index_++];
324 AdapterQuery* ImplCreateAdapterQuery() override {
325 DCHECK(adapter_query_.get());
326 return adapter_query_.get();
329 base::TimeDelta ImplGetMaxWait() override {
330 return max_wait_;
333 void ImplOnGetCandidateAdapterNamesDone() override {
334 worker_finished_event_.Signal();
337 void ResetTestState() {
338 // Delete any adapter fetcher objects we didn't hand out.
339 std::vector<DhcpProxyScriptAdapterFetcher*>::const_iterator it
340 = adapter_fetchers_.begin();
341 for (; it != adapter_fetchers_.end(); ++it) {
342 if (num_fetchers_created_-- <= 0) {
343 delete (*it);
347 next_adapter_fetcher_index_ = 0;
348 num_fetchers_created_ = 0;
349 adapter_fetchers_.clear();
350 adapter_query_ = new MockAdapterQuery();
351 max_wait_ = TestTimeouts::tiny_timeout();
354 bool HasPendingFetchers() {
355 return num_pending_fetchers() > 0;
358 int next_adapter_fetcher_index_;
360 // Ownership gets transferred to the implementation class via
361 // ImplCreateAdapterFetcher, but any objects not handed out are
362 // deleted on destruction.
363 std::vector<DhcpProxyScriptAdapterFetcher*> adapter_fetchers_;
365 scoped_refptr<MockAdapterQuery> adapter_query_;
367 base::TimeDelta max_wait_;
368 int num_fetchers_created_;
369 base::WaitableEvent worker_finished_event_;
372 class FetcherClient {
373 public:
374 FetcherClient()
375 : context_(new TestURLRequestContext),
376 fetcher_(context_.get()),
377 finished_(false),
378 result_(ERR_UNEXPECTED) {
381 void RunTest() {
382 int result = fetcher_.Fetch(
383 &pac_text_,
384 base::Bind(&FetcherClient::OnCompletion, base::Unretained(this)));
385 ASSERT_EQ(ERR_IO_PENDING, result);
388 void RunMessageLoopUntilComplete() {
389 while (!finished_) {
390 base::MessageLoop::current()->RunUntilIdle();
392 base::MessageLoop::current()->RunUntilIdle();
395 void RunMessageLoopUntilWorkerDone() {
396 DCHECK(fetcher_.adapter_query_.get());
397 while (!fetcher_.worker_finished_event_.TimedWait(
398 base::TimeDelta::FromMilliseconds(10))) {
399 base::MessageLoop::current()->RunUntilIdle();
403 void OnCompletion(int result) {
404 finished_ = true;
405 result_ = result;
408 void ResetTestState() {
409 finished_ = false;
410 result_ = ERR_UNEXPECTED;
411 pac_text_ = L"";
412 fetcher_.ResetTestState();
415 scoped_refptr<base::TaskRunner> GetTaskRunner() {
416 return fetcher_.GetTaskRunner();
419 scoped_ptr<URLRequestContext> context_;
420 MockDhcpProxyScriptFetcherWin fetcher_;
421 bool finished_;
422 int result_;
423 base::string16 pac_text_;
426 // We separate out each test's logic so that we can easily implement
427 // the ReuseFetcher test at the bottom.
428 void TestNormalCaseURLConfiguredOneAdapter(FetcherClient* client) {
429 TestURLRequestContext context;
430 scoped_ptr<DummyDhcpProxyScriptAdapterFetcher> adapter_fetcher(
431 new DummyDhcpProxyScriptAdapterFetcher(&context,
432 client->GetTaskRunner()));
433 adapter_fetcher->Configure(true, OK, L"bingo", 1);
434 client->fetcher_.PushBackAdapter("a", adapter_fetcher.release());
435 client->RunTest();
436 client->RunMessageLoopUntilComplete();
437 ASSERT_EQ(OK, client->result_);
438 ASSERT_EQ(L"bingo", client->pac_text_);
441 TEST(DhcpProxyScriptFetcherWin, NormalCaseURLConfiguredOneAdapter) {
442 FetcherClient client;
443 TestNormalCaseURLConfiguredOneAdapter(&client);
446 void TestNormalCaseURLConfiguredMultipleAdapters(FetcherClient* client) {
447 client->fetcher_.ConfigureAndPushBackAdapter(
448 "most_preferred", true, ERR_PAC_NOT_IN_DHCP, L"",
449 base::TimeDelta::FromMilliseconds(1));
450 client->fetcher_.ConfigureAndPushBackAdapter(
451 "second", true, OK, L"bingo", base::TimeDelta::FromMilliseconds(50));
452 client->fetcher_.ConfigureAndPushBackAdapter(
453 "third", true, OK, L"rocko", base::TimeDelta::FromMilliseconds(1));
454 client->RunTest();
455 client->RunMessageLoopUntilComplete();
456 ASSERT_EQ(OK, client->result_);
457 ASSERT_EQ(L"bingo", client->pac_text_);
460 TEST(DhcpProxyScriptFetcherWin, NormalCaseURLConfiguredMultipleAdapters) {
461 FetcherClient client;
462 TestNormalCaseURLConfiguredMultipleAdapters(&client);
465 void TestNormalCaseURLConfiguredMultipleAdaptersWithTimeout(
466 FetcherClient* client) {
467 client->fetcher_.ConfigureAndPushBackAdapter(
468 "most_preferred", true, ERR_PAC_NOT_IN_DHCP, L"",
469 base::TimeDelta::FromMilliseconds(1));
470 // This will time out.
471 client->fetcher_.ConfigureAndPushBackAdapter(
472 "second", false, ERR_IO_PENDING, L"bingo",
473 TestTimeouts::action_timeout());
474 client->fetcher_.ConfigureAndPushBackAdapter(
475 "third", true, OK, L"rocko", base::TimeDelta::FromMilliseconds(1));
476 client->RunTest();
477 client->RunMessageLoopUntilComplete();
478 ASSERT_EQ(OK, client->result_);
479 ASSERT_EQ(L"rocko", client->pac_text_);
482 TEST(DhcpProxyScriptFetcherWin,
483 NormalCaseURLConfiguredMultipleAdaptersWithTimeout) {
484 FetcherClient client;
485 TestNormalCaseURLConfiguredMultipleAdaptersWithTimeout(&client);
488 void TestFailureCaseURLConfiguredMultipleAdaptersWithTimeout(
489 FetcherClient* client) {
490 client->fetcher_.ConfigureAndPushBackAdapter(
491 "most_preferred", true, ERR_PAC_NOT_IN_DHCP, L"",
492 base::TimeDelta::FromMilliseconds(1));
493 // This will time out.
494 client->fetcher_.ConfigureAndPushBackAdapter(
495 "second", false, ERR_IO_PENDING, L"bingo",
496 TestTimeouts::action_timeout());
497 // This is the first non-ERR_PAC_NOT_IN_DHCP error and as such
498 // should be chosen.
499 client->fetcher_.ConfigureAndPushBackAdapter(
500 "third", true, ERR_PAC_STATUS_NOT_OK, L"",
501 base::TimeDelta::FromMilliseconds(1));
502 client->fetcher_.ConfigureAndPushBackAdapter(
503 "fourth", true, ERR_NOT_IMPLEMENTED, L"",
504 base::TimeDelta::FromMilliseconds(1));
505 client->RunTest();
506 client->RunMessageLoopUntilComplete();
507 ASSERT_EQ(ERR_PAC_STATUS_NOT_OK, client->result_);
508 ASSERT_EQ(L"", client->pac_text_);
511 TEST(DhcpProxyScriptFetcherWin,
512 FailureCaseURLConfiguredMultipleAdaptersWithTimeout) {
513 FetcherClient client;
514 TestFailureCaseURLConfiguredMultipleAdaptersWithTimeout(&client);
517 void TestFailureCaseNoURLConfigured(FetcherClient* client) {
518 client->fetcher_.ConfigureAndPushBackAdapter(
519 "most_preferred", true, ERR_PAC_NOT_IN_DHCP, L"",
520 base::TimeDelta::FromMilliseconds(1));
521 // This will time out.
522 client->fetcher_.ConfigureAndPushBackAdapter(
523 "second", false, ERR_IO_PENDING, L"bingo",
524 TestTimeouts::action_timeout());
525 // This is the first non-ERR_PAC_NOT_IN_DHCP error and as such
526 // should be chosen.
527 client->fetcher_.ConfigureAndPushBackAdapter(
528 "third", true, ERR_PAC_NOT_IN_DHCP, L"",
529 base::TimeDelta::FromMilliseconds(1));
530 client->RunTest();
531 client->RunMessageLoopUntilComplete();
532 ASSERT_EQ(ERR_PAC_NOT_IN_DHCP, client->result_);
533 ASSERT_EQ(L"", client->pac_text_);
536 TEST(DhcpProxyScriptFetcherWin, FailureCaseNoURLConfigured) {
537 FetcherClient client;
538 TestFailureCaseNoURLConfigured(&client);
541 void TestFailureCaseNoDhcpAdapters(FetcherClient* client) {
542 client->RunTest();
543 client->RunMessageLoopUntilComplete();
544 ASSERT_EQ(ERR_PAC_NOT_IN_DHCP, client->result_);
545 ASSERT_EQ(L"", client->pac_text_);
546 ASSERT_EQ(0, client->fetcher_.num_fetchers_created_);
549 TEST(DhcpProxyScriptFetcherWin, FailureCaseNoDhcpAdapters) {
550 FetcherClient client;
551 TestFailureCaseNoDhcpAdapters(&client);
554 void TestShortCircuitLessPreferredAdapters(FetcherClient* client) {
555 // Here we have a bunch of adapters; the first reports no PAC in DHCP,
556 // the second responds quickly with a PAC file, the rest take a long
557 // time. Verify that we complete quickly and do not wait for the slow
558 // adapters, i.e. we finish before timeout.
559 client->fetcher_.ConfigureAndPushBackAdapter(
560 "1", true, ERR_PAC_NOT_IN_DHCP, L"",
561 base::TimeDelta::FromMilliseconds(1));
562 client->fetcher_.ConfigureAndPushBackAdapter(
563 "2", true, OK, L"bingo",
564 base::TimeDelta::FromMilliseconds(1));
565 client->fetcher_.ConfigureAndPushBackAdapter(
566 "3", true, OK, L"wrongo", TestTimeouts::action_max_timeout());
568 // Increase the timeout to ensure the short circuit mechanism has
569 // time to kick in before the timeout waiting for more adapters kicks in.
570 client->fetcher_.max_wait_ = TestTimeouts::action_timeout();
572 base::ElapsedTimer timer;
573 client->RunTest();
574 client->RunMessageLoopUntilComplete();
575 ASSERT_TRUE(client->fetcher_.HasPendingFetchers());
576 // Assert that the time passed is definitely less than the wait timer
577 // timeout, to get a second signal that it was the shortcut mechanism
578 // (in OnFetcherDone) that kicked in, and not the timeout waiting for
579 // more adapters.
580 ASSERT_GT(client->fetcher_.max_wait_ - (client->fetcher_.max_wait_ / 10),
581 timer.Elapsed());
584 TEST(DhcpProxyScriptFetcherWin, ShortCircuitLessPreferredAdapters) {
585 FetcherClient client;
586 TestShortCircuitLessPreferredAdapters(&client);
589 void TestImmediateCancel(FetcherClient* client) {
590 TestURLRequestContext context;
591 scoped_ptr<DummyDhcpProxyScriptAdapterFetcher> adapter_fetcher(
592 new DummyDhcpProxyScriptAdapterFetcher(&context,
593 client->GetTaskRunner()));
594 adapter_fetcher->Configure(true, OK, L"bingo", 1);
595 client->fetcher_.PushBackAdapter("a", adapter_fetcher.release());
596 client->RunTest();
597 client->fetcher_.Cancel();
598 client->RunMessageLoopUntilWorkerDone();
599 ASSERT_EQ(0, client->fetcher_.num_fetchers_created_);
602 // Regression test to check that when we cancel immediately, no
603 // adapter fetchers get created.
604 TEST(DhcpProxyScriptFetcherWin, ImmediateCancel) {
605 FetcherClient client;
606 TestImmediateCancel(&client);
609 TEST(DhcpProxyScriptFetcherWin, ReuseFetcher) {
610 FetcherClient client;
612 // The ProxyScriptFetcher interface stipulates that only a single
613 // |Fetch()| may be in flight at once, but allows reuse, so test
614 // that the state transitions correctly from done to start in all
615 // cases we're testing.
617 typedef void (*FetcherClientTestFunction)(FetcherClient*);
618 typedef std::vector<FetcherClientTestFunction> TestVector;
619 TestVector test_functions;
620 test_functions.push_back(TestNormalCaseURLConfiguredOneAdapter);
621 test_functions.push_back(TestNormalCaseURLConfiguredMultipleAdapters);
622 test_functions.push_back(
623 TestNormalCaseURLConfiguredMultipleAdaptersWithTimeout);
624 test_functions.push_back(
625 TestFailureCaseURLConfiguredMultipleAdaptersWithTimeout);
626 test_functions.push_back(TestFailureCaseNoURLConfigured);
627 test_functions.push_back(TestFailureCaseNoDhcpAdapters);
628 test_functions.push_back(TestShortCircuitLessPreferredAdapters);
629 test_functions.push_back(TestImmediateCancel);
631 std::random_shuffle(test_functions.begin(),
632 test_functions.end(),
633 base::RandGenerator);
634 for (TestVector::const_iterator it = test_functions.begin();
635 it != test_functions.end();
636 ++it) {
637 (*it)(&client);
638 client.ResetTestState();
641 // Re-do the first test to make sure the last test that was run did
642 // not leave things in a bad state.
643 (*test_functions.begin())(&client);
646 } // namespace
648 } // namespace net