chrome/browser/net/url_info_unittest.cc - chromium/src - 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.

 // Single threaded tests of UrlInfo functionality.

 #include <time.h>
 #include <string>

 #include "base/threading/platform_thread.h"
 #include "base/time/time.h"
 #include "chrome/browser/net/url_info.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using base::TimeDelta;
 using base::TimeTicks;

 namespace {

 class UrlHostInfoTest : public testing::Test {
 };

 typedef chrome_browser_net::UrlInfo UrlInfo;

 // Cycle throught the states held by a UrlInfo instance, and check to see that
 // states look reasonable as time ticks away.  If the test bots are too slow,
 // we'll just give up on this test and exit from it.
 TEST(UrlHostInfoTest, StateChangeTest) {
   UrlInfo info_practice, info;
   GURL url1("http://domain1.com:80"), url2("https://domain2.com:443");

   // First load DLL, so that their load time won't interfere with tests.
   // Some tests involve timing function performance, and DLL time can overwhelm
   // test durations (which are considering network vs cache response times).
   info_practice.SetUrl(url2);
   info_practice.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
   info_practice.SetAssignedState();
   info_practice.SetFoundState();

   // Start test with actual (long/default) expiration time intact.

   // Complete the construction of real test object.
   info.SetUrl(url1);
   EXPECT_TRUE(info.NeedsDnsUpdate()) << "error in construction state";
   info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
   EXPECT_FALSE(info.NeedsDnsUpdate()) << "update needed after being queued";
   info.SetAssignedState();
   EXPECT_FALSE(info.NeedsDnsUpdate())  << "update needed during resolution";
   base::TimeTicks before_resolution_complete = TimeTicks::Now();
   info.SetFoundState();
   // "Immediately" check to see if we need an update yet (we shouldn't).
   if (info.NeedsDnsUpdate()) {
     // The test bot must be really slow, so we can verify that.
     EXPECT_GT((TimeTicks::Now() - before_resolution_complete).InMilliseconds(),
               UrlInfo::get_cache_expiration().InMilliseconds());
     return;  // Lets punt here, the test bot is too slow.
   }

   // Run similar test with a shortened expiration, so we can trigger it.
   const TimeDelta kMockExpirationTime = TimeDelta::FromMilliseconds(300);
   info.set_cache_expiration(kMockExpirationTime);

   // That was a nice life when the object was found.... but next time it won't
   // be found.  We'll sleep for a while, and then come back with not-found.
   info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
   EXPECT_FALSE(info.NeedsDnsUpdate());
   info.SetAssignedState();
   EXPECT_FALSE(info.NeedsDnsUpdate());
   // Greater than minimal expected network latency on DNS lookup.
   base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(25));
   before_resolution_complete = TimeTicks::Now();
   info.SetNoSuchNameState();
   // "Immediately" check to see if we need an update yet (we shouldn't).
   if (info.NeedsDnsUpdate()) {
     // The test bot must be really slow, so we can verify that.
     EXPECT_GT((TimeTicks::Now() - before_resolution_complete),
               kMockExpirationTime);
     return;
   }
   // Wait over 300ms, so it should definately be considered out of cache.
   base::PlatformThread::Sleep(kMockExpirationTime +
                               TimeDelta::FromMilliseconds(20));
   EXPECT_TRUE(info.NeedsDnsUpdate()) << "expiration time not honored";
 }

 // When a system gets "congested" relative to DNS, it means it is doing too many
 // DNS resolutions, and bogging down the system.  When we detect such a
 // situation, we divert the sequence of states a UrlInfo instance moves
 // through.  Rather than proceeding from QUEUED (waiting in a name queue for a
 // worker thread that can resolve the name) to ASSIGNED (where a worker thread
 // actively resolves the name), we enter the ASSIGNED state (without actually
 // getting sent to a resolver thread) and reset our state to what it was before
 // the corresponding name was put in the work_queue_.  This test drives through
 // the state transitions used in such congestion handling.
 TEST(UrlHostInfoTest, CongestionResetStateTest) {
   UrlInfo info;
   GURL url("http://domain1.com:80");

   info.SetUrl(url);
   info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
   info.SetAssignedState();
   EXPECT_TRUE(info.is_assigned());

   info.RemoveFromQueue();  // Do the reset.
   EXPECT_FALSE(info.is_assigned());

   // Since this was a new info instance, and it never got resolved, we land back
   // in a PENDING state rather than FOUND or NO_SUCH_NAME.
   EXPECT_FALSE(info.was_found());
   EXPECT_FALSE(info.was_nonexistent());

   // Make sure we're completely re-usable, by going throug a normal flow.
   info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
   info.SetAssignedState();
   info.SetFoundState();
   EXPECT_TRUE(info.was_found());

   // Use the congestion flow, and check that we end up in the found state.
   info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
   info.SetAssignedState();
   info.RemoveFromQueue();  // Do the reset.
   EXPECT_FALSE(info.is_assigned());
   EXPECT_TRUE(info.was_found());  // Back to what it was before being queued.
 }


 // TODO(jar): Add death test for illegal state changes, and also for setting
 // hostname when already set.

 }  // namespace
	// 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.

	// Single threaded tests of UrlInfo functionality.

	#include <time.h>
	#include <string>

	#include "base/threading/platform_thread.h"
	#include "base/time/time.h"
	#include "chrome/browser/net/url_info.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using base::TimeDelta;
	using base::TimeTicks;

	namespace {

	class UrlHostInfoTest : public testing::Test {
	};

	typedef chrome_browser_net::UrlInfo UrlInfo;

	// Cycle throught the states held by a UrlInfo instance, and check to see that
	// states look reasonable as time ticks away. If the test bots are too slow,
	// we'll just give up on this test and exit from it.
	TEST(UrlHostInfoTest, StateChangeTest) {
	UrlInfo info_practice, info;
	GURL url1("http://domain1.com:80"), url2("https://domain2.com:443");

	// First load DLL, so that their load time won't interfere with tests.
	// Some tests involve timing function performance, and DLL time can overwhelm
	// test durations (which are considering network vs cache response times).
	info_practice.SetUrl(url2);
	info_practice.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
	info_practice.SetAssignedState();
	info_practice.SetFoundState();

	// Start test with actual (long/default) expiration time intact.

	// Complete the construction of real test object.
	info.SetUrl(url1);
	EXPECT_TRUE(info.NeedsDnsUpdate()) << "error in construction state";
	info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
	EXPECT_FALSE(info.NeedsDnsUpdate()) << "update needed after being queued";
	info.SetAssignedState();
	EXPECT_FALSE(info.NeedsDnsUpdate()) << "update needed during resolution";
	base::TimeTicks before_resolution_complete = TimeTicks::Now();
	info.SetFoundState();
	// "Immediately" check to see if we need an update yet (we shouldn't).
	if (info.NeedsDnsUpdate()) {
	// The test bot must be really slow, so we can verify that.
	EXPECT_GT((TimeTicks::Now() - before_resolution_complete).InMilliseconds(),
	UrlInfo::get_cache_expiration().InMilliseconds());
	return; // Lets punt here, the test bot is too slow.
	}

	// Run similar test with a shortened expiration, so we can trigger it.
	const TimeDelta kMockExpirationTime = TimeDelta::FromMilliseconds(300);
	info.set_cache_expiration(kMockExpirationTime);

	// That was a nice life when the object was found.... but next time it won't
	// be found. We'll sleep for a while, and then come back with not-found.
	info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
	EXPECT_FALSE(info.NeedsDnsUpdate());
	info.SetAssignedState();
	EXPECT_FALSE(info.NeedsDnsUpdate());
	// Greater than minimal expected network latency on DNS lookup.
	base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(25));
	before_resolution_complete = TimeTicks::Now();
	info.SetNoSuchNameState();
	// "Immediately" check to see if we need an update yet (we shouldn't).
	if (info.NeedsDnsUpdate()) {
	// The test bot must be really slow, so we can verify that.
	EXPECT_GT((TimeTicks::Now() - before_resolution_complete),
	kMockExpirationTime);
	return;
	}
	// Wait over 300ms, so it should definately be considered out of cache.
	base::PlatformThread::Sleep(kMockExpirationTime +
	TimeDelta::FromMilliseconds(20));
	EXPECT_TRUE(info.NeedsDnsUpdate()) << "expiration time not honored";
	}

	// When a system gets "congested" relative to DNS, it means it is doing too many
	// DNS resolutions, and bogging down the system. When we detect such a
	// situation, we divert the sequence of states a UrlInfo instance moves
	// through. Rather than proceeding from QUEUED (waiting in a name queue for a
	// worker thread that can resolve the name) to ASSIGNED (where a worker thread
	// actively resolves the name), we enter the ASSIGNED state (without actually
	// getting sent to a resolver thread) and reset our state to what it was before
	// the corresponding name was put in the work_queue_. This test drives through
	// the state transitions used in such congestion handling.
	TEST(UrlHostInfoTest, CongestionResetStateTest) {
	UrlInfo info;
	GURL url("http://domain1.com:80");

	info.SetUrl(url);
	info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
	info.SetAssignedState();
	EXPECT_TRUE(info.is_assigned());

	info.RemoveFromQueue(); // Do the reset.
	EXPECT_FALSE(info.is_assigned());

	// Since this was a new info instance, and it never got resolved, we land back
	// in a PENDING state rather than FOUND or NO_SUCH_NAME.
	EXPECT_FALSE(info.was_found());
	EXPECT_FALSE(info.was_nonexistent());

	// Make sure we're completely re-usable, by going throug a normal flow.
	info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
	info.SetAssignedState();
	info.SetFoundState();
	EXPECT_TRUE(info.was_found());

	// Use the congestion flow, and check that we end up in the found state.
	info.SetQueuedState(UrlInfo::UNIT_TEST_MOTIVATED);
	info.SetAssignedState();
	info.RemoveFromQueue(); // Do the reset.
	EXPECT_FALSE(info.is_assigned());
	EXPECT_TRUE(info.was_found()); // Back to what it was before being queued.
	}


	// TODO(jar): Add death test for illegal state changes, and also for setting
	// hostname when already set.

	} // namespace