// Copyright (c) 2013 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 <string>
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/compiler_specific.h"
#include "base/files/file_path.h"
#include "base/memory/scoped_ptr.h"
#include "base/memory/weak_ptr.h"
#include "base/message_loop/message_loop.h"
#include "base/path_service.h"
#include "base/strings/stringprintf.h"
#include "base/threading/sequenced_worker_pool.h"
#include "chrome/browser/ui/browser.h"
#include "chrome/browser/ui/tabs/tab_strip_model.h"
#include "chrome/common/chrome_paths.h"
#include "chrome/test/base/in_process_browser_test.h"
#include "chrome/test/base/ui_test_utils.h"
#include "content/public/browser/browser_thread.h"
#include "content/public/test/browser_test_utils.h"
#include "net/base/load_timing_info.h"
#include "net/test/spawned_test_server/spawned_test_server.h"
#include "net/url_request/url_request_file_job.h"
#include "net/url_request/url_request_filter.h"
#include "net/url_request/url_request_interceptor.h"
#include "url/gurl.h"
// This file tests that net::LoadTimingInfo is correctly hooked up to the
// NavigationTiming API. It depends on behavior in a large number of files
// spread across multiple projects, so is somewhat arbitrarily put in
// chrome/browser/net.
using content::BrowserThread;
namespace {
const char kTestDomain[] = "test.com";
const char kTestUrl[] = "http://test.com/";
// Relative times need to be used because:
// 1) ExecuteScriptAndExtractInt does not support 64-bit integers.
// 2) Times for tests are set before the request has been started, but need to
// be set relative to the start time.
//
// Since some tests need to test negative time deltas (preconnected sockets)
// and others need to test NULL times (events that don't apply), this class has
// to be able to handle all cases: positive deltas, negative deltas, no
// delta, and null times.
class RelativeTime {
public:
// Constructor for null RelativeTimes.
RelativeTime() : is_null_(true) {
}
// Constructor for non-null RelativeTimes.
explicit RelativeTime(int delta_ms)
: is_null_(false),
delta_(base::TimeDelta::FromMilliseconds(delta_ms)) {
}
// Given a base time, returns the TimeTicks |this| identifies.
base::TimeTicks ToTimeTicks(base::TimeTicks base_time) const {
if (is_null_)
return base::TimeTicks();
return base_time + delta_;
}
bool is_null() const { return is_null_; }
base::TimeDelta GetDelta() const {
// This allows tests to compare times that shouldn't be null without
// explicitly null-testing them all first.
EXPECT_FALSE(is_null_);
return delta_;
}
private:
bool is_null_;
// Must be 0 when |is_null| is true.
base::TimeDelta delta_;
// This class is copyable and assignable.
};
// Structure used for both setting the LoadTimingInfo used by mock requests
// and for times retrieved from the renderer process.
//
// Times used for mock requests are all expressed as TimeDeltas relative to
// when the Job starts. Null RelativeTimes correspond to null TimeTicks().
//
// Times read from the renderer are expressed relative to fetchStart (Which is
// not the same as request_start). Null RelativeTimes correspond to times that
// either cannot be retrieved (proxy times, send end) or times that are 0 (SSL
// time when no new SSL connection was established).
struct TimingDeltas {
RelativeTime proxy_resolve_start;
RelativeTime proxy_resolve_end;
RelativeTime dns_start;
RelativeTime dns_end;
RelativeTime connect_start;
RelativeTime ssl_start;
RelativeTime connect_end;
RelativeTime send_start;
RelativeTime send_end;
// Must be non-negative and greater than all other times. May only be null if
// all other times are as well.
RelativeTime receive_headers_end;
};
// Mock UrlRequestJob that returns the contents of a specified file and
// provides the specified load timing information when queried.
class MockUrlRequestJobWithTiming : public net::URLRequestFileJob {
public:
MockUrlRequestJobWithTiming(net::URLRequest* request,
net::NetworkDelegate* network_delegate,
const base::FilePath& path,
const TimingDeltas& load_timing_deltas)
: net::URLRequestFileJob(
request, network_delegate, path,
content::BrowserThread::GetBlockingPool()->
GetTaskRunnerWithShutdownBehavior(
base::SequencedWorkerPool::SKIP_ON_SHUTDOWN)),
load_timing_deltas_(load_timing_deltas),
weak_factory_(this) {}
// net::URLRequestFileJob implementation:
virtual void Start() OVERRIDE {
base::TimeDelta time_to_wait;
start_time_ = base::TimeTicks::Now();
if (!load_timing_deltas_.receive_headers_end.is_null()) {
// Need to delay starting until the largest of the times has elapsed.
// Wait a little longer than necessary, to be on the safe side.
time_to_wait = load_timing_deltas_.receive_headers_end.GetDelta() +
base::TimeDelta::FromMilliseconds(100);
}
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&MockUrlRequestJobWithTiming::DelayedStart,
weak_factory_.GetWeakPtr()),
time_to_wait);
}
virtual void GetLoadTimingInfo(
net::LoadTimingInfo* load_timing_info) const OVERRIDE {
// Make sure enough time has elapsed since start was called. If this
// fails, the test fixture itself is flaky.
if (!load_timing_deltas_.receive_headers_end.is_null()) {
EXPECT_LE(
start_time_ + load_timing_deltas_.receive_headers_end.GetDelta(),
base::TimeTicks::Now());
}
// If there are no connect times, but there is a receive headers end time,
// then assume the socket is reused. This shouldn't affect the load timing
// information the test checks, just done for completeness.
load_timing_info->socket_reused = false;
if (load_timing_deltas_.connect_start.is_null() &&
!load_timing_deltas_.receive_headers_end.is_null()) {
load_timing_info->socket_reused = true;
}
load_timing_info->proxy_resolve_start =
load_timing_deltas_.proxy_resolve_start.ToTimeTicks(start_time_);
load_timing_info->proxy_resolve_end =
load_timing_deltas_.proxy_resolve_end.ToTimeTicks(start_time_);
load_timing_info->connect_timing.dns_start =
load_timing_deltas_.dns_start.ToTimeTicks(start_time_);
load_timing_info->connect_timing.dns_end =
load_timing_deltas_.dns_end.ToTimeTicks(start_time_);
load_timing_info->connect_timing.connect_start =
load_timing_deltas_.connect_start.ToTimeTicks(start_time_);
load_timing_info->connect_timing.ssl_start =
load_timing_deltas_.ssl_start.ToTimeTicks(start_time_);
load_timing_info->connect_timing.connect_end =
load_timing_deltas_.connect_end.ToTimeTicks(start_time_);
// If there's an SSL start time, use connect end as the SSL end time.
// The NavigationTiming API does not have a corresponding field, and there's
// no need to test the case when the values are both non-NULL and different.
if (!load_timing_deltas_.ssl_start.is_null()) {
load_timing_info->connect_timing.ssl_end =
load_timing_info->connect_timing.connect_end;
}
load_timing_info->send_start =
load_timing_deltas_.send_start.ToTimeTicks(start_time_);
load_timing_info->send_end=
load_timing_deltas_.send_end.ToTimeTicks(start_time_);
load_timing_info->receive_headers_end =
load_timing_deltas_.receive_headers_end.ToTimeTicks(start_time_);
}
private:
// Parent class is reference counted, so need to have a private destructor.
virtual ~MockUrlRequestJobWithTiming() {}
void DelayedStart() {
net::URLRequestFileJob::Start();
}
// Load times to use, relative to |start_time_|.
const TimingDeltas load_timing_deltas_;
base::TimeTicks start_time_;
base::WeakPtrFactory<MockUrlRequestJobWithTiming> weak_factory_;
DISALLOW_COPY_AND_ASSIGN(MockUrlRequestJobWithTiming);
};
// AURLRequestInterceptor that returns mock URLRequestJobs that return the
// specified file with the given timings. Constructed on the UI thread, but
// after that, lives and is destroyed on the IO thread.
class TestInterceptor : public net::URLRequestInterceptor {
public:
TestInterceptor(const base::FilePath& path,
const TimingDeltas& load_timing_deltas)
: path_(path), load_timing_deltas_(load_timing_deltas) {
EXPECT_TRUE(BrowserThread::CurrentlyOn(BrowserThread::UI));
}
virtual ~TestInterceptor() {
EXPECT_TRUE(BrowserThread::CurrentlyOn(BrowserThread::IO));
}
// Registers |this| with the URLRequestFilter, which takes ownership of it.
void Register() {
EXPECT_TRUE(BrowserThread::CurrentlyOn(BrowserThread::IO));
net::URLRequestFilter::GetInstance()->AddHostnameInterceptor(
"http", kTestDomain, scoped_ptr<net::URLRequestInterceptor>(this));
}
// Unregisters |this| with the URLRequestFilter, which should then delete
// |this|.
void Unregister() {
EXPECT_TRUE(BrowserThread::CurrentlyOn(BrowserThread::IO));
net::URLRequestFilter::GetInstance()->RemoveHostnameHandler(
"http", kTestDomain);
}
// net::URLRequestJobFactory::ProtocolHandler implementation:
virtual net::URLRequestJob* MaybeInterceptRequest(
net::URLRequest* request,
net::NetworkDelegate* network_delegate) const OVERRIDE {
EXPECT_TRUE(BrowserThread::CurrentlyOn(BrowserThread::IO));
return new MockUrlRequestJobWithTiming(request, network_delegate, path_,
load_timing_deltas_);
}
private:
// Path of the file to use as the response body.
const base::FilePath path_;
// Load times for each request to use, relative to when the Job starts.
const TimingDeltas load_timing_deltas_;
DISALLOW_COPY_AND_ASSIGN(TestInterceptor);
};
class LoadTimingBrowserTest : public InProcessBrowserTest {
public:
LoadTimingBrowserTest() {
}
virtual ~LoadTimingBrowserTest() {
}
// Navigates to |url| and writes the resulting navigation timings to
// |navigation_deltas|.
void RunTestWithUrl(const GURL& url, TimingDeltas* navigation_deltas) {
ui_test_utils::NavigateToURL(browser(), url);
GetResultDeltas(navigation_deltas);
}
// Navigates to a url that returns the timings indicated by
// |load_timing_deltas| and writes the resulting navigation timings to
// |navigation_deltas|. Uses a generic test page.
void RunTest(const TimingDeltas& load_timing_deltas,
TimingDeltas* navigation_deltas) {
// None of the tests care about the contents of the test page. Just do
// this here because PathService has thread restrictions on some platforms.
base::FilePath path;
PathService::Get(chrome::DIR_TEST_DATA, &path);
path = path.AppendASCII("title1.html");
// Create and register request interceptor.
TestInterceptor* test_interceptor =
new TestInterceptor(path, load_timing_deltas);
BrowserThread::PostTask(BrowserThread::IO, FROM_HERE,
base::Bind(&TestInterceptor::Register,
base::Unretained(test_interceptor)));
// Navigate to the page.
RunTestWithUrl(GURL(kTestUrl), navigation_deltas);
// Once navigation is complete, unregister the protocol handler.
BrowserThread::PostTask(BrowserThread::IO, FROM_HERE,
base::Bind(&TestInterceptor::Unregister,
base::Unretained(test_interceptor)));
}
private:
// Reads applicable times from performance.timing and writes them to
// |navigation_deltas|. Proxy times and send end cannot be read from the
// Navigation Timing API, so those are all left as null.
void GetResultDeltas(TimingDeltas* navigation_deltas) {
*navigation_deltas = TimingDeltas();
navigation_deltas->dns_start = GetResultDelta("domainLookupStart");
navigation_deltas->dns_end = GetResultDelta("domainLookupEnd");
navigation_deltas->connect_start = GetResultDelta("connectStart");
navigation_deltas->connect_end = GetResultDelta("connectEnd");
navigation_deltas->send_start = GetResultDelta("requestStart");
navigation_deltas->receive_headers_end = GetResultDelta("responseStart");
// Unlike the above times, secureConnectionStart will be zero when not
// applicable. In that case, leave ssl_start as null.
bool ssl_start_zero = false;
ASSERT_TRUE(content::ExecuteScriptAndExtractBool(
browser()->tab_strip_model()->GetActiveWebContents(),
"window.domAutomationController.send("
"performance.timing.secureConnectionStart == 0);",
&ssl_start_zero));
if (!ssl_start_zero)
navigation_deltas->ssl_start = GetResultDelta("secureConnectionStart");
// Simple sanity checks. Make sure times that correspond to LoadTimingInfo
// occur between fetchStart and loadEventEnd. Relationships between
// intervening times are handled by the test bodies.
RelativeTime fetch_start = GetResultDelta("fetchStart");
// While the input dns_start is sometimes null, when read from the
// NavigationTiming API, it's always non-null.
EXPECT_LE(fetch_start.GetDelta(), navigation_deltas->dns_start.GetDelta());
RelativeTime load_event_end = GetResultDelta("loadEventEnd");
EXPECT_LE(navigation_deltas->receive_headers_end.GetDelta(),
load_event_end.GetDelta());
}
// Returns the time between performance.timing.fetchStart and the time with
// the specified name. This time must be non-negative.
RelativeTime GetResultDelta(const std::string& name) {
int time_ms = 0;
std::string command(base::StringPrintf(
"window.domAutomationController.send("
"performance.timing.%s - performance.timing.fetchStart);",
name.c_str()));
EXPECT_TRUE(content::ExecuteScriptAndExtractInt(
browser()->tab_strip_model()->GetActiveWebContents(),
command.c_str(),
&time_ms));
// Basic sanity check.
EXPECT_GE(time_ms, 0);
return RelativeTime(time_ms);
}
};
// Test case when no times are given, except the request start times. This
// happens with FTP, cached responses, responses handled by something other than
// the network stack, RedirectJobs, HSTs, etc.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, NoTimes) {
TimingDeltas load_timing_deltas;
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
// When there are no times, all read times should be the same as fetchStart,
// except SSL start, which should be 0.
EXPECT_EQ(base::TimeDelta(), navigation_deltas.dns_start.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.dns_end.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.connect_start.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.connect_end.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.send_start.GetDelta());
EXPECT_EQ(base::TimeDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_TRUE(navigation_deltas.ssl_start.is_null());
}
// Standard case - new socket, no PAC, no preconnect, no SSL.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, Basic) {
TimingDeltas load_timing_deltas;
load_timing_deltas.dns_start = RelativeTime(0);
load_timing_deltas.dns_end = RelativeTime(100);
load_timing_deltas.connect_start = RelativeTime(200);
load_timing_deltas.connect_end = RelativeTime(300);
load_timing_deltas.send_start = RelativeTime(400);
load_timing_deltas.send_end = RelativeTime(500);
load_timing_deltas.receive_headers_end = RelativeTime(600);
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
// Due to potential roundoff issues, never check exact differences.
EXPECT_LT(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.dns_end.GetDelta());
EXPECT_LT(navigation_deltas.dns_end.GetDelta(),
navigation_deltas.connect_start.GetDelta());
EXPECT_LT(navigation_deltas.connect_start.GetDelta(),
navigation_deltas.connect_end.GetDelta());
EXPECT_LT(navigation_deltas.connect_end.GetDelta(),
navigation_deltas.send_start.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_TRUE(navigation_deltas.ssl_start.is_null());
}
// Basic SSL case.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, Ssl) {
TimingDeltas load_timing_deltas;
load_timing_deltas.dns_start = RelativeTime(0);
load_timing_deltas.dns_end = RelativeTime(100);
load_timing_deltas.connect_start = RelativeTime(200);
load_timing_deltas.ssl_start = RelativeTime(300);
load_timing_deltas.connect_end = RelativeTime(400);
load_timing_deltas.send_start = RelativeTime(500);
load_timing_deltas.send_end = RelativeTime(600);
load_timing_deltas.receive_headers_end = RelativeTime(700);
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
// Due to potential roundoff issues, never check exact differences.
EXPECT_LT(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.dns_end.GetDelta());
EXPECT_LT(navigation_deltas.dns_end.GetDelta(),
navigation_deltas.connect_start.GetDelta());
EXPECT_LT(navigation_deltas.connect_start.GetDelta(),
navigation_deltas.ssl_start.GetDelta());
EXPECT_LT(navigation_deltas.ssl_start.GetDelta(),
navigation_deltas.connect_end.GetDelta());
EXPECT_LT(navigation_deltas.connect_end.GetDelta(),
navigation_deltas.send_start.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
}
// All times are the same.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, EverythingAtOnce) {
TimingDeltas load_timing_deltas;
load_timing_deltas.dns_start = RelativeTime(100);
load_timing_deltas.dns_end = RelativeTime(100);
load_timing_deltas.connect_start = RelativeTime(100);
load_timing_deltas.ssl_start = RelativeTime(100);
load_timing_deltas.connect_end = RelativeTime(100);
load_timing_deltas.send_start = RelativeTime(100);
load_timing_deltas.send_end = RelativeTime(100);
load_timing_deltas.receive_headers_end = RelativeTime(100);
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.dns_end.GetDelta());
EXPECT_EQ(navigation_deltas.dns_end.GetDelta(),
navigation_deltas.connect_start.GetDelta());
EXPECT_EQ(navigation_deltas.connect_start.GetDelta(),
navigation_deltas.ssl_start.GetDelta());
EXPECT_EQ(navigation_deltas.ssl_start.GetDelta(),
navigation_deltas.connect_end.GetDelta());
EXPECT_EQ(navigation_deltas.connect_end.GetDelta(),
navigation_deltas.send_start.GetDelta());
EXPECT_EQ(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
}
// Reuse case.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, ReuseSocket) {
TimingDeltas load_timing_deltas;
load_timing_deltas.send_start = RelativeTime(0);
load_timing_deltas.send_end = RelativeTime(100);
load_timing_deltas.receive_headers_end = RelativeTime(200);
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
// Connect times should all be the same as fetchStart.
EXPECT_EQ(base::TimeDelta(), navigation_deltas.dns_start.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.dns_end.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.connect_start.GetDelta());
EXPECT_EQ(base::TimeDelta(), navigation_deltas.connect_end.GetDelta());
// Connect end may be less than send start, since connect end defaults to
// fetchStart, which is often less than request_start.
EXPECT_LE(navigation_deltas.connect_end.GetDelta(),
navigation_deltas.send_start.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_TRUE(navigation_deltas.ssl_start.is_null());
}
// Preconnect case. Connect times are all before the request was started.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, Preconnect) {
TimingDeltas load_timing_deltas;
load_timing_deltas.dns_start = RelativeTime(-1000300);
load_timing_deltas.dns_end = RelativeTime(-1000200);
load_timing_deltas.connect_start = RelativeTime(-1000100);
load_timing_deltas.connect_end = RelativeTime(-1000000);
load_timing_deltas.send_start = RelativeTime(0);
load_timing_deltas.send_end = RelativeTime(100);
load_timing_deltas.receive_headers_end = RelativeTime(200);
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
// Connect times should all be the same as request_start.
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.dns_end.GetDelta());
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.connect_start.GetDelta());
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.connect_end.GetDelta());
EXPECT_LE(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.send_start.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_TRUE(navigation_deltas.ssl_start.is_null());
}
// Preconnect case with a proxy. Connect times are all before the proxy lookup
// finished (Or at the same time).
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, PreconnectProxySsl) {
TimingDeltas load_timing_deltas;
load_timing_deltas.proxy_resolve_start = RelativeTime(0);
load_timing_deltas.proxy_resolve_end = RelativeTime(100);
load_timing_deltas.dns_start = RelativeTime(-3000000);
load_timing_deltas.dns_end = RelativeTime(-2000000);
load_timing_deltas.connect_start = RelativeTime(-1000000);
load_timing_deltas.ssl_start = RelativeTime(0);
load_timing_deltas.connect_end = RelativeTime(100);
load_timing_deltas.send_start = RelativeTime(100);
load_timing_deltas.send_end = RelativeTime(200);
load_timing_deltas.receive_headers_end = RelativeTime(300);
TimingDeltas navigation_deltas;
RunTest(load_timing_deltas, &navigation_deltas);
// Connect times should all be the same as proxy_end, which is also the
// same as send_start.
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.dns_end.GetDelta());
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.connect_start.GetDelta());
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.ssl_start.GetDelta());
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.connect_end.GetDelta());
EXPECT_EQ(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.send_start.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
}
// Integration test with a real network response.
IN_PROC_BROWSER_TEST_F(LoadTimingBrowserTest, Integration) {
ASSERT_TRUE(test_server()->Start());
TimingDeltas navigation_deltas;
RunTestWithUrl(test_server()->GetURL("chunked?waitBeforeHeaders=100"),
&navigation_deltas);
// Due to potential roundoff issues, never check exact differences.
EXPECT_LE(navigation_deltas.dns_start.GetDelta(),
navigation_deltas.dns_end.GetDelta());
EXPECT_LE(navigation_deltas.dns_end.GetDelta(),
navigation_deltas.connect_start.GetDelta());
EXPECT_LE(navigation_deltas.connect_start.GetDelta(),
navigation_deltas.connect_end.GetDelta());
EXPECT_LE(navigation_deltas.connect_end.GetDelta(),
navigation_deltas.send_start.GetDelta());
// The only times that are guaranteed to be distinct are send_start and
// received_headers_end.
EXPECT_LT(navigation_deltas.send_start.GetDelta(),
navigation_deltas.receive_headers_end.GetDelta());
EXPECT_TRUE(navigation_deltas.ssl_start.is_null());
}
} // namespace