// Copyright (c) 2009 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.
#ifndef NET_BASE_LOAD_LOG_UNITTEST_H_
#define NET_BASE_LOAD_LOG_UNITTEST_H_
#include <cstddef>
#include "net/base/load_log.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
// Create a timestamp with internal value of |t| milliseconds from the epoch.
inline base::TimeTicks MakeTime(int t) {
base::TimeTicks ticks; // initialized to 0.
ticks += base::TimeDelta::FromMilliseconds(t);
return ticks;
}
inline ::testing::AssertionResult LogContainsEventHelper(
const LoadLog& log,
int i, // Negative indices are reverse indices.
const base::TimeTicks& expected_time,
bool check_time,
LoadLog::EventType expected_event,
LoadLog::EventPhase expected_phase) {
// Negative indices are reverse indices.
size_t j = (i < 0) ? log.entries().size() + i : i;
if (j >= log.entries().size())
return ::testing::AssertionFailure() << j << " is out of bounds.";
const LoadLog::Entry& entry = log.entries()[j];
if (entry.type != LoadLog::Entry::TYPE_EVENT) {
return ::testing::AssertionFailure() << "Not a TYPE_EVENT entry";
}
if (expected_event != entry.event.type) {
return ::testing::AssertionFailure()
<< "Actual event: " << LoadLog::EventTypeToString(entry.event.type)
<< ". Expected event: " << LoadLog::EventTypeToString(expected_event)
<< ".";
}
if (expected_phase != entry.event.phase) {
return ::testing::AssertionFailure()
<< "Actual phase: " << entry.event.phase
<< ". Expected phase: " << expected_phase << ".";
}
if (check_time) {
if (expected_time != entry.time) {
return ::testing::AssertionFailure()
<< "Actual time: " << entry.time.ToInternalValue()
<< ". Expected time: " << expected_time.ToInternalValue()
<< ".";
}
}
return ::testing::AssertionSuccess();
}
inline ::testing::AssertionResult LogContainsEventAtTime(
const LoadLog& log,
int i, // Negative indices are reverse indices.
const base::TimeTicks& expected_time,
LoadLog::EventType expected_event,
LoadLog::EventPhase expected_phase) {
return LogContainsEventHelper(log, i, expected_time, true,
expected_event, expected_phase);
}
// Version without timestamp.
inline ::testing::AssertionResult LogContainsEvent(
const LoadLog& log,
int i, // Negative indices are reverse indices.
LoadLog::EventType expected_event,
LoadLog::EventPhase expected_phase) {
return LogContainsEventHelper(log, i, base::TimeTicks(), false,
expected_event, expected_phase);
}
// Version for PHASE_BEGIN (and no timestamp).
inline ::testing::AssertionResult LogContainsBeginEvent(
const LoadLog& log,
int i, // Negative indices are reverse indices.
LoadLog::EventType expected_event) {
return LogContainsEvent(log, i, expected_event, LoadLog::PHASE_BEGIN);
}
// Version for PHASE_END (and no timestamp).
inline ::testing::AssertionResult LogContainsEndEvent(
const LoadLog& log,
int i, // Negative indices are reverse indices.
LoadLog::EventType expected_event) {
return LogContainsEvent(log, i, expected_event, LoadLog::PHASE_END);
}
// Expect that the log contains an event, but don't care about where
// as long as the index where it is found is greater than min_index.
// Returns the position where the event was found.
inline size_t ExpectLogContainsSomewhere(const LoadLog* log,
size_t min_index,
LoadLog::EventType expected_event,
LoadLog::EventPhase expected_phase) {
size_t i = 0;
for (; i < log->entries().size(); ++i) {
const LoadLog::Entry& entry = log->entries()[i];
if (entry.type == LoadLog::Entry::TYPE_EVENT &&
entry.event.type == expected_event &&
entry.event.phase == expected_phase)
break;
}
EXPECT_LT(i, log->entries().size());
EXPECT_GE(i, min_index);
return i;
}
} // namespace net
#endif // NET_BASE_LOAD_LOG_UNITTEST_H_