// Copyright (c) 2006-2008 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/message_loop.h"
#include "chrome/browser/renderer_host/web_cache_manager.h"
#include "content/browser/browser_thread.h"
#include "testing/gtest/include/gtest/gtest.h"
using base::Time;
using base::TimeDelta;
using WebKit::WebCache;
class WebCacheManagerTest : public testing::Test {
protected:
typedef WebCacheManager::StatsMap StatsMap;
typedef WebCacheManager::Allocation Allocation;
typedef WebCacheManager::AllocationStrategy AllocationStrategy;
static const int kRendererID;
static const int kRendererID2;
static const WebCache::UsageStats kStats;
static const WebCache::UsageStats kStats2;
WebCacheManagerTest()
: ui_thread_(BrowserThread::UI, &message_loop_) {
}
// Thunks to access protected members of WebCacheManager
static std::map<int, WebCacheManager::RendererInfo>& stats(
WebCacheManager* h) {
return h->stats_;
}
static void SimulateInactivity(WebCacheManager* h, int renderer_id) {
stats(h)[renderer_id].access = Time::Now() - TimeDelta::FromMinutes(
WebCacheManager::kRendererInactiveThresholdMinutes);
h->FindInactiveRenderers();
}
static std::set<int>& active_renderers(WebCacheManager* h) {
return h->active_renderers_;
}
static std::set<int>& inactive_renderers(WebCacheManager* h) {
return h->inactive_renderers_;
}
static void GatherStats(WebCacheManager* h,
std::set<int> renderers,
WebCache::UsageStats* stats) {
h->GatherStats(renderers, stats);
}
static size_t GetSize(int tactic,
const WebCache::UsageStats& stats) {
return WebCacheManager::GetSize(
static_cast<WebCacheManager::AllocationTactic>(tactic), stats);
}
static bool AttemptTactic(WebCacheManager* h,
int active_tactic,
const WebCache::UsageStats& active_stats,
int inactive_tactic,
const WebCache::UsageStats& inactive_stats,
std::list< std::pair<int,size_t> >* strategy) {
return h->AttemptTactic(
static_cast<WebCacheManager::AllocationTactic>(active_tactic),
active_stats,
static_cast<WebCacheManager::AllocationTactic>(inactive_tactic),
inactive_stats,
strategy);
}
static void AddToStrategy(WebCacheManager* h,
std::set<int> renderers,
int tactic,
size_t extra_bytes_to_allocate,
std::list< std::pair<int,size_t> >* strategy) {
h->AddToStrategy(renderers,
static_cast<WebCacheManager::AllocationTactic>(tactic),
extra_bytes_to_allocate,
strategy);
}
enum {
DIVIDE_EVENLY = WebCacheManager::DIVIDE_EVENLY,
KEEP_CURRENT_WITH_HEADROOM = WebCacheManager::KEEP_CURRENT_WITH_HEADROOM,
KEEP_CURRENT = WebCacheManager::KEEP_CURRENT,
KEEP_LIVE_WITH_HEADROOM = WebCacheManager::KEEP_LIVE_WITH_HEADROOM,
KEEP_LIVE = WebCacheManager::KEEP_LIVE,
};
WebCacheManager* manager() { return &manager_; }
private:
WebCacheManager manager_;
MessageLoop message_loop_;
BrowserThread ui_thread_;
};
// static
const int WebCacheManagerTest::kRendererID = 146;
// static
const int WebCacheManagerTest::kRendererID2 = 245;
// static
const WebCache::UsageStats WebCacheManagerTest::kStats = {
0,
1024 * 1024,
1024 * 1024,
256 * 1024,
512,
};
// static
const WebCache::UsageStats WebCacheManagerTest::kStats2 = {
0,
2 * 1024 * 1024,
2 * 1024 * 1024,
2 * 256 * 1024,
2 * 512,
};
static bool operator==(const WebCache::UsageStats& lhs,
const WebCache::UsageStats& rhs) {
return !::memcmp(&lhs, &rhs, sizeof(WebCache::UsageStats));
}
TEST_F(WebCacheManagerTest, AddRemoveRendererTest) {
EXPECT_EQ(0U, active_renderers(manager()).size());
EXPECT_EQ(0U, inactive_renderers(manager()).size());
manager()->Add(kRendererID);
EXPECT_EQ(1U, active_renderers(manager()).count(kRendererID));
EXPECT_EQ(0U, inactive_renderers(manager()).count(kRendererID));
manager()->Remove(kRendererID);
EXPECT_EQ(0U, active_renderers(manager()).size());
EXPECT_EQ(0U, inactive_renderers(manager()).size());
}
TEST_F(WebCacheManagerTest, ActiveInactiveTest) {
manager()->Add(kRendererID);
manager()->ObserveActivity(kRendererID);
EXPECT_EQ(1U, active_renderers(manager()).count(kRendererID));
EXPECT_EQ(0U, inactive_renderers(manager()).count(kRendererID));
SimulateInactivity(manager(), kRendererID);
EXPECT_EQ(0U, active_renderers(manager()).count(kRendererID));
EXPECT_EQ(1U, inactive_renderers(manager()).count(kRendererID));
manager()->ObserveActivity(kRendererID);
EXPECT_EQ(1U, active_renderers(manager()).count(kRendererID));
EXPECT_EQ(0U, inactive_renderers(manager()).count(kRendererID));
manager()->Remove(kRendererID);
}
TEST_F(WebCacheManagerTest, ObserveStatsTest) {
manager()->Add(kRendererID);
EXPECT_EQ(1U, stats(manager()).size());
manager()->ObserveStats(kRendererID, kStats);
EXPECT_EQ(1U, stats(manager()).size());
EXPECT_TRUE(kStats == stats(manager())[kRendererID]);
manager()->Remove(kRendererID);
}
TEST_F(WebCacheManagerTest, SetGlobalSizeLimitTest) {
size_t limit = manager()->GetDefaultGlobalSizeLimit();
manager()->SetGlobalSizeLimit(limit);
EXPECT_EQ(limit, manager()->global_size_limit());
manager()->SetGlobalSizeLimit(0);
EXPECT_EQ(0U, manager()->global_size_limit());
}
TEST_F(WebCacheManagerTest, GatherStatsTest) {
manager()->Add(kRendererID);
manager()->Add(kRendererID2);
manager()->ObserveStats(kRendererID, kStats);
manager()->ObserveStats(kRendererID2, kStats2);
std::set<int> renderer_set;
renderer_set.insert(kRendererID);
WebCache::UsageStats stats;
GatherStats(manager(), renderer_set, &stats);
EXPECT_TRUE(kStats == stats);
renderer_set.insert(kRendererID2);
GatherStats(manager(), renderer_set, &stats);
WebCache::UsageStats expected_stats = kStats;
expected_stats.minDeadCapacity += kStats2.minDeadCapacity;
expected_stats.maxDeadCapacity += kStats2.maxDeadCapacity;
expected_stats.capacity += kStats2.capacity;
expected_stats.liveSize += kStats2.liveSize;
expected_stats.deadSize += kStats2.deadSize;
EXPECT_TRUE(expected_stats == stats);
manager()->Remove(kRendererID);
manager()->Remove(kRendererID2);
}
TEST_F(WebCacheManagerTest, GetSizeTest) {
EXPECT_EQ(0U, GetSize(DIVIDE_EVENLY, kStats));
EXPECT_LT(256 * 1024u + 512, GetSize(KEEP_CURRENT_WITH_HEADROOM, kStats));
EXPECT_EQ(256 * 1024u + 512, GetSize(KEEP_CURRENT, kStats));
EXPECT_LT(256 * 1024u, GetSize(KEEP_LIVE_WITH_HEADROOM, kStats));
EXPECT_EQ(256 * 1024u, GetSize(KEEP_LIVE, kStats));
}
TEST_F(WebCacheManagerTest, AttemptTacticTest) {
manager()->Add(kRendererID);
manager()->Add(kRendererID2);
manager()->ObserveActivity(kRendererID);
SimulateInactivity(manager(), kRendererID2);
manager()->ObserveStats(kRendererID, kStats);
manager()->ObserveStats(kRendererID2, kStats2);
manager()->SetGlobalSizeLimit(kStats.liveSize + kStats.deadSize +
kStats2.liveSize + kStats2.deadSize/2);
AllocationStrategy strategy;
EXPECT_FALSE(AttemptTactic(manager(),
KEEP_CURRENT,
kStats,
KEEP_CURRENT,
kStats2,
&strategy));
EXPECT_TRUE(strategy.empty());
EXPECT_TRUE(AttemptTactic(manager(),
KEEP_CURRENT,
kStats,
KEEP_LIVE,
kStats2,
&strategy));
EXPECT_EQ(2U, strategy.size());
AllocationStrategy::iterator iter = strategy.begin();
while (iter != strategy.end()) {
if (iter->first == kRendererID)
EXPECT_LE(kStats.liveSize + kStats.deadSize, iter->second);
else if (iter->first == kRendererID2)
EXPECT_LE(kStats2.liveSize, iter->second);
else
EXPECT_FALSE("Unexpected entry in strategy");
++iter;
}
manager()->Remove(kRendererID);
manager()->Remove(kRendererID2);
}
TEST_F(WebCacheManagerTest, AddToStrategyTest) {
manager()->Add(kRendererID);
manager()->Add(kRendererID2);
std::set<int> renderer_set;
renderer_set.insert(kRendererID);
renderer_set.insert(kRendererID2);
manager()->ObserveStats(kRendererID, kStats);
manager()->ObserveStats(kRendererID2, kStats2);
const size_t kExtraBytesToAllocate = 10 * 1024;
AllocationStrategy strategy;
AddToStrategy(manager(),
renderer_set,
KEEP_CURRENT,
kExtraBytesToAllocate,
&strategy);
EXPECT_EQ(2U, strategy.size());
size_t total_bytes = 0;
AllocationStrategy::iterator iter = strategy.begin();
while (iter != strategy.end()) {
total_bytes += iter->second;
if (iter->first == kRendererID)
EXPECT_LE(kStats.liveSize + kStats.deadSize, iter->second);
else if (iter->first == kRendererID2)
EXPECT_LE(kStats2.liveSize + kStats2.deadSize, iter->second);
else
EXPECT_FALSE("Unexpected entry in strategy");
++iter;
}
size_t expected_total_bytes = kExtraBytesToAllocate +
kStats.liveSize + kStats.deadSize +
kStats2.liveSize + kStats2.deadSize;
EXPECT_GE(expected_total_bytes, total_bytes);
manager()->Remove(kRendererID);
manager()->Remove(kRendererID2);
}