// 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.
#include <algorithm>
#include "base/bind.h"
#include "base/message_loop/message_loop.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/test/perf_time_logger.h"
#include "net/cookies/canonical_cookie.h"
#include "net/cookies/cookie_monster.h"
#include "net/cookies/cookie_monster_store_test.h"
#include "net/cookies/parsed_cookie.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "url/gurl.h"
namespace net {
namespace {
const int kNumCookies = 20000;
const char kCookieLine[] = "A = \"b=;\\\"\" ;secure;;;";
const char kGoogleURL[] = "http://www.google.izzle";
int CountInString(const std::string& str, char c) {
return std::count(str.begin(), str.end(), c);
}
class CookieMonsterTest : public testing::Test {
public:
CookieMonsterTest() : message_loop_(new base::MessageLoopForIO()) {}
private:
scoped_ptr<base::MessageLoop> message_loop_;
};
class BaseCallback {
public:
BaseCallback() : has_run_(false) {}
protected:
void WaitForCallback() {
// Note that the performance tests currently all operate on a loaded cookie
// store (or, more precisely, one that has no backing persistent store).
// Therefore, callbacks will actually always complete synchronously. If the
// tests get more advanced we need to add other means of signaling
// completion.
base::MessageLoop::current()->RunUntilIdle();
EXPECT_TRUE(has_run_);
has_run_ = false;
}
void Run() {
has_run_ = true;
}
bool has_run_;
};
class SetCookieCallback : public BaseCallback {
public:
void SetCookie(
CookieMonster* cm, const GURL& gurl, const std::string& cookie) {
cm->SetCookieWithOptionsAsync(gurl, cookie, options_, base::Bind(
&SetCookieCallback::Run, base::Unretained(this)));
WaitForCallback();
}
private:
void Run(bool success) {
EXPECT_TRUE(success);
BaseCallback::Run();
}
net::CookieOptions options_;
};
class GetCookiesCallback : public BaseCallback {
public:
const std::string& GetCookies(CookieMonster* cm, const GURL& gurl) {
cm->GetCookiesWithOptionsAsync(gurl, options_, base::Bind(
&GetCookiesCallback::Run, base::Unretained(this)));
WaitForCallback();
return cookies_;
}
private:
void Run(const std::string& cookies) {
cookies_ = cookies;
BaseCallback::Run();
}
std::string cookies_;
net::CookieOptions options_;
};
} // namespace
TEST(ParsedCookieTest, TestParseCookies) {
std::string cookie(kCookieLine);
base::PerfTimeLogger timer("Parsed_cookie_parse_cookies");
for (int i = 0; i < kNumCookies; ++i) {
ParsedCookie pc(cookie);
EXPECT_TRUE(pc.IsValid());
}
timer.Done();
}
TEST(ParsedCookieTest, TestParseBigCookies) {
std::string cookie(3800, 'z');
cookie += kCookieLine;
base::PerfTimeLogger timer("Parsed_cookie_parse_big_cookies");
for (int i = 0; i < kNumCookies; ++i) {
ParsedCookie pc(cookie);
EXPECT_TRUE(pc.IsValid());
}
timer.Done();
}
TEST_F(CookieMonsterTest, TestAddCookiesOnSingleHost) {
scoped_refptr<CookieMonster> cm(new CookieMonster(NULL, NULL));
std::vector<std::string> cookies;
for (int i = 0; i < kNumCookies; i++) {
cookies.push_back(base::StringPrintf("a%03d=b", i));
}
SetCookieCallback setCookieCallback;
// Add a bunch of cookies on a single host
base::PerfTimeLogger timer("Cookie_monster_add_single_host");
for (std::vector<std::string>::const_iterator it = cookies.begin();
it != cookies.end(); ++it) {
setCookieCallback.SetCookie(cm.get(), GURL(kGoogleURL), *it);
}
timer.Done();
GetCookiesCallback getCookiesCallback;
base::PerfTimeLogger timer2("Cookie_monster_query_single_host");
for (std::vector<std::string>::const_iterator it = cookies.begin();
it != cookies.end(); ++it) {
getCookiesCallback.GetCookies(cm.get(), GURL(kGoogleURL));
}
timer2.Done();
base::PerfTimeLogger timer3("Cookie_monster_deleteall_single_host");
cm->DeleteAllAsync(CookieMonster::DeleteCallback());
base::MessageLoop::current()->RunUntilIdle();
timer3.Done();
}
TEST_F(CookieMonsterTest, TestAddCookieOnManyHosts) {
scoped_refptr<CookieMonster> cm(new CookieMonster(NULL, NULL));
std::string cookie(kCookieLine);
std::vector<GURL> gurls; // just wanna have ffffuunnn
for (int i = 0; i < kNumCookies; ++i) {
gurls.push_back(GURL(base::StringPrintf("https://a%04d.izzle", i)));
}
SetCookieCallback setCookieCallback;
// Add a cookie on a bunch of host
base::PerfTimeLogger timer("Cookie_monster_add_many_hosts");
for (std::vector<GURL>::const_iterator it = gurls.begin();
it != gurls.end(); ++it) {
setCookieCallback.SetCookie(cm.get(), *it, cookie);
}
timer.Done();
GetCookiesCallback getCookiesCallback;
base::PerfTimeLogger timer2("Cookie_monster_query_many_hosts");
for (std::vector<GURL>::const_iterator it = gurls.begin();
it != gurls.end(); ++it) {
getCookiesCallback.GetCookies(cm.get(), *it);
}
timer2.Done();
base::PerfTimeLogger timer3("Cookie_monster_deleteall_many_hosts");
cm->DeleteAllAsync(CookieMonster::DeleteCallback());
base::MessageLoop::current()->RunUntilIdle();
timer3.Done();
}
TEST_F(CookieMonsterTest, TestDomainTree) {
scoped_refptr<CookieMonster> cm(new CookieMonster(NULL, NULL));
GetCookiesCallback getCookiesCallback;
SetCookieCallback setCookieCallback;
const char* domain_cookie_format_tree = "a=b; domain=%s";
const std::string domain_base("top.com");
std::vector<std::string> domain_list;
// Create a balanced binary tree of domains on which the cookie is set.
domain_list.push_back(domain_base);
for (int i1 = 0; i1 < 2; i1++) {
std::string domain_base_1((i1 ? "a." : "b.") + domain_base);
EXPECT_EQ("top.com", cm->GetKey(domain_base_1));
domain_list.push_back(domain_base_1);
for (int i2 = 0; i2 < 2; i2++) {
std::string domain_base_2((i2 ? "a." : "b.") + domain_base_1);
EXPECT_EQ("top.com", cm->GetKey(domain_base_2));
domain_list.push_back(domain_base_2);
for (int i3 = 0; i3 < 2; i3++) {
std::string domain_base_3((i3 ? "a." : "b.") + domain_base_2);
EXPECT_EQ("top.com", cm->GetKey(domain_base_3));
domain_list.push_back(domain_base_3);
for (int i4 = 0; i4 < 2; i4++) {
std::string domain_base_4((i4 ? "a." : "b.") + domain_base_3);
EXPECT_EQ("top.com", cm->GetKey(domain_base_4));
domain_list.push_back(domain_base_4);
}
}
}
}
EXPECT_EQ(31u, domain_list.size());
for (std::vector<std::string>::const_iterator it = domain_list.begin();
it != domain_list.end(); it++) {
GURL gurl("https://" + *it + "/");
const std::string cookie = base::StringPrintf(domain_cookie_format_tree,
it->c_str());
setCookieCallback.SetCookie(cm.get(), gurl, cookie);
}
EXPECT_EQ(31u, cm->GetAllCookies().size());
GURL probe_gurl("https://b.a.b.a.top.com/");
std::string cookie_line = getCookiesCallback.GetCookies(cm.get(), probe_gurl);
EXPECT_EQ(5, CountInString(cookie_line, '='))
<< "Cookie line: " << cookie_line;
base::PerfTimeLogger timer("Cookie_monster_query_domain_tree");
for (int i = 0; i < kNumCookies; i++) {
getCookiesCallback.GetCookies(cm.get(), probe_gurl);
}
timer.Done();
}
TEST_F(CookieMonsterTest, TestDomainLine) {
scoped_refptr<CookieMonster> cm(new CookieMonster(NULL, NULL));
SetCookieCallback setCookieCallback;
GetCookiesCallback getCookiesCallback;
std::vector<std::string> domain_list;
GURL probe_gurl("https://b.a.b.a.top.com/");
std::string cookie_line;
// Create a line of 32 domain cookies such that all cookies stored
// by effective TLD+1 will apply to probe GURL.
// (TLD + 1 is the level above .com/org/net/etc, e.g. "top.com"
// or "google.com". "Effective" is added to include sites like
// bbc.co.uk, where the effetive TLD+1 is more than one level
// below the top level.)
domain_list.push_back("a.top.com");
domain_list.push_back("b.a.top.com");
domain_list.push_back("a.b.a.top.com");
domain_list.push_back("b.a.b.a.top.com");
EXPECT_EQ(4u, domain_list.size());
const char* domain_cookie_format_line = "a%03d=b; domain=%s";
for (int i = 0; i < 8; i++) {
for (std::vector<std::string>::const_iterator it = domain_list.begin();
it != domain_list.end(); it++) {
GURL gurl("https://" + *it + "/");
const std::string cookie = base::StringPrintf(domain_cookie_format_line,
i, it->c_str());
setCookieCallback.SetCookie(cm.get(), gurl, cookie);
}
}
cookie_line = getCookiesCallback.GetCookies(cm.get(), probe_gurl);
EXPECT_EQ(32, CountInString(cookie_line, '='));
base::PerfTimeLogger timer2("Cookie_monster_query_domain_line");
for (int i = 0; i < kNumCookies; i++) {
getCookiesCallback.GetCookies(cm.get(), probe_gurl);
}
timer2.Done();
}
TEST_F(CookieMonsterTest, TestImport) {
scoped_refptr<MockPersistentCookieStore> store(new MockPersistentCookieStore);
std::vector<CanonicalCookie*> initial_cookies;
GetCookiesCallback getCookiesCallback;
// We want to setup a fairly large backing store, with 300 domains of 50
// cookies each. Creation times must be unique.
int64 time_tick(base::Time::Now().ToInternalValue());
for (int domain_num = 0; domain_num < 300; domain_num++) {
std::string domain_name(base::StringPrintf(".Domain_%d.com", domain_num));
std::string gurl("www" + domain_name);
for (int cookie_num = 0; cookie_num < 50; cookie_num++) {
std::string cookie_line(base::StringPrintf("Cookie_%d=1; Path=/",
cookie_num));
AddCookieToList(gurl, cookie_line,
base::Time::FromInternalValue(time_tick++),
&initial_cookies);
}
}
store->SetLoadExpectation(true, initial_cookies);
scoped_refptr<CookieMonster> cm(new CookieMonster(store.get(), NULL));
// Import will happen on first access.
GURL gurl("www.google.com");
CookieOptions options;
base::PerfTimeLogger timer("Cookie_monster_import_from_store");
getCookiesCallback.GetCookies(cm.get(), gurl);
timer.Done();
// Just confirm keys were set as expected.
EXPECT_EQ("domain_1.com", cm->GetKey("www.Domain_1.com"));
}
TEST_F(CookieMonsterTest, TestGetKey) {
scoped_refptr<CookieMonster> cm(new CookieMonster(NULL, NULL));
base::PerfTimeLogger timer("Cookie_monster_get_key");
for (int i = 0; i < kNumCookies; i++)
cm->GetKey("www.google.com");
timer.Done();
}
// This test is probing for whether garbage collection happens when it
// shouldn't. This will not in general be visible functionally, since
// if GC runs twice in a row without any change to the store, the second
// GC run will not do anything the first one didn't. That's why this is
// a performance test. The test should be considered to pass if all the
// times reported are approximately the same--this indicates that no GC
// happened repeatedly for any case.
TEST_F(CookieMonsterTest, TestGCTimes) {
SetCookieCallback setCookieCallback;
const struct TestCase {
const char* name;
size_t num_cookies;
size_t num_old_cookies;
} test_cases[] = {
{
// A whole lot of recent cookies; gc shouldn't happen.
"all_recent",
CookieMonster::kMaxCookies * 2,
0,
}, {
// Some old cookies, but still overflowing max.
"mostly_recent",
CookieMonster::kMaxCookies * 2,
CookieMonster::kMaxCookies / 2,
}, {
// Old cookies enough to bring us right down to our purge line.
"balanced",
CookieMonster::kMaxCookies * 2,
CookieMonster::kMaxCookies + CookieMonster::kPurgeCookies + 1,
}, {
"mostly_old",
// Old cookies enough to bring below our purge line (which we
// shouldn't do).
CookieMonster::kMaxCookies * 2,
CookieMonster::kMaxCookies * 3 / 4,
}, {
"less_than_gc_thresh",
// Few enough cookies that gc shouldn't happen at all.
CookieMonster::kMaxCookies - 5,
0,
},
};
for (int ci = 0; ci < static_cast<int>(ARRAYSIZE_UNSAFE(test_cases)); ++ci) {
const TestCase& test_case(test_cases[ci]);
scoped_refptr<CookieMonster> cm(
CreateMonsterFromStoreForGC(
test_case.num_cookies, test_case.num_old_cookies,
CookieMonster::kSafeFromGlobalPurgeDays * 2));
GURL gurl("http://google.com");
std::string cookie_line("z=3");
// Trigger the Garbage collection we're allowed.
setCookieCallback.SetCookie(cm.get(), gurl, cookie_line);
base::PerfTimeLogger timer((std::string("GC_") + test_case.name).c_str());
for (int i = 0; i < kNumCookies; i++)
setCookieCallback.SetCookie(cm.get(), gurl, cookie_line);
timer.Done();
}
}
} // namespace net