blob: 92d77e9f68f8acce6731c710a2e869add4380bfc [file] [log] [blame]
// Copyright 2014 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 "base/bind.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/memory/ref_counted.h"
#include "base/memory/scoped_vector.h"
#include "base/message_loop/message_loop.h"
#include "base/run_loop.h"
#include "base/stl_util.h"
#include "net/base/test_data_directory.h"
#include "net/extras/sqlite/sqlite_channel_id_store.h"
#include "net/ssl/ssl_client_cert_type.h"
#include "net/test/cert_test_util.h"
#include "sql/statement.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
const base::FilePath::CharType kTestChannelIDFilename[] =
FILE_PATH_LITERAL("ChannelID");
class SQLiteChannelIDStoreTest : public testing::Test {
public:
void Load(ScopedVector<DefaultChannelIDStore::ChannelID>* channel_ids) {
base::RunLoop run_loop;
store_->Load(base::Bind(&SQLiteChannelIDStoreTest::OnLoaded,
base::Unretained(this),
&run_loop));
run_loop.Run();
channel_ids->swap(channel_ids_);
channel_ids_.clear();
}
void OnLoaded(
base::RunLoop* run_loop,
scoped_ptr<ScopedVector<DefaultChannelIDStore::ChannelID> > channel_ids) {
channel_ids_.swap(*channel_ids);
run_loop->Quit();
}
protected:
static void ReadTestKeyAndCert(std::string* key, std::string* cert) {
base::FilePath key_path =
GetTestCertsDirectory().AppendASCII("unittest.originbound.key.der");
base::FilePath cert_path =
GetTestCertsDirectory().AppendASCII("unittest.originbound.der");
ASSERT_TRUE(base::ReadFileToString(key_path, key));
ASSERT_TRUE(base::ReadFileToString(cert_path, cert));
}
static base::Time GetTestCertExpirationTime() {
// Cert expiration time from 'dumpasn1 unittest.originbound.der':
// GeneralizedTime 19/11/2111 02:23:45 GMT
// base::Time::FromUTCExploded can't generate values past 2038 on 32-bit
// linux, so we use the raw value here.
return base::Time::FromInternalValue(GG_INT64_C(16121816625000000));
}
static base::Time GetTestCertCreationTime() {
// UTCTime 13/12/2011 02:23:45 GMT
base::Time::Exploded exploded_time;
exploded_time.year = 2011;
exploded_time.month = 12;
exploded_time.day_of_week = 0; // Unused.
exploded_time.day_of_month = 13;
exploded_time.hour = 2;
exploded_time.minute = 23;
exploded_time.second = 45;
exploded_time.millisecond = 0;
return base::Time::FromUTCExploded(exploded_time);
}
virtual void SetUp() {
ASSERT_TRUE(temp_dir_.CreateUniqueTempDir());
store_ = new SQLiteChannelIDStore(
temp_dir_.path().Append(kTestChannelIDFilename),
base::MessageLoopProxy::current());
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
Load(&channel_ids);
ASSERT_EQ(0u, channel_ids.size());
// Make sure the store gets written at least once.
store_->AddChannelID(
DefaultChannelIDStore::ChannelID("google.com",
base::Time::FromInternalValue(1),
base::Time::FromInternalValue(2),
"a",
"b"));
}
base::ScopedTempDir temp_dir_;
scoped_refptr<SQLiteChannelIDStore> store_;
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids_;
};
// Test if data is stored as expected in the SQLite database.
TEST_F(SQLiteChannelIDStoreTest, TestPersistence) {
store_->AddChannelID(
DefaultChannelIDStore::ChannelID("foo.com",
base::Time::FromInternalValue(3),
base::Time::FromInternalValue(4),
"c",
"d"));
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
// Replace the store effectively destroying the current one and forcing it
// to write its data to disk. Then we can see if after loading it again it
// is still there.
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
store_ =
new SQLiteChannelIDStore(temp_dir_.path().Append(kTestChannelIDFilename),
base::MessageLoopProxy::current());
// Reload and test for persistence
Load(&channel_ids);
ASSERT_EQ(2U, channel_ids.size());
DefaultChannelIDStore::ChannelID* goog_channel_id;
DefaultChannelIDStore::ChannelID* foo_channel_id;
if (channel_ids[0]->server_identifier() == "google.com") {
goog_channel_id = channel_ids[0];
foo_channel_id = channel_ids[1];
} else {
goog_channel_id = channel_ids[1];
foo_channel_id = channel_ids[0];
}
ASSERT_EQ("google.com", goog_channel_id->server_identifier());
ASSERT_STREQ("a", goog_channel_id->private_key().c_str());
ASSERT_STREQ("b", goog_channel_id->cert().c_str());
ASSERT_EQ(1, goog_channel_id->creation_time().ToInternalValue());
ASSERT_EQ(2, goog_channel_id->expiration_time().ToInternalValue());
ASSERT_EQ("foo.com", foo_channel_id->server_identifier());
ASSERT_STREQ("c", foo_channel_id->private_key().c_str());
ASSERT_STREQ("d", foo_channel_id->cert().c_str());
ASSERT_EQ(3, foo_channel_id->creation_time().ToInternalValue());
ASSERT_EQ(4, foo_channel_id->expiration_time().ToInternalValue());
// Now delete the cert and check persistence again.
store_->DeleteChannelID(*channel_ids[0]);
store_->DeleteChannelID(*channel_ids[1]);
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
channel_ids.clear();
store_ =
new SQLiteChannelIDStore(temp_dir_.path().Append(kTestChannelIDFilename),
base::MessageLoopProxy::current());
// Reload and check if the cert has been removed.
Load(&channel_ids);
ASSERT_EQ(0U, channel_ids.size());
// Close the store.
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
}
// Test if data is stored as expected in the SQLite database.
TEST_F(SQLiteChannelIDStoreTest, TestDeleteAll) {
store_->AddChannelID(
DefaultChannelIDStore::ChannelID("foo.com",
base::Time::FromInternalValue(3),
base::Time::FromInternalValue(4),
"c",
"d"));
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
// Replace the store effectively destroying the current one and forcing it
// to write its data to disk. Then we can see if after loading it again it
// is still there.
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
store_ =
new SQLiteChannelIDStore(temp_dir_.path().Append(kTestChannelIDFilename),
base::MessageLoopProxy::current());
// Reload and test for persistence
Load(&channel_ids);
ASSERT_EQ(2U, channel_ids.size());
// DeleteAll except foo.com (shouldn't fail if one is missing either).
std::list<std::string> delete_server_identifiers;
delete_server_identifiers.push_back("google.com");
delete_server_identifiers.push_back("missing.com");
store_->DeleteAllInList(delete_server_identifiers);
// Now check persistence again.
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
channel_ids.clear();
store_ =
new SQLiteChannelIDStore(temp_dir_.path().Append(kTestChannelIDFilename),
base::MessageLoopProxy::current());
// Reload and check that only foo.com persisted in store.
Load(&channel_ids);
ASSERT_EQ(1U, channel_ids.size());
ASSERT_EQ("foo.com", channel_ids[0]->server_identifier());
// Close the store.
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
}
TEST_F(SQLiteChannelIDStoreTest, TestUpgradeV1) {
// Reset the store. We'll be using a different database for this test.
store_ = NULL;
base::FilePath v1_db_path(temp_dir_.path().AppendASCII("v1db"));
std::string key_data;
std::string cert_data;
ReadTestKeyAndCert(&key_data, &cert_data);
// Create a version 1 database.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v1_db_path));
ASSERT_TRUE(db.Execute(
"CREATE TABLE meta(key LONGVARCHAR NOT NULL UNIQUE PRIMARY KEY,"
"value LONGVARCHAR);"
"INSERT INTO \"meta\" VALUES('version','1');"
"INSERT INTO \"meta\" VALUES('last_compatible_version','1');"
"CREATE TABLE origin_bound_certs ("
"origin TEXT NOT NULL UNIQUE PRIMARY KEY,"
"private_key BLOB NOT NULL,cert BLOB NOT NULL);"));
sql::Statement add_smt(db.GetUniqueStatement(
"INSERT INTO origin_bound_certs (origin, private_key, cert) "
"VALUES (?,?,?)"));
add_smt.BindString(0, "google.com");
add_smt.BindBlob(1, key_data.data(), key_data.size());
add_smt.BindBlob(2, cert_data.data(), cert_data.size());
ASSERT_TRUE(add_smt.Run());
ASSERT_TRUE(db.Execute(
"INSERT INTO \"origin_bound_certs\" VALUES("
"'foo.com',X'AA',X'BB');"));
}
// Load and test the DB contents twice. First time ensures that we can use
// the updated values immediately. Second time ensures that the updated
// values are stored and read correctly on next load.
for (int i = 0; i < 2; ++i) {
SCOPED_TRACE(i);
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
store_ =
new SQLiteChannelIDStore(v1_db_path, base::MessageLoopProxy::current());
// Load the database. Because the existing v1 certs are implicitly of type
// RSA, which is unsupported, they're discarded.
Load(&channel_ids);
ASSERT_EQ(0U, channel_ids.size());
store_ = NULL;
base::RunLoop().RunUntilIdle();
// Verify the database version is updated.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v1_db_path));
sql::Statement smt(db.GetUniqueStatement(
"SELECT value FROM meta WHERE key = \"version\""));
ASSERT_TRUE(smt.Step());
EXPECT_EQ(4, smt.ColumnInt(0));
EXPECT_FALSE(smt.Step());
}
}
}
TEST_F(SQLiteChannelIDStoreTest, TestUpgradeV2) {
// Reset the store. We'll be using a different database for this test.
store_ = NULL;
base::FilePath v2_db_path(temp_dir_.path().AppendASCII("v2db"));
std::string key_data;
std::string cert_data;
ReadTestKeyAndCert(&key_data, &cert_data);
// Create a version 2 database.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v2_db_path));
ASSERT_TRUE(db.Execute(
"CREATE TABLE meta(key LONGVARCHAR NOT NULL UNIQUE PRIMARY KEY,"
"value LONGVARCHAR);"
"INSERT INTO \"meta\" VALUES('version','2');"
"INSERT INTO \"meta\" VALUES('last_compatible_version','1');"
"CREATE TABLE origin_bound_certs ("
"origin TEXT NOT NULL UNIQUE PRIMARY KEY,"
"private_key BLOB NOT NULL,"
"cert BLOB NOT NULL,"
"cert_type INTEGER);"));
sql::Statement add_smt(db.GetUniqueStatement(
"INSERT INTO origin_bound_certs (origin, private_key, cert, cert_type) "
"VALUES (?,?,?,?)"));
add_smt.BindString(0, "google.com");
add_smt.BindBlob(1, key_data.data(), key_data.size());
add_smt.BindBlob(2, cert_data.data(), cert_data.size());
add_smt.BindInt64(3, 64);
ASSERT_TRUE(add_smt.Run());
ASSERT_TRUE(db.Execute(
"INSERT INTO \"origin_bound_certs\" VALUES("
"'foo.com',X'AA',X'BB',64);"));
}
// Load and test the DB contents twice. First time ensures that we can use
// the updated values immediately. Second time ensures that the updated
// values are saved and read correctly on next load.
for (int i = 0; i < 2; ++i) {
SCOPED_TRACE(i);
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
store_ =
new SQLiteChannelIDStore(v2_db_path, base::MessageLoopProxy::current());
// Load the database and ensure the certs can be read.
Load(&channel_ids);
ASSERT_EQ(2U, channel_ids.size());
ASSERT_EQ("google.com", channel_ids[0]->server_identifier());
ASSERT_EQ(GetTestCertExpirationTime(), channel_ids[0]->expiration_time());
ASSERT_EQ(key_data, channel_ids[0]->private_key());
ASSERT_EQ(cert_data, channel_ids[0]->cert());
ASSERT_EQ("foo.com", channel_ids[1]->server_identifier());
// Undecodable cert, expiration time will be uninitialized.
ASSERT_EQ(base::Time(), channel_ids[1]->expiration_time());
ASSERT_STREQ("\xaa", channel_ids[1]->private_key().c_str());
ASSERT_STREQ("\xbb", channel_ids[1]->cert().c_str());
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
// Verify the database version is updated.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v2_db_path));
sql::Statement smt(db.GetUniqueStatement(
"SELECT value FROM meta WHERE key = \"version\""));
ASSERT_TRUE(smt.Step());
EXPECT_EQ(4, smt.ColumnInt(0));
EXPECT_FALSE(smt.Step());
}
}
}
TEST_F(SQLiteChannelIDStoreTest, TestUpgradeV3) {
// Reset the store. We'll be using a different database for this test.
store_ = NULL;
base::FilePath v3_db_path(temp_dir_.path().AppendASCII("v3db"));
std::string key_data;
std::string cert_data;
ReadTestKeyAndCert(&key_data, &cert_data);
// Create a version 3 database.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v3_db_path));
ASSERT_TRUE(db.Execute(
"CREATE TABLE meta(key LONGVARCHAR NOT NULL UNIQUE PRIMARY KEY,"
"value LONGVARCHAR);"
"INSERT INTO \"meta\" VALUES('version','3');"
"INSERT INTO \"meta\" VALUES('last_compatible_version','1');"
"CREATE TABLE origin_bound_certs ("
"origin TEXT NOT NULL UNIQUE PRIMARY KEY,"
"private_key BLOB NOT NULL,"
"cert BLOB NOT NULL,"
"cert_type INTEGER,"
"expiration_time INTEGER);"));
sql::Statement add_smt(db.GetUniqueStatement(
"INSERT INTO origin_bound_certs (origin, private_key, cert, cert_type, "
"expiration_time) VALUES (?,?,?,?,?)"));
add_smt.BindString(0, "google.com");
add_smt.BindBlob(1, key_data.data(), key_data.size());
add_smt.BindBlob(2, cert_data.data(), cert_data.size());
add_smt.BindInt64(3, 64);
add_smt.BindInt64(4, 1000);
ASSERT_TRUE(add_smt.Run());
ASSERT_TRUE(db.Execute(
"INSERT INTO \"origin_bound_certs\" VALUES("
"'foo.com',X'AA',X'BB',64,2000);"));
}
// Load and test the DB contents twice. First time ensures that we can use
// the updated values immediately. Second time ensures that the updated
// values are saved and read correctly on next load.
for (int i = 0; i < 2; ++i) {
SCOPED_TRACE(i);
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
store_ =
new SQLiteChannelIDStore(v3_db_path, base::MessageLoopProxy::current());
// Load the database and ensure the certs can be read.
Load(&channel_ids);
ASSERT_EQ(2U, channel_ids.size());
ASSERT_EQ("google.com", channel_ids[0]->server_identifier());
ASSERT_EQ(1000, channel_ids[0]->expiration_time().ToInternalValue());
ASSERT_EQ(GetTestCertCreationTime(), channel_ids[0]->creation_time());
ASSERT_EQ(key_data, channel_ids[0]->private_key());
ASSERT_EQ(cert_data, channel_ids[0]->cert());
ASSERT_EQ("foo.com", channel_ids[1]->server_identifier());
ASSERT_EQ(2000, channel_ids[1]->expiration_time().ToInternalValue());
// Undecodable cert, creation time will be uninitialized.
ASSERT_EQ(base::Time(), channel_ids[1]->creation_time());
ASSERT_STREQ("\xaa", channel_ids[1]->private_key().c_str());
ASSERT_STREQ("\xbb", channel_ids[1]->cert().c_str());
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
// Verify the database version is updated.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v3_db_path));
sql::Statement smt(db.GetUniqueStatement(
"SELECT value FROM meta WHERE key = \"version\""));
ASSERT_TRUE(smt.Step());
EXPECT_EQ(4, smt.ColumnInt(0));
EXPECT_FALSE(smt.Step());
}
}
}
TEST_F(SQLiteChannelIDStoreTest, TestRSADiscarded) {
// Reset the store. We'll be using a different database for this test.
store_ = NULL;
base::FilePath v4_db_path(temp_dir_.path().AppendASCII("v4dbrsa"));
std::string key_data;
std::string cert_data;
ReadTestKeyAndCert(&key_data, &cert_data);
// Create a version 4 database with a mix of RSA and ECDSA certs.
{
sql::Connection db;
ASSERT_TRUE(db.Open(v4_db_path));
ASSERT_TRUE(db.Execute(
"CREATE TABLE meta(key LONGVARCHAR NOT NULL UNIQUE PRIMARY KEY,"
"value LONGVARCHAR);"
"INSERT INTO \"meta\" VALUES('version','4');"
"INSERT INTO \"meta\" VALUES('last_compatible_version','1');"
"CREATE TABLE origin_bound_certs ("
"origin TEXT NOT NULL UNIQUE PRIMARY KEY,"
"private_key BLOB NOT NULL,"
"cert BLOB NOT NULL,"
"cert_type INTEGER,"
"expiration_time INTEGER,"
"creation_time INTEGER);"));
sql::Statement add_smt(db.GetUniqueStatement(
"INSERT INTO origin_bound_certs "
"(origin, private_key, cert, cert_type, expiration_time, creation_time)"
" VALUES (?,?,?,?,?,?)"));
add_smt.BindString(0, "google.com");
add_smt.BindBlob(1, key_data.data(), key_data.size());
add_smt.BindBlob(2, cert_data.data(), cert_data.size());
add_smt.BindInt64(3, 64);
add_smt.BindInt64(4, GetTestCertExpirationTime().ToInternalValue());
add_smt.BindInt64(5, base::Time::Now().ToInternalValue());
ASSERT_TRUE(add_smt.Run());
add_smt.Clear();
add_smt.Assign(db.GetUniqueStatement(
"INSERT INTO origin_bound_certs "
"(origin, private_key, cert, cert_type, expiration_time, creation_time)"
" VALUES (?,?,?,?,?,?)"));
add_smt.BindString(0, "foo.com");
add_smt.BindBlob(1, key_data.data(), key_data.size());
add_smt.BindBlob(2, cert_data.data(), cert_data.size());
add_smt.BindInt64(3, 1);
add_smt.BindInt64(4, GetTestCertExpirationTime().ToInternalValue());
add_smt.BindInt64(5, base::Time::Now().ToInternalValue());
ASSERT_TRUE(add_smt.Run());
}
ScopedVector<DefaultChannelIDStore::ChannelID> channel_ids;
store_ =
new SQLiteChannelIDStore(v4_db_path, base::MessageLoopProxy::current());
// Load the database and ensure the certs can be read.
Load(&channel_ids);
// Only the ECDSA cert (for google.com) is read, the RSA one is discarded.
ASSERT_EQ(1U, channel_ids.size());
ASSERT_EQ("google.com", channel_ids[0]->server_identifier());
ASSERT_EQ(GetTestCertExpirationTime(), channel_ids[0]->expiration_time());
ASSERT_EQ(key_data, channel_ids[0]->private_key());
ASSERT_EQ(cert_data, channel_ids[0]->cert());
store_ = NULL;
// Make sure we wait until the destructor has run.
base::RunLoop().RunUntilIdle();
}
} // namespace net