// 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 "sync/util/cryptographer.h" #include <string> #include "base/memory/scoped_ptr.h" #include "base/strings/string_util.h" #include "sync/protocol/password_specifics.pb.h" #include "sync/test/fake_encryptor.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" namespace syncer { namespace { using ::testing::_; } // namespace class CryptographerTest : public ::testing::Test { protected: CryptographerTest() : cryptographer_(&encryptor_) {} FakeEncryptor encryptor_; Cryptographer cryptographer_; }; TEST_F(CryptographerTest, EmptyCantDecrypt) { EXPECT_FALSE(cryptographer_.is_ready()); sync_pb::EncryptedData encrypted; encrypted.set_key_name("foo"); encrypted.set_blob("bar"); EXPECT_FALSE(cryptographer_.CanDecrypt(encrypted)); } TEST_F(CryptographerTest, EmptyCantEncrypt) { EXPECT_FALSE(cryptographer_.is_ready()); sync_pb::EncryptedData encrypted; sync_pb::PasswordSpecificsData original; EXPECT_FALSE(cryptographer_.Encrypt(original, &encrypted)); } TEST_F(CryptographerTest, MissingCantDecrypt) { KeyParams params = {"localhost", "dummy", "dummy"}; cryptographer_.AddKey(params); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::EncryptedData encrypted; encrypted.set_key_name("foo"); encrypted.set_blob("bar"); EXPECT_FALSE(cryptographer_.CanDecrypt(encrypted)); } TEST_F(CryptographerTest, CanEncryptAndDecrypt) { KeyParams params = {"localhost", "dummy", "dummy"}; EXPECT_TRUE(cryptographer_.AddKey(params)); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::PasswordSpecificsData original; original.set_origin("http://example.com"); original.set_username_value("azure"); original.set_password_value("hunter2"); sync_pb::EncryptedData encrypted; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted)); sync_pb::PasswordSpecificsData decrypted; EXPECT_TRUE(cryptographer_.Decrypt(encrypted, &decrypted)); EXPECT_EQ(original.SerializeAsString(), decrypted.SerializeAsString()); } TEST_F(CryptographerTest, EncryptOnlyIfDifferent) { KeyParams params = {"localhost", "dummy", "dummy"}; EXPECT_TRUE(cryptographer_.AddKey(params)); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::PasswordSpecificsData original; original.set_origin("http://example.com"); original.set_username_value("azure"); original.set_password_value("hunter2"); sync_pb::EncryptedData encrypted; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted)); sync_pb::EncryptedData encrypted2, encrypted3; encrypted2.CopyFrom(encrypted); encrypted3.CopyFrom(encrypted); EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted2)); // Now encrypt with a new default key. Should overwrite the old data. KeyParams params_new = {"localhost", "dummy", "dummy2"}; cryptographer_.AddKey(params_new); EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted3)); sync_pb::PasswordSpecificsData decrypted; EXPECT_TRUE(cryptographer_.Decrypt(encrypted2, &decrypted)); // encrypted2 should match encrypted, encrypted3 should not (due to salting). EXPECT_EQ(encrypted.SerializeAsString(), encrypted2.SerializeAsString()); EXPECT_NE(encrypted.SerializeAsString(), encrypted3.SerializeAsString()); EXPECT_EQ(original.SerializeAsString(), decrypted.SerializeAsString()); } TEST_F(CryptographerTest, AddKeySetsDefault) { KeyParams params1 = {"localhost", "dummy", "dummy1"}; EXPECT_TRUE(cryptographer_.AddKey(params1)); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::PasswordSpecificsData original; original.set_origin("http://example.com"); original.set_username_value("azure"); original.set_password_value("hunter2"); sync_pb::EncryptedData encrypted1; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted1)); sync_pb::EncryptedData encrypted2; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted2)); KeyParams params2 = {"localhost", "dummy", "dummy2"}; EXPECT_TRUE(cryptographer_.AddKey(params2)); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::EncryptedData encrypted3; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted3)); sync_pb::EncryptedData encrypted4; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted4)); EXPECT_EQ(encrypted1.key_name(), encrypted2.key_name()); EXPECT_NE(encrypted1.key_name(), encrypted3.key_name()); EXPECT_EQ(encrypted3.key_name(), encrypted4.key_name()); } // Crashes, Bug 55178. #if defined(OS_WIN) #define MAYBE_EncryptExportDecrypt DISABLED_EncryptExportDecrypt #else #define MAYBE_EncryptExportDecrypt EncryptExportDecrypt #endif TEST_F(CryptographerTest, MAYBE_EncryptExportDecrypt) { sync_pb::EncryptedData nigori; sync_pb::EncryptedData encrypted; sync_pb::PasswordSpecificsData original; original.set_origin("http://example.com"); original.set_username_value("azure"); original.set_password_value("hunter2"); { Cryptographer cryptographer(&encryptor_); KeyParams params = {"localhost", "dummy", "dummy"}; cryptographer.AddKey(params); EXPECT_TRUE(cryptographer.is_ready()); EXPECT_TRUE(cryptographer.Encrypt(original, &encrypted)); EXPECT_TRUE(cryptographer.GetKeys(&nigori)); } { Cryptographer cryptographer(&encryptor_); EXPECT_FALSE(cryptographer.CanDecrypt(nigori)); cryptographer.SetPendingKeys(nigori); EXPECT_FALSE(cryptographer.is_ready()); EXPECT_TRUE(cryptographer.has_pending_keys()); KeyParams params = {"localhost", "dummy", "dummy"}; EXPECT_TRUE(cryptographer.DecryptPendingKeys(params)); EXPECT_TRUE(cryptographer.is_ready()); EXPECT_FALSE(cryptographer.has_pending_keys()); sync_pb::PasswordSpecificsData decrypted; EXPECT_TRUE(cryptographer.Decrypt(encrypted, &decrypted)); EXPECT_EQ(original.SerializeAsString(), decrypted.SerializeAsString()); } } TEST_F(CryptographerTest, Bootstrap) { KeyParams params = {"localhost", "dummy", "dummy"}; cryptographer_.AddKey(params); std::string token; EXPECT_TRUE(cryptographer_.GetBootstrapToken(&token)); EXPECT_TRUE(base::IsStringUTF8(token)); Cryptographer other_cryptographer(&encryptor_); other_cryptographer.Bootstrap(token); EXPECT_TRUE(other_cryptographer.is_ready()); const char secret[] = "secret"; sync_pb::EncryptedData encrypted; EXPECT_TRUE(other_cryptographer.EncryptString(secret, &encrypted)); EXPECT_TRUE(cryptographer_.CanDecryptUsingDefaultKey(encrypted)); } // Verifies that copied cryptographers are just as good as the original. // // Encrypt an item using the original cryptographer and two different sets of // keys. Verify that it can decrypt them. // // Then copy the original cryptographer and ensure it can also decrypt these // items and encrypt them with the most recent key. TEST_F(CryptographerTest, CopyConstructor) { sync_pb::PasswordSpecificsData original; original.set_origin("http://example.com"); original.set_username_value("luser"); original.set_password_value("p4ssw0rd"); // Start by testing the original cryptogprapher. KeyParams params1 = {"localhost", "dummy", "dummy"}; EXPECT_TRUE(cryptographer_.AddKey(params1)); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::EncryptedData encrypted_k1; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted_k1)); KeyParams params2 = {"localhost", "fatuous", "fatuous"}; EXPECT_TRUE(cryptographer_.AddKey(params2)); EXPECT_TRUE(cryptographer_.is_ready()); sync_pb::EncryptedData encrypted_k2; EXPECT_TRUE(cryptographer_.Encrypt(original, &encrypted_k2)); sync_pb::PasswordSpecificsData decrypted_k1; sync_pb::PasswordSpecificsData decrypted_k2; EXPECT_TRUE(cryptographer_.Decrypt(encrypted_k1, &decrypted_k1)); EXPECT_TRUE(cryptographer_.Decrypt(encrypted_k2, &decrypted_k2)); EXPECT_EQ(original.SerializeAsString(), decrypted_k1.SerializeAsString()); EXPECT_EQ(original.SerializeAsString(), decrypted_k2.SerializeAsString()); // Clone the cryptographer and test that it behaves the same. Cryptographer cryptographer_clone(cryptographer_); // The clone should be able to decrypt with old and new keys. sync_pb::PasswordSpecificsData decrypted_k1_clone; sync_pb::PasswordSpecificsData decrypted_k2_clone; EXPECT_TRUE(cryptographer_clone.Decrypt(encrypted_k1, &decrypted_k1_clone)); EXPECT_TRUE(cryptographer_clone.Decrypt(encrypted_k2, &decrypted_k2_clone)); EXPECT_EQ(original.SerializeAsString(), decrypted_k1_clone.SerializeAsString()); EXPECT_EQ(original.SerializeAsString(), decrypted_k2_clone.SerializeAsString()); // The old cryptographer should be able to decrypt things encrypted by the // new. sync_pb::EncryptedData encrypted_c; EXPECT_TRUE(cryptographer_clone.Encrypt(original, &encrypted_c)); sync_pb::PasswordSpecificsData decrypted_c; EXPECT_TRUE(cryptographer_.Decrypt(encrypted_c, &decrypted_c)); EXPECT_EQ(original.SerializeAsString(), decrypted_c.SerializeAsString()); // The cloned cryptographer should be using the latest key. EXPECT_EQ(encrypted_c.key_name(), encrypted_k2.key_name()); } } // namespace syncer