// 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 "components/cryptauth/wire_message.h" #include #include "base/strings/string_util.h" #include "testing/gtest/include/gtest/gtest.h" namespace cryptauth { class CryptAuthWireMessageTest : public testing::Test { protected: CryptAuthWireMessageTest() {} ~CryptAuthWireMessageTest() override {} private: DISALLOW_COPY_AND_ASSIGN(CryptAuthWireMessageTest); }; TEST(CryptAuthWireMessageTest, Deserialize_EmptyMessage) { bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize(std::string(), &is_incomplete); EXPECT_TRUE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_IncompleteHeader) { bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize("\3", &is_incomplete); EXPECT_TRUE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_UnexpectedMessageFormatVersion) { bool is_incomplete; // Version 2 is below the minimum supported version. std::unique_ptr message = WireMessage::Deserialize("\2\1\1", &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_BodyOfSizeZero) { bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize(std::string("\3\0\0", 3), &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_IncompleteBody) { bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize(std::string("\3\0\5", 3), &is_incomplete); EXPECT_TRUE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_BodyLongerThanSpecifiedInHeader) { bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize( std::string("\3\0\5", 3) + "123456", &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_BodyIsNotValidJSON) { bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize( std::string("\3\0\5", 3) + "12345", &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_BodyIsNotADictionary) { bool is_incomplete; std::string header("\3\0\x15", 3); std::string bytes = header + "[{\"payload\": \"YQ==\"}]"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_NonEncryptedMessage) { bool is_incomplete; std::string header("\3\0\x02", 3); std::string bytes = header + "{}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); ASSERT_TRUE(message); EXPECT_EQ("{}", message->body()); } TEST(CryptAuthWireMessageTest, Deserialize_BodyHasEmptyPayload) { bool is_incomplete; std::string header("\3\0\x29", 3); std::string bytes = header + "{\"payload\": \"\", \"feature\": \"testFeature\"}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_PayloadIsNotBase64Encoded) { bool is_incomplete; std::string header("\3\0\x30", 3); std::string bytes = header + "{\"payload\": \"garbage\", \"feature\": \"testFeature\"}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_FALSE(message); } TEST(CryptAuthWireMessageTest, Deserialize_ValidMessage) { bool is_incomplete; std::string header("\3\0\x2d", 3); std::string bytes = header + "{\"payload\": \"YQ==\", \"feature\": \"testFeature\"}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); ASSERT_TRUE(message); EXPECT_EQ("a", message->payload()); EXPECT_EQ("testFeature", message->feature()); } TEST(CryptAuthWireMessageTest, Deserialize_ValidMessageWithBase64UrlEncoding) { bool is_incomplete; std::string header("\3\0\x2d", 3); std::string bytes = header + "{\"payload\": \"_-Y=\", \"feature\": \"testFeature\"}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); ASSERT_TRUE(message); EXPECT_EQ("\xFF\xE6", message->payload()); EXPECT_EQ("testFeature", message->feature()); } TEST(CryptAuthWireMessageTest, Deserialize_ValidMessageWithExtraUnknownFields) { bool is_incomplete; std::string header("\3\0\x4c", 3); std::string bytes = header + "{" " \"payload\": \"YQ==\"," " \"feature\": \"testFeature\"," " \"unexpected\": \"surprise!\"" "}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); ASSERT_TRUE(message); EXPECT_EQ("a", message->payload()); EXPECT_EQ("testFeature", message->feature()); } TEST(CryptAuthWireMessageTest, Deserialize_SizeEquals0x01FF) { // Create a message with a body of 0x01FF bytes to test the size contained in // the header is parsed correctly. std::string header("\3\x01\xff", 3); char json_template[] = "{" " \"payload\":\"YQ==\"," " \"feature\": \"testFeature\"," " \"filler\":\"$1\"" "}"; // Add 3 to the size to take into account the "$1" and NUL terminator ("\0") // characters in |json_template|. uint16_t filler_size = 0x01ff - sizeof(json_template) + 3; std::string filler(filler_size, 'F'); std::string body = base::ReplaceStringPlaceholders( json_template, std::vector(1u, filler), nullptr); std::string serialized_message = header + body; bool is_incomplete; std::unique_ptr message = WireMessage::Deserialize(serialized_message, &is_incomplete); EXPECT_FALSE(is_incomplete); ASSERT_TRUE(message); EXPECT_EQ("a", message->payload()); EXPECT_EQ("testFeature", message->feature()); } TEST(CryptAuthWireMessageTest, Serialize_WithoutFeature) { bool is_incomplete; std::string header("\3\0\x13", 3); std::string bytes = header + "{\"payload\": \"YQ==\"}"; std::unique_ptr message = WireMessage::Deserialize(bytes, &is_incomplete); EXPECT_FALSE(is_incomplete); EXPECT_TRUE(message); EXPECT_EQ("a", message->payload()); // If unspecified, the default feature is "easy_unlock" for backwards // compatibility. EXPECT_EQ("easy_unlock", message->feature()); } TEST(CryptAuthWireMessageTest, Serialize_FailsWithoutPayload) { WireMessage message1(std::string(), "example id"); std::string bytes = message1.Serialize(); EXPECT_TRUE(bytes.empty()); } } // namespace cryptauth