#include "GameDependencies.h" #include "Mail.h" #include "MailInfo.h" #include "BitStream.h" #include "Entity.h" #include "User.h" #include "Character.h" #include "dCommonVars.h" class MailTests : public GameDependenciesTest { protected: void SetUp() override { SetUpDependencies(); } void TearDown() override { TearDownDependencies(); } }; // Test SendRequest packet with MailInfo serialization TEST_F(MailTests, SendRequestMailInfoSerialization) { Mail::SendRequest sendRequest; // Set up test mail info sendRequest.mailInfo.senderUsername = "TestSender"; sendRequest.mailInfo.recipient = "TestRecipient"; sendRequest.mailInfo.subject = "Test Subject"; sendRequest.mailInfo.body = "Test mail body content"; sendRequest.mailInfo.id = 12345; sendRequest.mailInfo.senderId = 678; sendRequest.mailInfo.receiverId = 901; sendRequest.mailInfo.timeSent = 1640995200; sendRequest.mailInfo.wasRead = false; sendRequest.mailInfo.languageCode = 1033; sendRequest.mailInfo.itemID = 555; sendRequest.mailInfo.itemCount = 10; sendRequest.mailInfo.itemLOT = 1234; sendRequest.mailInfo.itemSubkey = 999; // Test that the mail info serializes to a non-empty bitstream RakNet::BitStream mailInfoStream; sendRequest.mailInfo.Serialize(mailInfoStream); // Verify the stream contains data ASSERT_GT(mailInfoStream.GetNumberOfBytesUsed(), 0); // Verify first field (id) is correct mailInfoStream.ResetReadPointer(); uint64_t readId; ASSERT_TRUE(mailInfoStream.Read(readId)); ASSERT_EQ(readId, 12345); } // Test SendResponse packet serialization TEST_F(MailTests, SendResponseSerialization) { Mail::SendResponse sendResponse; sendResponse.status = Mail::eSendResponse::Success; RakNet::BitStream outStream; sendResponse.Serialize(outStream); // Verify the stream contains data ASSERT_GT(outStream.GetNumberOfBytesUsed(), 0); // Verify message ID and status are written outStream.ResetReadPointer(); uint32_t messageID; uint32_t status; ASSERT_TRUE(outStream.Read(messageID)); ASSERT_TRUE(outStream.Read(status)); ASSERT_EQ(messageID, static_cast(Mail::eMessageID::SendResponse)); ASSERT_EQ(status, static_cast(Mail::eSendResponse::Success)); } // Test NotificationResponse packet serialization TEST_F(MailTests, NotificationResponseSerialization) { Mail::NotificationResponse notificationResponse; notificationResponse.status = Mail::eNotificationResponse::NewMail; notificationResponse.auctionID = 12345; notificationResponse.mailCount = 3; RakNet::BitStream outStream; notificationResponse.Serialize(outStream); // Verify the stream contains data ASSERT_GT(outStream.GetNumberOfBytesUsed(), 0); // Verify message ID and fields are written in the correct order // Order: messageID, status, unused, unused, auctionID, unused, mailCount, packing outStream.ResetReadPointer(); uint32_t messageID; uint32_t status; uint64_t unused1, unused2, auctionID, unused3; uint32_t mailCount, packing; ASSERT_TRUE(outStream.Read(messageID)); ASSERT_TRUE(outStream.Read(status)); ASSERT_TRUE(outStream.Read(unused1)); ASSERT_TRUE(outStream.Read(unused2)); ASSERT_TRUE(outStream.Read(auctionID)); ASSERT_TRUE(outStream.Read(unused3)); ASSERT_TRUE(outStream.Read(mailCount)); ASSERT_TRUE(outStream.Read(packing)); ASSERT_EQ(messageID, static_cast(Mail::eMessageID::NotificationResponse)); ASSERT_EQ(status, static_cast(Mail::eNotificationResponse::NewMail)); ASSERT_EQ(auctionID, 12345); ASSERT_EQ(mailCount, 3); } // Test DataResponse packet serialization TEST_F(MailTests, DataResponseSerialization) { Mail::DataResponse dataResponse; dataResponse.throttled = 0; // Add some mail info MailInfo mail1, mail2; mail1.senderUsername = "Sender1"; mail1.recipient = "Recipient1"; mail1.subject = "Subject1"; mail1.body = "Body1"; mail1.id = 1; mail1.senderId = 100; mail1.receiverId = 200; mail1.timeSent = 1640995200; mail1.wasRead = false; mail1.languageCode = 1033; mail1.itemID = LWOOBJID_EMPTY; mail1.itemCount = 0; mail1.itemLOT = LOT_NULL; mail1.itemSubkey = LWOOBJID_EMPTY; mail2.senderUsername = "Sender2"; mail2.recipient = "Recipient2"; mail2.subject = "Subject2"; mail2.body = "Body2"; mail2.id = 2; mail2.senderId = 300; mail2.receiverId = 400; mail2.timeSent = 1640995300; mail2.wasRead = true; mail2.languageCode = 1033; mail2.itemID = 555; mail2.itemCount = 10; mail2.itemLOT = 1234; mail2.itemSubkey = 999; dataResponse.playerMail.push_back(mail1); dataResponse.playerMail.push_back(mail2); RakNet::BitStream outStream; dataResponse.Serialize(outStream); // Verify the stream contains data ASSERT_GT(outStream.GetNumberOfBytesUsed(), 0); // Verify message ID, throttled, and mail count are written outStream.ResetReadPointer(); uint32_t messageID; uint32_t throttled; uint16_t mailCount; ASSERT_TRUE(outStream.Read(messageID)); ASSERT_TRUE(outStream.Read(throttled)); ASSERT_TRUE(outStream.Read(mailCount)); ASSERT_EQ(messageID, static_cast(Mail::eMessageID::DataResponse)); ASSERT_EQ(throttled, 0); ASSERT_EQ(mailCount, 2); } // Test AttachmentCollectRequest packet deserialization TEST_F(MailTests, AttachmentCollectRequestDeserialize) { // This test verifies the deserialization reads data in the correct order RakNet::BitStream inStream; uint32_t unknown = 123; // Unknown field that comes first uint64_t mailID = 12345; uint64_t playerID = 67890; // The Deserialize method reads: unknown, mailID, playerID inStream.Write(unknown); inStream.Write(mailID); inStream.Write(playerID); inStream.ResetReadPointer(); Mail::AttachmentCollectRequest request; ASSERT_TRUE(request.Deserialize(inStream)); ASSERT_EQ(request.mailID, mailID); ASSERT_EQ(request.playerID, playerID); } // Test AttachmentCollectResponse packet serialization TEST_F(MailTests, AttachmentCollectResponseSerialization) { Mail::AttachmentCollectResponse response; response.status = Mail::eAttachmentCollectResponse::Success; response.mailID = 54321; RakNet::BitStream outStream; response.Serialize(outStream); // Verify the stream contains data ASSERT_GT(outStream.GetNumberOfBytesUsed(), 0); // Verify message ID, status, and mail ID are written outStream.ResetReadPointer(); uint32_t messageID; uint32_t status; uint64_t mailID; ASSERT_TRUE(outStream.Read(messageID)); ASSERT_TRUE(outStream.Read(status)); ASSERT_TRUE(outStream.Read(mailID)); ASSERT_EQ(messageID, static_cast(Mail::eMessageID::AttachmentCollectResponse)); ASSERT_EQ(status, static_cast(Mail::eAttachmentCollectResponse::Success)); ASSERT_EQ(mailID, 54321); } // Test DeleteRequest packet deserialization TEST_F(MailTests, DeleteRequestDeserialize) { // This test verifies the deserialization reads data in the correct order RakNet::BitStream inStream; int32_t unknown = 456; // Unknown field that comes first uint64_t mailID = 98765; uint64_t playerID = 11111; // The Deserialize method reads: unknown, mailID, playerID inStream.Write(unknown); inStream.Write(mailID); inStream.Write(playerID); inStream.ResetReadPointer(); Mail::DeleteRequest request; ASSERT_TRUE(request.Deserialize(inStream)); ASSERT_EQ(request.mailID, mailID); ASSERT_EQ(request.playerID, playerID); } // Test DeleteResponse packet serialization TEST_F(MailTests, DeleteResponseSerialization) { Mail::DeleteResponse response; response.status = Mail::eDeleteResponse::Success; response.mailID = 13579; RakNet::BitStream outStream; response.Serialize(outStream); // Verify the stream contains data ASSERT_GT(outStream.GetNumberOfBytesUsed(), 0); // Verify message ID, status, and mail ID are written outStream.ResetReadPointer(); uint32_t messageID; uint32_t status; uint64_t mailID; ASSERT_TRUE(outStream.Read(messageID)); ASSERT_TRUE(outStream.Read(status)); ASSERT_TRUE(outStream.Read(mailID)); ASSERT_EQ(messageID, static_cast(Mail::eMessageID::DeleteResponse)); ASSERT_EQ(status, static_cast(Mail::eDeleteResponse::Success)); ASSERT_EQ(mailID, 13579); } // Test ReadRequest packet deserialization TEST_F(MailTests, ReadRequestDeserialize) { // This test verifies the deserialization reads data in the correct order RakNet::BitStream inStream; int32_t unknown = 789; // Unknown field that comes first uint64_t mailID = 24680; // The Deserialize method reads: unknown, mailID inStream.Write(unknown); inStream.Write(mailID); inStream.ResetReadPointer(); Mail::ReadRequest request; ASSERT_TRUE(request.Deserialize(inStream)); ASSERT_EQ(request.mailID, mailID); } // Test ReadResponse packet serialization TEST_F(MailTests, ReadResponseSerialization) { Mail::ReadResponse response; response.mailID = 97531; response.status = Mail::eReadResponse::Success; RakNet::BitStream outStream; response.Serialize(outStream); // Verify the stream contains data ASSERT_GT(outStream.GetNumberOfBytesUsed(), 0); // Verify message ID, status, and mail ID are written in correct order outStream.ResetReadPointer(); uint32_t messageID; uint32_t status; uint64_t mailID; ASSERT_TRUE(outStream.Read(messageID)); ASSERT_TRUE(outStream.Read(status)); ASSERT_TRUE(outStream.Read(mailID)); ASSERT_EQ(messageID, static_cast(Mail::eMessageID::ReadResponse)); ASSERT_EQ(status, static_cast(Mail::eReadResponse::Success)); ASSERT_EQ(mailID, 97531); }