# Hermes ### Statement Hermes is a multi-client chat program akin to IRC written in Racket. Building Hermes is interesting as it exposes us to various design problems namely networking, synchronization, scheduling, and GUI design. ### Analysis > Will you use data abstraction? How? TCP communication will be abstracted away, so that we deal with Hermes definition of a message. We will try to encrypt the messages passed around. The encryption will be abstracted away, so we only have to think about it once during implementation. > Will you use recursion? How? The server will continually loop waiting for connections from clients. The GUI will continually loop to handle input from the user, and to and fro the server. > Will you use map/filter/reduce? How? Map will be used for dealing with input area of clients, and iterating over a list of open ports to send messages. > Will you use object-orientation? How? Keeping count of the number of clients will require an object of some sort. With procedures to increment and decrement the number of users. > Will you use functional approaches to processing your data? How? The communication part of Hermes is over tcp which uses a lot of functional approaches e.g. you start a listener which you can call tcp-accept on. The result of tcp accept are two pairs of ports which we can then bind to some variables. > Will you use state-modification approaches? How? (If so, this should be encapsulated within objects. `set!` pretty much should only exist inside an object.) State-modification will be used e.g. keeping count of logged in users requires state modification via set! to maintain the true user account. > Will you build an expression evaluator, like we did in the symbolic differentatior and the metacircular evaluator? Users will type their input into a text field from the GUI. We will retrieve the command and evaluate it to see if its a message, or a command to change GUI state. We will do something that resembles the metacircular evaluator. ### Deliverable and Demonstration There are two big deliverables for this project. Code for the server , and the clients which not only has code for interacting with Hermes, but also a GUI for interactivity with a user. We plan to demonstrate Hermes by running the server code on a remote machine. We will connect to the server via our PCs running client code. We will ssh into the remote machine to see the server running. Since Hermes is a multichat anyone can join in the demonstration by connecting their computers to the remote machine! ### Evaluation of Results Evaluating Hermes is very simple. Can at least two clients hold a meaningful conversation remotely? If Client A speaks at 11:01 am, and client B does so at 11:01 plus a few seconds, Hermes has to convey this state correctly. Is the GUI intuitive for current irc users? When we can successfully answer this questions satisfactorily we would have met our goals. ## Architecture Diagram #### Preliminary design ![Architecture](https://github.com/oplS17projects/Hermes/blob/master/arch_diagram.png) #### The Game plan ![Diagram](https://github.com/oplS17projects/Hermes/blob/master/architecture_diagram.png) ## Schedule The first step in out project will be to setup a system to get data from one machine to another. What data exactly isn't directly important and the other machine doesn't really need to display it in a pretty manner, it just needs to relay that it has recieved the correct information. Next we need to create a user interface that looks nice. Some way to control the connection and display information in a convient and readable format. After we have finished the user interface and connecting the machines, we will need to merge them together and begin expanding the utility if time permits. ### First Milestone (Sun Apr 9) Get two different machines to relay information meaningfully. ### Second Milestone (Sun Apr 16) Get a GUI that looks professional and uses the correct format. ### Public Presentation (Mon Apr 24, Wed Apr 26, or Fri Apr 28 [your date to be determined later]) Merging the GUI and information relay together into one program. If time permits we also plan on adding additional features. ## Group Responsibilities ### Douglas Richardson @Doug-Richardson Will write the GUI code. This should allow the user to access different aspects of our program in a clean easy to use interface. Most of how the program responds to user input will be filtered through the gui. If time permits I will also be writing code to encrypt and decrypt the information going from the server to the clients. ### Ibrahim Mkusa @iskm Will write the networking code i.e. code that allows communication between clients through server. I will also write scheduling code responsible for queuing fairly and orderly the client messages and broadcasting to the rest of connected clients. If time permits, i will also be responsible for authenticating users via a backend database.