The Direct Connect protocol is a text-based computer protocol, in which commands and their information are sent in clear text, without
encryption in original NeoModus software (
encryption is available as a protocol extension). Clients connect to a central server acting as a "hub". This hub provides content discovery and allows clients to negotiate direct connections with each other for transferring content. Since this central hub only deals with metadata, it does not have anywhere near the same bandwidth requirements as if it also had been serving the content itself; an estimate shows that handling 1000 users would require about 2.5 mbit/s of bandwidth. There is no official specification of the protocol, meaning that every client and hub (besides the original NeoModus client and hub) has been forced to
reverse engineer the information. As such, any protocol specification this article may reference is likely inaccurate and/or incomplete. The client-server (as well as client-client, where one client acts as "server") aspect of the protocol stipulates that the server respond first when a connection is being made. For example, when a client connects to a hub's
socket, the hub is first to respond to the client. The protocol lacks a specified default
character encoding for clients or hubs. The original client and hub use
ASCII encoding instead of that of the
Operating system. This allows migration to
UTF-8 encoding in newer software. Port 411 is the default port for hubs, and 412 for client-to-client connections. If either of these ports is already in use, the port number is incremented until the number of a free port is found for use. For example, if 411, 412 and 413 are in use, then port 414 will be used. Hub addresses are in the following form: dchub://example.com[:411], where 411 is an optional port. There is no global identification scheme; instead, users are identified with their nickname on a hub-to-hub basis. An incoming request for a client-client connection cannot be linked with an actual connection. A search result cannot be linked with a particular search. The ability to kick or move (redirect) a user to another hub is supported by the protocol. If a user is kicked, the hub is not required to give that user a specific reason, and there is no restriction on where a user can be redirected to. However, if another client in power instructs the hub to kick, that client may send out a notification message before doing so. Redirecting a user must be accompanied by a reason. There is no
HTTP referer equivalent. Hubs may send out user commands to clients. These commands are only raw protocol commands and are used mostly for making a particular task simpler. For example, the hub cannot send a user command that will trigger the default browser to visit a website. It can, however, add the command "+rules" (where '+' indicates to the hub that it's a command - this may vary) to display the hub's rules. The peer-to-peer part of the protocol is based on a concept of "slots" (similar to number of open positions for a job). These slots denote the number of people that are allowed to download from a user at any given time and are controlled by the client. In client-to-client connections, the parties generate a random number to see who should be allowed to download first, and the client with the greater number wins. Transporting downloads and connecting to the hub requires
TCP, while active searches use
UDP. There are two kinds of modes a user can be in: either "active" or "passive" mode. Clients using active mode can download from anyone else on the network, while clients using passive mode users can only download from active users. In NeoModus Direct Connect, passive mode users receive other passive mode users' search results, but the user will not be able to download anything. In
DC++, users will not receive those search results. In NeoModus Direct Connect, all users will be sent at most five search results per query. If a user has searched, DC++ will respond with ten search results when the user is in active mode and five when the user is in passive mode. Passive clients will be sent search results through the hub, while active clients will receive the results directly. Protocol
delimiters are "$", "|", and Whitespace character|. Protocol have for them (and few others)
escape sequence and most software use them correctly in login (Lock to Key) sequence. For some reason that
escape sequence was ignored by DC++ developers and they use
HTML equivalent if these characters are to be viewed by the user. Continued interest exists in features such as ratings and language packs. The authors of DC++ also proposed a complete replacement of the Direct Connect protocol called ADC, or unofficially, Advanced Direct Connect. ADC uses the same
network topology, concepts, and terminology as the original protocol. One example of an added feature to the protocol, in comparison with the original protocol, is the broadcasting of
Tiger-Tree Hashing of shared files (TTH). The advantages of this include verifying that a file is downloaded correctly, and the ability to find files independently of their names. == Direct Connect used for DDoS attacks ==