Splitting IDENTIFY to support multiple share profiles in ADC

ADC insufficiently precisely orders the IDENTIFY and NORMAL states such that ADC clients can properly support multiple share profiles. Several client software-independent observations imply this protocol deficiency:

  • ADC clients define download queue sources by CID, such that if sharing client presents multiple shares it must be through different CIDs, barring backwards-incompatible and queue-crippling requirements to only connect to a source via the hub through which it was queued.
  • A multiply-sharing ADC client in the server role must know the CTM token associated with a client-client connection to determine unambiguously which shares to present and therefore which CID to present to the non-server client.
  • ADC’s SUP specification, as illustrated by the example client-client connection, states that when “the server receives this message in a client-client connection in the PROTOCOL state, it should reply in kind, send an INF about itself, and move to the IDENTIFY state”; this implies the server client sending its CINF before the non-server client sends the CTM token in the TO field with its CINF.
  • Either the server or non-server client may be the downloader and vice versa. As such, by the time both the server and non-server clients in a client-client connection sends their CINF commands, they must know, since either may be a multiply-sharing client about to upload files, which CTM token with which to associate the connection.
  • The non-server client can unambiguously track which client-client connections it should associate with each CTM token by locally associating that token with each outbound client-client connection it creates, an association a server-client listening for inbound connections by cannot reliably create until the non-server client sends it a CINF with a token field.

Together, these ADC properties show that a server client which uploads using multiple share profiles must know which CID to send, but must do so before it has enough information to determine via the CTM token the correct share profile and thus the correct CID. Such a putatively multiply-sharing ADC client cannot, therefore, remain consistent with all of the listed constraints.

Most constraints prove impractical or undesirable to change, but by clarifying the SUP specification and IDENTIFY states, one can fix this ADC oversight while remaining compatible with DC++ and ncdc, with jucy apparently requiring adjustment. In particular, I propose to:

  1. Modify SUP and INF to require rather that the non-server client, rather than the server client, send the first INF; and
  2. in order to do so, split the IDENTIFY state into SERVER-IDENTIFY and CLIENT-IDENTIFY, whereby
  3. the next state after SUP in a client-client connection is CLIENT-IDENTIFY, which transitions to SERVER-IDENTIFY, which finally transitions as now to NORMAL

This effectively splits the IDENTIFY state into CLIENT-IDENTIFY and SERVER-IDENTIFY to ensure that they send their CINF commands in an order consistent with the requirement that both clients know the CTM token when they send their CINF command, finally allowing ADC to reliably support multiple share profiles.

Such a change appears compatible with both DC++ and ncdc, because both simply respond to CSUP with CINF immediately, regardless of what its partner in a client-client connection does. The only change required in DC++ and ncdc is for the server client to wait for the non-server client to send its CINF before sending a reply CINF rather than replying immediately to the non-server client’s CSUP.

jucy would need adjustment because it currently, by only triggering a non-server client’s CINF, containing the CTM token, in response to the server client’s pre-token CINF. A server client which waits for a jucy-based non-server client to send the first CINF will wait indefinitely.

Thus, by simply requiring that the non-server client in a client-client connection sends its CINF first, in a manner already compatible with DC++-based clients and ncdc and almost compatible with jucy, ADC-based can finally provide reliable multiple share profiles.

Leave a Reply

Please log in using one of these methods to post your comment:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s

%d bloggers like this: