A news server is a collection of software used to handle Usenet articles.[1] It may also refer to a computer itself which is primarily or solely used for handling Usenet. Access to Usenet is only available through news server providers.
End users often use the term "posting" to refer to a single message or file posted to Usenet. For articles containing plain text, this is synonymous with an article. For binary content such as pictures and files, it is often necessary to split the content among multiple articles. Typically through the use of numbered Subject: headers, the multiple-article postings are automatically reassembled into a single unit by the newsreader. Most servers do not distinguish between single and multiple-part postings, dealing only at the level of the individual component articles.[2]
Each news article contains a complete set of header lines, but in common use the term "headers" is also used when referring to the News Overview database. The overview is a list of the most frequently used headers, and additional information such as article sizes, typically retrieved by the client software using the NNTP command. Overviews make reading a newsgroup faster for both the client and server by eliminating the need to open each individual article to present them in list form.
If non-overview headers are required, such as for when using a kill file, it may still be necessary to use the slower method of reading all the complete article headers. Many clients are unable to do this, and limit filtering to what is available in the summaries.
Among the operators and users of commercial news servers, common concerns are the continually increasing storage and network capacity requirements and their effects. Completion (the ability of a server to successfully receive all traffic), retention (the amount of time articles are made available to readers) and overall system performance. With the increasing demands, it is common for the transit and reader server roles to be subdivided further into numbering, storage and front end systems. These server farms are continually monitored by both insiders and outsiders, and measurements of these characteristics are often used by consumers when choosing a commercial news service.
Speed, in relation to Usenet, is how quickly a server can deliver an article to the user. The server that the user connects to is typically part of a server farm that has many servers dedicated to multiple tasks. How fast the data can move throughout this farm is the first thing that affects the speed of delivery.
The speed of data traveling throughout the farm can be severely bottlenecked through hard drive operations. Retrieving the article and overview information can cause massive stress on hard drives. To combat this, caching technology and cylindrical file storage systems have been developed.
Once the farm is able to deliver the data to the network, then the provider has limited control over the speed to the user. Since the network path to each user is different, some users will have good routes and the data will flow quickly. Other users will have overloaded routers between them and the provider which will cause delays. About all a provider can do in that case is try moving the traffic through a different route. If the ISP has limited connectivity to the network, routing changes may have little effect.
Frequently a user can reduce the impact of network problems by using multiple connections. Some servers allow as many as 60 simultaneous connections, but this varies widely based on the provider.[3]
Article sizes are limited to what each news server will accept. The larger the article size, the more space it occupies, and thus the fewer articles on each server. This generally means that a server can run with less overhead which makes for a more efficient server, but gives less articles for users to access.
Retention is simply defined as how long the server keeps articles.[4] Historically, most users want retention to be long enough so that they don't need to access the server every day but not overly long retention that can overwhelm users with slow computers or network connections. In the modern era, high speed connections, large storage capacity, and advanced search tools allows users to utilize extensive retention without any drawbacks.
Retention is generally quoted separately for text and binary articles, though it may also vary between different groups within these categories. The times vary greatly according to the amount of storage available on the servers and continually increasing traffic. As of 2009, it is common for average news providers to have text retention of over 1000 days and binary retention of over 200 days. Large news providers offer text retention up to 2480 days and binary retention of 850 days or more. It's important to understand that retention time varies between different newsgroups within the text and binary categories. Omicron's HW Media is currently the Usenet server with the highest amount of binary retention, while Google is the Usenet server with the highest amount of text retention.
It can be difficult for end users to accurately measure the retention of a server. One common method is to examine the oldest articles in a group and examine the date, but this is not always accurate. Some articles in a group may be retained for longer than others, articles from remote servers do not always arrive promptly, and at times the date headers are simply incorrect. A sampling of many or all articles, preferably in more than one newsgroup, is required to detect such anomalies.
News servers do not have unlimited storage, and due to this fact they can only hold posts for a length of time before they must delete them in order to make room for new posts. This is a particular problem to binary newsgroups which transmit large volumes of articles.
For news servers provided by Internet Service Providers as part of a user's subscription package, typical retention rates are usually only 2–4 days. To deal with the increase of Usenet traffic, many providers turn to a hybrid system, in which old articles not found on the provider's server will request the article from another server with longer retention.
Given the large number of articles transferred between servers and the large size of individual articles, their complete propagation to any one server farm is not guaranteed. The term "completion" is used to describe how well a service is keeping up with the traffic.
The primary obstacle to calculating the completion percentage is how many articles were posted. Looking at only one server, one cannot know how many articles were actually inserted throughout the network. Articles may never make their way outside the originating server, or may fail to find their way out to the transit cloud. Very large articles are frequently dropped, and tend to propagate less well than smaller ones.
One way to measure completion is to access multiple servers and retrieve lists of articles. Because Message-ID: headers are nominally unique throughout the network, comparison of the lists is mostly a straightforward task. Practical limitations to this type of measurement include the impossibility of obtaining lists from all servers worldwide, the fact that many servers filter out spam or employ Usenet Death Penalties, and that some servers mask incompletion by hiding multipart binary sets with missing articles. It is also necessary to take into account propagation times and retention; an article may simply have not yet arrived at a given server, or it may have been present but already expired.
All Usenet servers peer with one or more other servers in order to exchange articles. Occasionally, new servers appear. Although there are several web resources which may aid in finding peers, a better resource is the newsgroup news.admin.peering (Google Groups portal).
As of 2020, text feeds can usually be attained for free, while full binary feeds can be free or paid (depending on how many articles each server sends to the other). Due to the large amount of data in a full binary+text Usenet feed (can be high as 30 terabytes a day) and the high costs of transmitting that data through an IP transit provider like Cogent, Telia, or Zayo, most Usenet providers will only engage in binary peering when they are interconnected at an Internet exchange like AMS-IX, SIX, or DeCIX.
When the server stores the body of an article, it places it in a disk storage area generically called a "spool". There are several common ways in which the spool may be organized:
A reader server provides an interface to read and post articles, generally with the assistance of a news client. A transit server exchanges articles with other servers. Most servers can provide both functions.
Modern transit servers usually use NNTP to exchange news continually over the Internet and similar always-on connections. In the past, servers normally employed the UUCP protocol, which was designed for intermittent dial-up connections. Other ad hoc protocols, including e-mail, are less commonly seen. News servers normally connect with multiple peers, with the redundancy helping to spread loads and ensure that articles are not lost. Smaller sites, called leaf nodes, are connected to one other major server.
Articles are routed based on information found in the header lines defined in RFC 1036. Of particular interest to a transit server are:
In most cases, the sending server controls the article transfer process. It compares the Newsgroups and Distribution of each newly arrived article against a set of patterns called newsfeeds, listing each remote server and the newsgroups its operator wishes to receive. Some senders also examine the Path; if the receiving server appears in this line, it is not offered. Other local rules may also be added. The sender transmits matching articles' Message-IDs to the receiving server. The receiver indicates which Message-IDs it has not yet stored locally, and those articles are sent.
The receiving server examines the incoming articles. A message is normally discarded if the Message-ID is duplicated by an article already received (i.e., another server sent it in the meantime), the Date or Expires lines indicate that the article is too old, the header syntax appears to be invalid, the Approved header is missing for a moderated newsgroup, or additional local rules disallow it. Most servers also maintain a list of active newsgroups. If the Newsgroups header of a new article does not match the active list, it may be discarded or placed in a special "junk" newsgroup. Once the article is stored, the server attempts to retransmit it to any servers in its own newsfeed list.
Articles with Control lines are given special handling. They are typically filed in special "control" newsgroups and may cause the server to automatically carry out exceptional actions. The newgroup
and rmgroup
commands can cause newsgroups to be created or removed; checkgroups
can be used to reconcile the local active list with a commonly accepted set; and cancel
commands are used to request the deletion of a specific article. ihave
and sendme
are sometimes used with UUCP to transmit lists of offered and wanted Message-IDs. Other commands (version
, sendsys
, and uuname
) are requests for server configuration details. Once used to create network maps, they now are generally obsolete.
A reader server is one that makes the articles available in the hierarchical disk directory format originated by B News 2.10, or offers the NNTP or IMAP commands, for use by newsreaders. A reader server typically also works as a transit server, but it may operate independently or serve as an alternative interface to an Internet forum. When receiving news, this type of server must perform the additional steps of filing articles into newsgroups and assigning sequential numbers within each group. An Xref line is usually added, listing all the groups where the message appears and the sequence numbers. Unlike Message IDs, the numbers and ordering of articles will differ on each server; but related servers may force agreement by operating in a slave mode, re-using their siblings' Xref lines. Reader servers typically also maintain a News Overview (NOV) database that allows newsreaders to quickly obtain message summaries and present messages in threaded form.
Most reader servers support posting, either through NNTP or a special inews program. When an article is posted, the process is much the same as when a transit server receives news, but with additional checks. For posting, the server will normally fill in missing Path and Message-ID lines and check the syntax of headers intended for human readers, such as From and Subject. If the article is posted to a moderated group, the server will attempt to mail it to the newsgroup moderator if the Approved header is absent. Additional identity checks and filters are also typically applied at this point.
Smaller sites with limited network bandwidth may operate "sucking" or cache servers. These perform the same reader server role as conventional news servers, but themselves act as newsreaders to exchange articles with other reader servers. Hybrid servers allow greater flexibility for the server operator in that received groups can be adjusted without manual intervention by operators. They may also be the only available means to obtain articles from remote servers that do not offer conventional feeding.
Because hybrid servers usually use the posting function to send news, article headers are reformatted by the posting function and tracing information can be lost. Also, the delayed sucking process can result in excess activity on the remote reader servers. For these reasons, the use of hybrid servers is often discouraged or disallowed without prior agreement.