OK Accept the mail message. RELAY Accept messages from this host or user even if they are not destined for our host; that is, accept messages for relaying to other hosts from this host. REJECT Reject the mail with a generic message. DISCARD Discard the message using the $#discard mailer. ### any text Return an error message using ### as the error code (which should be RFC-821 compliant) and any text as the message. An example /etc/mail/access might look like: friends@cybermail.com REJECT aol.com REJECT 207.46.131.30 REJECT postmaster@aol.com OK linux.org.au RELAY This example would reject any email received from friends@cybermail.com, any host in the domain aol.com and the host 207.46.131.30. The next rule would accept email from postmaster@aol.com despite the fact that the domain itself has a reject rule. The last rule allows relaying of mail from any host in the linux.org.au domain. To enable the access database feature, use the following declaration in your sendmail.mc file: FEATURE(access_db) The default definition builds the database using hash -o /etc/mail/access, which generates a simple hashed database from the plain text file. This is perfectly adequate in most installations. There are other options that you should consider if you intend to have a large access database. Consult the sendmail book or other sendmail documentation for details. Barring users from receiving mail If you have users or automated processes that send mail but will never need to receive it, it is sometimes useful to refuse to accept mail destined for them. This saves wasted disk-space storing mail that will never be read. The blacklist_recipients feature, when used in combination with the access_db feature, allows you to disable the receipt of mail for local users. To enable the feature, you add the following lines to your sendmail.mc file, if they’re not already there: FEATURE(access_db) FEATURE(blacklist_recipients) To disable receipt of mail for a local user, simply add his details into the access database. Usually you would use the ### entry style that would return a meaningful error message to the sender so they know why the mail is not
Note: If you are looking for good and high quality web space to host and run your application check Lunarwebhost PHP Web Hosting services
mailing to collections of e-mail addresses, Usenet news, or mailing lists. Such practises have caused outrage and aggressive reaction by many net users against the individuals concerned. Fortunately, sendmail includes some support for mechanisms that can help you deal with unsolicited mail. The Real-time Blackhole List The Real-time Blackhole List is a public facility provided to help reduce the volume of unsolicited advertising you have to contend with. Known email sources and hosts are listed in a queryable database on the Internet. They’re entered there by people who have received unsolicited advertising from some email address. Major domains sometimes find themselves on the list because of slip-ups in shutting down spam. While some people complain about particular choices made by the maintainers of the list, it remains very popular and disagreements are usually worked out quickly. Full details on how the service is operated may be found from the home site of the Mail Abuse Protection System at http://maps.vix.com/rbl/. If you enable this sendmail feature, it will test the source address of each incoming mail message against the Real-time Blackhole List to determine whether to accept the message. If you run a large site with many users, this feature could save a considerable volume of disk space. This feature accepts a parameter to specify the name of the server to use. The default is the main server at rbl.maps.vix.com. To configure the Real-time Blackhole List feature, add the following macro declaration to your sendmail.mc file: FEATURE(rbl) Should you wish to specify some other RBL server, you would use a declaration that looks like: FEATURE(rbl,`rbl.host.net’) The access database An alternative system that offers greater flexibility and control at the cost of manual configuration is the sendmail access_db feature. The access database allows you to configure which hosts or users you will accept mail from and which you will relay mail for. Managing who you will relay mail for is important, as it is another technique commonly employed by spamming hosts to circumvent systems such as the Real-time Blackhole List just described. Instead of sending the mail to you directly, spammers will relay the mail via some other unsuspecting host who allows it. The incoming SMTP connection then doesn’t come from the known spamming host, it instead comes from the relay host. To ensure that your own mail hosts aren’t used in this way, you should relay mail only for known hosts. Versions of sendmail that are 8.9.0 or newer have relaying disabled by default, so for those you’ll need to use the access database to enable individual hosts to relay. The general idea is simple. When a new incoming SMTP connection is received, sendmail retrieves the message header information and then consults the access database to see whether it should proceed to accept the body of the message itself. The access database is a collection of rules that describe what action should be taken for messages received from nominated hosts. The default access control file is called /etc/mail/access. The table has a simple format. Each line of the table contains an access rule. The lefthand side of each rule is a pattern used to match the sender of an incoming mail message. It may be a complete email address, a hostname, or an IP address. The righthand side is the action to take. There are five types of action you may configure. These are:
Note: If you are looking for good and high quality web space to host and run your application check Lunarwebhost Cheap Web Hosting services
firewall is able to establish direct network connections with hosts both on the private network and on the Internet. The smart host would accept mail from both hosts on the private network and the Internet, store them in local storage and then manage the retransmission of that mail to the correct host directly. Smart hosts are usually used when all other methods of delivery have failed. In the case of the organization with the private network, it would be perfectly reasonable to have the hosts attempt to deliver mail directly first, and if that fails then to send it to the smart host. This relieves the smart host of a lot of traffic because other hosts can directly send mail to other hosts on the private network. sendmail provides a simple method of configuring a smart host using the SMART_HOST feature; when implementing it in the Virtual Brewery configuration, we do exactly this. The relevant portions of our configuration that define the smart host are: define(`SMART_HOST’, `uucp-new:moria’) LOCAL_NET_CONFIG # This rule ensures that all local mail is delivered using the # smtp transport, everything else will go via the smart host. R$* < @ $* .$m. > $* $#smtp $@ $2.$m. $: $1 < @ $2.$m. > $3 The SMART_HOST macro allows you to specify the host that should relay all outgoing mail that you are unable to deliver directly, and the mail transport protocol to use to talk to it. In our configuration we are using the uucp-new transport to UUCP host moria. If we wanted to configure sendmail to use an SMTP-based Smart Host, we would instead use something like: define(`SMART_HOST’, `mail.isp.net’) We don’t need to specify SMTP as the transport, as it is the default. Can you guess what the LOCAL_NET_CONFIG macro and the rewrite rule might be doing? The LOCAL_NET_CONFIG macro allows you to add raw sendmail rewrite rules to your configuration that define what mail should stay within the local mail system. In our example, we’ve used a rule that matches any email address where the host belongs to our domain (.$m.) and rewrite it so that it is sent directly to the SMTP mailer. This ensures that any message for a host on our local domain is directed immediately to the SMTP mailer and forwarded to that host, rather than falling through to our smart host, which is the default treatment. Managing Unwanted or Unsolicited Mail (Spam) If you’ve subscribed to a mailing list, published your email address on a web site, or posted an article to UseNet, you will most likely have begun to receive unsolicited advertising email. It is commonplace now for people to scour the net in search of email addresses to add to mailing lists that they then sell to companies seeking to advertise their products. This sort of mass-mailing behavior is commonly called spamming. The Free On-line Dictionary of Computing offers a mail-specific definition of spam as:[1] 2. (A narrowing of sense 1, above) To indiscrimately send large amounts of unsolicited e-mail meant to promote a product or service. Spam in this sense is sort of like the electronic equivalent of junk mail sent to “Occupant.” In the 1990s, with the rise in commercial awareness of the net, there are actually scumbags who offer spamming as a “service” to companies wishing to advertise on the net. They do this by
Note: If you are looking for good and high quality web space to host and run your application check Lunarwebhost Linux Web Hosting services
Details concerning mail aliases may be found in the aliases(5) manual page. A sample aliases file is shown in Example 18-4. Example 18-4. Sample aliases File # # The following two aliases must be present to be RFC-compliant. # It is important to resolve them to ‘a person’ who reads mail routinely. # postmaster: root # required entry MAILER-DAEMON: postmaster # required entry # # # demonstrate the common types of aliases # usenet: janet # alias for a person admin: joe,janet # alias for several people newspak-users: :include:/usr/lib/lists/newspak # read recipients from file changefeed: |/usr/local/lib/gup # alias that invokes program complaints: /var/log/complaints # alias writes mail to file # Whenever you update the /etc/aliases file, be sure to run the command: # /usr/bin/newaliases to rebuild the database that sendmail uses internally. The /usr/bin/newaliases command is a symbolic link to the sendmail executable, and when invoked this way, behaves exactly as though it were invoked as: # /usr/lib/sendmail -bi The newaliases command is an alternative and more convenient way to do this. Using a Smart Host Sometimes a host finds mail that it is unable to deliver directly to the desired remote host. It is often convenient to have a single host on a network take on the role of managing transmission of mail to remote hosts that are difficult to reach, rather than have each local host try to do this independently. There are a few good reasons to have a single host take on mail management. You can simplify management by having only one host with a comprehensive mail configuration that knows how to handle all of the different mail transport types, such as UUCP, Usenet, etc. All other hosts need only a single tranport protocol to send their mail to this central host. Hosts that fill this central mail routing and forwarding role are called smart hosts. If you have a smart host that will accept mail from you, you can send it mail of any sort and it will manage the routing and transmission of that mail to the desired remote destinations. Another good application for smart host configurations is to manage transmission of mail across a private firewall. An organization may elect to install a private IP network and use their own, unregistered IP addresses. The private network may be connected to the Internet through a firewall. Sending mail to and from hosts in the private network to the outside world using SMTP would not be possible in a conventional configuration because the hosts are not able to accept or establish direct network connections to hosts on the Internet. Instead, the organization could elect to have the firewall provide a mail smart host function. The smart host running on the
Note: If you are looking for good and high quality web space to host and run your application check Lunarwebhost PHP Web Hosting services