Domains define zero or more mechanisms. Mechanisms can be used to describe the set of hosts which are designated outbound mailers for the domain.
Domains may also define modifiers. Each modifier can appear only once.
Mechanisms can be prefixed with one of four qualifiers:
If a mechanism results in a hit, its qualifier value is used. The default qualifier is "+", i.e. "Pass". For example:
Mechanisms are evaluated in order. If no mechanism or modifier matches, the default result is "Neutral".
If a domain has no SPF record at all, the result is "None". If a domain has a temporary error during DNS processing, you get the result "TempError" (called "error" in earlier drafts). If some kind of syntax or evaluation error occurs (eg. the domain specifies an unrecognized mechanism) the result is "PermError" (formerly "unknown").
Evaluation of an SPF record can return any of these results:
Result | Explanation | Intended action |
---|---|---|
Pass | The SPF record designates the host to be allowed to send | accept |
Fail | The SPF record has designated the host as NOT being allowed to send | reject |
SoftFail | The SPF record has designated the host as NOT being allowed to send but is in transition | accept but mark |
Neutral | The SPF record specifies explicitly that nothing can be said about validity | accept |
None | The domain does not have an SPF record or the SPF record does not evaluate to a result | accept |
PermError | A permanent error has occured (eg. badly formatted SPF record) | unspecified |
TempError | A transient error has occured | accept or reject |
all
This mechanism always matches. It usually goes at the end of the SPF record.
Examples:
"v=spf1 mx -all"
"v=spf1 -all"
"v=spf1 +all"
ip4:<ip4-address>
ip4:<ip4-network>/<prefix-length>
The argument to the "ip4:" mechanism is an IPv4 network range. If no prefix-length is given, /32 is assumed (singling out an individual host address).
Examples:
"v=spf1 ip4:192.168.0.1/16 -all"
ip6:<ip6-address>
ip6:<ip6-network>/<prefix-length>
The argument to the "ip6:" mechanism is an IPv6 network range. If no prefix-length is given, /128 is assumed (singling out an individual host address).
Examples:
"v=spf1 ip6:1080::8:800:200C:417A/96 -all"
"v=spf1 ip6:1080::8:800:68.0.3.1/96 -all"
a
a/<prefix-length>
a:<domain>
a:<domain>/<prefix-length>
All the A records for domain are tested. If the client IP is found among them, this mechanism matches. If the connection is made over IPv6, then an AAAA lookup is performed instead.
If domain is not specified, the current-domain is used.
The A records have to match the client IP exactly, unless a prefix-length is provided, in which case each IP address returned by the A lookup will be expanded to its corresponding CIDR prefix, and the client IP will be sought within that subnet.
Examples:
"v=spf1 a -all"
"v=spf1 a:example.com -all"
"v=spf1 a:mailers.example.com -all"
"v=spf1 a/24 a:offsite.example.com/24 -all"
mx
mx/<prefix-length>
mx:<domain>
mx:<domain>/<prefix-length>
All the A records for all the MX records for domain are tested in order of MX priority. If the client IP is found among them, this mechanism matches.
If domain is not specified, the current-domain is used.
The A records have to match the client IP exactly, unless a prefix-length is provided, in which case each IP address returned by the A lookup will be expanded to its corresponding CIDR prefix, and the client IP will be sought within that subnet.
Examples:
"v=spf1 mx mx:deferrals.domain.com -all"
"v=spf1 mx/24 mx:offsite.domain.com/24 -all"
ptr
ptr:<domain>
The hostname or hostnames for the client IP are looked up using PTR queries. The hostnames are then validated: at least one of the A records for a PTR hostname must match the original client IP. Invalid hostnames are discarded. If a valid hostname ends in domain, this mechanism matches.
If domain is not specified, the current-domain is used.
If at all possible, you should avoid using this mechanism in your SPF record, because it will result in a larger number of expensive DNS lookups.
Examples:
"v=spf1 ptr -all"
"v=spf1 ptr:otherdomain.com -all"
exists:<domain>
Perform an A query on the provided domain. If a result is found, this constitutes a match. It doesn't matter what the lookup result is – it could be 127.0.0.2.
When you use macros with this mechanism, you can perform RBL-style reversed-IP lookups, or set up per-user exceptions.
Examples:
In the following example, the client IP is 1.2.3.4 and the current-domain is example.com.
"v=spf1 exists:example.com -all"
include:<domain>
The specified domain is searched for a match. If the lookup does not return a match or an error, processing proceeds to the next directive. Warning: If the domain does not have a valid SPF record, the result is a permanent error. Some mail receivers will reject based on a PermError.
Examples:
In the following example, the client IP is 1.2.3.4 and the current-domain is example.com.
"v=spf1 include:example.com -all"
Trust relationships — The "include:" mechanism is meant to cross administrative boundaries. Great care is needed to ensure that "include:" mechanisms do not place domains at risk for giving SPF Pass results to messages that result from cross user forgery. Unless technical mechanisms are in place at the specified otherdomain to prevent cross user forgery, "include:" mechanisms should give a Neutral rather than Pass result. This is done by adding "?" in front of "include:". The example above would be:
"v=spf1 ?include:example.com -all"
Modifiers are optional. A modifier may appear only once per record. Unknown modifiers are ignored.
redirect=<domain>
The SPF record for domain replace the current record. The macro-expanded domain is also substituted for the current-domain in those look-ups.
Examples:
In the following example, the client IP is 1.2.3.4 and the current-domain is example.com.
"v=spf1 redirect=example.com"
exp=<domain>
If an SMTP receiver rejects a message, it can include an explanation. An SPF publisher can specify the explanation string that senders see. This way, an ISP can direct nonconforming users to a web page that provides further instructions about how to configure SASL.
The domain is expanded; a TXT lookup is performed. The result of the TXT query is then macro-expanded and shown to the sender. Other macros can be used to provide an customized explanation.