Documentation ¶
Overview ¶
Package publicsuffix provides a domain name parser based on data from the public suffix list http://publicsuffix.org/. A public suffix is one under which Internet users can directly register names.
Index ¶
- Constants
- Variables
- func Domain(name string) (string, error)
- func DomainFromListWithOptions(l *List, name string, options *FindOptions) (string, error)
- func Labels(name string) []string
- func ToASCII(s string) (string, error)
- func ToUnicode(s string) (string, error)
- type DomainName
- type FindOptions
- type List
- func (l *List) AddRule(r *Rule) error
- func (l *List) Find(name string, options *FindOptions) *Rule
- func (l *List) Load(r io.Reader, options *ParserOption) ([]Rule, error)
- func (l *List) LoadFile(path string, options *ParserOption) ([]Rule, error)
- func (l *List) LoadString(src string, options *ParserOption) ([]Rule, error)
- func (l *List) Size() int
- type ParserOption
- type Rule
Constants ¶
const ( // Version identifies the current library version. // This is a pro forma convention given that Go dependencies // tends to be fetched directly from the repo. Version = "0.13.0" // NormalType represents a normal rule such as "com" NormalType = 1 // WildcardType represents a wildcard rule such as "*.com" WildcardType = 2 // ExceptionType represents an exception to a wildard rule ExceptionType = 3 )
Variables ¶
var CookieJarList cookiejar.PublicSuffixList = cookiejarList{DefaultList}
CookieJarList implements the cookiejar.PublicSuffixList interface.
var DefaultFindOptions = &FindOptions{IgnorePrivate: false, DefaultRule: DefaultRule}
DefaultFindOptions are the default options used to perform the lookup of rules in the list.
var DefaultList = NewList()
DefaultList is the default List and it is used by Parse and Domain.
var DefaultParserOptions = &ParserOption{PrivateDomains: true, ASCIIEncoded: false}
DefaultParserOptions are the default options used to parse a Public Suffix list.
var DefaultRule = MustNewRule("*")
DefaultRule is the default Rule that represents "*".
Functions ¶
func Domain ¶
Domain extract and return the domain name from the input using the default (Public Suffix) List.
Examples:
publicsuffix.Domain("example.com") // example.com publicsuffix.Domain("www.example.com") // example.com publicsuffix.Domain("www.example.co.uk") // example.co.uk
func DomainFromListWithOptions ¶
func DomainFromListWithOptions(l *List, name string, options *FindOptions) (string, error)
DomainFromListWithOptions extract and return the domain name from the input using the (Public Suffix) list passed as argument.
Examples:
list := NewList() publicsuffix.DomainFromListWithOptions(list, "example.com") // example.com publicsuffix.DomainFromListWithOptions(list, "www.example.com") // example.com publicsuffix.DomainFromListWithOptions(list, "www.example.co.uk") // example.co.uk
func Labels ¶
Labels decomposes given domain name into labels, corresponding to the dot-separated tokens.
func ToASCII ¶ added in v0.4.0
ToASCII is a wrapper for idna.ToASCII.
This wrapper exists because idna.ToASCII backward-compatibility was broken twice in few months and I can't call this package directly anymore. The wrapper performs some terrible-but-necessary before-after replacements to make sure an already ASCII input always results in the same output even if passed through ToASCII.
See golang/net@67957fd0b1, golang/net@f2499483f9, golang/net@78ebe5c8b6, and weppos/publicsuffix-go#66.
Types ¶
type DomainName ¶
DomainName represents a domain name.
func Parse ¶
func Parse(name string) (*DomainName, error)
Parse decomposes the name into TLD, SLD, TRD using the default (Public Suffix) List, and returns the result as a DomainName
Examples:
list := NewList() publicsuffix.Parse("example.com") // &DomainName{"com", "example"} publicsuffix.Parse("www.example.com") // &DomainName{"com", "example", "www"} publicsuffix.Parse("www.example.co.uk") // &DomainName{"co.uk", "example"}
func ParseFromListWithOptions ¶
func ParseFromListWithOptions(l *List, name string, options *FindOptions) (*DomainName, error)
ParseFromListWithOptions decomposes the name into TLD, SLD, TRD using the (Public Suffix) list passed as argument, and returns the result as a DomainName
Examples:
list := NewList() publicsuffix.ParseFromListWithOptions(list, "example.com") // &DomainName{"com", "example"} publicsuffix.ParseFromListWithOptions(list, "www.example.com") // &DomainName{"com", "example", "www"} publicsuffix.ParseFromListWithOptions(list, "www.example.co.uk") // &DomainName{"co.uk", "example"}
func (*DomainName) String ¶
func (d *DomainName) String() string
String joins the components of the domain name into a single string. Empty labels are skipped.
Examples:
DomainName{"com", "example"}.String() // example.com DomainName{"com", "example", "www"}.String() // www.example.com
type FindOptions ¶
type FindOptions struct { // Set to true to ignore the rules within the "Private" section of the Public Suffix List. IgnorePrivate bool // The default rule to use when no rule matches the input. // The format Public Suffix algorithm states that the rule "*" should be used when no other rule matches, // but some consumers may have different needs. DefaultRule *Rule }
FindOptions are the options you can use to customize the way a Rule is searched within the list.
type List ¶
type List struct {
// contains filtered or unexported fields
}
List represents a Public Suffix List.
func NewListFromFile ¶
func NewListFromFile(path string, options *ParserOption) (*List, error)
NewListFromFile parses a string that represents a Public Suffix source and returns a List initialized with the rules in the source.
func NewListFromString ¶
func NewListFromString(src string, options *ParserOption) (*List, error)
NewListFromString parses a string that represents a Public Suffix source and returns a List initialized with the rules in the source.
func (*List) AddRule ¶
AddRule adds a new rule to the list.
The exact position of the rule into the list is unpredictable. The list may be optimized internally for lookups, therefore the algorithm will decide the best position for the new rule.
func (*List) Find ¶
func (l *List) Find(name string, options *FindOptions) *Rule
Find and returns the most appropriate rule for the domain name.
func (*List) LoadFile ¶
func (l *List) LoadFile(path string, options *ParserOption) ([]Rule, error)
LoadFile parses and loads a set of rules from a File into the current list.
func (*List) LoadString ¶
func (l *List) LoadString(src string, options *ParserOption) ([]Rule, error)
LoadString parses and loads a set of rules from a String into the current list.
type ParserOption ¶
type ParserOption struct { // Set to false to skip the private domains when parsing. // Default to true, which means the private domains are included. PrivateDomains bool // Set to false if the input is encoded in U-labels (Unicode) // as opposite to A-labels. // Default to false, which means the list is containing Unicode domains. // This is the default because the original PSL currently contains Unicode. ASCIIEncoded bool }
ParserOption are the options you can use to customize the way a List is parsed from a file or a string.
type Rule ¶
Rule represents a single rule in a Public Suffix List.
func DefaultRules ¶ added in v0.5.0
func DefaultRules() [8828]Rule
func MustNewRule ¶ added in v0.3.0
MustNewRule is like NewRule, but panics if the content cannot be parsed.
func NewRule ¶
NewRule parses the rule content, creates and returns a Rule.
The content of the rule MUST be encoded in ASCII (A-labels).
func NewRuleUnicode ¶ added in v0.3.0
NewRuleUnicode is like NewRule, but expects the content to be encoded in Unicode (U-labels).
func (*Rule) Decompose ¶
Decompose takes a name as input and decomposes it into a tuple of <TRD+SLD, TLD>, according to the rule definition and type.
func (*Rule) Match ¶
Match checks if the rule matches the name.
A domain name is said to match a rule if and only if all of the following conditions are met:
- When the domain and rule are split into corresponding labels, that the domain contains as many or more labels than the rule.
- Beginning with the right-most labels of both the domain and the rule, and continuing for all labels in the rule, one finds that for every pair, either they are identical, or that the label from the rule is "*".