An RFC 5322 email address parser.
v 5.0.0
Want to see if something could be an email address? Want to grab the display name or just the address out of a string? Put your regexes down and use this parser!
This library does not validate email addresses - we can't really do that without sending an email. However, it attempts to parse addresses using the (fairly liberal) grammar specified in RFC 5322. You can use this to check if user input looks like an email address.
Note carefully though - this parser supports all features of RFC 5322, which means that "Bob Example" <bob@example.com>
is a valid email address. If you just want to validate the bob@example.com
part, that is RFC 5321, for which you want to use something like node-address-rfc2821.
Use this library because you can be sure it really respects the RFC:
- The functions in the recursive decent parser match up with the productions in the RFC
- The productions from the RFC are written above each function for easy verification
- Tests include all of the test cases from the is_email project, which are extensive
npm install email-addresses
$ node
> addrs = require("email-addresses")
{ [Function: parse5322]
parseOneAddress: [Function: parseOneAddressSimple],
parseAddressList: [Function: parseAddressListSimple] }
> addrs.parseOneAddress('"Jack Bowman" <jack@fogcreek.com>')
{ parts:
{ name: [Object],
address: [Object],
local: [Object],
domain: [Object] },
name: 'Jack Bowman',
address: 'jack@fogcreek.com',
local: 'jack',
domain: 'fogcreek.com' }
> addrs.parseAddressList('jack@fogcreek.com, Bob <bob@example.com>')
[ { parts:
{ name: null,
address: [Object],
local: [Object],
domain: [Object] },
name: null,
address: 'jack@fogcreek.com',
local: 'jack',
domain: 'fogcreek.com' },
{ parts:
{ name: [Object],
address: [Object],
local: [Object],
domain: [Object] },
name: 'Bob',
address: 'bob@example.com',
local: 'bob',
domain: 'example.com' } ]
> addrs("jack@fogcreek.com")
{ ast:
{ name: 'address-list',
tokens: 'jack@fogcreek.com',
semantic: 'jack@fogcreek.com',
children: [ [Object] ] },
addresses:
[ { node: [Object],
parts: [Object],
name: null,
address: 'jack@fogcreek.com',
local: 'jack',
domain: 'fogcreek.com' } ] }
> addrs("bogus")
null
Call the module directly as a function to get access to the AST. Returns null for a failed parse (an invalid address).
Options:
string
- An email address to parse. Parses asaddress-list
, a list of email addresses separated by commas.object
with the following keys:input
- An email address to parse. Required.rfc6532
- Enable rfc6532 support (unicode in email addresses). Default:false
.partial
- Allow a failed parse to return the AST it managed to produce so far. Default:false
.simple
- Return just the address or addresses parsed. Default:false
.strict
- Turn off features of RFC 5322 marked "Obsolete". Default:false
.rejectTLD
- Require at least one.
in domain names. Default:false
.startAt
- Start the parser at one ofaddress
,address-list
,angle-addr
,from
,group
,mailbox
,mailbox-list
,reply-to
,sender
. Default:address-list
.atInDisplayName
- Allow the@
character in the display name of the email address. Default:false
.commaInDisplayName
- Allow the,
character in the display name of the email address. Default:false
.addressListSeparator
- Specifies the character separating the list of email addresses. Default:,
.
Returns an object with the following properties:
ast
- the full AST of the parse.addresses
- array of addresses found. Each has the following properties:parts
- components of the AST that make up the address.type
- The type of the node, e.g.mailbox
,address
,group
.name
- The extracted name from the email. e.g. parsing"Bob" <bob@example.com>
will giveBob
for thename
.address
- The full email address. e.g. parsing the above will givebob@example.com
for theaddress
.local
- The local part. e.g. parsing the above will givebob
forlocal
.domain
- The domain part. e.g. parsing the above will giveexample.com
fordomain
.
Note if simple
is set, the return will be an array of addresses rather than the object above.
Note that addresses can contain a group
address, which in contrast to the address
objects
will simply contain two properties: a name
and addresses
which is an array of the addresses in
the group. You can identify groups because they will have a type
of group
. A group looks
something like this: Managing Partners:ben@example.com,carol@example.com;
Parse a single email address.
Operates similarly to addrs(opts)
, with the exception that rfc6532
and simple
default to true
.
Returns a single address object as described above. If you set simple: false
the returned object
includes a node
object that contains the AST for the address.
Parse a list of email addresses separated by comma.
Operates similarly to addrs(opts)
, with the exception that rfc6532
and simple
default to true
.
Returns a list of address objects as described above. If you set simple: false
each address will
include a node
object that contains the AST for the address.
Parse an email header "From:" address (specified as mailbox-list or address-list).
Operates similarly to addrs(opts)
, with the exception that rfc6532
and simple
default to true
.
Returns a list of address objects as described above. If you set simple: false
each address will
include a node
object that contains the AST for the address.
Parse an email header "Sender:" address (specified as mailbox or address).
Operates similarly to addrs(opts)
, with the exception that rfc6532
and simple
default to true
.
Returns a single address object as described above. If you set simple: false
the returned object
includes a node
object that contains the AST for the address.
Parse an email header "Reply-To:" address (specified as address-list).
Operates identically to addrs.parseAddressList(opts)
.
If you want to simply check whether an address or address list parses, you'll want to call the following functions and check whether the results are null or not: parseOneAddress
for a single address and parseAddressList
for multiple addresses.
If you want to examine the parsed address, for example to extract a name or address, you have some options. The object returned by parseOneAddress
has four helper values on it: name
, address
, local
, and domain
. See the example above to understand is actually returned. (These are equivalent to parts.name.semantic
, parts.address.semantic
, etc.) These values try to be smart about collapsing whitespace, quotations, and excluding RFC 5322 comments. If you desire, you can also obtain the raw parsed tokens or semantic tokens for those fields. The parts
value is an object referencing nodes in the AST generated. Nodes in the AST have two values of interest here, tokens
and semantic
.
> a = addrs.parseOneAddress('Jack Bowman <jack@fogcreek.com >')
> a.parts.name.tokens
'Jack Bowman '
> a.name
'Jack Bowman'
> a.parts.name.semantic
'Jack Bowman '
> a.parts.address.tokens
'jack@fogcreek.com '
> a.address
'jack@fogcreek.com'
> a.parts.address.semantic
'jack@fogcreek.com'
If you need to, you can inspect the AST directly. The entire AST is returned when calling the module's function.
- http://tools.ietf.org/html/rfc5322
- https://tools.ietf.org/html/rfc6532
- https://tools.ietf.org/html/rfc6854
- http://code.google.com/p/isemail/
Many thanks to Dominic Sayers and his documentation and tests for is_email which helped greatly in writing this parser.
Licensed under the MIT License. See the LICENSE file.