IMAP client not for browsers but for node
NB! browserbox2 is not a full featured IMAP client. It is a patched version of browserbox that only has some working components
This module requires TextEncoder
and TextDecoder
to exist as part of the StringEncoding API (see: MDN whatwg.org). Firefox 19+ is basically the only browser that supports this at the time of writing, while Chromium in canary, not stable. Luckily, there is a polyfill!
There is a shim that brings Mozilla-flavored version of the Raw Socket API to other platforms.
If you are on a platform that uses forge instead of a native TLS implementation (e.g. chrome.socket), you have to set the .oncert(pemEncodedCertificate) handler that passes the TLS certificate that the server presents. It can be used on a trust-on-first-use basis for subsequent connection.
If forge is used to handle TLS traffic, you may choose to handle the TLS-related load in a Web Worker. Please use tlsWorkerPath to point to tcp-socket-tls-worker.js
!
Please take a look at the tcp-socket documentation for more information!
This module uses the Promises API, so make sure your platform either supports Promise
constructor natively, or use the es6-promise polyfill.
let ES6Promise = require('es6-promises');
ES6Promise.polyfill();
npm:
npm install browserbox
Require browserbox.js as browserbox
Include following files on the page.
<script src="browserbox.js"></script>
<script src="browserbox-imap.js"></script>
This exposes the constructor BrowserBox
as a global variable
let BrowserBox = require('browserbox')
new BrowserBox(host[, port][, options]) → IMAP client object
Where
- host is to hostname to connect to
- port (optional) is the port to connect to (defaults to 143)
- options (optional) is the options object
- auth is the authentication information object
- user is the username of the user (also applies to Oauth2)
- pass is the password of the user
- xoauth2 is the OAuth2 access token to be used instead of password
- id (optional) is the identification object for RFC2971 (ex.
{name: 'myclient', version: '1'}
) - useSecureTransport (optional) enables TLS
- ca (optional) (only in conjunction with the TCPSocket shim) if you use TLS with forge, pin a PEM-encoded certificate as a string. Please refer to the tcp-socket documentation for more information!
- tlsWorkerPath (optional) (only in conjunction with the TCPSocket shim) if you use TLS with forge, this path indicates where the file for the TLS Web Worker is located. Please refer to the tcp-socket documentation for more information!
- ignoreTLS – if set to true, do not call STARTTLS before authentication even if the host advertises support for it
- requireTLS – if set to true, always use STARTTLS before authentication even if the host does not advertise it. If STARTTLS fails, do not try to authenticate the user
- auth is the authentication information object
Default STARTTLS support is opportunistic – if the server advertises STARTTLS capability, the client tries to use it. If STARTTLS is not advertised, the clients sends passwords in the plain. You can use ignoreTLS
and requireTLS
to change this behavior by explicitly enabling or disabling STARTTLS usage.
Example
let client = new BrowserBox('localhost', 143, {
auth: {
user: 'testuser',
pass: 'testpass'
},
id: {
name: 'My Client',
version: '0.1'
}
});
BrowserBox object by default does not initiate the connection, you need to call client.connect()
to establish it
client.connect();
This function does not take any arguments and does not return anything. See the events section to handle connection issues.
The IMAP client has several events you can attach to by setting a listener
Is fired when something unexpected happened.
client.onerror = function(err){}
Where
- err is an error object
Is fired when the connection to the IMAP server is closed.
client.onclose = function(){}
Is fired when the user is successfully authenticated
List all mailboxes with listMailboxes()
method
client.listMailboxes(callback)
Where
- callback is the callback function with the following arguments
- err is an error object, only set if the request failed
- mailboxes is an object with the mailbox structure
If callback is not specified, the method returns a Promise.
Mailbox object is with the following structure
- root (boolean)
true
if the node is root - name (string) unicode decoded name of the mailbox
- path (string) full path to the mailbox
- delimiter (string) path delimiting symbol. In the event the server returns NIL for this (some servers do this for the INBOX), it will be coerced to a '/' at this time, but the behavior may be changed in the future depending on how the folder creation API is implemented.
- listed (boolean) mailbox was found in the LIST response
- subscribed (boolean) mailbox was found in the LSUB response
- specialUse (string) mailbox was identified as a special use mailbox ('\Trash', '\Sent', '\Junk' etc. see RFC6154)
- flags (array) a list of flags
- children (array) a list of child mailboxes
Example
client.listMailboxes(function(err, mailboxes) {
console.log(err || mailboxes);
});
{
"root": true,
"children": [
{
"name": "INBOX",
"delimiter": "/",
"path": "INBOX",
"children": [],
"flags": ["\\HasNoChildren"],
"listed": true,
"subscribed": true
},
{
"name": "[Gmail]",
"delimiter": "/",
"path": "[Gmail]",
"flags": ["\\Noselect", "\\HasChildren"],
"listed": true,
"subscribed": true,
"children": [
{
"name": "All Mail",
"delimiter": "/",
"path": "[Gmail]/All Mail",
"children": [],
"flags": ["\\HasNoChildren", "\\All"],
"listed": true,
"specialUse": "\\All",
"subscribed": true
}
]
}
]
}
Root level INBOX
is case insensitive, so all subfolders of INBOX, Inbox etc. are mapped together. The first occurence of INBOX
defines the name
property for the parent element. path
values remain as listed.
For example the following IMAP response lists different INBOX names:
* LIST () "INBOX"
* LIST () "Inbox/test"
These different INBOX names are mapped to the following object:
{
"root": true,
"children": [
{
"name": "INBOX",
"delimiter": "/",
"path": "INBOX",
"children": [
{
"name": "test",
"delimiter": "/",
"path": "Inbox/test"
}
]
}
]
}
List available namespaces with listNamespaces()
. If NAMESPACE extension is not supported, the method returns false
.
client.listNamespaces(callback);
Where
- callback is the callback function with the following arguments
- err is an error object, only set if the request failed
- namespaces is an object with the namespace values or
false
if NAMESPACE is not supported
If callback is not specified, the method returns a Promise.
Namespace object is with the following structure
- personal is an array of namespace elements or
false
for Personal Namespace - users is an array of namespace elements or
false
for Other Users' Namespace - shared is an array of namespace elements or
false
for Shared Namespace
Namespace element object has the following structure
- prefix is the prefix string
- delimiter is the hierarchy delimiter. This can be null for some servers but will usually be a string.
NB! Namespace_Response_Extensions are not supported (extension data is silently skipped)
Namespaces should be checked before attempting to create new mailboxes - most probably creating mailboxes outside personal namespace fails. For example when the personal namespace is prefixed with 'INBOX.' you can create 'INBOX.Sent Mail' but you can't create 'Sent Mail'.
Example
client.listNamespaces(function(err, namespaces) {
console.log(err || namespaces);
});
{
"personal": [
{
"prefix": "",
"delimiter": "/"
}
],
"users": false,
"shared": false
}
Create a folder with the given path, automatically handling utf-7 encoding. You currently need to manually build the path string yourself. (There is potential for future enhancement to provide assistance.)
If the server indicates a failure but that the folder already exists with the ALREADYEXISTS response code, the request will be treated as a success.
Example
// On a server with a personal namesapce of INBOX and a delimiter of '/',
// create folder Foo. Note that folders using a non-empty personal namespace
// may automatically assume the personal namespace.
client.createMailbox('INBOX/Foo', function callback(err, alreadyExists) {});
// Do the same on a server where the personal namespace is ''
client.createMailbox('Foo', function callback(err, alreadyExists) {});
If callback is not specified, the method returns a Promise.
Select specific mailbox by path with selectMailbox()
client.selectMailbox(path[, options], callback)
Where
- path is the full path to the mailbox (see path property with
listMailboxes
) - options optional options object with the following properties
- condstore if set to
true
adds (CONDSTORE) option when selecting - readOnly if set to
true
usesEXAMINE
instead ofSELECT
- condstore if set to
- callback is the callback function with the following arguments
- err is an error object, only set if the request failed
- mailboxInfo is an object with mailbox properties
- exists (number) the count of messages in the selected mailbox
- flags (array) an array of flags used in the selected mailbox
- permanentFlags (array) an array of permanent flags available to use in the selected mailbox
- readOnly (boolean)
true
if the mailbox is in read only mode - uidValidity (number) UIDValidity value
- uidNext (number) predicted next UID value
- highestModseq (string) (with CONDSTORE only) highest modseq value (javascript can't handle 64bit uints so this is a string)
If callback is not specified, the method returns a Promise.
Example
client.selectMailbox('INBOX', function(err, mailbox) {
console.log(err || mailbox);
});
{
"readOnly": false,
"exists": 6596,
"flags": ["\\Answered", "\\Flagged"],
"permanentFlags": ["\\Answered", "\\Flagged"],
"uidValidity": 2,
"uidNext": 38361,
"highestModseq": "3682918"
}
You can check the currently selected mailbox path from client.selectedMailbox
.
If no mailbox is currently selected, the value is false
.
console.log('Current mailbox: %s', client.selectedMailbox);
List messages with listMessages()
client.listMessages(sequence, query[, options], callback)
Where
- sequence defines the range of sequence numbers or UID values (if
byUid
option is set to true). Example: '1', '1:*', '1,2:3,4' etc. - query is an array of keys that need to be fetched. Example: ['uid', 'flags', 'body.peek[headers (date)]']
- options is an optional options object
- byUid if
true
executesUID FETCH
instead ofFETCH
- changedSince is the modseq filter. Only messages with higher modseq value will be returned
- byUid if
- callback is the callback function to run once all me messages are processed with the following arguments
- err is an error object, only set if the request failed
- messages is an array of messages from the provided sequence range
If callback is not specified, the method returns a Promise.
A note about sequence ranges – using
*
as a range selector might be a really bad idea. If the mailbox contains thousands of messages and you are running a1:*
query, it might choke your application. Additionally, remember that*
stands for the sequence number of the last message in the mailbox. This means that if you have 10 messages in a mailbox and you run a query for a range of5000:*
you still get a match as the query is treated as10:5000
by the server
Example
client.listMessages('1:10', ['uid', 'flags', 'body[]'], function(err, messages) {
messages.forEach(function(message) {
console.log('Flags for ' + message.uid + ': ' + message.flags.join(', '));
});
});
NB! this method does not stream the values, you need to handle this by yourself by using reasonable sized sequence ranges
A listed message item includes (but is not limited to), the selected fields from the query
argument (all keys are lowercase). Additionally the argument order and even argument names might not match. For example, when requesting for body.peek
you get body
back instead. Additionally the message includes a special key #
which stands for the sequence number of the message.
Most arguments return strings (eg. body[]
) and numbers (eg. uid
) while flags
return an array, envelope
and bodystructure
return a processed object.
{
"#": 123,
"uid": 456,
"flags": ["\\Seen", "$MyFlag"],
"envelope": {
"date": "Fri, 13 Sep 2013 15:01:00 +0300",
"subject": "hello 4",
"from": [{ "name": "sender name", "address": "[email protected]" }],
"to": [{ "name": "Receiver name", "address": "[email protected]" }],
"message-id": "<abcde>"
}
}
Special keys - if a special key is used, eg.
BODY.PEEK[HEADER (Date Subject)]
, the response key is lowercase and in the form how the server responded it, eg.body[header (date subject)]
An envelope includes the following fields (a value is only included in the response if it is set).
- date is a date (string) of the message
- subject is the subject of the message
- from is an array of addresses from the
from
header - sender is an array of addresses from the
sender
header - reply-to is an array of addresses from the
reply-to
header - to is an array of addresses from the
to
header - cc is an array of addresses from the
cc
header - bcc is an array of addresses from the
bcc
header - in-reply-to is the message-id of the message is message is replying to
- message-id is the message-id of the message
All address fields are in the following format:
[
{
"name": "MIME decoded name",
"address": "email@address"
}
]
A bodystructure object includes the following fields (all values are lowercase, unless the value might be case sensitive, eg. Content-Id value):
- part is the sub-part selector for
BODY[x.x.x]
, eg. '4.1.1' (this value is not set for the root object) - type is the Content-Type of the body part
- parameters is an object defining extra arguments for Content-Type, example:
{border: 'abc'}
- disposition is the Content-Disposition value (without arguments)
- dispositionParameters is an object defining extra arguments for Content-Disposition, example:
{filename: 'foo.gif'}
- language is an array of language codes (hardly ever used)
- location is a string for body content URI (hardly ever used)
- id is the Content-Id value
- description is the Content-Description value
- encoding is the Content-Transfer-Encoding value
- size is the body size in octets
- lineCount (applies to
text/*
andmessage/rfc822
) is the count of lines in the body - envelope (applies to
message/rfc822
) is the envelope object of the sub-part - md5 is the MD5 hash of the message (hardly ever used)
- childNodes (applies to
multipart/*
andmessage/rfc822
) is an array of embedded bodystructure objects
Example
Bodystructure for the following sample message structure:
multipart/mixed
text/plain
multipart/alternative
text/plain
{
"type": "multipart/mixed",
"childNodes": [
{
"part": "1",
"type": "text/plain",
"encoding": "7bit",
"size": 8,
"lineCount": 1
},
{
"part": "2",
"type": "multipart/alternative",
"childNodes": [
{
"part": "2.1",
"type": "text/plain",
"encoding": "7bit",
"size": 8,
"lineCount": 1
}
]
}
]
}
Search for messages with search()
client.search(query[, options], callback)
Where
- query defines the search terms, see below
- options is an optional options object
- byUid if
true
executesUID SEARCH
instead ofSEARCH
- byUid if
- callback is the callback function to run once all me messages are processed with the following arguments
- err is an error object, only set if the request failed
- results is an array of sorted and unique message sequence numbers or UID numbers that match the specified search query
If callback is not specified, the method returns a Promise.
Queries are composed as objects where keys are search terms and values are term arguments. Only strings, numbers and Date values are used as arguments. If the value is an array, the members of it are processed separately (use this for terms that require multiple params). If the value is a Date, it is converted to the form of '1-Jan-1970'. Subqueries (OR, NOT) are made up of objects.
Examples:
// SEARCH UNSEEN
query = { unseen: true };
// SEARCH KEYWORD 'flagname'
query = { keyword: 'flagname' };
// SEARCH HEADER 'subject' 'hello world'
query = { header: ['subject', 'hello world'] };
// SEARCH UNSEEN HEADER 'subject' 'hello world'
query = { unseen: true, header: ['subject', 'hello world'] };
// SEARCH OR UNSEEN SEEN
query = { or: { unseen: true, seen: true } };
// SEARCH UNSEEN NOT SEEN
query = { unseen: true, not: { seen: true } };
client.search({ unseen: true }, { byUid: true }, function(err, result) {
result.forEach(function(uid) {
console.log('Message ' + uid + ' is unread');
});
});
Update message flags with setFlags()
client.setFlags(sequence, flags[, options], callback)
Where
- sequence defines the range of sequence numbers or UID values (if
byUid
option is set to true). Example: '1', '1:*', '1,2:3,4' etc. - flags is an object defining flag updates, see below for details
- options is an optional options object
- byUid if
true
executesUID SEARCH
instead ofSEARCH
- silent if
true
does not return anything. Useful when updating large range of messages at once ('1:*'
)
- byUid if
- callback is the callback function to run once all me messages are processed with the following arguments
- err is an error object, only set if the request failed
- messages is an array of messages from the provided sequence range (or empty when
silent:true
option is set). Includesflags
property anduid
ifbyUid:true
option was used.
If callback is not specified, the method returns a Promise.
You can check the flags for a message or a range of messages with listMessages
- use ['flags']
as the query object.
{ set: arrFlags }
for setting flags{ add: arrFlags }
for adding new flags{ remove: arrFlags }
for removing specified flags
Where arrFlags
is an array containing flag strings, ie. ['\\Seen', '$MyFlag']
client.setFlags('1', { add: ['\\Seen'] }, function(err, result) {
console.log('New flags for message: ' + result[0].flags.join(', '));
});
Delete messages with deleteMessages()
client.deleteMessages(sequence[, options], callback)
Where
- sequence defines the range of sequence numbers or UID values (if
byUid
option is set to true). Example: '1', '1:*', '1,2:3,4' etc. - options is an optional options object
- byUid if
true
uses UID values instead of sequence numbers to define the range
- byUid if
- callback is the callback function to run once all me messages are processed with the following arguments
- err is an error object, only set if the request failed
If callback is not specified, the method returns a Promise.
If possible (byUid:true
is set and UIDPLUS extension is supported by the server) uses UID EXPUNGE
otherwise falls back to EXPUNGE to delete the messages – which means that this method might be
destructive. If EXPUNGE
is used, then any messages with \Deleted
flag set are deleted even if these
messages are not included in the specified sequence range.
client.deleteMessages('1:5', function(err) {
if (err) {
console.log('Command failed');
} else {
console.log('Messages were deleted');
}
});
Copy messages with copyMessages()
client.copyMessages(sequence, destination[, options], callback)
Where
- sequence defines the range of sequence numbers or UID values (if
byUid
option is set to true). Example: '1', '1:*', '1,2:3,4' etc. - destination is the destination folder path. Example: '[Gmail]/Trash'
- options is an optional options object
- byUid if
true
uses UID values instead of sequence numbers to define the range
- byUid if
- callback is the callback function to run once all me messages are processed with the following arguments
- err is an error object, only set if the request failed
- message nothing useful, just the response text from the server
If callback is not specified, the method returns a Promise.
client.copyMessages('1:5', '[Gmail]/Trash', function(err) {
console.log('Messages were copied to [Gmail]/Trash');
});
Move messages with moveMessages()
client.moveMessages(sequence, destination[, options], callback)
Where
- sequence defines the range of sequence numbers or UID values (if
byUid
option is set to true). Example: '1', '1:*', '1,2:3,4' etc. - destination is the destination folder path. Example: '[Gmail]/Trash'
- options is an optional options object
- byUid if
true
uses UID values instead of sequence numbers to define the range
- byUid if
- callback is the callback function to run once all me messages are processed with the following arguments
- err is an error object, only set if the request failed
If callback is not specified, the method returns a Promise.
If possible (MOVE extension is supported by the server) uses MOVE
or UID MOVE
otherwise falls back to COPY + EXPUNGE.
The returned list of sequence numbers might not match with the sequence numbers provided to the method.
client.moveMessages('1:5', '[Gmail]/Trash', function(err) {
if (err) {
console.log('Command failed');
} else {
console.log('Messages were moved to [Gmail]/Trash');
}
});
Message updates can be listened for by setting the onupdate
handler. First argument for the callback defines the update type, and the second one is the new value.
Example
client.onupdate = function(type, value) {
if (type == 'exists') {
console.log(value + ' messages exists in selected mailbox');
}
};
Possible types:
- exists is emitted on untagged
EXISTS
response,value
is the argument number used - expunge is emitted on untagged
EXPUNGE
response,value
is the sequence number of the deleted message - fetch is emitted on flag change.
value
includes the parsed message object (probably includes only the sequence number#
andflags
array)
Listening mailbox select notification is done by setting the onselectmailbox
and onclosemailbox
handlers.
For onselectmailbox
handler the first argument is the path of the selected mailbox and the second argument
is the mailbox information object (see selectMailbox).
For onclosemailbox
handler the argument is the path of the selected mailbox.
Example
client.onselectmailbox = function(path, mailbox) {
console.log('Opened %s with %s messages', path, mailbox.exists);
};
client.onclosemailbox = function(path) {
console.log('Closed %s', path);
};
You can close the connection with close()
. This method doesn't actually terminate the connection, it sends LOGOUT command to the server.
client.close();
Once the connection is actually closed onclose
event is fired.
Calls to Browserbox are queued in FIFO order until they are ready for execution. This may be problematic for calls that depend on a selected mailbox, e.g. #search
or #setFlags
. These call can be issued with a precheck
callback that is invoked before the IMAP command is sent to the server.
Example:
// search depends on a selected mailbox, e.g. inbox
imap.search({
header: ['subject', 'hello 3']
}, {
// add precheck(ctx, next) to the query options
precheck: function(ctx, next) {
// make sure inbox is selected before the search command is run
imap.selectMailbox('inbox', {
ctx: ctx // pass the context parameter received in the precheck callback as a query option to bypass the command queue
}, next); // next should invoked when you're done
},
byUid: true
}, function(error, result) {
...
});
A precheck
callback receives two arguments:
- ctx is a context parameter, i.e. a pointer to the current position in the command queue
- next callback to be invoked when the precheck is done
Calls issued in a precheck
callback will be executed before the parent call, if you pass the ctx
parameter received as a argument of the precheck
callback to the query options. This bypasses the internal FIFO queue and executes the call on the spot! If the context parameter is left blank, the calls will be queued as usual.
Invoke next
once you're done with the precheck
callback to resume normal operation.
If you want to remove a call from the FIFO queue, e.g. because a message is no longer available in a mailbox, pass in an error to the next
callback. The parent call will not be executed and you will receive the error passed to next in the callback of the parent call.
Example:
imap.setFlags('1', ['\\Seen', '$MyFlag'], {
precheck: function(ctx, next) {
next(new Error('Foo')); // this removes the setFlags query from the queue
}
}, function(err, result) {
// err.message -> 'Foo'
...
});
NB! precheck
callbacks can be also nested! For details, have a look at the integration test that covers this portion of the code.
git clone [email protected]:whiteout-io/browserbox.git
cd browserbox
npm install && npm test
To run the integration tests against a local smtp server
grunt imap
add the test folder as a chrome app (chrome settings -> extensions -> check 'developer mode' -> load unpacked extension)
Copyright (c) 2014 Andris Reinman
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.