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Markdown
404 lines
14 KiB
Markdown
---
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title: Client API | ldapjs
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markdown2extras: tables
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---
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# ldapjs Client API
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This document covers the ldapjs client API and assumes that you are familiar
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with LDAP. If you're not, read the [guide](guide.html) first.
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# Create a client
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The code to create a new client looks like:
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var ldap = require('ldapjs');
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var client = ldap.createClient({
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url: 'ldap://127.0.0.1:1389'
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});
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You can use `ldap://` or `ldaps://`; the latter would connect over SSL (note
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that this will not use the LDAP TLS extended operation, but literally an SSL
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connection to port 636, as in LDAP v2). The full set of options to create a
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client is:
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|Attribute |Description |
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|---------------|-----------------------------------------------------------|
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|url |A valid LDAP URL (proto/host/port only) |
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|socketPath |Socket path if using AF\_UNIX sockets |
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|log |A compatible logger instance (Default: no-op logger) |
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|timeout |Milliseconds client should let operations live for before timing out (Default: Infinity)|
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|connectTimeout |Milliseconds client should wait before timing out on TCP connections (Default: OS default)|
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|tlsOptions |Additional options passed to TLS connection layer when connecting via `ldaps://` (See: The TLS docs for node.js)|
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|idleTimeout |Milliseconds after last activity before client emits idle event|
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|strictDN |Force strict DN parsing for client methods (Default is true)|
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### Note On Logger
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A passed in logger is expected to conform to the [Bunyan](https://www.npmjs.com/package/bunyan)
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API. Specifically, the logger is expected to have a `child()` method. If a logger
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is supplied that does not have such a method, then a shim version is added
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that merely returns the passed in logger.
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Known compatible loggers are:
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+ [Bunyan](https://www.npmjs.com/package/bunyan)
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+ [Pino](https://www.npmjs.com/package/pino)
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## Connection management
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As LDAP is a stateful protocol (as opposed to HTTP), having connections torn
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down from underneath you is can be difficult to deal with. Several mechanisms
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have been provided to mitigate this trouble.
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## Common patterns
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The last two parameters in every API are `controls` and `callback`. `controls`
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can be either a single instance of a `Control` or an array of `Control` objects.
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You can, and probably will, omit this option.
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Almost every operation has the callback form of `function(err, res)` where err
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will be an instance of an `LDAPError` (you can use `instanceof` to switch).
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You probably won't need to check the `res` parameter, but it's there if you do.
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# bind
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`bind(dn, password, controls, callback)`
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Performs a bind operation against the LDAP server.
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The bind API only allows LDAP 'simple' binds (equivalent to HTTP Basic
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Authentication) for now. Note that all client APIs can optionally take an array
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of `Control` objects. You probably don't need them though...
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Example:
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client.bind('cn=root', 'secret', function(err) {
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assert.ifError(err);
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});
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# add
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`add(dn, entry, controls, callback)`
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Performs an add operation against the LDAP server.
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Allows you to add an entry (which is just a plain JS object), and as always,
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controls are optional.
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Example:
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var entry = {
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cn: 'foo',
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sn: 'bar',
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email: ['foo@bar.com', 'foo1@bar.com'],
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objectclass: 'fooPerson'
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};
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client.add('cn=foo, o=example', entry, function(err) {
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assert.ifError(err);
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});
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# compare
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`compare(dn, attribute, value, controls, callback)`
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Performs an LDAP compare operation with the given attribute and value against
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the entry referenced by dn.
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Example:
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client.compare('cn=foo, o=example', 'sn', 'bar', function(err, matched) {
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assert.ifError(err);
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console.log('matched: ' + matched);
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});
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# del
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`del(dn, controls, callbak)`
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Deletes an entry from the LDAP server.
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Example:
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client.del('cn=foo, o=example', function(err) {
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assert.ifError(err);
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});
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# exop
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`exop(name, value, controls, callback)`
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Performs an LDAP extended operation against an LDAP server. `name` is typically
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going to be an OID (well, the RFC says it must be; however, ldapjs has no such
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restriction). `value` is completely arbitrary, and is whatever the exop says it
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should be.
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Example (performs an LDAP 'whois' extended op):
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client.exop('1.3.6.1.4.1.4203.1.11.3', function(err, value, res) {
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assert.ifError(err);
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console.log('whois: ' + value);
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});
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# modify
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`modify(name, changes, controls, callback)`
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Performs an LDAP modify operation against the LDAP server. This API requires
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you to pass in a `Change` object, which is described below. Note that you can
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pass in a single `Change` or an array of `Change` objects.
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Example:
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var change = new ldap.Change({
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operation: 'add',
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modification: {
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pets: ['cat', 'dog']
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}
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});
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client.modify('cn=foo, o=example', change, function(err) {
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assert.ifError(err);
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});
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## Change
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A `Change` object maps to the LDAP protocol of a modify change, and requires you
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to set the `operation` and `modification`. The `operation` is a string, and
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must be one of:
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| Operation | Description |
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|-----------|-------------|
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| replace | Replaces the attribute referenced in `modification`. If the modification has no values, it is equivalent to a delete. |
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| add | Adds the attribute value(s) referenced in `modification`. The attribute may or may not already exist. |
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| delete | Deletes the attribute (and all values) referenced in `modification`. |
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`modification` is just a plain old JS object with the values you want.
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# modifyDN
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`modifyDN(dn, newDN, controls, callback)`
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Performs an LDAP modifyDN (rename) operation against an entry in the LDAP
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server. A couple points with this client API:
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* There is no ability to set "keep old dn." It's always going to flag the old
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dn to be purged.
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* The client code will automatically figure out if the request is a "new
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superior" request ("new superior" means move to a different part of the tree,
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as opposed to just renaming the leaf).
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Example:
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client.modifyDN('cn=foo, o=example', 'cn=bar', function(err) {
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assert.ifError(err);
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});
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# search
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`search(base, options, controls, callback)`
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Performs a search operation against the LDAP server.
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The search operation is more complex than the other operations, so this one
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takes an `options` object for all the parameters. However, ldapjs makes some
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defaults for you so that if you pass nothing in, it's pretty much equivalent
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to an HTTP GET operation (i.e., base search against the DN, filter set to
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always match).
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Like every other operation, `base` is a DN string.
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Options can be a string representing a valid LDAP filter or an object
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containing the following fields:
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|Attribute |Description |
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|-----------|---------------------------------------------------|
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|scope |One of `base`, `one`, or `sub`. Defaults to `base`.|
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|filter |A string version of an LDAP filter (see below), or a programatically constructed `Filter` object. Defaults to `(objectclass=*)`.|
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|attributes |attributes to select and return (if these are set, the server will return *only* these attributes). Defaults to the empty set, which means all attributes. You can provide a string if you want a single attribute or an array of string for one or many.|
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|attrsOnly |boolean on whether you want the server to only return the names of the attributes, and not their values. Borderline useless. Defaults to false.|
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|sizeLimit |the maximum number of entries to return. Defaults to 0 (unlimited).|
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|timeLimit |the maximum amount of time the server should take in responding, in seconds. Defaults to 10. Lots of servers will ignore this.|
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|paged |enable and/or configure automatic result paging|
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Responses from the `search` method are an `EventEmitter` where you will get a
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notification for each `searchEntry` that comes back from the server. You will
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additionally be able to listen for a `searchReference`, `error` and `end` event.
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Note that the `error` event will only be for client/TCP errors, not LDAP error
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codes like the other APIs. You'll want to check the LDAP status code
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(likely for `0`) on the `end` event to assert success. LDAP search results
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can give you a lot of status codes, such as time or size exceeded, busy,
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inappropriate matching, etc., which is why this method doesn't try to wrap up
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the code matching.
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Example:
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var opts = {
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filter: '(&(l=Seattle)(email=*@foo.com))',
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scope: 'sub',
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attributes: ['dn', 'sn', 'cn']
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};
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client.search('o=example', opts, function(err, res) {
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assert.ifError(err);
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res.on('searchEntry', function(entry) {
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console.log('entry: ' + JSON.stringify(entry.object));
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});
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res.on('searchReference', function(referral) {
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console.log('referral: ' + referral.uris.join());
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});
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res.on('error', function(err) {
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console.error('error: ' + err.message);
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});
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res.on('end', function(result) {
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console.log('status: ' + result.status);
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});
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});
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## Filter Strings
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The easiest way to write search filters is to write them compliant with RFC2254,
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which is "The string representation of LDAP search filters." Note that
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ldapjs doesn't support extensible matching, since it's one of those features
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that almost nobody actually uses in practice.
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Assuming you don't really want to read the RFC, search filters in LDAP are
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basically are a "tree" of attribute/value assertions, with the tree specified
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in prefix notation. For example, let's start simple, and build up a complicated
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filter. The most basic filter is equality, so let's assume you want to search
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for an attribute `email` with a value of `foo@bar.com`. The syntax would be:
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(email=foo@bar.com)
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ldapjs requires all filters to be surrounded by '()' blocks. Ok, that was easy.
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Let's now assume that you want to find all records where the email is actually
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just anything in the "@bar.com" domain and the location attribute is set to
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Seattle:
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(&(email=*@bar.com)(l=Seattle))
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Now our filter is actually three LDAP filters. We have an `and` filter (single
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amp `&`), an `equality` filter `(the l=Seattle)`, and a `substring` filter.
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Substrings are wildcard filters. They use `*` as the wildcard. You can put more
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than one wildcard for a given string. For example you could do `(email=*@*bar.com)`
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to match any email of @bar.com or its subdomains like "example@foo.bar.com".
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Now, let's say we also want to set our filter to include a
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specification that either the employeeType *not* be a manager nor a secretary:
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(&(email=*@bar.com)(l=Seattle)(!(|(employeeType=manager)(employeeType=secretary))))
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The `not` character is represented as a `!`, the `or` as a single pipe `|`.
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It gets a little bit complicated, but it's actually quite powerful, and lets you
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find almost anything you're looking for.
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## Paging
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Many LDAP server enforce size limits upon the returned result set (commonly
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1000). In order to retrieve results beyond this limit, a `PagedResultControl`
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is passed between the client and server to iterate through the entire dataset.
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While callers could choose to do this manually via the `controls` parameter to
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`search()`, ldapjs has internal mechanisms to easily automate the process. The
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most simple way to use the paging automation is to set the `paged` option to
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true when performing a search:
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var opts = {
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filter: '(objectclass=commonobject)',
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scope: 'sub',
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paged: true,
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sizeLimit: 200
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};
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client.search('o=largedir', opts, function(err, res) {
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assert.ifError(err);
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res.on('searchEntry', function(entry) {
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// do per-entry processing
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});
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res.on('page', function(result) {
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console.log('page end');
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});
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res.on('error', function(resErr) {
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assert.ifError(resErr);
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});
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res.on('end', function(result) {
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console.log('done ');
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});
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});
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This will enable paging with a default page size of 199 (`sizeLimit` - 1) and
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will output all of the resulting objects via the `searchEntry` event. At the
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end of each result during the operation, a `page` event will be emitted as
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well (which includes the intermediate `searchResult` object).
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For those wanting more precise control over the process, an object with several
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parameters can be provided for the `paged` option. The `pageSize` parameter
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sets the size of result pages requested from the server. If no value is
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specified, it will fall back to the default (100 or `sizeLimit` - 1, to obey
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the RFC). The `pagePause` parameter allows back-pressure to be exerted on the
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paged search operation by pausing at the end of each page. When enabled, a
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callback function is passed as an additional parameter to `page` events. The
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client will wait to request the next page until that callback is executed.
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Here is an example where both of those parameters are used:
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var queue = new MyWorkQueue(someSlowWorkFunction);
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var opts = {
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filter: '(objectclass=commonobject)',
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scope: 'sub',
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paged: {
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pageSize: 250,
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pagePause: true
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},
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};
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client.search('o=largerdir', opts, function(err, res) {
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assert.ifError(err);
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res.on('searchEntry', function(entry) {
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// Submit incoming objects to queue
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queue.push(entry);
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});
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res.on('page', function(result, cb) {
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// Allow the queue to flush before fetching next page
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queue.cbWhenFlushed(cb);
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});
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res.on('error', function(resErr) {
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assert.ifError(resErr);
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});
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res.on('end', function(result) {
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console.log('done');
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});
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});
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# starttls
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`starttls(options, controls, callback)`
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Attempt to secure existing LDAP connection via STARTTLS.
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Example:
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var opts = {
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ca: [fs.readFileSync('mycacert.pem')]
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};
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client.starttls(opts, function(err, res) {
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assert.ifError(err);
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// Client communication now TLS protected
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});
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# unbind
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`unbind(callback)`
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Performs an unbind operation against the LDAP server.
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Note that unbind operation is not an opposite operation
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for bind. Unbinding results in disconnecting the client
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regardless of whether a bind operation was performed.
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The `callback` argument is optional as unbind does
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not have a response.
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Example:
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client.unbind(function(err) {
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assert.ifError(err);
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});
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