Authorization using ACLs¶
Apache Kafka® ships with a pluggable, out-of-the-box Authorizer implementation that uses Apache ZooKeeper™ to store all the ACLs. It is important to set ACLs because otherwise access to resources is limited to super users when an Authorizer is configured. The default behavior is that if a resource has no associated ACLs, then no one is allowed to access the resource, except super users.
You can learn more about authorization using ACLs in the Authorization module of the Apache Kafka Security free course.
See also
For an example that shows this in action, see the Confluent Platform demo. Refer to the demo’s docker-compose.yml file for a configuration reference.
ACL concepts¶
Access Control Lists (ACLs) provide important authorization controls for your enterprise’s Apache Kafka® cluster data. Before attempting to create and use ACLs, familiarize yourself with the concepts described in this section; your understanding of them is key to your success when creating and using ACLs to manage access to components and cluster data.
Authorizer¶
An authorizer is a server plugin used by Apache Kafka® to authorize operations. More
specifically, an authorizer controls whether or not to authorize an operation
based on the principal and the resource being accessed. The default Kafka
authorizer implementation is AclAuthorizer (kafka.security.authorizer.AclAuthorizer
),
which was introduced in Apache Kafka® 2.4/Confluent Platform 5.4.0. Prior to that, the authorizer
was named SimpleAclAuthorizer (kafka.security.auth.SimpleAclAuthorizer
).
To enable and use the AclAuthorizer, set its full class name for your broker
configuration in server.properties
:
authorizer.class.name=kafka.security.authorizer.AclAuthorizer
Note
While this topic covers AclAuthorizer only, be aware that Confluent also provides the Configuring Confluent Server Authorizer to allow for proprietary LDAP group-based and role-based access control (RBAC), as well as centralized ACLs. By default, Confluent Server Authorizer supports ZooKeeper-based ACLs.
AclAuthorizer stores Kafka ACL information in ZooKeeper. However, it does not control access to ZooKeeper nodes. Rather, ZooKeeper has its own ACL security to control access to ZooKeeper nodes. ZooKeeper ACLs control which principal (for example, the broker principal) can update ZooKeeper nodes containing Kafka cluster metadata (such as in-sync replicas, topic configuration, and Kafka ACLs) and nodes used in interbroker coordination (such as controller election, broker joining, and topic deletion).
Kafka ACLs control which principals can perform operations on Kafka resources.
Kafka brokers can use ZooKeeper ACLs by enabling ZooKeeper Security
(zookeeper.set.acl=true
) for the broker configuration.
Principal¶
A principal is an entity that can be authenticated by the authorizer. Clients of a Kafka broker identify themselves as a particular principal using various security protocols. The way a principal is identified depends upon which security protocol it uses to connect to the Kafka broker (for example: mTLS, SASL/GSSAPI, or SASL/PLAIN). Authentication depends on the security protocol in place (such as SASL, TLS/SSL) to recognize a principal within a Kafka broker.
The following examples show the principal name format based on the security protocol being used:
- When a client connects to a Kafka broker using the SSL security protocol,
the principal name will be in the form of the SSL certificate subject name:
CN=quickstart.confluent.io,OU=TEST,O=Sales,L=PaloAlto,ST=Ca,C=US
. Note that there are no spaces after the comma between subject parts. - When a client connects to a Kafka broker using the SASL security protocol with GSSAPI
(Kerberos) mechanism, the principal will be in the Kerberos principal format:
kafka-client@hostname.com
. For more detail, refer to Kerberos Principal Names. - When a client connects to a Kafka broker using the SASL security protocol with
a PLAIN or SCRAM mechanism, the principal will be a simple text string, such as
alice
,admin
, orbilling_etl_job_03
.
The AclAuthorizer only supports individual users and always interprets the principal
as the user name. However, other authorizers support
groups. Therefore, when specifying the principal you must include the type using
the prefix User:
or Group:
(case-sensitive). Some examples: User:admin
,
Group:developers
, or User:CN=quickstart.confluent.io,OU=TEST,O=Sales,L=PaloAlto,ST=Ca,C=US
.
In the following ACL, the plain text principals (User:alice
, User:fred
)
are identified as Kafka users who are allowed to run specific operations (read,
write) from either of the specified hosts (host-1, host-2) on a specific resource
(topic):
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:alice --allow-principal User:fred --allow-host host-1 \
--allow-host host-2 --operation read --operation write --topic finance-topic
It’s a best practice to create one principal per application and give each
principal only the ACLs it requires and no more. For example: if Alice is writing
three programs that access different topics to automate a billing workflow, she
could create three principals: billing_etl_job_01
, billing_etl_job_02
,
and billing_etl_job_03
. She would then grant each principal permissions on
only the exact topics it needs, and run each program with its specific principal.
Alternatively, she could take a middle-ground approach and create a single
billing_etl_jobs
principal with access to all of the topics that the billing
programs require, and simply run all three with that principal.
Alice should not run these programs as her own principal because she would presumably have broader permissions than the jobs actually need. Running with one principal per application also helps significantly with debugging and auditing because it’s clearer which application is performing each operation.
Wildcard principals¶
You can create ACLs for all principals using a wildcard in the principal User:*
.
ACLs that use a wildcard as the user principal are applied to all users. For
example, the following command grants everyone access to the topic testTopic
:
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal User:* --operation All --topic testTopic
If you use an authorizer that supports group principals, such as Confluent Server Authorizer, you can
also create ACLs for all group principals using the principal Group:*
.
ACLs that use the wildcard as the principal are applied to all users who belong
to at least one group.
You cannot create ACLs that use the wildcard for super users. For example, while
the following configuration makes the user principal User:*
a super user, it
does not make every user a super user because no wildcard match is performed:
super.users=User:*
Note
If you are using Confluent Server Authorizer, note that role bindings do not support wildcard matching.
Hence, assigning a role to User:*
does not grant the role to every user. Refer
to Authorization using Role-Based Access Control for more details about RBAC principals.
SASL/Kerberos principals¶
If you use Kerberos, your Kafka principal is based on your Kerberos principal (for
example, kafka/kafka1.hostname.com@EXAMPLE.COM
). By default, Kafka only uses the
primary name of the Kerberos principal, which is the name that appears before
the slash (/
). Hence, if the broker Kerberos principal is
kafka/broker1.example.com@EXAMPLE
, then the principal used by the Kafka
authorizer is kafka
. The hostname is different for every broker. This parsing
is automatically implemented using the default value of
sasl.kerberos.principal.to.local.rules
.
For details about Kerberos principal names and configurations, refer to Kerberos Principals.
Note
If you are using your organization’s Kerberos or Active Directory server, ask your Kerberos administrator for a principal for each Kafka broker in your cluster and for every operating system user that will access Kafka with Kerberos authentication (using clients and tools). Server principals are of type NT_HOSTBASED_SERVICE.
Each broker must be able to communicate with all of the other brokers for replication, and when it acts as the controller. You must add the broker principal as a super user, otherwise Kafka will not work.
Configuration options for customizing SASL/Kerberos user name¶
By default, the Kafka principal will be the primary part of the Kerberos principal.
You can change this behavior by specifying a customized rule for
sasl.kerberos.principal.to.local.rules
in server.properties
. The format
of sasl.kerberos.principal.to.local.rules
takes the form a list where each
rule works in the same way it does in auth_to_local
in the
Kerberos configuration file (krb5.conf).
These rules support the use of lowercase/uppercase to force the translated
result to be all lowercase (/L
) or all uppercase (/U
). This enforcement is achieved
by adding a /L
or /U
to the end of the rule. Each rule starts with RULE:
and contains an expression. The following examples show the format and syntax:
RULE:[n:string](regexp)s/pattern/replacement/
RULE:[n:string](regexp)s/pattern/replacement/g
RULE:[n:string](regexp)s/pattern/replacement//L
RULE:[n:string](regexp)s/pattern/replacement/g/L
RULE:[n:string](regexp)s/pattern/replacement//U
RULE:[n:string](regexp)s/pattern/replacement/g/U
This rule translates user@MYDOMAIN.COM
to user
while keeping the default
rule in place:
sasl.kerberos.principal.to.local.rules=RULE:[1:$1@$0](.*@MYDOMAIN.COM)s/@.*//,DEFAULT
TLS/SSL principal user names¶
As mentioned earlier, principals are recognized based on how users authenticate to the broker, which in turn depends upon the security protocol in use. To use TLS/SSL principals, you must understand how to accurately represent user names.
By default, the name of the principal identified by a TLS/SSL certificate
is the DN (X.500 Distinguished Name) of that certificate (also known as the
Subject), which uses the form CN=writeuser,OU=Unknown,O=Unknown,L=Unknown,ST=Unknown,C=Unknown
.
You can use ssl.principal.mapping.rules
to translate the DN to a more manageable
principal name. Refer to Configuration options for customizing TLS/SSL user name for details.
In the event that SSL is enabled but client authentication is not configured, clients will connect anonymously using the SSL port and will appear to the server with the user name ANONYMOUS. Such a configuration provides encryption and server authentication, but clients connect anonymously. The other case in which the server will see the ANONYMOUS user is if the PLAINTEXT security protocol is being used. By granting read/write permission to the ANONYMOUS user, you are allowing anyone to access the brokers without authentication. As such, you should not grant access to ANONYMOUS users unless the intention is to give everyone the permission.
Configuration options for customizing TLS/SSL user name¶
By default, the SSL user name is in the form CN=writeuser,OU=Unknown,O=Unknown,L=Unknown,ST=Unknown,C=Unknown
.
This configuration allows a list of rules for mapping the X.500 distinguished
name (DN) to short name. The rules are evaluated in order and the first rule that
matches a DN is used to map it to a short name. Any later rules in the list are ignored.
The format of ssl.principal.mapping.rules
is a list where each rule starts
with “RULE:” and contains an expression using the formats below. The default rule
returns string representation of the X.500 certificate DN. If the DN matches the
pattern, then the replacement command is run over the name. This also supports
lowercase/uppercase options, to force the translated result to be all lower/uppercase
case. This is done by adding an /L
or /U
to the end of the rule:
RULE:pattern/replacement/
RULE:pattern/replacement/[LU]
Example ssl.principal.mapping.rules
values are:
RULE:^CN=(.*?),OU=ServiceUsers.*$/$1/,
RULE:^CN=(.*?),OU=(.*?),O=(.*?),L=(.*?),ST=(.*?),C=(.*?)$/$1@$2/L,
RULE:^.*[Cc][Nn]=([a-zA-Z0-9.]*).*$/$1/L,
DEFAULT
These rules translate the DN as follows: CN=serviceuser,OU=ServiceUsers,O=Unknown,L=Unknown,ST=Unknown,C=Unknown
to serviceuser
and CN=adminUser,OU=Admin,O=Unknown,L=Unknown,ST=Unknown,C=Unknown
to adminuser@admin
.
Operations¶
An operation is an action performed on a resource. In addition to identifying the resources to which users or groups have access, ACLs also identify the operations those users or groups are authorized to perform. For each resource, an operation is mapped to one or more Kafka APIs or request types applicable for that resource. For example, a READ operation for the Topic resource is mapped to Fetch, OffsetCommit, and TxnOffsetCommit. Or, a WRITE operation for the Topic resource is mapped to Produce and AddPartitionsToTxn.
The following tables identify the valid operations available for each resource type in Confluent Platform, and describe the relationship between operations, resources, and APIs:
Operations available for the Cluster resource type:
Operation | Resource | APIs Allowed |
---|---|---|
Alter | Cluster | AlterReplicaLogDirs, CreateAcls, DeleteAcls |
AlterConfigs | Cluster | AlterConfigs |
ClusterAction | Cluster | Fetch (for replication only), LeaderAndIsr, OffsetForLeaderEpoch, StopReplica, UpdateMetadata, ControlledShutdown, WriteTxnMarkers |
Create | Cluster | CreateTopics, Metadata |
Describe | Cluster | DescribeAcls, DescribeLogDirs, ListGroups |
DescribeConfigs | Cluster | DescribeConfigs |
Operations available for the Topic resource type:
Operation | Resource | APIs Allowed |
---|---|---|
Alter | Topic | CreatePartitions |
AlterConfigs | Topic | AlterConfigs |
Create | Topic | CreateTopics, Metadata |
Delete | Topic | DeleteRecords, DeleteTopics |
Describe | Topic | ListOffsets, Metadata, OffsetFetch, OffsetForLeaderEpoch |
DescribeConfigs | Topic | DescribeConfigs |
Read | Topic | Fetch, OffsetCommit, TxnOffsetCommit |
Write | Topic | Produce, AddPartitionsToTxn |
Operations available for the Group resource type:
Operation | Resource | APIs Allowed |
---|---|---|
Delete | Group | DeleteGroups |
Describe | Group | DescribeGroup, FindCoordinator, ListGroups |
Read | Group | AddOffsetsToTxn, Heartbeat, JoinGroup, LeaveGroup, OffsetCommit, OffsetFetch, SyncGroup, TxnOffsetCommit |
Operations available for the Delegation Token resource type:
Operation | Resource | API Allowed |
---|---|---|
Describe | DelegationToken | DescribeTokens |
Operations available for the Transactional ID resource type:
Operation | Resource | APIs Allowed |
---|---|---|
Describe | TransactionalId | FindCoordinator |
Write | TransactionalId | Produce, AddPartitionsToTxn, AddOffsetsToTxn, EndTxn, InitProducerId, TxnOffsetCommit |
The operations in the tables above are both for clients (producers, consumers, admin) and interbroker operations of a cluster. In a secure cluster, both client requests and interbroker operations require authorization. The interbroker operations are split into two classes: cluster and topic. Cluster operations refer to operations necessary for the management of the cluster, like updating broker and partition metadata, changing the leader and the set of in-sync replicas of a partition, and triggering a controlled shutdown.
Because of the way replication of topic partitions works internally, the broker principal must be a super user so that the broker can replicate topics properly from leader to follower.
Producers and consumers need to be authorized to perform operations on topics,
but they should be configured with different principals compared to the brokers.
The main operations that producers require authorization to execute are WRITE
and READ. Admin users can execute command line tools and require authorization.
Operations that an admin user might need authorization for are DELETE, CREATE,
and ALTER. You can use wildcards (*
) for producers and consumers so that you
only have to set it once.
Implicitly-derived operations¶
Certain operations provide additional implicit operation access to users.
When granted READ, WRITE, or DELETE, users implicitly derive the DESCRIBE operation.
When granted ALTER_CONFIGS, users implicitly derive the DESCRIBE_CONFIGS operation.
ACL precedence¶
In contexts where you have both allow and deny ACLs, deny ACLs take precedence over allow ACLs.
Resources¶
Users access and perform operations on specific Kafka and Confluent Platform resources. A resource can be a cluster, group, Apache Kafka® topic, transactional ID, or Delegation token. ACLs specify which users can access a specified resource, and the operations they are permitted to run against that resource. Within Kafka resources are:
- Cluster
- The Kafka cluster. Users who wish to run operations that impact the whole cluster, such as a controlled shutdown or create a new topic, must be assigned privileges on the cluster resource.
- Delegation Token
- Delegation tokens are shared secrets between Apache Kafka® brokers and clients. Authentication based on delegation tokens is a lightweight authentication mechanism that you can use to complement existing SASL/SSL methods. Refer to Authentication using Delegation Tokens for more details.
- Group
- Groups in the brokers. All protocol calls that work with groups, such as
joining a group, must have corresponding privileges with the group in the
subject. Group (
group.id
) can mean Consumer Group, Stream Group (application.id
), Connect Worker Group, or any other group that uses the Consumer Group protocol, like Schema Registry cluster. - Topic
- All Kafka messages are organized into topics (and partitions). To access a topic, you must have a corresponding operation (such as READ or WRITE) defined in an ACL.
- Transactional ID
A transactional ID (
transactional.id
) identifies a single producer instance across application restarts and provides a way to ensure a single writer; this is necessary for exactly-once semantics (EOS). There can only be one producer active at any time for eachtransactional.id
. When a producer starts up, it first checks whether or not there is a pending transaction by a producer with its owntransactional.id
. If there is, then it must wait until the transaction has finished (abort or commit). This guarantees that the producer always starts from a consistent state.When used, a producer must be able to manipulate transactional IDs and have all the permissions set. For example, the following ACL allows all users in the system access to an EOS producer:
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \ --add --transactional-id * --allow-principal User:* --operation write
In cases where you need to create ACLs for a Kafka cluster to allow Streams exactly-once (EOS) processing:
# Allow Streams EOS: bin/kafka-acls ... --add --allow-principal User:team1 --operation WRITE \ --operation DESCRIBE --transactional-id team1-streams-app1 \ --resource-pattern-type prefixed
For additional information about the role of transactional IDs, refer to Transactions in Apache Kafka.
The Operations available to a user depend on the resources to which the user has been granted access. All resources have a resource identifier, which uniquely identifies them. For example, for the resource type topic, the resource identity is the topic name, and for the resource type group, the resource identity is the group name.
You can view the ACLs for a specific resource using the --list
option. For
example, to view all ACLs for the topic test-topic
run the following
command:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--list --topic test-topic
Prefixed ACLs¶
You can specify ACL resources using either a LITERAL value (default), PREFIXED
pattern type, or wildcard (*
), which allows all.
If you identify the resource using LITERAL, Kafka will try to match the full
resource name (for example, topic or consumer group) with the resource specified in the
ACL. In some cases you may want to use an asterisk (*
) to specify all
resources.
If you identify the resource using PREFIXED, Kafka will try to match the prefix of the resource name with the resource specified in ACL.
For example, you can add an ACL for user User:kafka/kafka1.host-1.com@bigdata.com
to produce to any topic with a name that uses the prefix Test-
. You can do
this by running the following command:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:kafka/kafka1.host-1.com@bigdata.com \
--producer --topic Test- --resource-pattern-type prefixed
In the following example, a program called “BillingPublisher”, which was built
using the Kafka Java SDK, requires an ACL that allows it to write only to
topics that use the prefix billing-
:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal User:BillingPublisher \
--allow-host 198.51.100.0 --producer --topic billing- --resource-pattern-type prefixed
Be aware that you cannot use the PREFIXED resource pattern type for a topic while granting
access to all groups *
(wildcard) within a single command. Instead, split
permissions across different commands. For example, grant READ and DESCRIBE access
to the user for the prefixed topics:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal User:username --operation Read --operation Describe --topic topicprefix --resource-pattern-type prefixed
Then grant user READ access to all groups:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal User:username --operation Read --group '*'
Super Users¶
By default, if a resource has no associated ACLs, then no one is allowed to
access that resource except super users. If you want to change that behavior,
you can include the following in server.properties: allow.everyone.if.no.acl.found=true
.
Note
Use of the allow.everyone.if.no.acl.found
configuration option in production
environments is strongly discouraged.
- If you specify this option based on the assumption that you have ACLs, but then your last ACL is deleted, you essentially open up your Kafka clusters to all users.
- If you’re using this option to disable ACLs, exercise caution: if someone adds an ACL, all the users who previously had access will lose that access.
You can add super users in server.properties
(note
that the delimiter is a semicolon because SSL user names may contain a comma)
as shown here:
super.users=User:Bob;User:Alice
ACLs and Monitoring Interceptors¶
Confluent Monitoring Interceptors
produce to the _confluent-monitoring
topic by default. You can configure the
_confluent-monitoring
topic using the confluent.monitoring.interceptor.topic
attribute. Application or programmatic access to the _confluent-monitoring
topic must have WRITE and DESCRIBE access. If the _confluent-monitoring
topic
does not exist, then you must have cluster-level CREATE and DESCRIBE access to
create it. You must also have topic-level CREATE, DESCRIBE, READ, and WRITE access on
_confluent-monitoring
.
You can provide access either individually for each client principal that will use
interceptors, or using a wildcard entry for all clients. The following example
shows an ACL that grants a principal access to the _confluent-monitoring
topic:
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --topic _confluent-monitoring --allow-principal User:username --operation write --operation Describe
The Confluent Control Center principal requires READ, DESCRIBE, and CREATE access to the _confluent-monitoring
topic. Use the control-center-set-acls
script to set the appropriate
permissions for the Confluent Control Center principal to access this topic. Refer to Configure HTTP Basic Authentication with Control Center
for details.
Using ACLs¶
The examples in the following sections use bin/kafka-acls
(the Kafka Authorization management CLI)
to add, remove or list ACLs. For detailed information on the supported options, run
bin/kafka-acls --help
. Note that ACLs are stored in ZooKeeper and they are
propagated to the brokers asynchronously so there may be a delay before the
change takes effect even after the command returns.
You can also use the Kafka AdminClient API to manage ACLs.
Some of the most common ACL use cases:
- create a topic, the principal of the client will require the CREATE and DESCRIBE operations on the
Topic
orCluster
resource. - produce to a topic, the principal of the producer will require the WRITE operation on the
Topic
resource. - consume from a topic, the principal of the consumer will require the READ operation on the
Topic
andGroup
resources.
Note that to be able to create, produce, and consume, the servers need to be configured with the appropriate ACLs. The servers need authorization to update metadata (CLUSTER_ACTION) and to read from a topic (READ) for replication purposes.
ZooKeeper-based ACLs do not support use of the confluent iam acl commands, which are only used with centralized ACLs.
ACL format¶
Kafka ACLs are defined in the general format of “Principal P is [Allowed/Denied] Operation O From Host H On Resources matching ResourcePattern RP”.
Wildcards apply for any resource.
You can give topic and group wildcard access to users who have permission to access all topics and groups (for example, admin users). If you use this method, you don’t have to create a separate rule for each topic and group for the user. For example, you can use this command to grant wildcard access to Alice:
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add --allow-principal \ User:Alice --operation All --topic '*' --group '*'
Using the configuration properties file¶
If you have used the producer API, consumer API, or Streams API with Kafka
before, then you may be aware that the connectivity details to the cluster are
specified using configuration properties. While some users may recognize this
for applications developed to interact with Kafka, others may be unaware that the
administration tools that come with Kafka work in the same way, which means that
after you have the defined the configuration properties (often in a form of a
config.properties
file), either applications or tools will be able to connect
to clusters.
When you create a configuration properties file in the user home directory, any subsequent command that you issue (be sure to include the path for the configuration file) will read that file and use it to establish connectivity to the Kafka cluster. So the first thing you need to do to interact with your Kafka clusters using native Kafka tools is to generate a configuration properties file.
The --command-config
argument supplies the Confluent CLI tools with the
configuration properties that they require to connect to the Kafka cluster, in the
.properties
file format. This typically includes the security.protocol
that the cluster uses to connect, and any information necessary to authenticate
to the cluster. For example:
security.protocol=SASL_PLAINTEXT
sasl.mechanism=PLAIN
sasl.jaas.config=org.apache.kafka.common.security.plain.PlainLoginModule required \
username="alice" \
password="s3cr3t";
Adding ACLs¶
Suppose you want to add an ACL where: principals User:CN=Jane Smith,OU=Sales,O=Unknown,L=Unknown,ST=Unknown,C=Unknown
and User:CN=Bob Thomas,OU=Sales,O=Unknown,L=Unknown,ST=NY,C=Unknown
are allowed
to perform read and write operations on the topic test-topic
from IP 198.51.100.0 and
IP 198.51.100.1. You can do that by executing the following:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal "User:CN=Bob Thomas,OU=Sales,O=Unknown,L=Unknown,ST=NY,C=Unknown" \
--allow-principal "User:CN=Jane Smith,OU=Sales,O=Unknown,L=Unknown,ST=Unknown,C=Unknown" \
--allow-host 198.51.100.0 --allow-host 198.51.100.1 \
--operation Read --operation Write --topic test-topic
By default all principals that don’t have an explicit ACL allowing an operation
to access a resource are denied. In rare cases where an ACL that allows access
to all but some principal is desired, you can use the --deny-principal
and
--deny-host
options. For example, use the following command to allow all
users to Read from test-topic
but only deny User:kafka/kafka6.host-1.com@bigdata.com
from
IP 198.51.100.3:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal User:'*' --allow-host '*' --deny-principal User:kafka/kafka6.host-1.com@bigdata.com --deny-host 198.51.100.3 \
--operation Read --topic test-topic
Kafka does not support certificate revocation lists (CRLs), so you cannot revoke a client’s certificate. Hence, the only alternative is to disable the user’s access using an ACL:
kafka-acls --bootstrap-server localhost:9092 --add --deny-principal "User:CN=Bob,O=Sales" --cluster --topic '*'
Note that --allow-host
and deny-host
only support IP addresses (hostnames
are not supported). Also note that IPv6 addresses are supported, and that you
can use them in ACLs.
The examples above add ACLs to a topic by specifying --topic [topic-name]
as the resource pattern option. Similarly, one can add ACLs to a cluster by
specifying --cluster
and to a group by specifying --group [group-name]
.
In the event that you want to grant permission to all groups, you may do so by
specifying --group='*'
as shown in the following command:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add \
--allow-principal User:'*' --operation read --topic test --group '*'
You can add ACLs on prefixed resource patterns. For example, you can add an ACL
that enables users in the org unit (OU) ServiceUsers
(this org is using TLS/SSL
authentication) to produce to any topic whose name starts with Test-
. You
can do that by executing the CLI with the following options:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --add --allow-principal \
User:CN=serviceuser,OU=ServiceUsers,O=Unknown,L=Unknown,ST=Unknown,C=Unknown --producer --topic Test- --resource-pattern-type prefixed
Note that --resource-pattern-type
defaults to literal
, which only
affects resources with the exact same name or, in the case of the wildcard
resource name '*'
, a resource with any name.
Caution
The --link-id
option for kafka-acls
, available starting with Confluent Platform 7.1.0 is experimental and should not be used in production deployments.
In particular, do not use link-ID
to create ACLs. If an ACL with --link-id
is created on the source cluster, it is marked for management by the link ID,
and will not be synced to the destination, irrespective of acl.sync.filters
. Currently, Confluent Platform does not provide validation for the existence on the cluster
of link IDs created with kafka-acls
. To learn more, see Migrating ACLs from Source to Destination Cluster.
Removing ACLs¶
Removing ACLs is similar adding them, except the --remove
option should be
specified instead of --add
. To remove the ACLs added in the first example
above you can execute the following:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --remove \
--allow-principal "User:CN=Bob Thomas,OU=Sales,O=Unknown,L=Unknown,ST=NY,C=Unknown" \
--allow-principal "User:CN=Jane Smith,OU=Sales,O=Unknown,L=Unknown,ST=Unknown,C=Unknown" \
--allow-host 198.51.100.0 --allow-host 198.51.100.1 \
--operation Read --operation Write --topic test-topic
If you want to remove the ACL added to the prefixed resource pattern in the example, run the CLI with following options:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --remove \
--allow-principal User:CN=Jane Smith,OU=Sales,O=Unknown,L=Unknown,ST=Unknown,C=Unknown \
--producer --topic Test- --resource-pattern-type Prefixed
Listing ACLs¶
You can list the ACLs for a given resource by specifying the --list
option
and the resource. For example, to list all ACLs for test-topic
execute the
following:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--list --topic test-topic
However, this will only return the ACLs that have been added to this exact
resource pattern. Other ACLs can exist that affect access to the topic–for example, any
ACLs on the topic wildcard '*'
, or any ACLs on prefixed resource patterns.
You can explicitly query ACLs on the wildcard resource pattern:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --list --topic '*'
It is not necessarily possible to explicitly query for ACLs on prefixed resource
patterns that match Test-topic
because the name of such patterns may not be known.
You can list all ACLs affecting Test-topic
by using
--resource-pattern-type match
. For example:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --list --topic Test-topic --resource-pattern-type match
This command will list ACLs on all matching literal, wildcard, and prefixed resource patterns.
To view an ACL for an internal topic:
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf --list --topic __consumer_offsets
Adding or Removing a Principal as Producer or Consumer¶
The most common use cases for ACL management are adding/removing a principal as
a producer or consumer. To add user “Jane Doe” (Kerberos platform User:janedoe@bigdata.com
) as a
producer of test-topic
you can execute the following:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:janedoe@bigdata.com \
--producer --topic test-topic
To add User:janedoe@bigdata.com
as a consumer of test-topic
with group Group-1
, you can
specify the --consumer
and --group
options:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:janedoe@bigdata.com \
--consumer --topic test-topic --group Group-1
To remove a principal from a producer or consumer role, you can specify the
--remove
option.
Enabling Authorization for Idempotent and Transactional APIs¶
Producers may be configured with enable.idempotence=true
to ensure that
exactly one copy of each message is written to the stream. The principal used by
idempotent producers must be authorized to perform Write
on the
cluster.
To enable Bob to produce messages using an idempotent producer, you can execute the command:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:Bob \
--producer --topic test-topic --write --idempotent
Producers may also be configured with a non-empty transactional.id
to enable
transactional delivery with reliability semantics that span multiple producer
sessions. The principal used by transactional producers must be authorized for
Describe
and Write
operations on the configured transactional.id
.
To enable Alice to produce messages using a transactional producer with
transactional.id=test-txn
, run the command:
bin/kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:Alice \
--producer --topic test-topic --transactional-id test-txn
Creating Non-Super User ACL Administrators¶
In the event that you want a non-super user to be able to create or delete ACLs,
but not grant them the super user role, a current super user can grant another
user (referred to here as the ACL administrator) the ALTER --cluster
access
control entry (ACE), which binds an operation, in this case, “alter” to a
resource, “cluster”. After granting the ACL Administrator the ALTER --cluster
ACE, that user can create and delete ACLs for a given resource in a cluster.
kafka-acls --bootstrap-server localhost:9092 --command-config adminclient-configs.conf \
--add --allow-principal User:notSuper \
--operation ALTER --cluster
Note
- If you wish to assign
ALTER --cluster
to a group, thenGroup:groupName
is also valid; however, the Authorizer you are using must be able to handle/allow groups. - Exercise caution when assigning
ALTER --cluster
to users or groups because such users will be able to create and delete ACLs to control their own access to resources as well.
Authorization in the REST Proxy and Schema Registry¶
You may use Kafka ACLs to enforce authorization in the REST Proxy and Schema Registry. These require the REST Proxy Security Plugin and Schema Registry Security Plugin.
Debugging¶
It’s possible to run with authorizer logs in DEBUG
mode by making some
changes to the log4j.properties
file. If you’re using the default
log4j.properties
file, change the following line to DEBUG
mode instead
of WARN
:
log4j.logger.kafka.authorizer.logger=WARN, authorizerAppender
The log4j.properties
file is located in the Kafka configuration directory at
/etc/kafka/log4j.properties
. In the event that you’re using an earlier
version of Confluent Platform, or if you’re using your own log4j.properties
file, you’ll
need to add the following lines to the configuration:
log4j.appender.authorizerAppender=org.apache.log4j.DailyRollingFileAppender
log4j.appender.authorizerAppender.DatePattern='.'yyyy-MM-dd-HH
log4j.appender.authorizerAppender.File=${kafka.logs.dir}/kafka-authorizer.log
log4j.appender.authorizerAppender.layout=org.apache.log4j.PatternLayout
log4j.appender.authorizerAppender.layout.ConversionPattern=[%d] %p %m (%c)%n
log4j.logger.kafka.authorizer.logger=DEBUG, authorizerAppender
log4j.additivity.kafka.authorizer.logger=false
You’ll need to restart the broker before it will take effect. This will log
every request being authorized and its associated user name. The log is located
in $kafka_logs_dir/kafka-authorizer.log
. The location of the logs depends on
the packaging format - kafka_logs_dir
will be in /var/log/kafka
in
rpm/debian
and $base_dir/logs
in the archive format.
Additional information¶
- Authorization using centralized ACLs
- Schema Registry ACL Authorizer
- Confluent Replicator to Confluent Cloud ACL Configurations
- Configure Authorization of ksqlDB with Kafka ACLs
- Required ACL setting for secure Kafka clusters
- Cluster Linking Authorization (ACLs)
- Configure Control Center to work with Kafka ACLs
- Confluent Platform CLI confluent iam acl
- Access Control Lists (ACLs) for Confluent Cloud