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Currently the target broker shall just utilize its own ZK client to create internal topics, which is disallowed in the bridge release. For above scenarios, non-controller broker shall just forward send a CreateTopicRequest to the controller instead and let controller take care of the rest, while waiting for the response in the mean time.

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  1. Transaction log
  2. Consumer offset topic

Routing Request Security

For older requests that need redirection, we shall create a new RPC called `Envelope` to embed the actual request. This request will be fully wrapping an older version client request, including its header, security information, actual data fields, etc. The request requires ClusterAction on CLUSTERforwarding broker will just use its own authorizer to verify the principals. When the request looks good, it will just forward the request with its own credentials, no second validation needed. The only exceptional case is the controller audit log which needs a principal name of the request, so we will add an optional tag called "PrincipalName" to the header when sending the proxy request.

Public Interfaces

Protocol Bumps

...

The CreateTopic routing change is purely inter-broker. Since the CreateTopicRequest is already handled by controller only, so no change on this side.

New Tag for Principal Name

We are also going to add a tag field to represent the original request principal name to the request header for controller audit log purpose.

Code Block
languagejava
titleRequestHander.json
{
  "type": "header",
  "name": "RequestHeader",
  // Version 0 of the RequestHeader is only used by v0 of ControlledShutdownRequest.
  //
  // Version 1 is the first version with ClientId.
  //
  // Version 2 is the first flexible version.
  "validVersions": "0-2",
  "flexibleVersions": "2+",
  "fields": [
    { "name": "RequestApiKey", "type": "int16", "versions": "0+",
      "about": "The API key of this request." },
    { "name": "RequestApiVersion", "type": "int16", "versions": "0+",
      "about": "The API version of this request." },
    { "name": "CorrelationId", "type": "int32", "versions": "0+",
      "about": "The correlation ID of this request." },
    ...
    // ----- new optional field ----
    { "name": "PrincipalName", "type": "string", "tag": 0, "taggedVersions": "2+", "ignorable": true,
      "about": "Optional value of the principal name when the request is redirected by a broker." },
    // ----- end new field ---------
  ]
}

...

As we discussed in the request routing section, to work with an older client, the first contacted broker need to act as a proxy to redirect the write request to the controller. To support the proxy of requests, we need to build a channel for brokers to talk directly to the controller. This part of the design is internal change only and won’t block the KIP progress.

Rejected Alternatives

  • We discussed about the possibility of immediately building a metadata topic to propagate the changes. This seems aligned with the eventual metadata quorum path, but at a cost of blocking the current API migration towards the bridge release, since the metadata quorum design is much more complicated and requires more iterations. To avoid this extra dependency on other tracks, we should go ahead and migrate existing protocols to meet the bridge release goal sooner.
  • We also had an almost complete proposal around forwarding request. Just keep it here for future reference.

...

  • Although the Envelope API provides certain privileges like data embedding and principal embedding, it creates a security hole by letting a malicious user impersonate any forwarding broker. Passing the principal around also increases the vulnerability, compared with other standard ways such as passing a verified token, but it is unfortunately not fully supported with Kafka security. So for the security concerns, we are abandoning the Envelope approach and fallback to just forward the raw admin requests.

================================================================== Attached Old Proposal  ================================================================================== 

New Envelope RPC

We are also going to add a new RPC type to wrap the original request during the forwarding. We will make corresponding changes to `ApiMessageTypeGenerator` class to recognize the new field `Header` and `ApiMessage` during the auto generation. This request will be fully wrapping an older version client request, including its header, security information, actual data fields, etc. The request requires ClusterAction on CLUSTER.

Routing Request Security

 and audit logging purpose, we proposed to add the following fields:

  1. Serialized Principal information
  2. Client host ip address
  3. Listener name
  4. Security protocol being used


Code Block
titleEnvelopeRequest.json
{
  "apiKey": N,
  "type": "request",
  "name": "EnvelopeRequest",
  "validVersions": "0",
  "flexibleVersions": "0+",
  "fields": [

New Envelope RPC

We are also going to add a new RPC type to wrap the original request during the forwarding. We will make corresponding changes to `ApiMessageTypeGenerator` class to recognize the new field `Header` and `ApiMessage` during the auto generation. And for authentication and audit logging purpose, we proposed to add the following fields:

  1. Serialized Principal information
  2. Client host ip address
  3. Listener name
  4. Security protocol being used
Code Block
titleEnvelopeRequest.json
{
  "apiKey": N,
  "type": "request",
  "name": "EnvelopeRequest",
  "validVersions": "0",
  "flexibleVersions": "0+",
  "fields": [
    { "name": "RequestHeader", "type": "Header", "versions": "0+",
      "about": "The embedded request header." },
	{ "name": "RequestData", "type": "ApiMessage", "versions": "0+",
      "about": "The embedded request data."},
	{ "name": "PrincipalInfo", "type": "bytes", "versions": "0+",
      "about": "The serialized principal information."},	
    { "name": "ClientHostIP", "type": "string", "versions": "0+"}, 
    { "name": "ListenerNameRequestHeader", "type": "stringHeader", "versions": "0+"},
    {  "nameabout": "SecurityProtocol", "type": "stringThe embedded request header." },
	{ "name": "RequestData", "type": "ApiMessage", "versions": "0+"}
  ]
}

EnvelopeRequest Handling

When receiving an EnvelopeRequest, the broker shall authorize the request with forwarding broker's principal. If the outer request is verified, the broker will continue to unwrap the inner request and handle it as normal, which means it would continue performing authorization for the inner layer principal. For KIP-590 scope, the possible top error codes are:

  • NOT_CONTROLLER as we are only forwarding admin write requests.
  • CLUSTER_AUTHORIZATION_FAILED if the inter-broker verification failed.

The CLUSTER authorization for EnvelopeRequest takes place during the request handling, similar to LeaderAndIsrRequest. This ensures the EnvelopeRequest is not sent from a malicious client pretending to be a fellow broker. For inner request error, it will still be embedded inside the `ResponseData` struct defined in EnvelopeResponse below.

Code Block
titleEnvelopeResponse.json
{
  // Possible top level error code:
  //
  // NOT_CONTROLLER
  // CLUSTER_AUTHORIZATION_FAILED
  //
  "apiKey": N,
  "type": "response",
  "name": "EnvelopeResponse",
  "validVersions": "0",
  "flexibleVersions": "0+",
  "fields": [
    { "name": "ResponseHeader", "type": "Header", "versions": "0+",
      "about": "The embedded response header." },
	{ "name": "ResponseData", "type": "ApiMessage", "versions": "0+",
      "about": "The embedded response data."},
    { "name": "ErrorCode", "type": "int16", "versions": "0+",
      "about": "The error code, or 0 if there was no error." },
  ]
}

EnvelopeResponse Handling

When the response contains NOT_CONTROLLER error code, the forwarding broker will keep finding the correct controller until request eventually times out. For CLUSTER_AUTHORIZATION_FAILED, this indicates an internal error for broker security setup which has nothing to do with the client, so we have no other way but returning an UNKNOWN_SERVER_ERROR to the admin client. 

For whatever result the controller replies to the inner request, the forwarding broker won't check. As long as the top level has no error, the forwarding broker will claim the request to be successful and reply the inner response to the admin client for the rest of error handling.

KafkaPrincipal Serialization

We shall also bring in a backward-incompatible change to add serializability to the KafkaPrincipalBuilder class:

Code Block
titleKafkaPrincipalBuilder.java
public interface KafkaPrincipalBuilder {
    ...
	ByteBuffer serialize();

	KafkaPrincipal deserialize(ByteBuffer serializedPrincipal);
}

which requires a non-default implementation to ensure the principal information gets properly compacted into the forwarding request.

Compatibility Breakage

The KafkaPrincipal builder serializability is a binary incompatible change stated in the KIP. For the smooth rollout of this KIP, we will defer this part of the implementation until we hit next major incompatible release, i.e Apache Kafka 3.0. This means we will breakdown the effort as:

...

  1. Get new admin client forwarding changes
  2. Get the Envelope RPC implementation
  3. Get the forwarding path working and validate the function with fake principals in testing environment, without actual triggering in the production system
,
      "about": "The embedded request data."},
	{ "name": "PrincipalInfo", "type": "bytes", "versions": "0+",
      "about": "The serialized principal information."},	
    { "name": "ClientHostIP", "type": "string", "versions": "0+"}, 
    { "name": "ListenerName", "type": "string", "versions": "0+"},
    { "name": "SecurityProtocol", "type": "string", "versions": "0+"}
  ]
}

EnvelopeRequest Handling

When receiving an EnvelopeRequest, the broker shall authorize the request with forwarding broker's principal. If the outer request is verified, the broker will continue to unwrap the inner request and handle it as normal, which means it would continue performing authorization for the inner layer principal. For KIP-590 scope, the possible top error codes are:

  • NOT_CONTROLLER as we are only forwarding admin write requests.
  • CLUSTER_AUTHORIZATION_FAILED if the inter-broker verification failed.

The CLUSTER authorization for EnvelopeRequest takes place during the request handling, similar to LeaderAndIsrRequest. This ensures the EnvelopeRequest is not sent from a malicious client pretending to be a fellow broker. For inner request error, it will still be embedded inside the `ResponseData` struct defined in EnvelopeResponse below.

Code Block
titleEnvelopeResponse.json
{
  // Possible top level error code:
  //
  // NOT_CONTROLLER
  // CLUSTER_AUTHORIZATION_FAILED
  //
  "apiKey": N,
  "type": "response",
  "name": "EnvelopeResponse",
  "validVersions": "0",
  "flexibleVersions": "0+",
  "fields": [
    { "name": "ResponseHeader", "type": "Header", "versions": "0+",
      "about": "The embedded response header." },
	{ "name": "ResponseData", "type": "ApiMessage", "versions": "0+",
      "about": "The embedded response data."},
    { "name": "ErrorCode", "type": "int16", "versions": "0+",
      "about": "The error code, or 0 if there was no error." },
  ]
}

EnvelopeResponse Handling

When the response contains NOT_CONTROLLER error code, the forwarding broker will keep finding the correct controller until request eventually times out. For CLUSTER_AUTHORIZATION_FAILED, this indicates an internal error for broker security setup which has nothing to do with the client, so we have no other way but returning an UNKNOWN_SERVER_ERROR to the admin client. 

For whatever result the controller replies to the inner request, the forwarding broker won't check. As long as the top level has no error, the forwarding broker will claim the request to be successful and reply the inner response to the admin client for the rest of error handling.

KafkaPrincipal Serialization

We shall also bring in a backward-incompatible change to add serializability to the KafkaPrincipalBuilder class:

Code Block
titleKafkaPrincipalBuilder.java
public interface KafkaPrincipalBuilder {
    ...
	ByteBuffer serialize();

	KafkaPrincipal deserialize(ByteBuffer serializedPrincipal);
}

which requires a non-default implementation to ensure the principal information gets properly compacted into the forwarding request.

Compatibility Breakage

The KafkaPrincipal builder serializability is a binary incompatible change stated in the KIP. For the smooth rollout of this KIP, we will defer this part of the implementation until we hit next major incompatible release, i.e Apache Kafka 3.0. This means we will breakdown the effort as:

  1. For next 2.x release:
    1. Get new admin client forwarding changes
    2. Get the Envelope RPC implementation
    3. Get the forwarding path working and validate the function with fake principals in testing environment, without actual triggering in the production system
  2. For next 3.0 release:
    1. Introduce serializability to PrincipalBuilder
    2. Turn on forwarding path in production and perform end-to-end testing

================================================================== End Old Proposal  ================================================================================== 

...

Future Works

We have also discussed about migrating the metadata read path to controller-only for read-after-write consistency. This sounds like a nice improvement but needs more discussions on trade-offs between overloading controller and the metadata consistency, also the progress of Raft quorum design as well.

...