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The SignalK appstore interface allows administrators to install npm packages through a REST API endpoint. While the endpoint validates that the package name exists in the npm registry as a known plugin or webapp, the version parameter accepts arbitrary npm version specifiers including URLs. npm supports installing packages from git repositories, GitHub shorthand syntax, and HTTP/HTTPS URLs pointing to tarballs. When npm installs a package, it can automatically execute any `postinstall` script defined in `package.json`, enabling arbitrary code execution. The vulnerability exists because npm's version specifier syntax is extremely flexible, and the SignalK code passes the version parameter directly to npm without sanitization. An attacker with admin access can install a package from an attacker-controlled source containing a malicious `postinstall` script. ### Affected Code **File**: `src/interfaces/appstore.js` (lines 46-76) ```javascript app.post( [ `${SERVERROUTESPREFIX}/app...

[Note] This is a separate issue from the RCE vulnerability (State Pollution) currently being patched. While related to tokensecurity.js, it involves different endpoints and risks. ### Summary An unauthenticated information disclosure vulnerability allows any user to retrieve sensitive system information, including the full SignalK data schema, connected serial devices, and installed analyzer tools. This exposure facilitates reconnaissance for further attacks. ### Details The vulnerability stems from the fact that several sensitive API endpoints are not included in the authentication middleware's protection list in `src/tokensecurity.js`. **Vulnerable Code Analysis:** 1. **Missing Protection**: The `tokensecurity.js` file defines an array of paths that require authentication. However, the following paths defined in `src/serverroutes.ts` are missing from this list: - `/skServer/serialports` - `/skServer/availablePaths` - `/skServer/hasAnalyzer` 2. **Unrestricted Access*...

### Summary A Denial of Service (DoS) vulnerability allows an unauthenticated attacker to crash the SignalK Server by flooding the access request endpoint (`/signalk/v1/access/requests`). This causes a "JavaScript heap out of memory" error due to unbounded in-memory storage of request objects. ### Details The vulnerability is caused by a lack of rate limiting and improper memory management for incoming access requests. **Vulnerable Code Analysis:** 1. **In-Memory Storage**: In `src/requestResponse.js`, requests are stored in a simple JavaScript object: ```javascript const requests = {} ``` 2. **Unbounded Growth**: The `createRequest` function adds new requests to this object without checking the current size or count of existing requests. 3. **Infrequent Pruning**: The `pruneRequests` function, which removes old requests, runs only once every **15 minutes** (`pruneIntervalRate`). 4. **No Rate Limiting**: The endpoint `/signalk/v1/access/requests` accepts POST requests...

### Summary An unauthenticated attacker can pollute the internal state (`restoreFilePath`) of the server via the `/skServer/validateBackup` endpoint. This allows the attacker to hijack the administrator's "Restore" functionality to overwrite critical server configuration files (e.g., `security.json`, `package.json`), leading to account takeover and Remote Code Execution (RCE). ### Details The vulnerability is caused by the use of a module-level global variable `restoreFilePath` in `src/serverroutes.ts`, which is shared across all requests. **Vulnerable Code Analysis:** 1. **Global State**: `restoreFilePath` is defined at the top level of the module. ```typescript // src/serverroutes.ts let restoreFilePath: string ``` 2. **Unauthenticated State Pollution**: The `/skServer/validateBackup` endpoint updates this variable. Crucially, this endpoint **lacks authentication middleware**, allowing any user to access it. ```typescript app.post(`${SERVERROUTESPREFIX}/va...

Cybersecurity researchers have disclosed details of a persistent nine-month-long campaign that has targeted Internet of Things (IoT) devices and web applications to enroll them into a botnet known as RondoDox. As of December 2025, the activity has been observed leveraging the recently disclosed React2Shell (CVE-2025-55182, CVSS score: 10.0) flaw as an initial access vector, CloudSEK said in an

### Summary A command injection vulnerability exists in the Serverless Framework's built-in MCP server package (@serverless/mcp). This vulnerability only affects users of the experimental MCP server feature (serverless mcp), which represents less than 0.1% of Serverless Framework users. The core Serverless Framework CLI and deployment functionality are not affected. The vulnerability is caused by the unsanitized use of input parameters within a call to `child_process.exec`, enabling an attacker to inject arbitrary system commands. Successful exploitation can lead to remote code execution under the server process's privileges. The server constructs and executes shell commands using unvalidated user input directly within command-line strings. This introduces the possibility of shell metacharacter injection (`|`, `>`, `&&`, etc.). ### Details The MCP Server exposes several tools, including the `list-project`. The values of the parameter `workspaceRoots` (controlled by the user) is ...

Cybersecurity researchers have disclosed details of what appears to be a new strain of Shai Hulud on the npm registry with slight modifications from the previous wave observed last month. The npm package that embeds the novel Shai Hulud strain is "@vietmoney/react-big-calendar," which was uploaded to npm back in March 2021 by a user named "hoquocdat." It was updated for the first time on

## Vulnerability Overview ### Description RustFS implements gRPC authentication using a hardcoded static token `"rustfs rpc"` that is: 1. **Publicly exposed** in the source code repository 2. **Hardcoded** on both client and server sides 3. **Non-configurable** with no mechanism for token rotation 4. **Universally valid** across all RustFS deployments Any attacker with network access to the gRPC port can authenticate using this publicly known token and execute privileged operations including data destruction, policy manipulation, and cluster configuration changes. --- ## Vulnerable Code Analysis ### Server-Side Authentication (rustfs/src/server/http.rs:679-686) ```rust #[allow(clippy::result_large_err)] fn check_auth(req: Request<()>) -> std::result::Result<Request<()>, Status> { let token: MetadataValue<_> = "rustfs rpc".parse().unwrap(); // ⚠️ HARDCODED! match req.metadata().get("authorization") { Some(t) if token == t => Ok(req), _ => Err(Status::una...

### Summary The `arrayLimit` option in qs does not enforce limits for bracket notation (`a[]=1&a[]=2`), allowing attackers to cause denial-of-service via memory exhaustion. Applications using `arrayLimit` for DoS protection are vulnerable. ### Details The `arrayLimit` option only checks limits for indexed notation (`a[0]=1&a[1]=2`) but completely bypasses it for bracket notation (`a[]=1&a[]=2`). **Vulnerable code** (`lib/parse.js:159-162`): ```javascript if (root === '[]' && options.parseArrays) { obj = utils.combine([], leaf); // No arrayLimit check } ``` **Working code** (`lib/parse.js:175`): ```javascript else if (index <= options.arrayLimit) { // Limit checked here obj = []; obj[index] = leaf; } ``` The bracket notation handler at line 159 uses `utils.combine([], leaf)` without validating against `options.arrayLimit`, while indexed notation at line 175 checks `index <= options.arrayLimit` before creating arrays. ### PoC **Test 1 - Basic bypass:** ```bash npm i...

### Summary The callback and **jsonp** request parameters are directly concatenated into the response without any sanitization that allowing attackers to inject arbitrary JS code. When **YOURLS_PRIVATE** is set to **false** (public API mode), this vulnerability can be exploited by any unauthenticated attacker. In private mode, the XSS payload is still injected into the 403 response body though browser execution is blocked. ### Details Vulnerability exists in the JSONP callback handling chain: ``` yourls-api.php:127-128 if( isset( $_REQUEST['callback'] ) ) $return['callback'] = $_REQUEST['callback']; elseif ( isset( $_REQUEST['jsonp'] ) ) $return['callback'] = $_REQUEST['jsonp']; ``` --- ``` includes/functions-api.php:127-128 $callback = isset( $output['callback'] ) ? $output['callback'] : ''; $result = $callback . '(' . json_encode( $output ) . ')'; ``` ### PoC I. YOURLS instance with YOURLS_PRIVATE set to false in config.php or user authenticated to a private YOURLS...