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### Description An input-validation flaw in the returnTo parameter in the Auth0 Next.js SDK could allow attackers to inject unintended OAuth query parameters into the Auth0 authorization request. Successful exploitation may result in tokens being issued with unintended parameters ### Am I Affected? You are affected if you meet the following preconditions: - Applications using the auth0/nextjs-auth0 SDK version prior to 4.13.0 ### Affected product and versions Auth0/nextjs-auth0 versions >= 4.9.0 and < 4.13.0 ### Resolution Upgrade Auth0/nextjs-auth0 version to v4.13.0 ### Acknowledgements Okta would like to thank Joshua Rogers (MegaManSec) for their discovery and responsible disclosure.

### Description When using affected versions of the Next.js SDK, simultaneous requests on the same client may result in improper lookups in the TokenRequestCache for the request results. ### Am I Affected? You are affected if you meet the following preconditions: - Applications using the auth0/nextjs-auth0 SDK with a singleton client instance, versions 4.11.0, 4.11.1, and 4.12.0. ### Affected product and versions Auth0/nextjs-auth0 v4.11.0, v4.11.1, and v4.12.0. ### Resolution Upgrade Auth0/nextjs-auth0 version to v4.11.2 or v4.12.1 ### Acknowledgements Okta would like to thank Joshua Rogers for their discovery and responsible disclosure.

React2Shell continues to witness heavy exploitation, with threat actors leveraging the maximum-severity security flaw in React Server Components (RSC) to deliver cryptocurrency miners and an array of previously undocumented malware families, according to new findings from Huntress. This includes a Linux backdoor called PeerBlight, a reverse proxy tunnel named CowTunnel, and a Go-based

Sysdig discovered North Korea-linked EtherRAT, a stealthy new backdoor using Ethereum smart contracts for C2 after exploiting the critical React2Shell vulnerability (CVE-2025-55182).

# Context A SQL injection vulnerability exists in LangGraph's SQLite checkpoint implementation that allows attackers to manipulate SQL queries through metadata filter keys. This affects applications that accept **untrusted metadata filter keys** (not just filter values) in checkpoint search operations. # Impact Attackers who control metadata filter keys can execute arbitrary sql queries against the database. # Root Cause The `_metadata_predicate()` function constructs SQL queries by interpolating filter keys directly into f-strings without validation: ```python # VULNERABLE CODE (before fix) for query_key, query_value in metadata_filter.items(): operator, param_value = _where_value(query_value) predicates.append( f"json_extract(CAST(metadata AS TEXT), '$.{query_key}') {operator}" ) param_values.append(param_value) ``` While filter **values** are parameterized, filter **keys** are not validated, allowing SQL injection. # Attack Example **Before Fix:** ``...

Ad fraud networks use bots, deepfakes and spoofed traffic to drain PPC budgets. This report shows how fake clicks distort performance data.

Threat actors with ties to North Korea have likely become the latest to exploit the recently disclosed critical security React2Shell flaw in React Server Components (RSC) to deliver a previously undocumented remote access trojan dubbed EtherRAT. "EtherRAT leverages Ethereum smart contracts for command-and-control (C2) resolution, deploys five independent Linux persistence mechanisms, and

Arbitrary code execution from cookie config. If dynamic cookies are enabled (ie there exists a schema for cookies), the cookie config is injected into the compiled route without first being sanitised. Availability of this exploit is generally low, as it requires write access to either the Elysia app's source code (in which case the vulnerability is meaningless) or write access to the cookie config (perhaps where it is assumed to be provisioned by the environment). However when combined with GHSA-hxj9-33pp-j2cc, this vulnerability allows for a full RCE chain. ### Impact - aot enabled (default) - cookie schema passed to route - Cookie config controllable eg. via env Example of vulnerable code ```js new Elysia({ cookie: { secrets: `' + console.log('pwned from secrets') + '` }, }) .get("/", () => "hello world", { cookie: t.Cookie({ foo: t.Any(), }), }) ``` POC: https://github.com/sportshead/elysia-poc ### Patches Patched by 1.4.17 (https://github.com/elysiajs/elysia/pul...

Prototype pollution vulnerability in `mergeDeep` after merging results of two standard schema validations with the same key. Due to the ordering of merging, there must be an `any` type that is set as a `standalone` guard, to allow for the `__proto__` prop to be merged. When combined with GHSA-8vch-m3f4-q8jf this allows for a full RCE by an attacker. ### Impact Routes with more than 2 standalone schema validation, eg. zod Example vulnerable code: ```typescript import { Elysia } from "elysia" import * as z from "zod" const app = new Elysia() .guard({ schema: "standalone", body: z.object({ data: z.any() }) }) .post("/", ({ body }) => ({ body, win: {}.foo }), { body: z.object({ data: z.object({ messageId: z.string("pollute-me"), }) }) }) ``` ### Patches Patched by 1.4.17 (https://github.com/elysiajs/elysia/pull/1564) Reference commit: - https://github.com/elysiajs/elysia/pull/1564/commits/26935bf76ebc43b4a43d48b173fc853de43bb51e - https://github.com/elysiaj...

View CSAF 1. EXECUTIVE SUMMARY CVSS v3 6.1 ATTENTION: Exploitable remotely/low attack complexity Vendor: Festo SE & Co. KG Equipment: LX Appliance Vulnerability: Cross-site Scripting 2. RISK EVALUATION Successful exploitation of this vulnerability could allow a user of LX Appliance with a high privilege account to craft a malicious course and launch an XSS attack. 3. TECHNICAL DETAILS 3.1 AFFECTED PRODUCTS Festo reports that the following products are affected: Festo Software LX Appliance: Versions prior to June 2023 3.2 VULNERABILITY OVERVIEW 3.2.1 IMPROPER NEUTRALIZATION OF INPUT DURING WEB PAGE GENERATION ('CROSS-SITE SCRIPTING') CWE-79 The "src" attribute of the "track" tag allows a malicious user to bypass HTML escaping and execute arbitrary code. This affects the package video.js before 7.14.3. CVE-2021-23414 has been assigned to this vulnerability. A CVSS v3.1 base score of 6.1 has been calculated; the CVSS vector string is (CVSS:3.1/AV:N/AC:L/PR:N/UI:R/S:C/C:L/I:L/A:N). 3.3 BAC...