go-jose_project CVE 脆弱性と CVE 一覧(5)

製品(CPE): — CVE 件数: 5

go-jose_project 脆弱性概要

go-jose_project 関連製品全体の CVE とセキュリティ脆弱性情報を集約し、CVSS、EPSS、公開日、脆弱性情報データを掲載しています。

一般的な弱点パターンには バッファオーバーフロー and vendor risk integer handling があり、vendor surface production workloads and vendor surface software deployment の利用場面で アプリケーションクラッシュ and vendor impact memory corruption などのリスクが生じる可能性があります。

掲載データは公開脆弱性情報とセキュリティ公告に基づき、過去の暴露面と修補優先度の評価に利用できます。

脆弱性分布の推移(直近24か月)

表示中 15 / 5 CVE 件数
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CVE 概要 ソース CVSS 最大値 EPSS(%) 公開 更新
CVE-2026-34986 Go JOSE provides an implementation of the Javascript Object Signing and Encryption set of standards in Go, including support for JSON Web Encryption (JWE), JSON Web Signature (JWS), and JSON Web Token (JWT) standards. Prior to 4.1.4 and 3.0.5, decrypting a JSON Web Encryption (JWE) object will panic if the alg field indicates a key wrapping algorithm (one ending in KW, with the exception of A128GCMKW, A192GCMKW, and A256GCMKW) and the encrypted_key field is empty. The panic happens when cipher.K [email protected] 7.5 0.65% 2026-04-06 2026-07-10
CVE-2024-28180 Package jose aims to provide an implementation of the Javascript Object Signing and Encryption set of standards. An attacker could send a JWE containing compressed data that used large amounts of memory and CPU when decompressed by Decrypt or DecryptMulti. Those functions now return an error if the decompressed data would exceed 250kB or 10x the compressed size (whichever is larger). This vulnerability has been patched in versions 4.0.1, 3.0.3 and 2.6.3. [email protected] 4.3 1.96% 2024-03-08 2026-06-17
CVE-2016-9123 go-jose before 1.0.5 suffers from a CBC-HMAC integer overflow on 32-bit architectures. An integer overflow could lead to authentication bypass for CBC-HMAC encrypted ciphertexts on 32-bit architectures. [email protected] 7.5 2.15% 2017-03-27 2026-06-16
CVE-2016-9122 go-jose before 1.0.4 suffers from multiple signatures exploitation. The go-jose library supports messages with multiple signatures. However, when validating a signed message the API did not indicate which signature was valid, which could potentially lead to confusion. For example, users of the library might mistakenly read protected header values from an attached signature that was different from the one originally validated. [email protected] 7.5 1.97% 2017-03-27 2026-06-16
CVE-2016-9121 go-jose before 1.0.4 suffers from an invalid curve attack for the ECDH-ES algorithm. When deriving a shared key using ECDH-ES for an encrypted message, go-jose neglected to check that the received public key on a message is on the same curve as the static private key of the receiver, thus making it vulnerable to an invalid curve attack. [email protected] 9.1 1.41% 2017-03-27 2026-06-16
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