汇总 - 相关全部产品的 CVE 与安全漏洞情报,包括 CVSS、EPSS、公开时间与漏洞情报数据。
常见弱点模式包括 路径处理缺陷,在 软件部署与生产负载 使用场景中可能带来 文件覆盖 等风险。
相关漏洞数据主要来源于公开漏洞披露与安全公告,可用于评估历史漏洞暴露面与修复优先级。
| CVE | 摘要 | 来源 | 最高 CVSS | EPSS % | 公开时间 | 更新时间 |
|---|---|---|---|---|---|---|
| CVE-2017-13097 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including modification of Rights Block to remove or relax license requirement. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to obtain plaintext intelle | [email protected] | 7.8 | 0.46% | 2018-07-13 | 2026-06-16 |
| CVE-2017-13096 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including modification of Rights Block to remove or relax access control. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to obtain plaintext intellectual | [email protected] | 7.8 | 0.46% | 2018-07-13 | 2026-06-16 |
| CVE-2017-13095 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including modification of a license-deny response to a license grant. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to obtain plaintext intellectual pro | [email protected] | 7.8 | 0.46% | 2018-07-13 | 2026-06-16 |
| CVE-2017-13094 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including modification of the encryption key and insertion of hardware trojans in any IP. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to obtain plaint | [email protected] | 7.8 | 0.27% | 2018-07-13 | 2026-06-16 |
| CVE-2017-13093 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including modification of encrypted IP cyphertext to insert hardware trojans. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to obtain plaintext intellec | [email protected] | 7.8 | 0.46% | 2018-07-13 | 2026-06-16 |
| CVE-2017-13092 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including improperly specified HDL syntax allows use of an EDA tool as a decryption oracle. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to obtain plai | [email protected] | 7.8 | 0.46% | 2018-07-13 | 2026-06-16 |
| CVE-2017-13091 | The P1735 IEEE standard describes flawed methods for encrypting electronic-design intellectual property (IP), as well as the management of access rights for such IP, including improperly specified padding in CBC mode allows use of an EDA tool as a decryption oracle. The methods are flawed and, in the most egregious cases, enable attack vectors that allow recovery of the entire underlying plaintext IP. Implementations of IEEE P1735 may be weak to cryptographic attacks that allow an attacker to ob | [email protected] | 7.8 | 0.46% | 2018-07-13 | 2026-06-16 |
| CVE-2017-11635 | An issue was discovered on Wireless IP Camera 360 devices. Attackers can read recordings by navigating to /mnt/idea0 or /mnt/idea1 on the SD memory card. | [email protected] | 7.5 | 1.21% | 2018-02-26 | 2026-06-16 |
| CVE-2017-11634 | An issue was discovered on Wireless IP Camera 360 devices. Remote attackers can discover a weakly encoded admin password by connecting to TCP port 9527 and reading the password field of the debugging information, e.g., nTBCS19C corresponds to a password of 123456. | [email protected] | 9.8 | 2.40% | 2018-02-26 | 2026-06-16 |
| CVE-2017-11633 | An issue was discovered on Wireless IP Camera 360 devices. Remote attackers can discover RTSP credentials by connecting to TCP port 9527 and reading the InsertConnect field. | [email protected] | 7.5 | 1.45% | 2018-02-26 | 2026-06-16 |
| CVE-2017-11632 | An issue was discovered on Wireless IP Camera 360 devices. A root account with a known SHA-512 password hash exists, which makes it easier for remote attackers to obtain administrative access via a TELNET session. | [email protected] | 9.8 | 2.46% | 2018-02-26 | 2026-06-16 |