VARIoT IoT vulnerabilities database

An issue was discovered in certain Apple products. iOS before 10.1 is affected. macOS before 10.12.1 is affected. tvOS before 10.0.1 is affected. watchOS before 3.1 is affected. watchOS before 3.1.3 is affected. The issue involves the "FontParser" component. It allows remote attackers to execute arbitrary code or cause a denial of service (buffer overflow and application crash) via a crafted font. Apple iOS/macOS/tvOS and watchOS are prone to a buffer-overflow vulnerability because they fail to adequately bounds-check user-supplied data before copying it to an insufficiently sized memory buffer. Failed exploit attempts will result in denial-of-service conditions. Apple iOS, watchOS, macOS, and tvOS are all products of the American company Apple (Apple). Apple iOS is an operating system developed for mobile devices; watchOS is an operating system for smart watches. FontParser is one of the font parsing components. The following products and versions are affected: Apple iOS prior to 10.1; macOS prior to 10.12.1; tvOS prior to 10.0.1; watchOS prior to 3.1. CVE-2016-1777: Pepi Zawodsky OpenPAM Available for: macOS Sierra 10.12.1 Impact: A local unprivileged user may gain access to privileged applications Description: PAM authentication within sandboxed applications failed insecurely. CVE-2017-2363: lokihardt of Google Project Zero Installation note: Instructions on how to update your Apple Watch software are available at https://support.apple.com/kb/HT204641 To check the version on your Apple Watch, open the Apple Watch app on your iPhone and select "My Watch > General > About". Alternatively, on your watch, select "My Watch > General > About". -----BEGIN PGP SIGNED MESSAGE----- Hash: SHA512 APPLE-SA-2016-12-13-5 Additional information for APPLE-SA-2016-12-12-1 iOS 10.2 iOS 10.2 addresses the following: Accessibility Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A nearby user may be able to overhear spoken passwords Description: A disclosure issue existed in the handling of passwords. This issue was addressed by disabling the speaking of passwords. CVE-2016-7634: Davut Hari Accessibility Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A person with physical access to an iOS device may be able to access photos and contacts from the lock screen Description: A lock screen issue allowed access to photos and contacts on a locked device. This issue was addressed by restricting options offered on a locked device. CVE-2016-7664: Miguel Alvarado of iDeviceHelp Accounts Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An issue existed which did not reset the authorization settings on app uninstall Description: This issue was addressed through improved sanitization. CVE-2016-7651: Ju Zhu and Lilang Wu of Trend Micro Audio Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing a maliciously crafted file may lead to arbitrary code execution Description: A memory corruption issue was addressed through improved input validation. CVE-2016-7658: Haohao Kong of Keen Lab (@keen_lab) of Tencent CVE-2016-7659: Haohao Kong of Keen Lab (@keen_lab) of Tencent Entry added December 13, 2016 CoreFoundation Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing malicious strings may lead to an unexpected application termination or arbitrary code execution Description: A memory corruption issue existed in the processing of strings. This issue was addressed through improved bounds checking. CVE-2016-7663: an anonymous researcher Entry added December 13, 2016 CoreGraphics Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing a maliciously crafted font file may lead to unexpected application termination Description: A null pointer dereference was addressed through improved input validation. CVE-2016-7627: TRAPMINE Inc. & Meysam Firouzi @R00tkitSMM Entry added December 13, 2016 CoreMedia External Displays Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local application may be able to execute arbitrary code in the context of the mediaserver daemon Description: A type confusion issue was addressed through improved memory handling. CVE-2016-7655: Keen Lab working with Trend Micro's Zero Day Initiative Entry added December 13, 2016 CoreMedia Playback Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing a maliciously crafted .mp4 file may lead to arbitrary code execution Description: A memory corruption issue was addressed through improved memory handling. CVE-2016-7588: dragonltx of Huawei 2012 Laboratories Entry added December 13, 2016 CoreText Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing a maliciously crafted font file may lead to arbitrary code execution Description: Multiple memory corruption issues existed in the handling of font files. These issues were addressed through improved bounds checking. CVE-2016-7595: riusksk(ae3aY=) of Tencent Security Platform Department Entry added December 13, 2016 Disk Images Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An application may be able to execute arbitrary code with kernel privileges Description: A memory corruption issue was addressed through improved input validation. CVE-2016-7616: daybreaker@Minionz working with Trend Micro's Zero Day Initiative Entry added December 13, 2016 Find My iPhone Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An attacker with an unlocked device may be able to disable Find My iPhone Description: A state management issue existed in the handling of authentication information. This issue was addressed through improved storage of account information. CVE-2016-7638: an anonymous researcher, Sezer Sakiner FontParser Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing a maliciously crafted font file may lead to arbitrary code execution Description: Multiple memory corruption issues existed in the handling of font files. These issues were addressed through improved bounds checking. CVE-2016-4691: riusksk(ae3aY=) of Tencent Security Platform Department Entry added December 13, 2016 FontParser Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing a maliciously crafted font file may lead to arbitrary code execution Description: A buffer overflow existed in the handling of font files. This issue was addressed through improved bounds checking. CVE-2016-4688: Simon Huang of Alipay company, thelongestusernameofall@gmail.com Entry added December 13, 2016 Graphics Driver Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Watching a maliciously crafted video may lead to a denial of service Description: A denial of service issue existed in the handling of video. This issue was addressed through improved input validation. CVE-2016-7665: Moataz El Gaml of Schlumberger ICU Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may lead to arbitrary code execution Description: A memory corruption issue was addressed through improved memory handling. CVE-2016-7594: AndrA(c) Bargull Entry added December 13, 2016 Image Capture Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A malicious HID device may be able to cause arbitrary code execution Description: A validation issue existed in the handling of USB image devices. This issue was addressed through improved input validation. CVE-2016-4690: Andy Davis of NCC Group ImageIO Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A remote attacker may be able to leak memory Description: An out-of-bounds read was addressed through improved bounds checking. CVE-2016-7643: Yangkang (@dnpushme) of Qihoo360 Qex Team Entry added December 13, 2016 IOHIDFamily Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local application with system privileges may be able to execute arbitrary code with kernel privileges Description: A use after free issue was addressed through improved memory management. CVE-2016-7591: daybreaker of Minionz Entry added December 13, 2016 IOKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An application may be able to read kernel memory Description: A memory corruption issue was addressed through improved input validation. CVE-2016-7657: Keen Lab working with Trend Micro's Zero Day Initiative Entry added December 13, 2016 Kernel Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An application may be able to execute arbitrary code with kernel privileges Description: Multiple memory corruption issues were addressed through improved input validation. CVE-2016-7606: @cocoahuke, Chen Qin of Topsec Alpha Team (topsec.com) CVE-2016-7612: Ian Beer of Google Project Zero Entry added December 13, 2016 Kernel Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An application may be able to read kernel memory Description: An insufficient initialization issue was addressed by properly initializing memory returned to user space. CVE-2016-7607: Brandon Azad Entry added December 13, 2016 Kernel Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local user may be able to cause a system denial of service Description: A denial of service issue was addressed through improved memory handling. CVE-2016-7615: The UK's National Cyber Security Centre (NCSC) Entry added December 13, 2016 Kernel Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local user may be able to cause an unexpected system termination or arbitrary code execution in the kernel Description: A use after free issue was addressed through improved memory management. CVE-2016-7621: Ian Beer of Google Project Zero Entry added December 13, 2016 Kernel Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local user may be able to gain root privileges Description: A memory corruption issue was addressed through improved input validation. CVE-2016-7637: Ian Beer of Google Project Zero Entry added December 13, 2016 Kernel Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local application with system privileges may be able to execute arbitrary code with kernel privileges Description: A use after free issue was addressed through improved memory management. CVE-2016-7644: Ian Beer of Google Project Zero Entry added December 13, 2016 libarchive Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local attacker may be able to overwrite existing files Description: A validation issue existed in the handling of symlinks. This issue was addressed through improved validation of symlinks. CVE-2016-7619: an anonymous researcher Entry added December 13, 2016 Local Authentication Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: The device may not lock the screen after the idle timeout Description: A logic issue existed in the handling of the idle timer when the Touch ID prompt is shown. This issue was addressed through improved handling of the idle timer. CVE-2016-7601: an anonymous researcher Mail Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An email signed with a revoked certificate may appear valid Description: S/MIME policy failed to check if a certificate was valid. This issue was addressed by notifying a user if an email was signed with a revoked certificate. CVE-2016-4689: an anonymous researcher Media Player Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A user may be able to view photos and contacts from the lockscreen Description: A validation issue existed in the handling of media selection. This issue was addressed through improved validation. CVE-2016-7653 Power Management Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local user may be able to gain root privileges Description: An issue in mach port name references was addressed through improved validation. CVE-2016-7661: Ian Beer of Google Project Zero Entry added December 13, 2016 Profiles Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Opening a maliciously crafted certificate may lead to arbitrary code execution Description: A memory corruption issue existed in the handling of certificate profiles. This issue was addressed through improved input validation. CVE-2016-7626: Maksymilian Arciemowicz (cxsecurity.com) Safari Reader Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Enabling the Safari Reader feature on a maliciously crafted webpage may lead to universal cross site scripting Description: Multiple validation issues were addressed through improved input sanitization. CVE-2016-7650: Erling Ellingsen Entry added December 13, 2016 Security Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An attacker may be able to exploit weaknesses in the 3DES cryptographic algorithm Description: 3DES was removed as a default cipher. CVE-2016-4693: GaA<<tan Leurent and Karthikeyan Bhargavan from INRIA Paris Entry added December 13, 2016 Security Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: An attacker in a privileged network position may be able to cause a denial of service Description: A validation issue existed in the handling of OCSP responder URLs. This issue was addressed by verifying OCSP revocation status after CA validation and limiting the number of OCSP requests per certificate. CVE-2016-7636: Maksymilian Arciemowicz (cxsecurity.com) Entry added December 13, 2016 Security Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Certificates may be unexpectedly evaluated as trusted Description: A certificate evaluation issue existed in certificate validation. This issue was addressed through additional validation of certificates. CVE-2016-7662: Apple Entry added December 13, 2016 SpringBoard Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A person with physical access to an iOS device may be able to unlock the device Description: In some cases, a counter issue existed in the handling of passcode attempts when resetting the passcode. This was addressed through improved state management. CVE-2016-4781: an anonymous researcher SpringBoard Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A person with physical access to an iOS device may be able to keep the device unlocked Description: A cleanup issue existed in the handling of Handoff with Siri. This was addressed through improved state management. CVE-2016-7597: an anonymous researcher syslog Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: A local user may be able to gain root privileges Description: An issue in mach port name references was addressed through improved validation. CVE-2016-7660: Ian Beer of Google Project Zero Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may lead to arbitrary code execution Description: Multiple memory corruption issues were addressed through improved memory handling. CVE-2016-4692: Apple CVE-2016-7635: Apple CVE-2016-7652: Apple Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may result in the disclosure of process memory Description: A memory corruption issue was addressed through improved input validation. CVE-2016-4743: Alan Cutter Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may result in the disclosure of user information Description: A validation issue was addressed through improved state management. CVE-2016-7586: Boris Zbarsky Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may lead to arbitrary code execution Description: Multiple memory corruption issues were addressed through improved state management. CVE-2016-7587: Adam Klein CVE-2016-7610: Zheng Huang of the Baidu Security Lab working with Trend Micro's Zero Day Initiative CVE-2016-7611: an anonymous researcher working with Trend Micro's Zero Day Initiative CVE-2016-7639: Tongbo Luo of Palo Alto Networks CVE-2016-7640: Kai Kang of Tencent's Xuanwu Lab (tencent.com) CVE-2016-7641: Kai Kang of Tencent's Xuanwu Lab (tencent.com) CVE-2016-7642: Tongbo Luo of Palo Alto Networks CVE-2016-7645: Kai Kang of Tencent's Xuanwu Lab (tencent.com) CVE-2016-7646: Kai Kang of Tencent's Xuanwu Lab (tencent.com) CVE-2016-7648: Kai Kang of Tencent's Xuanwu Lab (tencent.com) CVE-2016-7649: Kai Kang of Tencent's Xuanwu Lab (tencent.com) CVE-2016-7654: Keen Lab working with Trend Micro's Zero Day Initiative Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may lead to arbitrary code execution Description: A memory corruption issue was addressed through improved state management. CVE-2016-7589: Apple CVE-2016-7656: Keen Lab working with Trend Micro's Zero Day Initiative Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may compromise user information Description: An issue existed in handling of JavaScript prompts. This was addressed through improved state management. CVE-2016-7592: xisigr of Tencent's Xuanwu Lab (tencent.com) Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may result in the disclosure of process memory Description: An uninitialized memory access issue was addressed through improved memory initialization. CVE-2016-7598: Samuel GroA Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Processing maliciously crafted web content may result in the disclosure of user information Description: An issue existed in the handling of HTTP redirects. This issue was addressed through improved cross origin validation. CVE-2016-7599: Muneaki Nishimura (nishimunea) of Recruit Technologies Co., Ltd. Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Visiting a maliciously crafted website may compromise user information Description: An issue existed in the handling of blob URLs. This issue was addressed through improved URL handling. CVE-2016-7623: xisigr of Tencent's Xuanwu Lab (tencent.com) Entry added December 13, 2016 WebKit Available for: iPhone 5 and later, iPad 4th generation and later, iPod touch 6th generation and later Impact: Visiting a maliciously crafted webpage may lead to an unexpected application termination or arbitrary code execution Description: A memory corruption issue was addressed through improved state management. CVE-2016-7632: Jeonghoon Shin Entry added December 13, 2016 Installation note: This update is available through iTunes and Software Update on your iOS device, and will not appear in your computer's Software Update application, or in the Apple Downloads site. Make sure you have an Internet connection and have installed the latest version of iTunes from www.apple.com/itunes/ iTunes and Software Update on the device will automatically check Apple's update server on its weekly schedule. When an update is detected, it is downloaded and the option to be installed is presented to the user when the iOS device is docked. We recommend applying the update immediately if possible. Selecting Don't Install will present the option the next time you connect your iOS device. The automatic update process may take up to a week depending on the day that iTunes or the device checks for updates. You may manually obtain the update via the Check for Updates button within iTunes, or the Software Update on your device. To check that the iPhone, iPod touch, or iPad has been updated: * Navigate to Settings * Select General * Select About. The version after applying this update will be "10.2". Information will also be posted to the Apple Security Updates web site: https://support.apple.com/kb/HT201222 This message is signed with Apple's Product Security PGP key, and details are available at: https://www.apple.com/support/security/pgp/ -----BEGIN PGP SIGNATURE----- Comment: GPGTools - https://gpgtools.org iQIcBAEBCgAGBQJYT7LLAAoJEIOj74w0bLRGMloP/RDTtXKaNcwG2eVfvwcJOq7r 6/xS+aoLjvcgHSn6Q4q4Ez0HFchHjflKV7lAtCe7RDEJxjQZw7/DrpoPSqtiwgpI 0RRvbgy6qmfKQxf2dmXCbDJh/sdIATmc/sF+RncvboYvi2n7AEHQwn+1Axtsag2m HcxecQdlRjoj2A9x+d0EdKNj5pbZmL/YM5jZBQimNKaF7HnCjFrK6u/Xs0cKwypH zqD7ZCyYD2gN08DJbaAFPm+JTINwi/wI3pvg+WPphbG2IAufNs0KoSv1TX/yY45F G1oiQSSCqYNKWmC4Pa03ycxMH3eywnKp4D29400n7XkG4Hs8wfXBig5QutUQWtM1 YEm6s+K2qiee+9shc4YMqMumNUA4tFCv2a4OG1sUYDZiPxkW0mWW+Y8u+u9D2ao5 z+mOGuuf4NIl3EcEcnLKLVlSIVFmsiJkPRYTSafwQ6o9kX3N6CtR2suvydm90su1 V2hbIWRia/uhrK7KUk83nOf3e5eqjzb4P7+z8TP0GwRkNST+nVXbYA3274kZ+Ik2 Z0g38tXO7F2r/QQmDswrsYP2q9T7/xpLbmNjuyGdcwqz57La4fszc4K2twEC6NEb 9drzqLyyG8fJd0MB1QqivSKLdm1wsYDd379osBQYpmSSWcZ/hkIQsB7PZ5f8vcOc 4zLHOqZUbWi1DVWViMNQ =LKqY -----END PGP SIGNATURE-----

A vulnerability in Siemens SICAM PAS (all versions before V8.09) could allow a remote attacker to upload, download, or delete files in certain parts of the file system by sending specially crafted packets to port 19235/TCP. SICAMPAS is an energy automation solution for substation equipment operation. It has an open communication interface to meet the control requirements of power system control and industrial power supply equipment. SIEMENSSICAMPAS has a security bypass vulnerability. Siemens SICAM PAS is prone to following security vulnerabilities: 1. 2. 3. Attackers can exploit these issues to bypass the authentication mechanism or retrieve or delete arbitrary files, which may aid in further attacks. Failed exploit attempts may result in a denial-of-service condition. Siemens SICAM PAS is a set of energy automation software for operating substations from Siemens, Germany

A vulnerability in Siemens SICAM PAS (all versions before V8.09) could allow a remote attacker to cause a Denial of Service condition and potentially lead to unauthenticated remote code execution by sending specially crafted packets to port 19234/TCP. SICAMPAS is an energy automation solution for substation equipment operation. It has an open communication interface to meet the control requirements of power system control and industrial power supply equipment. SIEMENSSICAMPAS has a denial of service vulnerability. Siemens SICAM PAS is prone to following security vulnerabilities: 1. 2. 3. Attackers can exploit these issues to bypass the authentication mechanism or retrieve or delete arbitrary files, which may aid in further attacks. Failed exploit attempts may result in a denial-of-service condition. Siemens SICAM PAS is a set of energy automation software for operating substations from Siemens, Germany

An issue was discovered in Siemens SICAM PAS before 8.00. Because of Storing Passwords in a Recoverable Format, an authenticated local attacker with certain privileges could possibly reconstruct the passwords of users for accessing the database. SICAMPAS is an energy automation solution for substation equipment operation. It has an open communication interface to meet the control requirements of power system control and industrial power supply equipment. SIEMENSSICAMPAS has a local security bypass vulnerability. Siemens SICAM PAS products are prone to a local security-bypass vulnerability. Other attacks are also possible. Siemens SICAM PAS is a set of energy automation software for operating substations from Siemens, Germany. There are arbitrary file upload vulnerabilities, security bypass vulnerabilities and denial of service vulnerabilities in Siemens SICAM PAS. An attacker could exploit these vulnerabilities to bypass authentication mechanisms or delete arbitrary files

An issue was discovered in Siemens SICAM PAS before 8.00. A factory account with hard-coded passwords is present in the SICAM PAS installations. Attackers might gain privileged access to the database over Port 2638/TCP. SICAM PAS is an energy automation solution for substation equipment operation. It has an open communication interface to meet the control requirements of power system control and industrial power supply equipment. There are arbitrary file access vulnerabilities in SIEMENS SICAM PAS. An arbitrary file-access vulnerability. 2. A security-bypass vulnerability. 3. A denial-of-service vulnerability. Attackers can exploit these issues to bypass the authentication mechanism or retrieve or delete arbitrary files, which may aid in further attacks. Failed exploit attempts may result in a denial-of-service condition

Siemens SIMATIC S7-300, 1200, 1500 CPU is a modular universal controller for the manufacturing industry of Siemens, Germany. It is widely used in important industrial control sites such as tobacco, petrochemical and water. A denial of service vulnerability exists in the Siemens SIMATIC S7-300/1200/1500 CPU. Since the Siemens S7-300, 1200, and 1500 CPUs refuse service when communicating with the ProfinetIO Layer 2 network packet of a specific configuration, the CPU enters the failure mode and needs to be manually restarted for recovery. The attacker exploits the vulnerability to directly obtain the target information through the secondary MAC broadcast to initiate a denial of service attack

The Siemens SIMATIC S7-300 CPU is a modular universal controller for the manufacturing industry from Siemens, Germany. It is widely used in important industrial control fields such as tobacco, petrochemical and water. A denial of service vulnerability exists in the Siemens SIMATIC S7-300 CPU. The Siemens SIMATIC S7-300 CPU refuses service during the communication of the specific ProfinetIO Layer 2 network packet. The CPU enters the fault mode and needs to be manually restarted for recovery. The attacker exploits the vulnerability to directly obtain the target information through the secondary MAC broadcast to initiate a denial of service attack

The security policy processing module in Huawei Secospace USG6300 with software V500R001C20SPC100, V500R001C20SPC101, V500R001C20SPC200; Secospace USG6500 with software V500R001C20SPC100, V500R001C20SPC101, V500R001C20SPC200; Secospace USG6600 with software V500R001C20SPC100, V500R001C20SPC101, V500R001C20SPC200 allows authenticated attackers to setup a specific security policy into the devices, causing a buffer overflow and crashing the system. Huawei Secospace is a terminal security management system. A buffer overflow vulnerability exists in multiple Huawei Secospace products. Because the user does not perform a boundary check on the data copied by the user, the attacker can exploit the vulnerability to restart the affected device, resulting in a denial of service condition and possibly executing arbitrary code. Attackers can exploit this issue to reboot the affected device to cause denial-of-service conditions. Due to the nature of this issue, arbitrary code execution may be possible but this has not been confirmed. Huawei Secospace USG6300 etc. are the firewalls of China Huawei (Huawei). The following products and versions are affected: Huawei Secospace USG6300 V500R001C20SPC100 Version, V500R001C20SPC101 Version, V500R001C20SPC200 Version; Secospace USG6500 USG6300 V500R001C20SPC100 Version, V500R001C20SPC101 Version, V500R001C20SPC200 Version; Secospace USG6600 V500R001C20SPC100 Version, V500R001C20SPC101 Version, V500R001C20SPC200 Version

Siemens Totally Integrated Automation Software TIA portal, Chinese name Botu, is a brand new Totally Integrated Automation software released by Siemens Industrial Automation Group, which is widely used in important industrial control sites such as tobacco, petrochemical and water affairs. There is a denial of service vulnerability in the Profinet Discovery service of Siemens host computer. Because the Profinet Discovery service in the TIA portal software of the door windows computer communicates with the ProfinetIO layer 2 network package of a specific structure, the service process will crash, and it needs to be manually restarted to recover. An attacker could exploit the vulnerability to launch a denial of service attack

Xiongmai camera video unauthorized access , Directly view camera images

Xiongmai camera has weak password in the background, allowing initial password login

Anke digital camera has weak password, allowing initial password login

Hisense camera has weak password, allowing initial password login

Hisilicon camera rtsp Video stream unauthorized access , Directly view camera images

There is a weak background password on the Asvision camera, allowing initial password login

MVPower Weak background password on camera, allowing initial password login

VSTARCAM Weak background password on camera, allowing initial password login

Tiandiweiye camera exists ftp Weak password to allow initial password login

Weak password exists on Lakodi camera, allowing initial password login

The TrustZone driver in Huawei P9 phones with software Versions earlier than EVA-AL10C00B352 and P9 Lite with software VNS-L21C185B130 and earlier versions and P8 Lite with software ALE-L02C636B150 and earlier versions has an input validation vulnerability, which allows attackers to cause the system to restart. Huawei P9, P9Lite, and P8Lite are Huawei smartphones. A denial of service vulnerability exists in some of Huawei's mobile phone TrustZone drivers. An attacker could convince a user to install a malicious application, and the application exploited the vulnerability to pass specific parameters to the TrustZone driver, causing the system to reboot. Multiple Huawei Products are prone to the following multiple security vulnerabilities. 1. A denial-of-service vulnerability. 2. A privilege escalation vulnerability. 3. A security bypass vulnerability. Attackers can exploit these issues to perform certain unauthorized actions or gain elevated privileges. Failed exploit attempts will likely cause denial-of-service conditions