This vulnerability allows network-adjacent attackers to execute arbitrary code on affected installations of Cisco RV340 routers. Although authentication is required to exploit this vulnerability, the existing authentication mechanism can be bypassed.
This vulnerability allows local attackers to disclose sensitive information on affected installations of Trend Micro Internet Security. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability.
This vulnerability allows local attackers to disclose sensitive information on affected installations of Trend Micro Internet Security. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability.
This vulnerability allows remote attackers to execute arbitrary code on affected installations of Mozilla Firefox. User interaction is required to exploit this vulnerability in that the target must visit a malicious page or open a malicious file.
This vulnerability allows local attackers to escape the sandbox on affected installations of Mozilla Firefox. An attacker must first obtain the ability to execute low-privileged code on the target system in order to exploit this vulnerability.
FortiGuard Labs became aware of a number of new Ransomware strains for the week of May 23rd, 2022. It is imperative to raise awareness about new ransomware as infections can cause severe damage to the affected machines and organizations. This Threat Signal covers Yashma ransomware, GoodWill ransomware and Horsemagyar ransomware along with Fortinet protections against them.What is Yashma Ransomware?Yashma ransomware is a new and is generated through Yashma ransomware builder. It is claimed as the sixth version of Chaos ransomware builder. Reportedly, compared to the fifth version, Yashma ransomware builder now supports the “forbidden country” option which attackers can choose not to run the generated ransomware based on the victim’s location. The new builder also enables the ransomware to stop a wide variety of services running on the compromised machine such as anti-malware solutions, and Remote Desktop and Backup services. Additionally, it is important to note that from the fifth version of Chaos ransomware builder, the crafted ransomware can successfully encrypt files larger than 2,117,152 bytes and no longer corrupts them.A known sample of Yashma ransomware has the following ransom note:All of your files have been encrypted with Yashma ransomwareYour computer was infected with a ransomware. Your files have been encrypted and you won’tbe able to decrypt them without our help.What can I do to get my files back?You can buy our specialdecryption software, this software will allow you to recover all of your data and remove theransomware from your computer.The price for the software is $1,500. Payment can be made in Bitcoin only.How do I pay, where do I get Bitcoin?Purchasing Bitcoin varies from country to country, you are best advised to do a quick google searchyourself to find out how to buy Bitcoin.Many of our customers have reported these sites to be fast and reliable:Coinmama – hxxps://www[.]coinmama[.]com Bitpanda – hxxps://www[.]bitpanda[.]comPayment informationAmount: 0.1473766 BTCBitcoin Address: [removed] At the time of this writing, the attacker’s bitcoin wallet has no transactions.FortiGuard Labs previously released several blogs on Chaos ransomware. See the Appendix for links to “Chaos Ransomware Variant Sides with Russia” and “Chaos Ransomware Variant in Fake Minecraft Alt List Brings Destruction to Japanese Gamers”.What is the Status of Coverage for Yashma ransomware?FortiGuard Labs provides the following AV coverage against a known sample of Yashma ransomware:MSIL/Filecoder.APU!tr.ransomWhat is GoodWill Ransomware?GoodWill ransomware was recently discovered, however it appears to have been first observed in March 2022. The ransomware encrypts files on the compromised machine and adds a “.gdwill” file extension to the affected files.Unlike other ransomware that demands ransom to recover the encrypted files, GoodWill asks the victim to do three good deeds. Firstly, the victim must provide clothes and blankets to needy people on the street. Secondly, the victim must feed dinner to five children at a pizza or fried chicken joint. Lastly, the victim must visit a local hospital and provide financial assistance to those in need. After finishing each deed, proof must be provided to the attacker, and a decryption tool and video instruction will be provided to the victim after completing all the deeds.What is the Status of Coverage for GoodWill ransomware?FortiGuard Labs provides the following AV coverage against GoodWill ransomware:MSIL/Filecoder.AGR!tr.ransomWhat is Horsemagyar Ransomware?Horsemagyar ransomware is a new variant of Sojusz ransomware that was recently discovered. It encrypts files on the compromised machine and adds “.[10 digit ID number].spanielearslook.likeoldboobs” file extension to the encrypted files. The ransomware leaves a ransom note as Horse.txt. The first sighting of Sojusz ransomware goes back to February, 2022 and it added a “.[10 digit ID number].[attacker’s email address].bec” extension to the files it encrypted.Example of ransom note left behind by Horsemagyar ransomware is below:::: Hello my dear friend :::Unfortunately for you, a major IT security weakness left you open to attack, your files have been encryptedIf you want to restore them,write to our skype – [removed] DECRYPTIONAlso you can write ICQ live chat which works 24/7 @[removed]Install ICQ software on your PC https://icq[.]com/windows/ or on your mobile phone search in Appstore / Google market ICQWrite to our ICQ @HORSEMAGYAR https://icq[.]im/[removed]If we not reply in 6 hours you can write to our mail but use it only if previous methods not working – [removed]@onionmail.orgAttention!* Do not rename encrypted files.* Do not try to decrypt your data using third party software, it may cause permanent data loss.* We are always ready to cooperate and find the best way to solve your problem.* The faster you write, the more favorable the conditions will be for you.* Our company values its reputation. We give all guarantees of your files decryption,such as test decryption some of themWe respect your time and waiting for respond from your sidetell your MachineID: MAHINE_ID and LaunchID: LAUNCH__IDSensitive data on your system was DOWNLOADED.If you DON’T WANT your sensitive data to be PUBLISHED you have to act quickly.Data includes:- Employees personal data, CVs, DL, SSN.- Complete network map including credentials for local and remote services.- Private financial information including: clients data, bills, budgets, annual reports, bank statements.- Manufacturing documents including: datagrams, schemas, drawings in solidworks format- And more…What is the Status of Coverage against Horsemagyar Ransomware?FortiGuard Labs provides the following AV coverage against Horsemagyar ransomware:W32/Filecoder.NSF!tr.ransomAnything Else to Note?Victims of ransomware are cautioned against paying ransoms by such organizations as CISA, NCSC, the FBI, and HHS. Payment does not guarantee files will be recovered. It may also embolden adversaries to target additional organizations, encourage other criminal actors to engage in the distribution of ransomware, and/or fund illicit activities which could potentially be illegal according to a U.S. Department of Treasury’s Office of Foreign Assets Control (OFAC) advisory.
CWE (Common Weakness Enumeration) is a list of common types of hardware and software defects that have security implications. The CWE list can be used as a framework to describe and communicate such vulnerabilities in terms of CWEs.
The goal is to support all those methods (including automatic ones) to control and prevent software errors. It can be used at the development stage, during the Code Review activity, and later on during the penetration test activity to classify and communicate the vulnerability type to developers. The system is at version 4.7 and contains over 600 categories of weaknesses and vulnerabilities
The CWE Top 25 Most Dangerous Software Weakness List is a list of the most common programming errors that can lead to software vulnerabilities. Vulnerabilities present in the CWE Top 25 are usually easy to detect and exploit. For example, the CWE-79 is related to Cross-Site Scripting while the CWE-89 to SQL Injection. A similar project is Top Ten Owasp (Open Web Application Security Project). Compared to the CWE Top 25, the Top Ten OWASP focuses solely on vulnerabilities of web applications.
The CWE Most Important Hardware Weakness List serves the same purpose, but it focuses on hardware defects.
Please check our post about Vulnerability Analysis to learn more about CWE usage.
Please find a list of all the CWE below or use the search box above to find a specific CWE.
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not account for byte ordering (e.g. big-endian and little-endian) when processing the input, causing an incorrect number or value to be used. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-188 Consequences Integrity: Unexpected State Potential…
PRIVACY PRIVACY Description The product receives input or data, but it does not validate or incorrectly validates that the input has the properties that are required to process the data safely and correctly. Modes of Introduction: – Architecture and Design Likelihood of Exploit: High Related Weaknesses CWE-707 CWE-345 CWE-22 CWE-41 CWE-74 CWE-119 CWE-770…
PRIVACY PRIVACY Description The software does not properly handle the characters that are used to mark the beginning and ending of a group of entities, such as parentheses, brackets, and braces. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase: Description: Developers should anticipate that…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes NUL characters or null bytes when they are sent to a downstream component. As data is parsed, an injected NUL character or null byte may cause the software to believe the input is terminated earlier than…
PRIVACY PRIVACY Description The product does not properly filter, remove, quote, or otherwise manage the invalid use of special elements in user-controlled input, which could cause adverse effect on its behavior and integrity. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase: Description: Developers should…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes leading special elements that could be interpreted in unexpected ways when they are sent to a downstream component. As data is parsed, improperly handled leading special elements may cause the process to take unexpected actions that…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes multiple leading special elements that could be interpreted in unexpected ways when they are sent to a downstream component. As data is parsed, improperly handled multiple leading special elements may cause the process to take unexpected…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes trailing special elements that could be interpreted in unexpected ways when they are sent to a downstream component. As data is parsed, improperly handled trailing special elements may cause the process to take unexpected actions that…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes multiple trailing special elements that could be interpreted in unexpected ways when they are sent to a downstream component. As data is parsed, improperly handled multiple trailing special elements may cause the process to take unexpected…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes internal special elements that could be interpreted in unexpected ways when they are sent to a downstream component. As data is parsed, improperly handled internal special elements may cause the process to take unexpected actions that…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes multiple internal special elements that could be interpreted in unexpected ways when they are sent to a downstream component. As data is parsed, improperly handled multiple internal special elements may cause the process to take unexpected…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not handle or incorrectly handles when an expected special element is missing. Modes of Introduction: – Implementation Related Weaknesses CWE-159 CWE-703 Consequences Availability: DoS: Crash, Exit, or Restart Potential Mitigations Phase: Description: Developers should anticipate that special…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not handle or incorrectly handles when an additional unexpected special element is provided. Modes of Introduction: – Implementation Related Weaknesses CWE-159 CWE-703 Consequences Integrity: Unexpected State Potential Mitigations Phase: Description: Developers should anticipate that extra special elements…
PRIVACY PRIVACY Description The software does not properly handle input in which an inconsistency exists between two or more special characters or reserved words. An example of this problem would be if paired characters appear in the wrong order, or if the special characters are not properly nested. Modes of Introduction: – Implementation …
PRIVACY PRIVACY Description The software does not terminate or incorrectly terminates a string or array with a null character or equivalent terminator. Null termination errors frequently occur in two different ways. An off-by-one error could cause a null to be written out of bounds, leading to an overflow. Or, a program could use a strncpy()…
PRIVACY PRIVACY Description The software does not properly encode or decode the data, resulting in unexpected values. Modes of Introduction: – Implementation Related Weaknesses CWE-707 CWE-22 CWE-41 Consequences Integrity: Unexpected State Potential Mitigations Phase: Implementation Description: Phase: Implementation Description: While it is risky to use dynamically-generated query strings, code, or commands…
PRIVACY PRIVACY Description The software does not properly handle when an input uses an alternate encoding that is valid for the control sphere to which the input is being sent. Modes of Introduction: – Implementation Related Weaknesses CWE-172 CWE-289 Consequences Access Control: Bypass Protection Mechanism Potential Mitigations Phase: Architecture and Design…
PRIVACY PRIVACY Description The software decodes the same input twice, which can limit the effectiveness of any protection mechanism that occurs in between the decoding operations. Modes of Introduction: – Implementation Related Weaknesses CWE-172 CWE-675 Consequences Access Control, Confidentiality, Availability, Integrity, Other: Bypass Protection Mechanism, Execute Unauthorized Code or Commands, Varies by…
PRIVACY PRIVACY Description The software does not properly handle when the same input uses several different (mixed) encodings. Modes of Introduction: – Implementation Related Weaknesses CWE-172 Consequences Integrity: Unexpected State Potential Mitigations Phase: Architecture and Design Description: Avoid making decisions based on names of resources (e.g. files) if those resources can…
PRIVACY PRIVACY Description The software does not properly handle when an input contains Unicode encoding. Modes of Introduction: – Implementation Related Weaknesses CWE-172 Consequences Integrity: Unexpected State Potential Mitigations Phase: Architecture and Design Description: Avoid making decisions based on names of resources (e.g. files) if those resources can have alternate names.…
PRIVACY PRIVACY Description The software does not properly handle when all or part of an input has been URL encoded. Modes of Introduction: – Implementation Related Weaknesses CWE-172 Consequences Integrity: Unexpected State Potential Mitigations Phase: Architecture and Design Description: Avoid making decisions based on names of resources (e.g. files) if those…
PRIVACY PRIVACY Description The software does not properly account for differences in case sensitivity when accessing or determining the properties of a resource, leading to inconsistent results. Modes of Introduction: – Implementation Related Weaknesses CWE-706 CWE-706 CWE-433 CWE-289 Consequences Access Control: Bypass Protection Mechanism Potential Mitigations Phase: Architecture and Design Description: …
PRIVACY PRIVACY Description The software uses a WebSocket, but it does not properly verify that the source of data or communication is valid. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-346 Consequences Confidentiality, Integrity, Availability, Non-Repudiation, Access Control: Varies by Context, Gain Privileges or Assume Identity, Bypass Protection Mechanism, Read…
PRIVACY PRIVACY Description Sensitive memory is cleared according to the source code, but compiler optimizations leave the memory untouched when it is not read from again, aka “dead store removal.” Modes of Introduction: – Implementation Related Weaknesses CWE-733 Consequences Confidentiality, Access Control: Read Memory, Bypass Protection Mechanism This weakness will allow data…
PRIVACY PRIVACY Description The software does not neutralize or incorrectly neutralizes delimiters. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase: Implementation Description: Developers should anticipate that delimiters will be injected/removed/manipulated in the input vectors of their software system. Use an appropriate combination of denylists…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as parameter or argument delimiters when they are sent to a downstream component. As data is parsed, an injected/absent/malformed delimiter may cause the process to take unexpected actions. Modes of…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as value delimiters when they are sent to a downstream component. As data is parsed, an injected/absent/malformed delimiter may cause the process to take unexpected actions. Modes of Introduction: –…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as record delimiters when they are sent to a downstream component. As data is parsed, an injected/absent/malformed delimiter may cause the process to take unexpected actions. Modes of Introduction: –…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as line delimiters when they are sent to a downstream component. As data is parsed, an injected/absent/malformed delimiter may cause the process to take unexpected actions. Modes of Introduction: –…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as section delimiters when they are sent to a downstream component. Modes of Introduction: – Implementation Related Weaknesses CWE-140 CWE-93 Consequences Integrity: Unexpected State Potential Mitigations…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as expression or command delimiters when they are sent to a downstream component. As data is parsed, an injected/absent/malformed delimiter may cause the process to take unexpected actions. Modes of…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as input terminators when they are sent to a downstream component. For example, a “.” in SMTP signifies the end of mail message data, whereas a null character can be…
PRIVACY PRIVACY Description The application does not properly handle when a leading character or sequence (“leader”) is missing or malformed, or if multiple leaders are used when only one should be allowed. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase: Description: Developers should anticipate…
PRIVACY PRIVACY Description Quotes injected into an application can be used to compromise a system. As data are parsed, an injected/absent/duplicate/malformed use of quotes may cause the process to take unexpected actions. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase: Description: Developers should anticipate…
PRIVACY PRIVACY Description One or more system settings or configuration elements can be externally controlled by a user. Allowing external control of system settings can disrupt service or cause an application to behave in unexpected, and potentially malicious ways. Modes of Introduction: – Implementation Related Weaknesses CWE-642 CWE-610 CWE-20 Consequences Other: Varies…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as comment delimiters when they are sent to a downstream component. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase:…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as macro symbols when they are sent to a downstream component. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase:…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as substitution characters when they are sent to a downstream component. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected State Potential Mitigations Phase:…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as variable name delimiters when they are sent to a downstream component. As data is parsed, an injected delimiter may cause the process to take unexpected actions that result in…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as wildcards or matching symbols when they are sent to a downstream component. As data is parsed, an injected element may cause the process to take unexpected actions. Modes of…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as whitespace when they are sent to a downstream component. This can include space, tab, etc. Modes of Introduction: – Implementation Related Weaknesses CWE-138 Consequences Integrity: Unexpected…
PRIVACY PRIVACY Description The product assigns the address 0.0.0.0 for a database server, a cloud service/instance, or any computing resource that communicates remotely. Modes of Introduction: – System Configuration Related Weaknesses CWE-668 Consequences Availability: DoS: Amplification Potential Mitigations Phase: System Configuration Effectiveness: High Description: Assign IP addresses that are not 0.0.0.0.…
PRIVACY PRIVACY Description Security-version number in hardware is mutable, resulting in the ability to downgrade (roll-back) the boot firmware to vulnerable code versions. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-285 CWE-757 Consequences Confidentiality, Integrity, Authentication, Authorization: Other Impact includes roll-back or downgrade to a vulnerable version of the firmware…
PRIVACY PRIVACY Description The product contains a component that cannot be updated or patched in order to remove vulnerabilities or significant bugs. Modes of Introduction: – Requirements Related Weaknesses CWE-1357 CWE-664 Consequences Confidentiality, Integrity, Access Control, Authentication, Authorization, Other: Gain Privileges or Assume Identity, Bypass Protection Mechanism, Execute Unauthorized Code or Commands,…
PRIVACY PRIVACY Description Confidential information stored in memory circuits is readable or recoverable after being cleared or erased. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-1301 CWE-1301 Consequences Confidentiality: Modify Memory, Read Memory Confidential data are readable to untrusted agent. Potential Mitigations Phase: Architecture and Design Description: CVE References…
PRIVACY PRIVACY Description The Network On Chip (NoC) does not isolate or incorrectly isolates its on-chip-fabric and internal resources such that they are shared between trusted and untrusted agents, creating timing channels. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-653 CWE-668 CWE-1189 Consequences Confidentiality, Availability: DoS: Resource Consumption (Other), Varies…
PRIVACY PRIVACY Description The device is missing or incorrectly implements circuitry or sensors that detect and mitigate the skipping of security-critical CPU instructions when they occur. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-1384 CWE-1247 Consequences Confidentiality, Integrity, Authentication: Bypass Protection Mechanism, Alter Execution Logic, Unexpected State Depending on the…
PRIVACY PRIVACY Description The product uses a regular expression with an inefficient, possibly exponential worst-case computational complexity that consumes excessive CPU cycles. Some regular expression engines have a feature called “backtracking”. If the token cannot match, the engine “backtracks” to a position that may result in a different token that can match. Backtracking becomes a…
PRIVACY PRIVACY Description An integer value is specified to be shifted by a negative amount or an amount greater than or equal to the number of bits contained in the value causing an unexpected or indeterminate result. Modes of Introduction: – Implementation Related Weaknesses CWE-682 Consequences Integrity: DoS: Crash, Exit, or Restart…
PRIVACY PRIVACY Description The product uses a template engine to insert or process externally-influenced input, but it does not neutralize or incorrectly neutralizes special elements or syntax that can be interpreted as template expressions or other code directives when processed by the engine. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-94…
PRIVACY PRIVACY Description A hardware device is missing or has inadequate protection features to prevent overheating. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-693 Consequences Availability: DoS: Resource Consumption (Other) Potential Mitigations Phase: Architecture and Design Description: Temperature maximum and minimum limits should be enforced using thermal sensors both…
PRIVACY PRIVACY Description The program processes a real number with an implementation in which the number’s representation does not preserve required accuracy and precision in its fractional part, causing an incorrect result. There are three major ways to store real numbers in computers. Each method is described along with the limitations of how they store…
PRIVACY PRIVACY Description The software uses a function that accepts a format string as an argument, but the format string originates from an external source. Modes of Introduction: – Implementation Likelihood of Exploit: High Related Weaknesses CWE-668 CWE-668 CWE-123 CWE-20 Consequences Confidentiality: Read Memory Format string problems allow for information disclosure which…
PRIVACY PRIVACY Description The product attempts to close or release a resource or handle more than once, without any successful open between the close operations. Modes of Introduction: – Implementation Related Weaknesses CWE-675 CWE-672 Consequences Availability, Integrity: DoS: Crash, Exit, or Restart Potential Mitigations Phase: Implementation Description: Change the code’s logic…
PRIVACY PRIVACY Description The processor does not properly clear microarchitectural state after incorrect microcode assists or speculative execution, resulting in transient execution. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-226 CWE-226 Consequences Confidentiality, Integrity: Modify Memory, Read Memory, Execute Unauthorized Code or Commands Potential Mitigations Phase: Architecture and Design,…
PRIVACY PRIVACY Description The software does not correctly calculate the length of strings that can contain wide or multi-byte characters. Modes of Introduction: – Implementation Related Weaknesses CWE-682 Consequences Integrity, Confidentiality, Availability: Execute Unauthorized Code or Commands This weakness may lead to a buffer overflow. Buffer overflows often can be used to…
PRIVACY PRIVACY Description A hardware device, or the firmware running on it, is missing or has incorrect protection features to maintain goals of security primitives when the device is cooled below standard operating temperatures. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-1384 Consequences Integrity, Authentication: Varies by Context, Unexpected State…
PRIVACY PRIVACY Description The product’s design or architecture is built from multiple separate components, but one or more components are not under complete control of the developer, such as a third-party software library or a physical component that is built by an original equipment manufacturer (OEM). Modes of Introduction: – Requirements Related Weaknesses…
PRIVACY PRIVACY Description The software receives input from an upstream component, but it does not neutralize or incorrectly neutralizes special elements that could be interpreted as control elements or syntactic markers when they are sent to a downstream component. Most languages and protocols have their own special elements such as characters and reserved words. These…
PRIVACY PRIVACY Description The product does not properly detect and handle extreme conditions in the product’s physical environment, such as temperature, radiation, humidity, power, or other physical phenomena. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-703 Consequences Confidentiality, Integrity, Availability: Varies by Context, Unexpected State Consequences of this weakness are…
PRIVACY PRIVACY Description The product performs a power save/restore operation, but it does not ensure that the integrity of the configuration state is maintained and/or verified between the beginning and ending of the operation. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 CWE-345 CWE-1271 Consequences Confidentiality, Integrity: DoS: Instability, DoS:…
PRIVACY PRIVACY Description The software does not correctly calculate the size to be used when allocating a buffer, which could lead to a buffer overflow. Modes of Introduction: – Implementation Likelihood of Exploit: High Related Weaknesses CWE-682 CWE-682 CWE-682 CWE-682 CWE-119 Consequences Integrity, Availability, Confidentiality: DoS: Crash, Exit, or Restart, Execute Unauthorized…
PRIVACY PRIVACY Description Missing an ability to patch ROM code may leave a System or System-on-Chip (SoC) in a vulnerable state. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-1329 Consequences Other: Varies by Context, Reduce Maintainability When the system is unable to be patched, it can be left in a…
PRIVACY PRIVACY Description The bridge incorrectly translates security attributes from either trusted to untrusted or from untrusted to trusted when converting from one fabric protocol to another. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 Consequences Confidentiality, Integrity, Access Control: Modify Memory, Read Memory, Gain Privileges or Assume Identity, Bypass…
PRIVACY PRIVACY Description The firewall in an on-chip fabric protects the main addressed region, but it does not protect any mirrored memory or memory-mapped-IO (MMIO) regions. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 CWE-1251 Consequences Confidentiality, Integrity, Access Control: Modify Memory, Read Memory, Bypass Protection Mechanism Potential Mitigations…
PRIVACY PRIVACY Description During runtime, the hardware allows for test or debug logic (feature) to be activated, which allows for changing the state of the hardware. This feature can alter the intended behavior of the system and allow for alteration and leakage of sensitive data by an adversary. Modes of Introduction: – Architecture and Design…
PRIVACY PRIVACY Description The device does not write-protect the parametric data values for sensors that scale the sensor value, allowing untrusted software to manipulate the apparent result and potentially damage hardware or cause operational failure. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-862 CWE-1299 Consequences Availability: Quality Degradation, DoS: Resource…
PRIVACY PRIVACY Description The bus controller enables bits in the fabric end-point to allow responder devices to control transactions on the fabric. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 Consequences Access Control: Modify Memory, Read Memory, Bypass Protection Mechanism Potential Mitigations Phase: Architecture and Design Description: For responder…
PRIVACY PRIVACY Description The address map of the on-chip fabric has protected and unprotected regions overlapping, allowing an attacker to bypass access control to the overlapping portion of the protected region. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 Consequences Confidentiality, Integrity, Access Control, Authorization: Bypass Protection Mechanism, Read Memory,…
PRIVACY PRIVACY Description A bridge that is connected to a fabric without security features forwards transactions to the slave without checking the privilege level of the master. Similarly, it does not check the hardware identity of the transaction received from the slave interface of the bridge. Modes of Introduction: – Architecture and Design …
PRIVACY PRIVACY Description On-chip fabrics or buses either do not support or are not configured to support privilege separation or other security features, such as access control. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-693 Consequences Confidentiality, Integrity, Access Control, Availability: DoS: Crash, Exit, or Restart, Read Memory, Modify Memory…
PRIVACY PRIVACY Description The device is susceptible to electromagnetic fault injection attacks, causing device internal information to be compromised or security mechanisms to be bypassed. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-693 Consequences Confidentiality, Integrity, Access Control, Availability: Modify Memory, Read Memory, Gain Privileges or Assume Identity, Bypass Protection…
PRIVACY PRIVACY Description This entry has been deprecated because it was a duplicate of CWE-170. All content has been transferred to CWE-170. Modes of Introduction: Related Weaknesses Consequences Potential Mitigations CVE References
PRIVACY PRIVACY Description Untrusted agents can disable alerts about signal conditions exceeding limits or the response mechanism that handles such alerts. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 Consequences Availability: DoS: Instability, DoS: Crash, Exit, or Restart, Reduce Reliability, Unexpected State Potential Mitigations Phase: Architecture and Design Description: …
PRIVACY PRIVACY Description The software receives input from an upstream component that specifies attributes that are to be initialized or updated in an object, but it does not properly control modifications of attributes of the object prototype. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-915 CWE-913 CWE-471 Consequences Integrity: Modify…
PRIVACY PRIVACY Description The product uses a non-blocking model that relies on a single threaded process for features such as scalability, but it contains code that can block when it is invoked. Modes of Introduction: – Implementation Related Weaknesses CWE-834 CWE-835 Consequences Availability: DoS: Resource Consumption (CPU) An unexpected call to blocking…
PRIVACY PRIVACY Description Trace data collected from several sources on the System-on-Chip (SoC) is stored in unprotected locations or transported to untrusted agents. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 Consequences Confidentiality: Read Memory An adversary can read secret values if they are captured in debug traces and stored…
PRIVACY PRIVACY Description Sensitive information in clear text on the JTAG interface may be examined by an eavesdropper, e.g. by placing a probe device on the interface such as a logic analyzer, or a corresponding software technique. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-300 Consequences Confidentiality: Read Memory, Read…
PRIVACY PRIVACY Description The product manages a group of objects or resources and performs a separate memory allocation for each object, but it does not properly limit the total amount of memory that is consumed by all of the combined objects. Modes of Introduction: – Implementation Related Weaknesses CWE-770 CWE-789 CWE-476 Consequences…
PRIVACY PRIVACY Description A missing immutable root of trust in the hardware results in the ability to bypass secure boot or execute untrusted or adversarial boot code. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-693 Consequences Authentication, Authorization: Gain Privileges or Assume Identity, Execute Unauthorized Code or Commands, Modify Memory…
PRIVACY PRIVACY Description The product receives input that is expected to be of a certain type, but it does not validate or incorrectly validates that the input is actually of the expected type. Modes of Introduction: – Implementation Related Weaknesses CWE-20 CWE-843 Consequences Other: Varies by Context Potential Mitigations Phase: Implementation…
PRIVACY PRIVACY Description The product receives a complex input with multiple elements or fields that must be consistent with each other, but it does not validate or incorrectly validates that the input is actually consistent. Modes of Introduction: – Implementation Related Weaknesses CWE-20 Consequences Other: Varies by Context Potential Mitigations Phase:…
PRIVACY PRIVACY Description The product receives an input value that is used as a resource identifier or other type of reference, but it does not validate or incorrectly validates that the input is equivalent to a potentially-unsafe value. Modes of Introduction: – Implementation Related Weaknesses CWE-20 CWE-41 CWE-178 Consequences Other: Varies by…
PRIVACY PRIVACY Description The product uses untrusted input when calculating or using an array index, but the product does not validate or incorrectly validates the index to ensure the index references a valid position within the array. Modes of Introduction: – Implementation Likelihood of Exploit: High Related Weaknesses CWE-1285 CWE-20 CWE-119 CWE-823 CWE-789…
PRIVACY PRIVACY Description The product implements a decoding mechanism to decode certain bus-transaction signals to security identifiers. If the decoding is implemented incorrectly, then untrusted agents can now gain unauthorized access to the asset. Modes of Introduction: – Implementation Related Weaknesses CWE-284 CWE-1294 Consequences Confidentiality, Integrity, Availability, Access Control: Modify Memory, Read…
PRIVACY PRIVACY Description The same public key is used for signing both debug and production code. Modes of Introduction: – Implementation Related Weaknesses CWE-693 CWE-321 Consequences Confidentiality, Integrity, Availability, Access Control, Accountability, Authentication, Authorization, Non-Repudiation, Other: Read Memory, Modify Memory, Execute Unauthorized Code or Commands, Gain Privileges or Assume Identity, Varies by…
PRIVACY PRIVACY Description The product implements a conversion mechanism to map certain bus-transaction signals to security identifiers. However, if the conversion is incorrectly implemented, untrusted agents can gain unauthorized access to the asset. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 CWE-1294 Consequences Confidentiality, Integrity, Availability, Access Control: Modify Memory,…
PRIVACY PRIVACY Description The software relies on one source of data, preventing the ability to detect if an adversary has compromised a data source. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-345 CWE-654 Consequences Confidentiality, Integrity: Read Application Data, Modify Application Data, Gain Privileges or Assume Identity An attacker that…
PRIVACY PRIVACY Description The System-on-Chip (SoC) implements a Security Identifier mechanism to differentiate what actions are allowed or disallowed when a transaction originates from an entity. However, the Security Identifiers are not correctly implemented. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-284 Consequences Confidentiality, Integrity, Availability, Access Control: Modify Memory,…
PRIVACY PRIVACY Description The product fails to adequately prevent the revealing of unnecessary and potentially sensitive system information within debugging messages. Modes of Introduction: – Implementation Related Weaknesses CWE-200 CWE-209 Consequences Confidentiality, Integrity, Availability, Access Control, Accountability, Authentication, Authorization, Non-Repudiation: Read Memory, Bypass Protection Mechanism, Gain Privileges or Assume Identity, Varies by…
PRIVACY PRIVACY Description The product’s debug components contain incorrect chaining or granularity of debug components. Modes of Introduction: – Implementation Related Weaknesses CWE-284 Consequences Confidentiality, Integrity, Access Control, Authentication, Authorization, Availability, Accountability: Gain Privileges or Assume Identity, Bypass Protection Mechanism, Execute Unauthorized Code or Commands, Modify Memory, Modify Files or Directories Depending…
PRIVACY PRIVACY Description The product does not adequately protect confidential information on the device from being accessed by Outsourced Semiconductor Assembly and Test (OSAT) vendors. Modes of Introduction: – Implementation Related Weaknesses CWE-285 Consequences Confidentiality, Integrity, Access Control, Authentication, Authorization, Availability, Accountability, Non-Repudiation: Gain Privileges or Assume Identity, Bypass Protection Mechanism, Execute…
PRIVACY PRIVACY Description A race condition in the hardware logic results in undermining security guarantees of the system. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-362 Consequences Access Control: Bypass Protection Mechanism, Gain Privileges or Assume Identity, Alter Execution Logic Potential Mitigations Phase: Architecture and Design Description: Adopting design…
PRIVACY PRIVACY Description The lack of protections on alternate paths to access control-protected assets (such as unprotected shadow registers and other external facing unguarded interfaces) allows an attacker to bypass existing protections to the asset that are only performed against the primary path. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-1191…
PRIVACY PRIVACY Description Storing a plaintext password in a configuration file allows anyone who can read the file access to the password-protected resource making them an easy target for attackers. Modes of Introduction: – Architecture and Design Related Weaknesses CWE-260 Consequences Access Control: Gain Privileges or Assume Identity Potential Mitigations Phase:…
PRIVACY PRIVACY Description The software parses a formatted message or structure, but it does not handle or incorrectly handles a length field that is inconsistent with the actual length of the associated data. If an attacker can manipulate the length parameter associated with an input such that it is inconsistent with the actual length of…
PRIVACY PRIVACY Description The device does not contain sufficient protection mechanisms to prevent physical side channels from exposing sensitive information due to patterns in physically observable phenomena such as variations in power consumption, electromagnetic emissions (EME), or acoustic emissions. Modes of Introduction: – Implementation Related Weaknesses CWE-203 CWE-203 Consequences Confidentiality: Read Memory,…
PRIVACY PRIVACY Description The product’s data removal process does not completely delete all data and potentially sensitive information within hardware components. Modes of Introduction: – Implementation Related Weaknesses CWE-226 Consequences Confidentiality: Read Memory, Read Application Data Potential Mitigations Phase: Architecture and Design Description: Apply blinding or masking techniques to implementations of…
Evgeny Kotkov discovered that subversion servers did not properly follow
path-based authorization rules in certain cases. An attacker could
potentially use this issue to retrieve information about private paths.
(CVE-2021-28544)
Thomas Weißschuh discovered that subversion servers did not properly handle
memory in certain configurations. A remote attacker could potentially use
this issue to cause a denial of service or other unspecified impact.
(CVE-2022-24070)
This advisory documents the impact of an internally found vulnerability in Arista EOS state streaming telemetry agent TerminAttr and OpenConfig transport protocols. The impact of this vulnerability is that, in certain conditions, TerminAttr might leak IPsec sensitive data in clear text in CVP to other authorized users, which could cause IPsec traffic to be decrypted or modified by other authorized users on the device.
This advisory documents the impact of an internally found vulnerability in Arista EOS state streaming telemetry agent TerminAttr and OpenConfig transport protocols. The impact of this vulnerability is that, in certain conditions, TerminAttr might leak MACsec sensitive data in clear text in CVP to other authorized users, which could cause MACsec traffic to be decrypted or modified by other authorized users on the device.
