IBM Tivoli Key Lifecycle Manager 3.0, 3.0.1, 4.0, and 4.1 uses a one-way cryptographic hash against an input that should not be reversible, such as a password, but the software does not also use a salt as part of the input. IBM X-Force ID: 212785.
An issue was discovered in BTITeam XBTIT 2.5.4. The hashed passwords stored in the xbtit_users table are stored as unsalted MD5 hashes, which makes it easier for context-dependent attackers to obtain cleartext values via a brute-force attack.
Open Dental before version 18.4 stores user passwords as base64 encoded MD5 hashes.
An issue was discovered in BTITeam XBTIT 2.5.4. When a user logs in, their password hash is rehashed using a predictable salt and stored in the "pass" cookie, which is not flagged as HTTPOnly. Due to the weak and predictable salt that is in place, an attacker who successfully steals this cookie can efficiently brute-force it to retrieve the user's cleartext password.
In Yeastar N412 and N824 Configuration Panel 42.x and 45.x, an unauthenticated attacker can create backup file and download it, revealing admin hash, allowing, once cracked, to login inside the Configuration Panel, otherwise, replacing the hash in the archive and restoring it on the device which will change admin password granting access to the device.
The GSKit (IBM Spectrum Protect 7.1 and 7.2) and (IBM Spectrum Protect Snapshot 4.1.3, 4.1.4, and 4.1.6) CMS KDB logic fails to salt the hash function resulting in weaker than expected protection of passwords. A weak password may be recovered. Note: After update the customer should change password to ensure the new password is stored more securely. Products should encourage customers to take this step as a high priority action. IBM X-Force ID: 139972.
The default password hashing algorithm (PBKDF2-HMAC-SHA1) in Liferay Portal 7.2.0 through 7.4.3.15, and older unsupported versions, and Liferay DXP 7.4 before update 16, 7.3 before update 4, 7.2 before fix pack 17, and older unsupported versions defaults to a low work factor, which allows attackers to quickly crack password hashes.
Weak password hashing using MD5 in funzioni.php in HotelDruid before 1.32 allows an attacker to obtain plaintext passwords from hash values.
Davolink DVW-3200N all version prior to Version 1.00.06. The device generates a weak password hash that is easily cracked, allowing a remote attacker to obtain the password for the device.
The Priva TopControl Suite contains predictable credentials for the SSH service, based on the Serial number. Which makes it possible for an attacker to calculate the login credentials for the Priva TopControll suite.
A use of password hash with insufficient computational effort vulnerability [CWE-916] in FortiSandbox before 4.2.0 may allow an attacker with access to the password database to efficiently mount bulk guessing attacks to recover the passwords.
BigAnt Software BigAnt Server v5.6.06 was discovered to utilize weak password hashes.
ZyXEL Prestige routers, including P-660, P-661, and P-662 models with firmware 3.40(PE9) and 3.40(AGD.2) through 3.40(AHQ.3), do not use a salt when calculating an MD5 password hash, which makes it easier for attackers to crack passwords.
An issue was discovered on Enphase Envoy R3.x and D4.x devices. There is a custom PAM module for user authentication that circumvents traditional user authentication. This module uses a password derived from the MD5 hash of the username and serial number. The serial number can be retrieved by an unauthenticated user at /info.xml. Attempts to change the user password via passwd or other tools have no effect.
GateManager versions prior to 9.2c, The affected product uses a weak hash type, which may allow an attacker to view user passwords.
DomainMOD before 4.14.0 uses MD5 without a salt for password storage.
PiiGAB M-Bus stores passwords using a weak hash algorithm.
The LMS5xx uses weak hash generation methods, resulting in the creation of insecure hashs. If an attacker manages to retrieve the hash, it could lead to collision attacks and the potential retrieval of the password.
Use of password hash with insufficient computational effort vulnerability in QSAN Storage Manager, XEVO, SANOS allows remote attackers to recover the plain-text password by brute-forcing the MD5 hash. The referred vulnerability has been solved with the updated version of QSAN Storage Manager v3.3.2, QSAN XEVO v2.1.0, and QSAN SANOS v2.1.0.
A use of a one-way hash with a predictable salt vulnerability [CWE-760] in FortiWAN before 4.5.9 may allow an attacker who has previously come in possession of the password file to potentially guess passwords therein stored.
A CWE-759: Use of a One-Way Hash without a Salt vulnerability exists in EVlink City (EVC1S22P4 / EVC1S7P4 all versions prior to R8 V3.4.0.1), EVlink Parking (EVW2 / EVF2 / EV.2 all versions prior to R8 V3.4.0.1), and EVlink Smart Wallbox (EVB1A all versions prior to R8 V3.4.0.1 ) that could lead an attacker to get knowledge of charging station user account credentials using dictionary attacks techniques.
OnlineVotingSystem is an open source project hosted on GitHub. OnlineVotingSystem before version 1.1.2 hashes user passwords without a salt, which is vulnerable to dictionary attacks. Therefore there is a threat of security breach in the voting system. Without a salt, it is much easier for attackers to pre-compute the hash value using dictionary attack techniques such as rainbow tables to crack passwords. This problem is fixed and published in version 1.1.2. A long randomly generated salt is added to the password hash function to better protect passwords stored in the voting system.