Dell EMC iDRAC9 versions 4.40.00.00 and later, but prior to 4.40.10.00, contain an improper authentication vulnerability. A remote unauthenticated attacker could potentially exploit this vulnerability to gain access to the virtual console.
Dell BSAFE Crypto-C Micro Edition, versions before 4.1.4, and Dell BSAFE Micro Edition Suite, versions before 4.4, contain an Improper Input Validation Vulnerability.
Dell BSAFE Crypto-C Micro Edition, versions before 4.1.5, and Dell BSAFE Micro Edition Suite, versions before 4.6, contain an Observable Timing Discrepancy Vulnerability.
Dell BSAFE Crypto-C Micro Edition, versions before 4.1.5, and Dell BSAFE Micro Edition Suite, versions before 4.6, contain an Improper Input Validation Vulnerability.
Dell BSAFE Crypto-C Micro Edition, versions before 4.1.5, and Dell BSAFE Micro Edition Suite, versions before 4.6, contain an Observable Timing Discrepancy Vulnerability.
Dell Integrated Remote Access Controller (iDRAC) 6 before 2.80 and 7/8 before 2.21.21.21 allows attackers to cause a denial of service (buffer overflow) or possibly have unspecified other impact via a long SSH username or input.
Dell EMC ScaleIO versions prior to 2.5, contain improper restriction of excessive authentication attempts on the Light installation Agent (LIA). This component is deployed on every server in the ScaleIO cluster and is used for central management of ScaleIO nodes. A remote malicious user, having network access to LIA, could potentially exploit this vulnerability to launch brute force guessing of user names and passwords of user accounts on the LIA.
Dell EMC OpenManage Server Administrator (OMSA) version 9.5 Microsoft Windows installations with Distributed Web Server (DWS) enabled configuration contains an authentication bypass vulnerability. A remote unauthenticated attacker could potentially exploit this vulnerability to gain admin access on the affected system.
Dell OpenManage Enterprise versions prior to 3.6.1 contain an improper authentication vulnerability. A remote unauthenticated attacker may potentially exploit this vulnerability to hijack an elevated session or perform unauthorized actions by sending malformed data.
Dell RecoverPoint for Virtual Machines 6.0.x contains use of hard-coded credentials vulnerability. A Remote unauthenticated attacker could potentially exploit this vulnerability by gaining access to the source code, easily retrieving these secrets and reusing them to access the system leading to gaining access to unauthorized data.
Dell SmartFabric OS10 Software, version(s) 10.5.5.4 through 10.5.5.10 and 10.5.6.x, contain(s) an Use of Hard-coded Password vulnerability. A low privileged attacker with remote access could potentially exploit this vulnerability, leading to Client-side request forgery and Information disclosure.
Dell PowerScale InsightIQ, version 5.0, contain a Use of hard coded Credentials vulnerability. A high privileged attacker with local access could potentially exploit this vulnerability, leading to Information disclosure.
Dell PowerScale OneFS versions 8.2.x through 9.8.0.x contain a use of hard coded credentials vulnerability. An adjacent network unauthenticated attacker could potentially exploit this vulnerability, leading to information disclosure of network traffic and denial of service.
Dell EMC Networking OS10 versions prior to 10.4.3 contain a cryptographic key vulnerability due to an underlying application using undocumented, pre-installed X.509v3 key/certificate pairs. An unauthenticated remote attacker with the knowledge of the default keys may potentially be able to intercept communications or operate the system with elevated privileges.
Dell ELab-Navigator, version 3.1.9 contains a hard-coded credential vulnerability. A local attacker could potentially exploit this vulnerability, leading to unauthorized access to sensitive data. Successful exploitation may result in the compromise of confidential user information.
Dell EMC Networking S4100 and S5200 Series Switches manufactured prior to February 2020 contain a hardcoded credential vulnerability. A remote unauthenticated malicious user could exploit this vulnerability and gain administrative privileges.
The Dell Wyse Password Encoder in ThinLinux2 versions prior to 2.1.0.01 contain a Hard-coded Cryptographic Key vulnerability. An unauthenticated remote attacker could reverse engineer the cryptographic system used in the Dell Wyse Password Encoder to discover the hard coded private key and decrypt locally stored cipher text.
Dell EMC SCG Policy Manager, versions from 5.10 to 5.12, contain(s) a Hard-coded Password Vulnerability. An attacker, with the knowledge of the hard-coded credentials, could potentially exploit this vulnerability to login to the system to gain admin privileges.
Dell SupportAssist for Home PCs (version 3.11.4 and prior) and SupportAssist for Business PCs (version 3.2.0 and prior) contain cryptographic weakness vulnerability. An authenticated non-admin user could potentially exploit the issue and obtain sensitive information.
Dell EMC SCG Policy Manager, versions from 5.10 to 5.12, contain(s) a contain a Hard-coded Cryptographic Key vulnerability. An attacker with the knowledge of the hard-coded sensitive information, could potentially exploit this vulnerability to login to the system to gain admin privileges.
Dell EMC SCG Policy Manager, versions from 5.10 to 5.12, contain(s) a contain a Hard-coded Cryptographic Key vulnerability. An attacker with the knowledge of the hard-coded sensitive information, could potentially exploit this vulnerability to login to the system to gain admin privileges.
Dell EMC SupportAssist Enterprise version 1.1 creates a local Windows user account named "OMEAdapterUser" with a default password as part of the installation process. This unnecessary user account also remains even after an upgrade from v1.1 to v1.2. Access to the management console can be achieved by someone with knowledge of the default password. If SupportAssist Enterprise is installed on a server running OpenManage Essentials (OME), the OmeAdapterUser user account is added as a member of the OmeAdministrators group for the OME. An unauthorized person with knowledge of the default password and access to the OME web console could potentially use this account to gain access to the affected installation of OME with OmeAdministrators privileges. This is fixed in version 1.2.1.
Integrated Data Protection Appliance versions 2.0, 2.1, and 2.2 contain undocumented accounts named 'support' and 'admin' that are protected with default passwords. These accounts have limited privileges and can access certain system files only. A malicious user with the knowledge of the default passwords may potentially log in to the system and gain read and write access to certain system files.
Dell EMC SCG Policy Manager, versions from 5.10 to 5.12, contain(s) a contain a Hard-coded Cryptographic Key vulnerability. An attacker with the knowledge of the hard-coded sensitive information, could potentially exploit this vulnerability to login to the system to gain LDAP user privileges.
Dell PowerStore, version(s) 4.0.0.0, contain(s) an Use of Hard-coded Credentials vulnerability in the PowerStore image file. A low privileged attacker with remote access, with the knowledge of the hard-coded credentials, could potentially exploit this vulnerability to gain unauthorized access based on the hardcoded account's privileges.
PowerPath Management Appliance with versions 3.3 & 3.2* contains a Hardcoded Cryptographic Keys vulnerability. Authenticated admin users can exploit the issue that leads to view and modifying sensitive information stored in the application.
EMC ViPR SRM, EMC Storage M&R, EMC VNX M&R, EMC M&R for SAS Solution Packs (EMC ViPR SRM prior to 4.1, EMC Storage M&R prior to 4.1, EMC VNX M&R all versions, EMC M&R (Watch4Net) for SAS Solution Packs all versions) contain undocumented accounts with default passwords for Webservice Gateway and RMI JMX components. A remote attacker with the knowledge of the default password may potentially use these accounts to run arbitrary web service and remote procedure calls on the affected system.
Dell EMC PowerScale OneFS 8.1.x - 9.1.x contain hard coded credentials. This allows a local user with knowledge of the credentials to login as the admin user to the backend ethernet switch of a PowerScale cluster. The attacker can exploit this vulnerability to take the switch offline.
Dell EMC OpenManage Integration for Microsoft System Center (OMIMSSC) for SCCM and SCVMM versions prior to 7.2.1 contain a hard-coded cryptographic key vulnerability. A remote unauthenticated attacker may exploit this vulnerability to gain access to the appliance data for remotely managed devices.
Dell Enterprise SONiC OS, 4.0.0, 4.0.1, contain a cryptographic key vulnerability in SSH. An unauthenticated remote attacker could potentially exploit this vulnerability, leading to unauthorized access to communication.
Accellion File Transfer Appliance version FTA_8_0_540 suffers from an instance of CWE-798: Use of Hard-coded Credentials.
On BE126 WIFI repeater 1.0 devices, an attacker can log into telnet (which is open by default) with default credentials as root (username:"root" password:"root"). The attacker can make a user that is connected to the repeater click on a malicious link that will log into the telnet and will infect the device with malicious code.
On BE126 WIFI repeater 1.0 devices, an attacker can log into telnet (which is open by default) with default credentials as root (username:"root" password:"root") and can: 1. Read the entire file system; 2. Write to the file system; or 3. Execute any code that attacker desires (malicious or not).
NETGEAR XR1000 devices before 1.0.0.58 are affected by a hardcoded password.
A Use of Password Hash Instead of Password for Authentication issue was discovered in Dahua DH-IPC-HDBW23A0RN-ZS, DH-IPC-HDBW13A0SN, DH-IPC-HDW1XXX, DH-IPC-HDW2XXX, DH-IPC-HDW4XXX, DH-IPC-HFW1XXX, DH-IPC-HFW2XXX, DH-IPC-HFW4XXX, DH-SD6CXX, DH-NVR1XXX, DH-HCVR4XXX, DH-HCVR5XXX, DHI-HCVR51A04HE-S3, DHI-HCVR51A08HE-S3, and DHI-HCVR58A32S-S2 devices. The use of password hash instead of password for authentication vulnerability was identified, which could allow a malicious user to bypass authentication without obtaining the actual password.
DragonWave Horizon 1.01.03 wireless radios have hardcoded login credentials (such as the username of energetic and password of wireless) meant to allow the vendor to access the devices. These credentials can be used in the web interface or by connecting to the device via TELNET. This is fixed in recent versions including 1.4.8.
Amcrest IPM-721S V2.420.AC00.16.R.20160909 devices have default credentials that are hardcoded in the firmware and can be extracted by anyone who reverses the firmware to identify them. If the firmware version V2.420.AC00.16.R 9/9/2016 is dissected using binwalk tool, one obtains a _user-x.squashfs.img.extracted archive which contains the filesystem set up on the device that many of the binaries in the /usr folder. The binary "sonia" is the one that has the vulnerable function that sets up the default credentials on the device. If one opens this binary in IDA-pro, one will notice that this follows a ARM little endian format. The function sub_3DB2FC in IDA pro is identified to be setting up the values at address 0x003DB5A6. The sub_5C057C then sets this value and adds it to the Configuration files in /mnt/mtd/Config/Account1 file.
Wireless IP Camera (P2P) WIFICAM devices have a backdoor root account that can be accessed with TELNET.
Intellinet NFC-30ir IP Camera has a vendor backdoor that can allow a remote attacker access to a vendor-supplied CGI script in the web directory.
Schneider Electric SoMachine Basic 1.4 SP1 and Schneider Electric Modicon TM221CE16R 1.3.3.3 devices have a hardcoded-key vulnerability. The Project Protection feature is used to prevent unauthorized users from opening an XML protected project file, by prompting the user for a password. This XML file is AES-CBC encrypted; however, the key used for encryption (SoMachineBasicSoMachineBasicSoMa) cannot be changed. After decrypting the XML file with this key, the user password can be found in the decrypted data. After reading the user password, the project can be opened and modified with the Schneider product.
An issue was discovered in Veritas NetBackup Before 8.0 and NetBackup Appliance Before 3.0. NetBackup Cloud Storage Service uses a hardcoded username and password.
EMC ESRS Policy Manager prior to 6.8 contains an undocumented account (OpenDS admin) with a default password. A remote attacker with the knowledge of the default password may login to the system and gain administrator privileges to the local LDAP directory server.
The Data Warehouse component in NetApp OnCommand Insight before 7.2.3 allows remote attackers to obtain administrative access by leveraging a default privileged account.
ACTi cameras including the D, B, I, and E series using firmware version A1D-500-V6.11.31-AC fail to properly restrict access to the factory reset page. An unauthenticated, remote attacker can exploit this vulnerability by directly accessing the http://x.x.x.x/setup/setup_maintain_firmware-default.html page. This will allow an attacker to perform a factory reset on the device, leading to a denial of service condition or the ability to make use of default credentials (CVE-2017-3186).
ACTi cameras including the D, B, I, and E series using firmware version A1D-500-V6.11.31-AC use non-random default credentials across all devices. A remote attacker can take complete control of a device using default admin credentials.
An issue was discovered in Kaseya Unitrends Backup Appliance before 10.5.5. The SNMP daemon was configured with a weak default community.
Toshiba Home gateway HEM-GW16A firmware HEM-GW16A-FW-V1.2.0 and earlier, Toshiba Home gateway HEM-GW26A firmware HEM-GW26A-FW-V1.2.0 and earlier uses hard-coded credentials, which may allow attackers to perform operations on device with administrative privileges.
A hard-coded cryptographic key vulnerability in the default configuration file was found in Kiali, all versions prior to 1.15.1. A remote attacker could abuse this flaw by creating their own JWT signed tokens and bypass Kiali authentication mechanisms, possibly gaining privileges to view and alter the Istio configuration.
MEDHOST Connex contains hard-coded credentials that are used for customer database access. An attacker with knowledge of the hard-coded credentials and the ability to communicate directly with the database may be able to obtain or modify sensitive patient and financial information. Connex utilizes an IBM i DB2 user account for database access. The account name is HMSCXPDN. Its password is hard-coded in multiple places in the application. Customers do not have the option to change this password. The account has elevated DB2 roles, and can access all objects or database tables on the customer DB2 database. This account can access data through ODBC, FTP, and TELNET. Customers without Connex installed are still vulnerable because the MEDHOST setup program creates this account.
The presence of a hardcoded account in Fortinet FortiWLC 8.3.3 allows attackers to gain unauthorized read/write access via a remote shell.