Philips In.Sight B120/37 has a password of b120root for the backdoor root account, a password of /ADMIN/ for the backdoor admin account, a password of merlin for the backdoor mg3500 account, a password of M100-4674448 for the backdoor user account, and a password of M100-4674448 for the backdoor admin account.
Philips e-Alert Unit (non-medical device), Version R2.1 and prior. The software does not validate input properly, allowing an attacker to craft the input in a form that is not expected by the rest of the application. This would lead to parts of the unit receiving unintended input, which may result in altered control flow, arbitrary control of a resource, or arbitrary code execution.
Philips e-Alert Unit (non-medical device), Version R2.1 and prior. The software, upon installation, sets incorrect permissions for an object that exposes it to an unintended actor.
In Philips Alice 6 System version R8.0.2 or prior, when an actor claims to have a given identity, the software does not prove or insufficiently proves that the claim is correct. This weakness can lead to the exposure of resources or functionality to unintended actors, possibly providing attackers with sensitive information or the ability to execute arbitrary code.
Philips Intellispace Portal all versions 7.0.x and 8.0.x have an insecure windows permissions vulnerability that could allow an attacker to gain unauthorized access and in some cases escalate their level of privilege or execute arbitrary code.
Philips IntelliSpace Portal all versions of 8.0.x, and 7.0.x have a vulnerability using SSL legacy encryption that could allow an attacker to gain unauthorized access to resources and information.
Philips Intellispace Portal all versions 7.0.x and 8.0.x have a remote desktop access vulnerability that could allow an attacker to gain unauthorized access and in some cases escalate their level of privilege or execute arbitrary code
Philips IntelliSpace Portal all versions of 8.0.x, and 7.0.x have an untrusted SSL certificate vulnerability this could allow an attacker to gain unauthorized access to resources and information.
Philips IntelliSpace Portal all versions of 8.0.x, and 7.0.x have an SSL incorrect hostname certificate vulnerability this could allow an attacker to gain unauthorized access to resources and information.
Philips Intellispace Portal all versions 7.0.x and 8.0.x have an input validation vulnerability that could allow a remote attacker to execute arbitrary code or cause the application to crash.
In Philips Alice 6 System version R8.0.2 or prior, the lack of proper data encryption passes up the guarantees of confidentiality, integrity, and accountability that properly implemented encryption conveys.
Philips IntelliSpace Portal all versions of 8.0.x, and 7.0.x have a self-signed SSL certificate vulnerability this could allow an attacker to gain unauthorized access to resources and information.
Philips In.Sight B120/37 allows remote attackers to obtain sensitive information via a direct request, related to yoics.net URLs, stream.m3u8 URIs, and cam_service_enable.cgi.
Philips Vue PACS versions 12.2.x.x and prior transmits sensitive or security-critical data in cleartext in a communication channel that can be sniffed by unauthorized actors.
The use of a broken or risky cryptographic algorithm in Philips Vue PACS versions 12.2.x.x and prior is an unnecessary risk that may result in the exposure of sensitive information.
Philips Vue PACS versions 12.2.x.x and prior transmits or stores authentication credentials, but it uses an insecure method susceptible to unauthorized interception and/or retrieval.
Philips Vue PACS versions 12.2.x.x and prior uses a cryptographic key or password past its expiration date, which diminishes its safety significantly by increasing the timing window for cracking attacks against that key.
Philips DreamMapper, Version 2.24 and prior. Information written to log files can give guidance to a potential attacker.
Philips MRI 1.5T and MRI 3T Version 5.x.x does not restrict or incorrectly restricts access to a resource from an unauthorized actor.
Philips e-Alert Unit (non-medical device), Version R2.1 and prior. The Philips e-Alert contains a banner disclosure vulnerability that could allow attackers to obtain extraneous product information, such as OS and software components, via the HTTP response header that is normally not available to the attacker, but might be useful information in an attack.
In Tasy EMR, Tasy WebPortal Versions 3.02.1757 and prior, there is an information exposure vulnerability which may allow a remote attacker to access system and configuration information.
Philips Brilliance CT software (Brilliance 64 version 2.6.2 and prior, Brilliance iCT versions 4.1.6 and prior, Brillance iCT SP versions 3.2.4 and prior, and Brilliance CT Big Bore 2.3.5 and prior) contains fixed credentials, such as a password or cryptographic key, which it uses for its own inbound authentication, outbound communication to external components, or encryption of internal data. An attacker could compromise these credentials and gain access to the system.
IntelliBridge EC 40 and 60 Hub (C.00.04 and prior) contains hard-coded credentials, such as a password or a cryptographic key, which it uses for its own inbound authentication, outbound communication to external components, or encryption of internal data.
In Philips PageWriter TC10, TC20, TC30, TC50, TC70 Cardiographs, all versions prior to May 2018, an attacker with both the superuser password and physical access can enter the superuser password that can be used to access and modify all settings on the device, as well as allow the user to reset existing passwords.
We observed that Intellispace Portal binaries doesn’t have any protection mechanisms to prevent reverse engineering. Specifically, the app’s code is not obfuscated, and no measures are in place to protect against decompilation, disassembly, or debugging. As a result, attackers can reverse-engineer the application to gain insights into its internal workings, which can potentially lead to the discovery of sensitive information, business logic flaws, and other vulnerabilities. Utilizing this flaw, the attacker was able to identify the Hardcoded credentials from PortalUsersDatabase.dll, which contains .NET remoting definition. Inside the namespace PortalUsersDatabase, the class Users contains the functions CreateAdmin and CreateService that are used to initialize accounts in the Portal service. Both CreateAdmin and CreateService functions contain a hardcoded encrypted password along with its respective salt that are set with the function SetInitialPasswordAndSalt. This issue affects IntelliSpace Portal: 12 and prior; Advanced Visualization Workspace: 15.
The backend database of the Philips DoseWise Portal application versions 1.1.7.333 and 2.1.1.3069 uses hard-coded credentials for a database account with privileges that can affect confidentiality, integrity, and availability of the database. For an attacker to exploit this vulnerability, elevated privileges are first required for an attacker to access the web application backend system files that contain the hard-coded credentials. Successful exploitation may allow a remote attacker to gain access to the database of the DWP application, which contains PHI. CVSS v3 base score: 9.1, CVSS vector string: AV:N/AC:L/PR:H/UI:N/S:C/C:H/I:H/A:H.
Philips IntelliVue WLAN, portable patient monitors, WLAN Version A, Firmware A.03.09, WLAN Version A, Firmware A.03.09, Part #: M8096-67501, WLAN Version B, Firmware A.01.09, Part #: N/A (Replaced by Version C) and WLAN Version B, Firmware A.01.09, Part #: N/A (Replaced by Version C). An attacker can use these credentials to login via ftp and upload a malicious firmware.
ZModo ZP-NE14-S and ZP-IBH-13W devices have a hardcoded root password, which makes it easier for remote attackers to obtain access via a TELNET session.
Juniper ATP ships with hard coded credentials in the Cyphort Core instance which gives an attacker the ability to take full control of any installation of the software. Affected releases are Juniper Networks Juniper ATP: 5.0 versions prior to 5.0.3.
Juniper ATP ships with hard coded credentials in the Web Collector instance which gives an attacker the ability to take full control of any installation of the software. Affected releases are Juniper Networks Juniper ATP: 5.0 versions prior to 5.0.3.
Milesight IP security cameras through 2016-11-14 have a default root password in /etc/shadow that is the same across different customers' installations.
A low privileged admin account with a weak default password of admin exists on the Foxconn FEMTO AP-FC4064-T AP_GT_B38_5.8.3lb15-W47 LTE Build 15. In addition, its web management page relies on the existence or values of cookies when performing security-critical operations. One can gain privileges by modifying cookies.
A vulnerability was determined in yeqifu carRental up to 3fabb7eae93d209426638863980301d6f99866b3. Affected by this vulnerability is an unknown functionality of the file /carRental_war/druid/login.html of the component Druid. Executing manipulation can lead to hard-coded credentials. The attack may be launched remotely. The exploit has been publicly disclosed and may be utilized. This product operates on a rolling release basis, ensuring continuous delivery. Consequently, there are no version details for either affected or updated releases.
Milesight IP security cameras through 2016-11-14 have a default set of 10 privileged accounts with hardcoded credentials. They are accessible if the customer has not configured 10 actual user accounts.
An issue was discovered on MOBOTIX S14 MX-V4.2.1.61 devices. There is a default password of meinsm for the admin account.
Milesight IP security cameras through 2016-11-14 have a hardcoded SSL private key under the /etc/config directory.
ExaGrid appliances with firmware before 4.8 P26 have a default password of (1) inflection for the root shell account and (2) support for the support account in the web interface, which allows remote attackers to obtain administrative access via an SSH or HTTP session.
An issue was discovered on VOBOT CLOCK before 0.99.30 devices. An SSH server exists with a hardcoded vobot account that has root access.
iBall iB-WRA150N 1.2.6 build 110401 Rel.47776n devices have a hardcoded password of admin for the admin account, a hardcoded password of support for the support account, and a hardcoded password of user for the user account.
An issue was discovered in the MBeans Server in Wowza Streaming Engine before 4.7.1. The file system may be read and written to via JMX using the default JMX credentials (remote code execution may be possible as well).
The onelogin-saml-sso plugin before 2.2.0 for WordPress has a hardcoded @@@nopass@@@ password for just-in-time provisioned users.
A reliance on a static, hard-coded credential in the design of the cloud-based storage system of Practecol's Guardzilla All-In-One Video Security System allows an attacker to view the private data of all users of the Guardzilla device.
The Auto-Maskin DCU 210E firmware contains an undocumented Dropbear SSH server, v2015.55, configured to listen on Port 22 while the DCU is running. The Dropbear server is configured with a hard-coded user name and password combination of root / amroot. The server is configured to use password only authentication not cryptographic keys, however the firmware image contains an RSA host-key for the server. An attacker can exploit this vulnerability to gain root access to the Angstrom Linux operating system and modify any binaries or configuration files in the firmware. Affected releases are Auto-Maskin DCU-210E RP-210E: Versions prior to 3.7 on ARMv7.
backupmgt/pre_connect_check.php in Seagate BlackArmor NAS contains a hard-coded password of '!~@##$$%FREDESWWSED' for a backdoor user.
The IMM2 First Failure Data Capture function collects management module logs and diagnostic information when a hardware error is detected. This information is made available for download through an SFTP server hosted on the IMM2 management network interface. In versions earlier than 4.90 for Lenovo System x and earlier than 6.80 for IBM System x, the credentials to access the SFTP server are hard-coded and described in the IMM2 documentation, allowing an attacker with management network access to obtain the collected FFDC data. After applying the update, the IMM2 will create random SFTP credentials for use with OneCLI.
MASTER IPCAMERA01 3.3.4.2103 devices have a hardcoded password of cat1029 for the root account.
auth_db_config.py in Pyftpd 0.8.4 contains hard-coded usernames and passwords for the (1) test, (2) user, and (3) roxon accounts, which allows remote attackers to read arbitrary files from the FTP server.
Siklu EtherHaul radios before 3.7.1 and 6.x before 6.9.0 have a built-in, hidden root account, with an unchangeable password that is the same across all devices. This account is accessible via both SSH and the device's web interface and grants access to the underlying embedded Linux OS on the device, allowing full control over it.
A remote, unauthenticated attacker can gain remote code execution on the the Tenda AC15 router with a specially crafted password parameter for the COOKIE header.
Trango Altum AC600 devices have a built-in, hidden root account, with a default password of abcd1234. This account is accessible via SSH and/or TELNET, and grants access to the underlying embedded UNIX OS on the device, allowing full control over it.