Update NVIDIA GeForce Experience to version 3.28.0.417
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CVE Vulnerabilities for NVIDIA GeForce Experience
| CVE | Published | Severity | Details | Exploitability | Impact | Vector |
| CVE‑2022‑42292 | 2023‑02‑12 04:15:16 | HIGH (8) | NVIDIA GeForce Experience contains a vulnerability in the NVContainer component, where a user without administrator privileges can create a symbolic link to a file that requires elevated privileges to write to or modify, which may lead to denial of service, escalation of privilege or limited data tampering. | 2 | 6 | LOCAL |
| CVE‑2022‑42291 | 2023‑02‑07 03:15:09 | MEDIUM (6) | NVIDIA GeForce Experience contains a vulnerability in the installer, where a user installing the NVIDIA GeForce Experience software may inadvertently delete data from a linked location, which may lead to data tampering. An attacker does not have explicit control over the exploitation of this vulnerability, which requires the user to explicitly launch the installer from the compromised directory. | 2 | 4 | LOCAL |
| CVE‑2022‑31611 | 2023‑02‑07 03:15:08 | HIGH (7) | NVIDIA GeForce Experience contains an uncontrolled search path vulnerability in all its client installers, where an attacker with user level privileges may cause the installer to load an arbitrary DLL when the installer is launched. A successful exploit of this vulnerability could lead to escalation of privileges and code execution. | 1 | 6 | LOCAL |
| CVE‑2021‑23175 | 2021‑12‑23 16:15:08 | HIGH (8) | NVIDIA GeForce Experience contains a vulnerability in user authorization, where GameStream does not correctly apply individual user access controls for users on the same device, which, with user intervention, may lead to escalation of privileges, information disclosure, data tampering, and denial of service, affecting other resources beyond the intended security authority of GameStream. | 2 | 6 | LOCAL |
| CVE‑2021‑1079 | 2021‑04‑20 16:15:10 | MEDIUM (6) | NVIDIA GeForce Experience, all versions prior to 3.22, contains a vulnerability in GameStream plugins where log files are created using NT/System level permissions, which may lead to code execution, denial of service, or local privilege escalation. The attacker does not have control over the consequence of a modification nor would they be able to leak information as a direct result of the overwrite. | 2 | 4 | LOCAL |
| CVE‑2021‑1073 | 2021‑06‑25 20:15:08 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.23, contains a vulnerability in the login flow when a user tries to log in by using a browser, while, at the same time, any other web page is loaded in other tabs of the same browser. In this situation, the web page can get access to the token of the user login session, leading to the possibility that the user’s account is compromised. This may lead to the targeted user’s data being accessed, altered, or lost. | 2 | 6 | NETWORK |
| CVE‑2021‑1072 | 2021‑02‑05 20:15:13 | HIGH (7) | NVIDIA GeForce Experience, all versions prior to 3.21, contains a vulnerability in GameStream (rxdiag.dll) where an arbitrary file deletion due to improper handling of log files may lead to denial of service. | 2 | 5 | LOCAL |
| CVE‑2020‑5990 | 2020‑10‑23 18:15:17 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.20.5.70, contains a vulnerability in the ShadowPlay component which may lead to local privilege escalation, code execution, denial of service or information disclosure. | 2 | 6 | LOCAL |
| CVE‑2020‑5978 | 2020‑10‑23 18:15:17 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.20.5.70, contains a vulnerability in its services in which a folder is created by nvcontainer.exe under normal user login with LOCAL_SYSTEM privileges which may lead to a denial of service or escalation of privileges. | 2 | 6 | LOCAL |
| CVE‑2020‑5977 | 2020‑10‑23 18:15:16 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.20.5.70, contains a vulnerability in NVIDIA Web Helper NodeJS Web Server in which an uncontrolled search path is used to load a node module, which may lead to code execution, denial of service, escalation of privileges, and information disclosure. | 2 | 6 | LOCAL |
| CVE‑2020‑5964 | 2020‑06‑25 00:15:10 | HIGH (8) | NVIDIA Windows GPU Display Driver, all versions, contains a vulnerability in the service host component, in which the application resources integrity check may be missed. Such an attack may lead to code execution, denial of service or information disclosure. | 2 | 6 | LOCAL |
| CVE‑2020‑5958 | 2020‑03‑11 22:30:20 | HIGH (8) | NVIDIA Windows GPU Display Driver, all versions, contains a vulnerability in the NVIDIA Control Panel component in which an attacker with local system access can plant a malicious DLL file, which may lead to code execution, denial of service, or information disclosure. | 2 | 6 | LOCAL |
| CVE‑2020‑5957 | 2020‑03‑05 20:15:12 | HIGH (8) | NVIDIA Windows GPU Display Driver, all versions, contains a vulnerability in the NVIDIA Control Panel component in which an attacker with local system access can corrupt a system file, which may lead to denial of service or escalation of privileges. | 2 | 6 | LOCAL |
| CVE‑2019‑5702 | 2019‑12‑24 22:15:11 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.20.2, contains a vulnerability when GameStream is enabled in which an attacker with local system access can corrupt a system file, which may lead to denial of service or escalation of privileges. | 2 | 6 | LOCAL |
| CVE‑2019‑5701 | 2019‑11‑09 02:15:12 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.20.0.118, contains a vulnerability when GameStream is enabled in which an attacker with local system access can load the Intel graphics driver DLLs without validating the path or signature (also known as a binary planting or DLL preloading attack), which may lead to denial of service, information disclosure, or escalation of privileges through code execution. | 2 | 6 | LOCAL |
| CVE‑2019‑5695 | 2019‑11‑12 21:15:12 | MEDIUM (7) | NVIDIA GeForce Experience (prior to 3.20.1) and Windows GPU Display Driver (all versions) contains a vulnerability in the local service provider component in which an attacker with local system and privileged access can incorrectly load Windows system DLLs without validating the path or signature (also known as a binary planting or DLL preloading attack), which may lead to denial of service or information disclosure through code execution. | 1 | 6 | LOCAL |
| CVE‑2019‑5689 | 2019‑11‑09 02:15:12 | HIGH (8) | NVIDIA GeForce Experience, all versions prior to 3.20.1, contains a vulnerability in the Downloader component in which a user with local system access can craft input that may allow malicious files to be downloaded and saved. This behavior may lead to code execution, denial of service, or information disclosure. | 2 | 6 | LOCAL |
| CVE‑2019‑5678 | 2019‑05‑31 22:29:01 | MEDIUM (5) | NVIDIA GeForce Experience versions prior to 3.19 contains a vulnerability in the Web Helper component, in which an attacker with local system access can craft input that may not be properly validated. Such an attack may lead to code execution, denial of service or information disclosure. | 0 | 0 | LOCAL |
| CVE‑2019‑5676 | 2019‑05‑10 21:29:01 | MEDIUM (7) | NVIDIA Windows GPU Display driver software for Windows (all versions) contains a vulnerability in which it incorrectly loads Windows system DLLs without validating the path or signature (also known as a binary planting or DLL preloading attack), leading to escalation of privileges through code execution. | 1 | 6 | LOCAL |
| CVE‑2019‑5674 | 2019‑03‑28 15:29:00 | MEDIUM (7) | NVIDIA GeForce Experience before 3.18 contains a vulnerability when ShadowPlay or GameStream is enabled. When an attacker has access to the system and creates a hard link, the software does not check for hard link attacks. This behavior may lead to code execution, denial of service, or escalation of privileges. | 0 | 0 | LOCAL |
| CVE‑2018‑6266 | 2018‑11‑27 18:29:02 | LOW (2) | NVIDIA GeForce Experience contains a vulnerability in all versions prior to 3.16 on Windows where a local user may obtain third party integration parameters, which may lead to information disclosure. | 0 | 0 | LOCAL |
| CVE‑2018‑6265 | 2018‑11‑27 18:29:02 | MEDIUM (5) | NVIDIA GeForce Experience contains a vulnerability in all versions prior to 3.16 during application installation on Windows 7 in elevated privilege mode, where a local user who initiates a browser session may obtain escalation of privileges on the browser. | 0 | 0 | LOCAL |
| CVE‑2018‑6263 | 2018‑11‑27 18:29:02 | MEDIUM (5) | NVIDIA GeForce Experience contains a vulnerability in all versions prior to 3.16 on Windows in which an attacker who has access to a local user account can plant a malicious dynamic link library (DLL) during application installation, which may lead to escalation of privileges. | 0 | 0 | LOCAL |
| CVE‑2018‑6262 | 2018‑10‑02 17:29:00 | LOW (2) | NVIDIA GeForce Experience prior to 3.15 contains a vulnerability when GameStream is enabled where limited sensitive user information may be available to users with system access, which may lead to information disclosure. | 0 | 0 | LOCAL |
| CVE‑2018‑6261 | 2018‑10‑02 17:29:00 | MEDIUM (4) | NVIDIA GeForce Experience prior to 3.15 contains a vulnerability when GameStream is enabled which sets incorrect permissions on a file, which may to code execution, denial of service, or escalation of privileges by users with system access. | 0 | 0 | LOCAL |
| CVE‑2018‑6259 | 2018‑08‑31 20:29:00 | LOW (2) | NVIDIA GeForce Experience all versions prior to 3.14.1 contains a potential vulnerability when GameStream is enabled, an attacker has system access, and certain system features are enabled, where limited information disclosure may be possible. | 0 | 0 | LOCAL |
| CVE‑2018‑6258 | 2018‑08‑31 20:29:00 | LOW (2) | NVIDIA GeForce Experience all versions prior to 3.14.1 contains a potential vulnerability during GameStream installation where an attacker who has system access can potentially conduct a Man-in-the-Middle (MitM) attack to obtain sensitive information. | 0 | 0 | LOCAL |
| CVE‑2018‑6257 | 2018‑08‑31 20:29:00 | MEDIUM (4) | NVIDIA GeForce Experience all versions prior to 3.14.1 contains a potential vulnerability when GameStream is enabled where improper access control may lead to a denial of service, escalation of privileges, or both. | 0 | 0 | LOCAL |
| CVE‑2017‑6250 | 2017‑04‑28 21:59:00 | MEDIUM (5) | NVIDIA GeForce Experience contains a vulnerability in NVIDIA Web Helper.exe, where untrusted script execution may lead to violation of application execution policy and local code execution. | 0 | 0 | LOCAL |
| CVE‑2017‑0316 | 2017‑10‑16 21:29:00 | HIGH (8) | In GeForce Experience (GFE) 3.x before 3.10.0.55, NVIDIA Installer Framework contains a vulnerability in NVISystemService64 where a value passed from a user to the driver is used without validation, which may lead to denial of service or possible escalation of privileges. | 2 | 6 | LOCAL |
| CVE‑2016‑8827 | 2016‑12‑16 21:59:01 | MEDIUM (7) | NVIDIA GeForce Experience 3.x before GFE 3.1.0.52 contains a vulnerability in NVIDIA Web Helper.exe where a local web API endpoint, /VisualOPS/v.1.0./, lacks proper access control and parameter validation, allowing for information disclosure via a directory traversal attack. | 3 | 4 | NETWORK |
| CVE‑2016‑8812 | 2016‑11‑08 20:59:26 | HIGH (7) | For the NVIDIA Quadro, NVS, and GeForce products, NVIDIA GeForce Experience R340 before GFE 2.11.4.125 and R375 before GFE 3.1.0.52 contains a vulnerability in the kernel mode layer (nvstreamkms.sys) allowing a user to cause a stack buffer overflow with specially crafted executable paths, leading to a denial of service or escalation of privileges. | 0 | 0 | LOCAL |
| CVE‑2016‑5852 | 2016‑11‑08 20:59:06 | HIGH (7) | For the NVIDIA Quadro, NVS, and GeForce products, GFE GameStream and NVTray Plugin unquoted service path vulnerabilities are examples of the unquoted service path vulnerability in Windows. A successful exploit of a vulnerable service installation can enable malicious code to execute on the system at the system/user privilege level. The CVE-2016-5852 ID is for the NVTray Plugin unquoted service path. | 0 | 0 | LOCAL |
| CVE‑2016‑4961 | 2016‑11‑08 20:59:04 | MEDIUM (5) | For the NVIDIA Quadro, NVS, and GeForce products, improper sanitization of parameters in the NVStreamKMS.sys API layer caused a denial of service vulnerability (blue screen crash) within the NVIDIA Windows graphics drivers. | 0 | 0 | LOCAL |
| CVE‑2016‑4960 | 2016‑11‑08 20:59:03 | MEDIUM (7) | For the NVIDIA Quadro, NVS, and GeForce products, the NVIDIA NVStreamKMS.sys service component is improperly validating user-supplied data through its API entry points causing an elevation of privilege. | 0 | 0 | LOCAL |
| CVE‑2016‑3161 | 2016‑11‑08 20:59:00 | HIGH (7) | For the NVIDIA Quadro, NVS, and GeForce products, GFE GameStream and NVTray Plugin unquoted service path vulnerabilities are examples of the unquoted service path vulnerability in Windows. A successful exploit of a vulnerable service installation can enable malicious code to execute on the system at the system/user privilege level. The CVE-2016-3161 ID is for the GameStream unquoted service path. | 0 | 0 | LOCAL |
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From wrapping TLS communications in extra encryption and uninstalling remote support tools when they aren't used to detailed statistical analysis of system and network performance, Lavawall® goes in-depth.
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Lavawall® goes beyond patches and breach detection. We also monitor for risky Chromium extensions and allowed notifications that might be part of a phishing or ransomware attack.
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Get immediate fixes, user notifications, admin notifications -- and even security-certified human level 3 support when our advanced statistical analysis confirms a problem or anomaly.
We are constantly improving the Lavawall® tools to add more value. Some of our most recent changes include:
| 2024‑10‑30 | 0.12.8.195 | Mac update refinements |
| 2024‑10‑25 | 0.12.3.190 | |
| 2024‑10‑21 | 0.12.0.187 | Macos implementaiton, linux and windows improvements |
| 2024‑10‑16 | 0.11.128.186 | Linux stats and system information improvements, improvements for application shutdown |
| 2024‑09‑12 | 0.11.113.171 | CPU Optimizations and Packages reliability improvements |
| 2024‑09‑05 | 0.11.106.164 | Phased deployment enhancements |
| 2024‑09‑04 | 0.11.103.161 | |
| 2024‑09‑02 | 0.11.102.160 | CPU Optimizations and Packages reliability improvements |
| 2024‑08‑30 | 0.11.99.157 | CPU Optimizations and Packages reliability improvements |
| 2024‑08‑29 | 0.11.98.156 | CPU utilization and console event optimization |
| 2024‑08‑28 | 0.11.97.155 | Reliability to detect unusual updates like redistributables. |
| 2024‑08‑27 | 0.11.96.154 | |
| 2024‑08‑26 | 0.11.95.153 | Faster response for reboot requests |
| 2024‑08‑20 | 0.11.92.150 | Additional package upgrade pre-requisites |
| 2024‑08‑15 | 0.11.89.147 | |
| 2024‑08‑06 | 0.11.87.145 | |
| 2024‑07‑26 | 0.11.83.141 | Add resiliency for MAC duplicates and uptime |
| 2024‑07‑25 | 0.11.82.140 | Changes to facilitate cross-platform use. Bitlocker and Windows key refinements |
| 2024‑07‑15 | 0.11.80.138 | Antivirus and temperature added to configuration checks |
| 2024‑07‑15 | 0.11.79.137 | Add configuration checks for execution policy and secure boot |
| 2024‑07‑11 | 0.11.77.135 | load balancing refinements |
| 2024‑07‑10 | 0.11.76.134 | Add additional load balancing and data residency capabilities, add randomness to recurring task timings to decrease server load |
| 2024‑07‑05 | 0.11.74.132 | changes to graph and residual work on user imporsonation |
| 2024‑07‑04 | 0.11.73.131 | Add configuration checks for execution policy and secure boot. |
| 2024‑07‑03 | 0.11.72.130 | Enhanced event log monitoring |
| 2024‑07‑02 | 0.11.71.129 | Add details to Windows updates, enhanced risk metrics for application patches |
| 2024‑06‑19 | 0.11.65.123 | Update resiliancy and garbage collection |
| 2024‑06‑13 | 0.11.60.118 | Enhanced logging |
| 2024‑06‑12 | 0.11.55.113 | Include the primary drive serial number; MAC addresses for built-in wireless, Bluetooth, and ethernet into the device hash to restore uninstalled and reinstalled devices in cases where the motherboard serial is not unique |
| 2024‑06‑07 | 0.11.54.112 | Patch and package uninstall data addition |
| 2024‑06‑05 | 0.11.47.105 | refine per-user registry application listing |
| 2024‑06‑02 | 0.11.45.103 | uninstall and reinstall refinements, refine local logging, refine self-update and uninstall timing |
| 2024‑05‑30 | 0.11.21.79 | various bug fixes and improvements |
| 2024‑05‑28 | 0.11.16.74 | Error logging, registration, and uninstall improvements. |
| 2024‑05‑24 | 0.11.14.72 | applied changes for devices and login commands, changes for registration as well |
| 2024‑05‑22 | 0.11.13.71 | Add Windows computer model, improve Operating System parsing |
| 2024‑05‑21 | 0.11.11.69 | Added additional states for Windows update, flexibility for non-standard program file configurations, support for network diagrams at the switch level, details for Windows editions |
| 2024‑05‑21 | 0.11.10.68 | Add specific cases for Defender patterns and Composer versions. |
| 2024‑05‑17 | 0.11.3.61 | Change Log storage location to c:\program files\Lavawall |
| 2024‑05‑17 | 0.11.1.59 | self-update improvements. |
| 2024‑05‑16 | 0.8.0.55 | error log reporting and management. |
| 2024‑05‑15 | 0.7.0.54 | Websocket resiliency improvements |
| 2024‑05‑09 | 0.6.0.53 | Error log reporting and management. |
| 2024‑05‑01 | 0.5.44.52 | Even more improvements to scheduler |
| 2024‑04‑24 | 0.5.41.49 | Install compatibility with Sandbox |
| 2024‑04‑22 | 0.5.21.29 | Project property changes to enable automated compilation with new features. |
| 2024‑04‑20 | 0.5.20.28 | Add motherboard serial number and company reassignment |
| 2024‑04‑11 | 0.5.4.12 | Automate release notes as part of build process |
| 2024‑04‑03 | 0.5.3.11 | Websocket and service enhancements |
| 2024‑03‑21 | 0.5.2.10 | Enhance zip file validation |
Although the Linux agent code base is mature, dating back to 2006, we're still constantly improving it to add value and compatibility for new distributions. Some of our most recent changes include:
NOTE: changes after June 2024 are incorportated into the Windows Changelog as the codebases for Windows, Linux, and Mac were combined
NOTE: changes after June 2024 are incorportated into the Windows Changelog as the codebases for Windows, Linux, and Mac were combined
| 2024‑05‑20 | 253 | Added cleanup of old .json files during a re-install |
| 2024‑05‑13 | 252 | Added apt-get update to install |
| 2024‑05‑06 | 248 | Allow restart to use /var/run/reboot-required if needrestart is not installed |
| 2024‑04‑22 | 239 | Improve internal update and version tracking |
| 2024‑04‑15 | 235 | Add support for Yum packages |
| 2024‑04‑08 | 233 | Align patching with Windows patch reporting |
| 2024‑04‑02 | 228 | Add support for needrestart |
| 2024‑03‑04 | 224 | Schedule restarts |
| 2024‑03‑25 | 221 | Add support for apt packages |
| 2024‑03‑18 | 212 | Implement release management |
| 2024‑03‑11 | 202 | Add user login monitoring |
| 2024‑03‑04 | 189 | Enhance installation reliability |
| 2024‑02‑26 | 187 | Exapand triggers to identify if the instance needs to be restarted |
| 2024‑02‑19 | 146 | Improve compatibility for non-AWS instances |
| 2024‑02‑14 | 138 | Add self-uninstall capabilities |
| 2024‑02‑12 | 135 | Enhance scheduling flexibility |
| 2024‑02‑07 | 132 | Add kernel version tracking |
| 2024‑02‑05 | 124 | Add device hash to cryptographic self-update script validation |
| 2024‑01‑29 | 107 | Enhance encryption of patch data |
| 2024‑01‑22 | 98 | Improve how available storage is calculated |
| 2024‑01‑15 | 97 | Move initial tasks from installation file to sub scripts |
| 2024‑05‑21 | 91 | Improve multi-distribution compatibility |
| 2024‑05‑21 | 79 | Improve encryption reliability |
| 2023‑12‑11 | 68 | Enhance cryptographic validation of new scripts before updating |
| 2023‑11‑20 | 62 | Add inner layer of AES encryption in case TLS inspection doesn't allow for a secure connection |
| 2023‑11‑27 | 56 | Additional base cases for resiliancy |
| 2023‑11‑20 | 54 | Additional headers added to authentication process during installation. |
| 2023‑11‑20 | 53 | Enhanced key management |
| 2023‑11‑15 | 51 | Add insecure installation parameter to allow installation in environments with TLS inspection or other machine-in-the-middle situations. |
| 2023‑11‑06 | 42 | Enhance redundant encryption during installation. |
| 2023‑10‑30 | 33 | Improve install-over compatibility |
| 2023‑10‑23 | 18 | Add reboot configuration and scheduling |
| 2023‑10‑23 | 17 | Add self-updating functionality. |
| 2023‑10‑16 | 15 | Add Linux patching information for apt |
| 2023‑10‑09 | 14 | Collect system information |
| 2023‑10‑09 | 13 | Add Linux distribution information |
| 2023‑09‑30 | 12 | Add memory monitoring |
| 2023‑09‑30 | 10 | Add hardware information |
| 2023‑09‑23 | 9 | Add AWS information |
| 2023‑09‑23 | 8 | Add customized schedule capability for configuration updates |
| 2023‑09‑23 | 7 | Add support for package monitoring using package and dpkg logs |
| 2023‑09‑16 | 6 | Add storage data configuration gathering |
| 2023‑09‑16 | 5 | Add CPU information |
Lavawall®'s data gathering approach started with Government and Fortune 50 information security audits. When our founder transitioned from audit and assurance work to a Managed IT Service Provider (MSP), he was shocked that basics like Multi-Factor Authentication were painful to implement in some RMMs like ConnectWise and it was impossible to turn off remote access services in others like Datto RMM and SuperOps.
Lavawall® was built from the ground up with these concerns and the Minimum Viable Secure Product requirements in mind.
Some of the controls we implemented include:
Lavawall® was built from the ground up with these concerns and the Minimum Viable Secure Product requirements in mind.
Some of the controls we implemented include:
- PassKeys as the preferred primary authentication at no additional cost
- Single Sign-on using modern, maintained, and industry-standard protocols for all customers at no additional cost
- Multi-Factor Authentication as a non-negotiable default
- Encrypting communications the same way as TLS again within the TLS tunnel, so we can allow TLS inspection without breaking like Huntress or disclosing security vulnerabilities to eavesdroppers.
- Encouraging external vulnerability reports and customer testing
- Passwords checked against popular disclosed passwords, hashed before they leave your computer, and then stored using Argon2id
- Not requiring the use of passwords at all. We consider them a temporary backup authentication in case you can't use passkeys or SSO.
Lavawall® scanning computers are on dedicated servers in Calgary, Alberta, Canada.
Lavawall® databases and front-end systems are hosted with AWS in Montréal, Québec, Canada.
We send emails through AWS in Ireland and dedicated servers in Calgary, Alberta, Canada.
We send text messages for additional identity verification through Twilio in the United States.
We store executables and pass requests through Cloudflare at your nearest edge location.
We use Cloudflare for risk management, turnstile, and web application firewall services.
We use LeadPages for landing pages.
We use Google and Facebook for analytics on our public-facing pages, but they do not have access to the console.
We integrate with third-party tools, such as Microsoft, Google, Huntress, Screen Connect, Axcient, and Datto in their respective locations. However, you must initiate these integrations through single sign-on or by enabling them in your Lavawall® console.
Lavawall® databases and front-end systems are hosted with AWS in Montréal, Québec, Canada.
We send emails through AWS in Ireland and dedicated servers in Calgary, Alberta, Canada.
We send text messages for additional identity verification through Twilio in the United States.
We store executables and pass requests through Cloudflare at your nearest edge location.
We use Cloudflare for risk management, turnstile, and web application firewall services.
We use LeadPages for landing pages.
We use Google and Facebook for analytics on our public-facing pages, but they do not have access to the console.
We integrate with third-party tools, such as Microsoft, Google, Huntress, Screen Connect, Axcient, and Datto in their respective locations. However, you must initiate these integrations through single sign-on or by enabling them in your Lavawall® console.
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Although we do have a partner relationship with some of the listed products and companies, they do not necessarily endorse Lavawall® or have integrations with our systems.
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The three big catalysts for Lavawall® were:
- Two years after a missing Plex Media Server led to the LastPass breach, the
Remote Monitorign and Management (RMM) tools availabel for Manged IT Service Providers (MSPs)
still didn't monitor for it.
Going through industry-specific applications, we noticed many were missing from the big RMM and patching providers. MSPs, insurance providers, and organizations that put their cleints at risk need to know about these risks, which lead to the largest number of critical audit findings and breaches - After 20 years of writing the same audit findings about system configurations, Payment Card Industry (PCI) compliance, and missing patches, our technical co-founder wanted to make it easier fo avoid these findings
- The existing risk visibility tools for insurance underwriters took a shallow look at Internet-facing risks. They -- along with all businesses -- need a deeper view of the threats that could actually lead to breaches.
Lavawall® breaks vulnerabilities into the following groups:
- Domain risks
- Operating System (OS) patches
- Application patches
- Network vulnerabilities
- Cloud vulnerabilities
- OS configurations
We are currently building more third-party interfaces.
Current interfaces include:
- Axcient*
- Cloudflare
- Connectwise Screen Connect
- Datto RMM
- FreshDesk*
- Huntress
- Microsoft 365
- Panorama9
- ZenDesk
Yes!
You can use your own logo for the console and notifications. You can also use a CNAME to automatically brand your console.
Note: you cannot currently re-proxy the CNAME to Lavawall® through Cloudflare.
You can use your own logo for the console and notifications. You can also use a CNAME to automatically brand your console.
Note: you cannot currently re-proxy the CNAME to Lavawall® through Cloudflare.
Yes!
Lavawall® supports the following operating systems:All versions of Windows 10 and 11.
Debian, Ubuntu, Mint, and RedHat-based Linux distributions
MacOS
Lavawall® does not currently support non systemd distributions, such as Devuan, Artix Linux, PCLinuxOS, OpenWRT, and DD-WRT. However, we will support them by the end of 2024.
In June 2024, we combined the Windows and Linux systems for a consistent experience. This added support for RedHat and MacOS.
Lavawall® supports the following operating systems:
Lavawall® does not currently support non systemd distributions, such as Devuan, Artix Linux, PCLinuxOS, OpenWRT, and DD-WRT. However, we will support them by the end of 2024.
In June 2024, we combined the Windows and Linux systems for a consistent experience. This added support for RedHat and MacOS.
Privacy & Security
We encourage primary authentication for Lavawall® through Passkeys or Single Sign On (SSO).
However, we do allow passwords and use passwords as part of the zero-knowledge encryption for your clients' sensitive data, such as Bitlocker keys and Personally-Identifiable Information (PII).
These passwords use Argon2id slow hashes with individual salts and peppers.
However, we do allow passwords and use passwords as part of the zero-knowledge encryption for your clients' sensitive data, such as Bitlocker keys and Personally-Identifiable Information (PII).
These passwords use Argon2id slow hashes with individual salts and peppers.
Yes! Lavawall communicates with its endpoints through TLS. However, given that many of our clients want to be as secure as possible and have
TLS inspection enabled, we allow for "insecure" connections with invalid certificates, which result from such configurations.
We have added an additional secure tunnel that mimics the TLS process within the public TLS tunnel. This extra tunnel provides authentication and privacy for the workstations and the Lavawall® servers to prevent attacks such as the one that took down Solar Winds.
We have added an additional secure tunnel that mimics the TLS process within the public TLS tunnel. This extra tunnel provides authentication and privacy for the workstations and the Lavawall® servers to prevent attacks such as the one that took down Solar Winds.
We do not enable remote access tools like ScreenConnect unless you authorize them
and are logged in. Lavawall® was not vulnerable to the ScreenConnect vulnerability
because we install and uninstall it right before it's used. In addition, we give the option of linking to Access.
Remote access is not enabled for read-only and audit situations.
Remote access is not enabled for read-only and audit situations.
Lavawall®'s designer holds a CISSP and CISA. In addition, we have external and internal security reviews.
Get In Touch
Have a quick question and don't want to talk? Send us a quick note with the form below and we'll reply within one business day.
NW Calgary:
(By Appointment Only)
ThreeShield Information Security Corporation
600 Crowfoot Crescent N.W., Suite 340
Calgary, Alberta
T3G 0B4
ThreeShield Information Security Corporation
600 Crowfoot Crescent N.W., Suite 340
Calgary, Alberta
T3G 0B4
SE Calgary:
(By Appointment Only)
ThreeShield Information Security Corporation
105, 11500 - 29th St. SE
Calgary, Alberta
T2Z 3W9
Canada
ThreeShield Information Security Corporation
105, 11500 - 29th St. SE
Calgary, Alberta
T2Z 3W9
Canada
Phone
Sales Hours:
9:00am to 5:00pm Mountain Time
Support Hours:
7:00am to 7:00pm Mountain Time
On-Call Support Hours:
24/7