Comparison Overview

diHouse

VS

Applied Computer Online Services

diHouse

Мурманский проезд 14к1, Москва, RU
Last Update: 2025-11-27
View Profile
Between 750 and 799
https://di-house.ru/

diHouse is one of the leaders on the Russian IT-distribution market. The company is engaged in distribution, retail and corporate supplies of smartphones, mobile and desktop computers, household appliances, equipment for gamers, digital gadgets and accessories. It's network of partners includes all federal and most of regional retailers of Russia and countries of the CIS. Constantly moving forward, we offer our partners high-quality products and services in logistic, finance, marketing and multifunctional sales support. diHouse was founded in 1996. Email: [email protected]

NAICS: None
NAICS Definition: Others
Employees: 75
Subsidiaries: 0
12-month incidents
0
Known data breaches
0
Attack type number
0
View Profile

Applied Computer Online Services

2901 Moorpark Avenue, San Jose, CA 95128, US
Last Update: 2025-11-27
Between 750 and 799
http://www.applied-computer.com/

Applied-Computer.com is the world's largest online computer store. We offer over 800,000 computer products to our customers. Founded in 1984, our business-to-business company deals directly with over 200 of the top manufacturers as well as the leading 10 distributors in the U.S. For more information on our products and services, visit us at www.Applied-Computer.com.

NAICS: None
NAICS Definition:
Employees: 9
Subsidiaries: 0
12-month incidents
0
Known data breaches
0
Attack type number
0

Compliance Badges Comparison

Security & Compliance Standards Overview

https://images.rankiteo.com/companyimages/dihouse.jpeg
diHouse
ISO 27001
ISO 27001 certification not verified
Not verified
SOC2 Type 1
SOC2 Type 1 certification not verified
Not verified
SOC2 Type 2
SOC2 Type 2 certification not verified
Not verified
GDPR
GDPR certification not verified
Not verified
PCI DSS
PCI DSS certification not verified
Not verified
HIPAA
HIPAA certification not verified
Not verified
https://images.rankiteo.com/companyimages/applied-computer-online-services.jpeg
Applied Computer Online Services
ISO 27001
ISO 27001 certification not verified
Not verified
SOC2 Type 1
SOC2 Type 1 certification not verified
Not verified
SOC2 Type 2
SOC2 Type 2 certification not verified
Not verified
GDPR
GDPR certification not verified
Not verified
PCI DSS
PCI DSS certification not verified
Not verified
HIPAA
HIPAA certification not verified
Not verified
Compliance Summary
diHouse
100%
Compliance Rate
0/4 Standards Verified
Applied Computer Online Services
0%
Compliance Rate
0/4 Standards Verified

Benchmark & Cyber Underwriting Signals

Incidents vs Computer Hardware Industry Average (This Year)

No incidents recorded for diHouse in 2025.

Incidents vs Computer Hardware Industry Average (This Year)

No incidents recorded for Applied Computer Online Services in 2025.

Incident History — diHouse (X = Date, Y = Severity)

diHouse cyber incidents detection timeline including parent company and subsidiaries

Incident History — Applied Computer Online Services (X = Date, Y = Severity)

Applied Computer Online Services cyber incidents detection timeline including parent company and subsidiaries

Notable Incidents

Last 3 Security & Risk Events by Company

https://images.rankiteo.com/companyimages/dihouse.jpeg
diHouse
Incidents

No Incident

https://images.rankiteo.com/companyimages/applied-computer-online-services.jpeg
Applied Computer Online Services
Incidents

No Incident

FAQ

Applied Computer Online Services company demonstrates a stronger AI Cybersecurity Score compared to diHouse company, reflecting its advanced cybersecurity posture governance and monitoring frameworks.

Historically, Applied Computer Online Services company has disclosed a higher number of cyber incidents compared to diHouse company.

In the current year, Applied Computer Online Services company and diHouse company have not reported any cyber incidents.

Neither Applied Computer Online Services company nor diHouse company has reported experiencing a ransomware attack publicly.

Neither Applied Computer Online Services company nor diHouse company has reported experiencing a data breach publicly.

Neither Applied Computer Online Services company nor diHouse company has reported experiencing targeted cyberattacks publicly.

Neither diHouse company nor Applied Computer Online Services company has reported experiencing or disclosing vulnerabilities publicly.

Neither diHouse nor Applied Computer Online Services holds any compliance certifications.

Neither company holds any compliance certifications.

Neither diHouse company nor Applied Computer Online Services company has publicly disclosed detailed information about the number of their subsidiaries.

diHouse company employs more people globally than Applied Computer Online Services company, reflecting its scale as a Computer Hardware.

Neither diHouse nor Applied Computer Online Services holds SOC 2 Type 1 certification.

Neither diHouse nor Applied Computer Online Services holds SOC 2 Type 2 certification.

Neither diHouse nor Applied Computer Online Services holds ISO 27001 certification.

Neither diHouse nor Applied Computer Online Services holds PCI DSS certification.

Neither diHouse nor Applied Computer Online Services holds HIPAA certification.

Neither diHouse nor Applied Computer Online Services holds GDPR certification.

Latest Global CVEs (Not Company-Specific)

Description

Angular is a development platform for building mobile and desktop web applications using TypeScript/JavaScript and other languages. Prior to versions 19.2.16, 20.3.14, and 21.0.1, there is a XSRF token leakage via protocol-relative URLs in angular HTTP clients. The vulnerability is a Credential Leak by App Logic that leads to the unauthorized disclosure of the Cross-Site Request Forgery (XSRF) token to an attacker-controlled domain. Angular's HttpClient has a built-in XSRF protection mechanism that works by checking if a request URL starts with a protocol (http:// or https://) to determine if it is cross-origin. If the URL starts with protocol-relative URL (//), it is incorrectly treated as a same-origin request, and the XSRF token is automatically added to the X-XSRF-TOKEN header. This issue has been patched in versions 19.2.16, 20.3.14, and 21.0.1. A workaround for this issue involves avoiding using protocol-relative URLs (URLs starting with //) in HttpClient requests. All backend communication URLs should be hardcoded as relative paths (starting with a single /) or fully qualified, trusted absolute URLs.

Published
Date
2025-11-26
Updated
Date
2025-11-26
Risk Information
cvss4
Base: 7.7
Severity: LOW
CVSS:4.0/AV:N/AC:L/AT:N/PR:N/UI:N/VC:N/VI:N/VA:N/SC:H/SI:N/SA:N/E:X/CR:X/IR:X/AR:X/MAV:X/MAC:X/MAT:X/MPR:X/MUI:X/MVC:X/MVI:X/MVA:X/MSC:X/MSI:X/MSA:X/S:X/AU:X/R:X/V:X/RE:X/U:X
References
Description

Forge (also called `node-forge`) is a native implementation of Transport Layer Security in JavaScript. An Uncontrolled Recursion vulnerability in node-forge versions 1.3.1 and below enables remote, unauthenticated attackers to craft deep ASN.1 structures that trigger unbounded recursive parsing. This leads to a Denial-of-Service (DoS) via stack exhaustion when parsing untrusted DER inputs. This issue has been patched in version 1.3.2.

Published
Date
2025-11-26
Updated
Date
2025-11-26
Risk Information
cvss4
Base: 8.7
Severity: LOW
CVSS:4.0/AV:N/AC:L/AT:N/PR:N/UI:N/VC:N/VI:N/VA:H/SC:N/SI:N/SA:N/E:X/CR:X/IR:X/AR:X/MAV:X/MAC:X/MAT:X/MPR:X/MUI:X/MVC:X/MVI:X/MVA:X/MSC:X/MSI:X/MSA:X/S:X/AU:X/R:X/V:X/RE:X/U:X
References
Description

Forge (also called `node-forge`) is a native implementation of Transport Layer Security in JavaScript. An Integer Overflow vulnerability in node-forge versions 1.3.1 and below enables remote, unauthenticated attackers to craft ASN.1 structures containing OIDs with oversized arcs. These arcs may be decoded as smaller, trusted OIDs due to 32-bit bitwise truncation, enabling the bypass of downstream OID-based security decisions. This issue has been patched in version 1.3.2.

Published
Date
2025-11-26
Updated
Date
2025-11-26
Risk Information
cvss4
Base: 6.3
Severity: LOW
CVSS:4.0/AV:N/AC:L/AT:P/PR:N/UI:N/VC:N/VI:L/VA:N/SC:N/SI:N/SA:N/E:X/CR:X/IR:X/AR:X/MAV:X/MAC:X/MAT:X/MPR:X/MUI:X/MVC:X/MVI:X/MVA:X/MSC:X/MSI:X/MSA:X/S:X/AU:X/R:X/V:X/RE:X/U:X
References
Description

Suricata is a network IDS, IPS and NSM engine developed by the OISF (Open Information Security Foundation) and the Suricata community. Prior to versions 7.0.13 and 8.0.2, working with large buffers in Lua scripts can lead to a stack overflow. Users of Lua rules and output scripts may be affected when working with large buffers. This includes a rule passing a large buffer to a Lua script. This issue has been patched in versions 7.0.13 and 8.0.2. A workaround for this issue involves disabling Lua rules and output scripts, or making sure limits, such as stream.depth.reassembly and HTTP response body limits (response-body-limit), are set to less than half the stack size.

Published
Date
2025-11-26
Updated
Date
2025-11-26
Risk Information
cvss3
Base: 7.5
Severity: LOW
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:H
References
Description

Suricata is a network IDS, IPS and NSM engine developed by the OISF (Open Information Security Foundation) and the Suricata community. In versions from 8.0.0 to before 8.0.2, a NULL dereference can occur when the entropy keyword is used in conjunction with base64_data. This issue has been patched in version 8.0.2. A workaround involves disabling rules that use entropy in conjunction with base64_data.

Published
Date
2025-11-26
Updated
Date
2025-11-26
Risk Information
cvss3
Base: 7.5
Severity: LOW
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:N/I:N/A:H
References