# Streebog

> Russian cryptographic hash function standard

**Wikidata**: [Q16635204](https://www.wikidata.org/wiki/Q16635204)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/Streebog)  
**Source**: https://4ort.xyz/entity/streebog

## Summary
Streebog is a Russian cryptographic hash function standard, officially known as GOST R 34.11-2012. It was developed by the Federal Security Service and published in 2012 as a replacement for the older GOST R 34.11-94 standard.

## Key Facts
- Streebog is the official Russian cryptographic hash function standard, replacing GOST R 34.11-94
- Published on August 7, 2012, by the Federal Agency for Technical Regulation and Metrology
- Became effective on January 1, 2013
- Developed by the Federal Security Service (FSB) of Russia
- Described in RFC 6986 as GOST R 34.11-2012: Hash Function
- Available at http://protect.gost.ru/document.aspx?control=7&id=180209
- Supports Russian language and is documented in Russian Wikipedia
- Classified as a cryptographic hash function and part of the GOST family
- Has a Google Knowledge Graph ID of /g/12214j739
- Listed in the Encyclopedia of China (Third Edition) with ID 375979

## FAQs
### Q: What is Streebog used for?
A: Streebog is used as a cryptographic hash function for data integrity verification, digital signatures, and other security applications in Russian information systems.

### Q: How does Streebog differ from its predecessor?
A: Streebog (GOST R 34.11-2012) replaced the older GOST R 34.11-94 standard with improved security features and modern cryptographic requirements.

### Q: Who created Streebog?
A: Streebog was developed by the Federal Security Service (FSB) of Russia and published by the Federal Agency for Technical Regulation and Metrology.

## Why It Matters
Streebog represents Russia's modern cryptographic standard for data integrity and security. As a national standard, it plays a crucial role in Russian information security infrastructure, providing a domestically developed alternative to international hash function standards. Its adoption ensures that Russian government agencies, businesses, and critical infrastructure can rely on a cryptographic standard that meets their specific security requirements and regulatory compliance needs. The standard's development by the FSB also reflects Russia's emphasis on sovereign control over its cryptographic infrastructure.

## Notable For
- Official Russian cryptographic hash function standard replacing older GOST R 34.11-94
- Developed by the Federal Security Service (FSB), Russia's primary security agency
- Published as both a national standard and international RFC 6986
- Part of Russia's sovereign cryptographic infrastructure
- Available in multiple languages including Russian, English, French, and Czech

## Body
### Development and Publication
Streebog was developed by the Federal Security Service (FSB) of Russia as part of the country's effort to modernize its cryptographic standards. The standard was officially published on August 7, 2012, by the Federal Agency for Technical Regulation and Metrology, with implementation beginning on January 1, 2013.

### Technical Classification
As a cryptographic hash function, Streebog belongs to the GOST family of cryptographic standards. It is classified as both a cryptographic hash function and a GOST standard, making it part of Russia's comprehensive cryptographic framework.

### Documentation and Standards
The standard is documented in RFC 6986, which provides international recognition and specification details. The official documentation is available through the Russian standards organization at http://protect.gost.ru/document.aspx?control=7&id=180209.

### International Recognition
Streebog has gained international recognition through its inclusion in RFC 6986 and its documentation in multiple languages including English, French, Czech, and Russian. It also has a presence in the Google Knowledge Graph and is referenced in the Encyclopedia of China.

### Security Infrastructure
As a Russian national standard, Streebog forms part of the country's sovereign cryptographic infrastructure, providing a domestically developed solution for data integrity and security needs. This aligns with Russia's broader strategy of maintaining control over its critical information security systems.

## References

1. [Source](https://tools.ietf.org/html/rfc6986)
2. [Source](https://protect.gost.ru/v.aspx?control=8&baseC=-1&page=0&month=-1&year=-1&search=&RegNum=1&DocOnPageCount=15&id=172313&pageK=CEB32D26-E597-419F-ADE9-67936284F2B1)