Difference between revisions of "Main Page"
|Line 65:||Line 65:|
Implementing user namespace support
Revision as of 08:31, 29 July 2014
Welcome to CRIU, a project to implement checkpoint/restore functionality for Linux in userspace.
Checkpoint/Restore In Userspace, or CRIU (pronounced kree-oo, IPA: /krɪʊ/, Russian: криу), is a software tool for Linux operating system. Using this tool, you can freeze a running application (or part of it) and checkpoint it to a hard drive as a collection of files. You can then use the files to restore and run the application from the point it was frozen at. The distinctive feature of the CRIU project is that it is mainly implemented in user space.
- Usage scenarios
- Ideas how criu can be used (some are crazy indeed)
- What software is supported
- Describes TODO list in higher level terms
- Collection of real world examples of how to use CRIU. Some are complex, some are not. HOW TO dump a simple loop might be the best one to start with.
- What can change after C/R
- CRIU cannot (yet) save and restore every single bit of tasks' state. This page describes what bits visible through standard kernel API are such.
- What cannot be checkpointed
- What an application could do to make CRIU refuse to dump it.
If you're interested in CRIU development, please subscribe to the criu mailing list: http://lists.openvz.org/mailman/listinfo/criu
- Description of image files format
- CRIU can call plugins provided by people
- Upstream kernel commits
- Mainline kernel commits tracker
- Recent commits
- CRIU tool repository commits
- Kernel's manpages commits tracker
- ZDTM Test Suite
- Zero downtime test suite
- Current TODO list
- User namespace
- Implementing user namespace support
- What to keep in mind when writing new code
- Code coverage results
- Shows how zdtm run covers the criu code paths
Under the hood
- 2019-10-03, Fast In-Memory CRIU for Docker Containers
- 2019-09-11, Performance Estimation of Container-BasedCloud-to-Fog Offloading
- 2019-07-16, FastContainer: A Homeostatic System Architecture High-speed Adapting Execution Environment Changes
- 2019-07-11, Exploring Potential for Non-Disruptive Vertical Auto Scaling and Resource Estimation in Kubernetes
- 2019-07, University of Twente: Increasing Availability of the AEPU by Improving the Update Process
- 2019-05-25, Replayable Execution Optimized for Page Sharing for a Managed Runtime Environment
- 2019-04-29, Binghamton University: mWarp: Accelerating Intra-Host Live Container Migration via Memory Warping
- 2019-04-10, CRIU and SELinux
- 2019-03-27, Container Migration in the Fog: A Performance Evaluation
- 2019-03-25, Checkpointing and Migration of IoT Edge Functions
- 2019-03-24, Future University Hakodate: Yet Another Container Migration on FreeBSD
- 2019-03-09, Provenance-based fault tolerance technique recommendation for cloud-based scientific workflows: a practical approach