Linus's Law
Linus's Law is a claim about software development, named in honor of Linus Torvalds and formulated by Eric S. Raymond in his essay and book The Cathedral and the Bazaar (1999).[1][2] The law states that "given enough eyeballs, all bugs are shallow"; or more formally: "Given a large enough beta-tester and co-developer base, almost every problem will be characterized quickly and the fix obvious to someone." Presenting the code to multiple developers with the purpose of reaching consensus about its acceptance is a simple form of software reviewing. Researchers and practitioners have repeatedly shown the effectiveness of various types of reviewing process in finding bugs and security issues,[3] and also that code reviews may be more efficient than testing.
Validity
In Facts and Fallacies about Software Engineering, Robert Glass refers to the law as a "mantra" of the open source movement, but calls it a fallacy due to the lack of supporting evidence and because research has indicated that the rate at which additional bugs are uncovered does not scale linearly with the number of reviewers; rather, there is a small maximum number of useful reviewers, between two and four, and additional reviewers above this number uncover bugs at a much lower rate.[4] While closed-source practitioners also promote stringent, independent code analysis during a software project's development, they focus on in-depth review by a few and not primarily the number of "eyeballs".[5][6]
Although detection of even deliberately inserted flaws[7][8] can be attributed to Raymond's claim, the persistence of the Heartbleed security bug in a critical piece of code for two years has been considered as a refutation of Raymond's dictum.[9][10][11][12] Larry Seltzer suspects that the availability of source code may cause some developers and researchers to perform less extensive tests than they would with closed source software, making it easier for bugs to remain.[12] In 2015, the Linux Foundation's executive director Jim Zemlin argued that the complexity of modern software has increased to such levels that specific resource allocation is desirable to improve its security. Regarding some of 2014's largest global open source software vulnerabilities, he says, "In these cases, the eyeballs weren't really looking".[11] Large scale experiments or peer-reviewed surveys to test how well the mantra holds in practice have not been performed.
See also
References
- ↑ Raymond, Eric S. "The Cathedral and the Bazaar". catb.org.
- ↑ Raymond, Eric S. (1999). The Cathedral and the Bazaar. O'Reilly Media. p. 30. ISBN 1-56592-724-9.
- ↑ Pfleeger, Charles P.; Pfleeger, Shari Lawrence (2003). Security in Computing, 4th Ed. Prentice Hall PTR. pp. 154–157. ISBN 0-13-239077-9.
- ↑ Glass, Robert L. (2003). Facts and Fallacies of Software Engineering. Addison-Wesley. p. 174. ISBN 0-321-11742-5. ISBN 978-0321117427.
- ↑ Howard, Michael; LeBlanc, David (2003). Writing Secure Code, 2nd. Ed. Microsoft Press. pp. 44–45, 615. ISBN 0-7356-1722-8.
- ↑ Howard, Leblanc. p 726.
- ↑ "An attempt to backdoor the kernel".
- ↑ "The Linux Backdoor Attempt of 2003".
- ↑ Bruce Byfield, "Does Heartbleed Disprove 'Open Source is Safer'?", Datamation, April 14, 2014
- ↑ Edward W. Felten, Joshua A. Kroll, "Heartbleed Shows Government Must Lead on Internet Security" = "Help Wanted on Internet Security", Scientific American 311:1 (June 17, 2014) doi:10.1038/scientificamerican0714-14
- 1 2 Kerner, Sean Michael (February 20, 2015). "Why All Linux (Security) Bugs Aren't Shallow". eSecurity Planet. Retrieved February 21, 2015.
- 1 2 "Did open source matter for Heartbleed?".
Further reading
- Jing Wang; J.M. Carroll (2011-05-27). Behind Linus's law: A preliminary analysis of open source software peer review practices in Mozi (PDF). Int. Conf. on Collaboration Technologies and Systems (CTS), Philadelphia, PA . IEEE Xplore Digital Library. pp. 117–124. doi:10.1109/CTS.2011.5928673. Archived from the original (PDF) on 2012-09-17. Retrieved 2014-08-11.