Suricata

由 OISF 维护的 Suricata git 资源库。Suricata 是一个网络 IDS、IPS 和 NSM 引擎。「Suricata git repository maintained by the OISF. Suricata is a network IDS, IPS and NSM engine.」

Github星跟踪图

Suricata

Introduction

Suricata is a network IDS, IPS and NSM engine.

Installation

https://redmine.openinfosecfoundation.org/projects/suricata/wiki/Suricata_Installation

User Guide

You can follow the Suricata user guide to get started.

Our deprecated (but still useful) user guide is also available.

Contributing

We're happily taking patches and other contributions. Please see https://redmine.openinfosecfoundation.org/projects/suricata/wiki/Contributing for how to get started.

Suricata is a complex piece of software dealing with mostly untrusted input. Mishandling this input will have serious consequences:

  • in IPS mode a crash may knock a network offline;
  • in passive mode a compromise of the IDS may lead to loss of critical and confidential data;
  • missed detection may lead to undetected compromise of the network.

In other words, we think the stakes are pretty high, especially since in many common cases the IDS/IPS will be directly reachable by an attacker.

For this reason, we have developed a QA process that is quite extensive. A consequence is that contributing to Suricata can be a somewhat lengthy process.

On a high level, the steps are:

  1. Travis-CI based build & unit testing. This runs automatically when a pull request is made.

  2. Review by devs from the team and community

  3. QA runs

Overview of Suricata's QA steps

Trusted devs and core team members are able to submit builds to our (semi) public Buildbot instance. It will run a series of build tests and a regression suite to confirm no existing features break.

The final QA run takes a few hours minimally, and is started by Victor. It currently runs:

  • extensive build tests on different OS', compilers, optimization levels, configure features
  • static code analysis using cppcheck, scan-build
  • runtime code analysis using valgrind, DrMemory, AddressSanitizer, LeakSanitizer
  • regression tests for past bugs
  • output validation of logging
  • unix socket testing
  • pcap based fuzz testing using ASAN and LSAN

Next to these tests, based on the type of code change further tests can be run manually:

  • traffic replay testing (multi-gigabit)
  • large pcap collection processing (multi-terabytes)
  • AFL based fuzz testing (might take multiple days or even weeks)
  • pcap based performance testing
  • live performance testing
  • various other manual tests based on evaluation of the proposed changes

It's important to realize that almost all of the tests above are used as acceptance tests. If something fails, it's up to you to address this in your code.

One step of the QA is currently run post-merge. We submit builds to the Coverity Scan program. Due to limitations of this (free) service, we can submit once a day max.
Of course it can happen that after the merge the community will find issues. For both cases we request you to help address the issues as they may come up.

FAQ

Q: Will you accept my PR?

A: That depends on a number of things, including the code quality. With new features it also depends on whether the team and/or the community think the feature is useful, how much it affects other code and features, the risk of performance regressions, etc.

Q: When will my PR be merged?

A: It depends, if it's a major feature or considered a high risk change, it will probably go into the next major version.

Q: Why was my PR closed?

A: As documented in the Suricata Github workflow here https://redmine.openinfosecfoundation.org/projects/suricata/wiki/Github_work_flow, we expect a new pull request for every change.

Normally, the team (or community) will give feedback on a pull request after which it is expected to be replaced by an improved PR. So look at the comments. If you disagree with the comments we can still discuss them in the closed PR.

If the PR was closed without comments it's likely due to QA failure. If the Travis-CI check failed, the PR should be fixed right away. No need for a discussion about it, unless you believe the QA failure is incorrect.

Q: the compiler/code analyser/tool is wrong, what now?

A: To assist in the automation of the QA, we're not accepting warnings or errors to stay. In some cases this could mean that we add a suppression if the tool supports that (e.g. valgrind, DrMemory). Some warnings can be disabled. In some exceptional cases the only 'solution' is to refactor the code to work around a static code checker limitation false positive. While frustrating, we prefer this over leaving warnings in the output. Warnings tend to get ignored and then increase risk of hiding other warnings.

Q: I think your QA test is wrong

A: If you really think it is, we can discuss how to improve it. But don't come to this conclusion too quickly, more often it's the code that turns out to be wrong.

Q: do you require signing of a contributor license agreement?

A: Yes, we do this to keep the ownership of Suricata in one hand: the Open Information Security Foundation. See http://suricata-ids.org/about/open-source/ and http://suricata-ids.org/about/contribution-agreement/

主要指标

概览
名称与所有者OISF/suricata
主编程语言C
编程语言Shell (语言数: 10)
平台BSD, Linux, Mac, Windows
许可证GNU General Public License v2.0
所有者活动
创建于2012-08-14 08:30:06
推送于2024-10-25 11:56:37
最后一次提交2024-10-24 15:02:18
发布数154
最新版本名称suricata-7.0.7 (发布于 2024-10-01 10:56:19)
第一版名称suricata-0.8.2 (发布于 )
用户参与
星数4.6k
关注者数176
派生数1.4k
提交数16.4k
已启用问题?
问题数0
打开的问题数0
拉请求数2031
打开的拉请求数73
关闭的拉请求数9937
项目设置
已启用Wiki?
已存档?
是复刻?
已锁定?
是镜像?
是私有?