278 lines
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ReStructuredText
278 lines
12 KiB
ReStructuredText
.. _secure code:
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Secure Coding
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#############
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Traditionally, microcontroller-based systems have not placed much
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emphasis on security.
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They have usually been thought of as isolated, disconnected
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from the world, and not very vulnerable, just because of the
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difficulty in accessing them. The Internet of Things has changed
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this. Now, code running on small microcontrollers often has access to
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the internet, or at least to other devices (that may themselves have
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vulnerabilities). Given the volume they are often deployed at,
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uncontrolled access can be devastating [#attackf]_.
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This document describes the requirements and process for ensuring
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security is addressed within the Zephyr project. All code submitted
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should comply with these principles.
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Much of this document comes from [CIIBPB]_.
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Introduction and Scope
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**********************
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This document covers guidelines for the `Zephyr Project`_, from a
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security perspective. Many of the ideas contained herein are captured
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from other open source efforts.
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.. todo: Reference main document here
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.. _Zephyr Project: https://www.zephyrproject.org/
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We begin with an overview of secure design as it relates to
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Zephyr. This is followed by
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a section on `Secure development knowledge`_, which
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gives basic requirements that a developer working on the project will
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need to have. This section gives references to other security
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documents, and full details of how to write secure software are beyond
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the scope of this document. This section also describes
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vulnerability knowledge that at least one of the primary developers
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should have. This knowledge will be necessary for the review process
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described below this.
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Following this is a description of the review process used to
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incorporate changes into the Zephyr codebase. This is followed by
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documentation about how security-sensitive issues are handled by the
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project.
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Finally, the document covers how changes are to be made to this
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document.
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Secure Coding
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*************
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Designing an open software system such as Zephyr to be secure requires
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adhering to a defined set of design standards. In [SALT75]_, the following,
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widely accepted principles for protection mechanisms are defined to
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help prevent security violations and limit their impact:
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- **Open design** as a design guideline incorporates the maxim that
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protection mechanisms cannot be kept secret on any system in
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widespread use. Instead of relying on secret, custom-tailored
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security measures, publicly accepted cryptographic algorithms and
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well established cryptographic libraries shall be used.
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- **Economy of mechanism** specifies that the underlying design of a
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system shall be kept as simple and small as possible. In the context
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of the Zephyr project, this can be realized, e.g., by modular code
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[PAUL09]_ and abstracted APIs.
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- **Complete mediation** requires that each access to every object and
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process needs to be authenticated first. Mechanisms to store access
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conditions shall be avoided if possible.
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- **Fail-safe defaults** defines that access is restricted by default
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and permitted only in specific conditions defined by the system
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protection scheme, e.g., after successful authentication.
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Furthermore, default settings for services shall be chosen in a way
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to provide maximum security. This corresponds to the "Secure by
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Default" paradigm [MS12]_.
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- **Separation of privilege** is the principle that two conditions or
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more need to be satisfied before access is granted. In the context
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of the Zephyr project, this could encompass split keys [PAUL09]_.
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- **Least privilege** describes an access model in which each user,
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program, and thread, shall have the smallest possible subset
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of permissions in the system required to perform their task. This
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positive security model aims to minimize the attack surface of the
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system.
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- **Least common mechanism** specifies that mechanisms common to more
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than one user or process shall not be shared if not strictly
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required. The example given in [SALT75]_ is a function that should be
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implemented as a shared library executed by each user and not as a
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supervisor procedure shared by all users.
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- **Psychological acceptability** requires that security features are
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easy to use by the developers in order to ensure their usage and the
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correctness of its application.
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In addition to these general principles, the following points are
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specific to the development of a secure RTOS:
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- **Complementary Security/Defense in Depth**: do not rely on a single
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threat mitigation approach. In case of the complementary security
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approach, parts of the threat mitigation are performed by the
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underlying platform. In case such mechanisms are not provided by the
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platform, or are not trusted, a defense in depth [MS12]_ paradigm
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shall be used.
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- **Less commonly used services off by default**: to reduce the
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exposure of the system to potential attacks, features or services
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shall not be enabled by default if they are only rarely used (a
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threshold of 80% is given in [MS12]_). For the Zephyr project, this can
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be realized using the configuration management. Each functionality
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and module shall be represented as a configuration option and needs
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to be explicitly enabled. Then, all features, protocols, and drivers
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not required for a particular use case can be disabled. The user
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shall be notified if low-level options and APIs are enabled but not
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used by the application.
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- **Change management**: to guarantee a traceability of changes to the
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system, each change shall follow a specified process including a
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change request, impact analysis, ratification, implementation, and
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validation phase. In each stage, appropriate documentation shall be
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provided. All commits shall be related to a bug report or change
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request in the issue tracker. Commits without a valid reference
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shall be denied.
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Secure development knowledge
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****************************
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Secure designer
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===============
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The Zephyr project must have at least one primary developer who knows
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how to design secure software.
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This requires understanding the following design principles,
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including the 8 principles from [SALT75]_:
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- economy of mechanism (keep the design as simple and small as
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practical, e.g., by adopting sweeping simplifications)
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- fail-safe defaults (access decisions shall deny by default, and
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projects' installation shall be secure by default)
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- complete mediation (every access that might be limited must be
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checked for authority and be non-bypassable)
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.. todo: Explain better the constraints of embedded devices, and that
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we typically do edge detection, not at each function. Perhaps
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relate this to input validation below.
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- open design (security mechanisms should not depend on attacker
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ignorance of its design, but instead on more easily protected and
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changed information like keys and passwords)
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- separation of privilege (ideally, access to important objects should
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depend on more than one condition, so that defeating one protection
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system won't enable complete access. For example, multi-factor
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authentication, such as requiring both a password and a hardware
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token, is stronger than single-factor authentication)
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- least privilege (processes should operate with the least privilege
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necessary)
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- least common mechanism (the design should minimize the mechanisms
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common to more than one user and depended on by all users, e.g.,
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directories for temporary files)
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- psychological acceptability (the human interface must be designed
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for ease of use - designing for "least astonishment" can help)
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- limited attack surface (the set of the
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different points where an attacker can try to enter or extract data)
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- input validation with whitelists (inputs should typically be checked
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to determine if they are valid before they are accepted; this
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validation should use whitelists (which only accept known-good
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values), not blacklists (which attempt to list known-bad values)).
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Vulnerability Knowledge
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=======================
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A "primary developer" in a project is anyone who is familiar with the
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project's code base, is comfortable making changes to it, and is
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acknowledged as such by most other participants in the project. A
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primary developer would typically make a number of contributions over
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the past year (via code, documentation, or answering questions).
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Developers would typically be considered primary developers if they
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initiated the project (and have not left the project more than three
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years ago), have the option of receiving information on a private
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vulnerability reporting channel (if there is one), can accept commits
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on behalf of the project, or perform final releases of the project
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software. If there is only one developer, that individual is the
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primary developer.
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At least one of the primary developers **must** know of common kinds of
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errors that lead to vulnerabilities in this kind of software, as well
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as at least one method to counter or mitigate each of them.
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Examples (depending on the type of software) include SQL
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injection, OS injection, classic buffer overflow, cross-site
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scripting, missing authentication, and missing authorization. See the
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`CWE/SANS top 25`_ or `OWASP Top 10`_ for commonly used lists.
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.. Turn this into something specific. Can we find examples of
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mistakes. Perhaps an example of things static analysis tool has sent us.
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.. _CWE/SANS top 25: http://cwe.mitre.org/top25/
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.. _OWASP Top 10: https://owasp.org/www-project-top-ten/
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Zephyr Security Subcommittee
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============================
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There shall be a "Zephyr Security Subcommittee", responsible for
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enforcing this guideline, monitoring reviews, and improving these
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guidelines.
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This team will be established according to the Zephyr Project charter.
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Code Review
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***********
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The Zephyr project shall use a code review system that all changes are
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required to go through. Each change shall be reviewed by at least one
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primary developer that is not the author of the change. This
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developer shall determine if this change affects the security of the
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system (based on their general understanding of security), and if so,
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shall request the developer with vulnerability knowledge, or the
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secure designer to also review the code. Any of these individuals
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shall have the ability to block the change from being merged into the
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mainline code until the security issues have been addressed.
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Issues and Bug Tracking
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***********************
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The Zephyr project shall have an issue tracking system (such as GitHub_)
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that can be used to record and track defects that are found in the
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system.
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.. _GitHub: https://www.github.com
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Because security issues are often sensitive, this issue tracking
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system shall have a field to indicate a security issue. Setting this
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field shall result in the issue only being visible to the Zephyr Security
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Subcommittee. In addition, there shall be a
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field to allow the Zephyr Security Subcommittee to add additional users that will
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have visibility to a given issue.
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This embargo, or limited visibility, shall only be for a fixed
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duration, with a default being a project-decided value. However,
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because security considerations are often external to the Zephyr
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project itself, it may be necessary to increase this embargo time.
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The time necessary shall be clearly annotated in the issue itself.
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The list of issues shall be reviewed at least once a month by the
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Zephyr Security Subcommittee. This review should focus on
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tracking the fixes, determining if any external parties need to be
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notified or involved, and determining when to lift the embargo on the
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issue. The embargo should **not** be lifted via an automated means, but
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the review team should avoid unnecessary delay in lifting issues that
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have been resolved.
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Modifications to This Document
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******************************
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Changes to this document shall be reviewed by the Zephyr Security Subcommittee,
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and approved by consensus.
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.. [#attackf] An attack_ resulted in a significant portion of DNS
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infrastructure being taken down.
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.. _attack: http://www.theverge.com/2016/10/21/13362354/dyn-dns-ddos-attack-cause-outage-status-explained
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