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PR-URL: https://github.com/nodejs/node/pull/51917 Reviewed-By: Rafael Gonzaga <rafael.nunu@hotmail.com> Reviewed-By: Geoffrey Booth <webadmin@geoffreybooth.com> Reviewed-By: Trivikram Kamat <trivikr.dev@gmail.com> Reviewed-By: Yagiz Nizipli <yagiz.nizipli@sentry.io> Reviewed-By: Moshe Atlow <moshe@atlow.co.il> Reviewed-By: Paolo Insogna <paolo@cowtech.it> Reviewed-By: Luigi Pinca <luigipinca@gmail.com> Reviewed-By: Michael Dawson <midawson@redhat.com> Reviewed-By: Chengzhong Wu <legendecas@gmail.com> Reviewed-By: Benjamin Gruenbaum <benjamingr@gmail.com>
229 lines
10 KiB
Markdown
229 lines
10 KiB
Markdown
# Security
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## Reporting a bug in Node.js
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Report security bugs in Node.js via [HackerOne](https://hackerone.com/nodejs).
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Normally your report will be acknowledged within 5 days, and you'll receive
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a more detailed response to your report within 10 days indicating the
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next steps in handling your submission. These timelines may extend when
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our triage volunteers are away on holiday, particularly at the end of the
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year.
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After the initial reply to your report, the security team will endeavor to keep
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you informed of the progress being made towards a fix and full announcement,
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and may ask for additional information or guidance surrounding the reported
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issue.
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### Node.js bug bounty program
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The Node.js project engages in an official bug bounty program for security
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researchers and responsible public disclosures. The program is managed through
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the HackerOne platform. See <https://hackerone.com/nodejs> for further details.
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## Reporting a bug in a third party module
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Security bugs in third party modules should be reported to their respective
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maintainers.
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## Disclosure policy
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Here is the security disclosure policy for Node.js
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* The security report is received and is assigned a primary handler. This
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person will coordinate the fix and release process. The problem is validated
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against all supported Node.js versions. Once confirmed, a list of all affected
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versions is determined. Code is audited to find any potential similar
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problems. Fixes are prepared for all supported releases.
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These fixes are not committed to the public repository but rather held locally
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pending the announcement.
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* A suggested embargo date for this vulnerability is chosen and a CVE (Common
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Vulnerabilities and Exposures (CVE®)) is requested for the vulnerability.
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* On the embargo date, the Node.js security mailing list is sent a copy of the
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announcement. The changes are pushed to the public repository and new builds
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are deployed to nodejs.org. Within 6 hours of the mailing list being
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notified, a copy of the advisory will be published on the Node.js blog.
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* Typically the embargo date will be set 72 hours from the time the CVE is
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issued. However, this may vary depending on the severity of the bug or
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difficulty in applying a fix.
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* This process can take some time, especially when coordination is required
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with maintainers of other projects. Every effort will be made to handle the
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bug in as timely a manner as possible; however, it's important that we follow
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the release process above to ensure that the disclosure is handled in a
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consistent manner.
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## The Node.js threat model
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In the Node.js threat model, there are trusted elements such as the
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underlying operating system. Vulnerabilities that require the compromise
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of these trusted elements are outside the scope of the Node.js threat
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model.
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For a vulnerability to be eligible for a bug bounty, it must be a
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vulnerability in the context of the Node.js threat model. In other
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words, it cannot assume that a trusted element (such as the operating
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system) has been compromised.
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Being able to cause the following through control of the elements that Node.js
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does not trust is considered a vulnerability:
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* Disclosure or loss of integrity or confidentiality of data protected through
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the correct use of Node.js APIs.
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* The unavailability of the runtime, including the unbounded degradation of its
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performance.
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If Node.js loads configuration files or runs code by default (without a
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specific request from the user), and this is not documented, it is considered a
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vulnerability.
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Vulnerabilities related to this case may be fixed by a documentation update.
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**Node.js does NOT trust**:
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1. Data received from the remote end of inbound network connections
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that are accepted through the use of Node.js APIs and
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which is transformed/validated by Node.js before being passed
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to the application. This includes:
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* HTTP APIs (all flavors) server APIs.
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2. The data received from the remote end of outbound network connections
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that are created through the use of Node.js APIs and
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which is transformed/validated by Node.js before being passed
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to the application EXCEPT in respect to payload length. Node.js trusts
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that applications make connections/requests which will avoid payload
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sizes that will result in a Denial of Service.
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* HTTP APIs (all flavors) client APIs.
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* DNS APIs.
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3. Consumers of data protected through the use of Node.js APIs (for example
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people who have access to data encrypted through the Node.js crypto APIs).
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4. The file content or other I/O that is opened for reading or writing by the
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use of Node.js APIs (ex: stdin, stdout, stderr).
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In other words, if the data passing through Node.js to/from the application
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can trigger actions other than those documented for the APIs, there is likely
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a security vulnerability. Examples of unwanted actions are polluting globals,
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causing an unrecoverable crash, or any other unexpected side effects that can
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lead to a loss of confidentiality, integrity, or availability.
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**Node.js trusts everything else**. As some examples this includes:
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1. The developers and infrastructure that runs it.
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2. The operating system that Node.js is running under and its configuration,
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along with anything under control of the operating system.
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3. The code it is asked to run including JavaScript and native code, even if
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said code is dynamically loaded, e.g. all dependencies installed from the
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npm registry.
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The code run inherits all the privileges of the execution user.
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4. Inputs provided to it by the code it is asked to run, as it is the
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responsibility of the application to perform the required input validations,
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e.g. the input to `JSON.parse()`.
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5. Any connection used for inspector (debugger protocol) regardless of being
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opened by command line options or Node.js APIs, and regardless of the remote
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end being on the local machine or remote.
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6. The file system when requiring a module.
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See <https://nodejs.org/api/modules.html#all-together>.
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7. The `node:wasi` module does not currently provide the comprehensive file
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system security properties provided by some WASI runtimes.
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Any unexpected behavior from the data manipulation from Node.js Internal
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functions may be considered a vulnerability if they are exploitable via
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untrusted resources.
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In addition to addressing vulnerabilities based on the above, the project works
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to avoid APIs and internal implementations that make it "easy" for application
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code to use the APIs incorrectly in a way that results in vulnerabilities within
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the application code itself. While we don’t consider those vulnerabilities in
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Node.js itself and will not necessarily issue a CVE we do want them to be
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reported privately to Node.js first.
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We often choose to work to improve our APIs based on those reports and issue
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fixes either in regular or security releases depending on how much of a risk to
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the community they pose.
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### Examples of vulnerabilities
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#### Improper Certificate Validation (CWE-295)
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* Node.js provides APIs to validate handling of Subject Alternative Names (SANs)
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in certificates used to connect to a TLS/SSL endpoint. If certificates can be
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crafted which result in incorrect validation by the Node.js APIs that is
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considered a vulnerability.
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#### Inconsistent Interpretation of HTTP Requests (CWE-444)
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* Node.js provides APIs to accept http connections. Those APIs parse the
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headers received for a connection and pass them on to the application.
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Bugs in parsing those headers which can result in request smuggling are
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considered vulnerabilities.
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#### Missing Cryptographic Step (CWE-325)
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* Node.js provides APIs to encrypt data. Bugs that would allow an attacker
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to get the original data without requiring the decryption key are
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considered vulnerabilities.
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#### External Control of System or Configuration Setting (CWE-15)
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* If Node.js automatically loads a configuration file which is not documented
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and modification of that configuration can affect the confidentiality of
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data protected using the Node.js APIs this is considered a vulnerability.
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### Examples of non-vulnerabilities
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#### Malicious Third-Party Modules (CWE-1357)
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* Code is trusted by Node.js, therefore any scenario that requires a malicious
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third-party module cannot result in a vulnerability in Node.js.
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#### Prototype Pollution Attacks (CWE-1321)
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* Node.js trusts the inputs provided to it by application code.
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It is up to the application to sanitize appropriately, therefore any scenario
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that requires control over user input is not considered a vulnerability.
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#### Uncontrolled Search Path Element (CWE-427)
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* Node.js trusts the file system in the environment accessible to it.
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Therefore, it is not a vulnerability if it accesses/loads files from any path
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that is accessible to it.
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#### External Control of System or Configuration Setting (CWE-15)
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* If Node.js automatically loads a configuration file which is documented
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no scenario that requires modification of that configuration file is
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considered a vulnerability.
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#### Uncontrolled Resource Consumption (CWE-400) on outbound connections
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* If Node.js is asked to connect to a remote site and return an
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artifact, it is not considered a vulnerability if the size of
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that artifact is large enough to impact performance or
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cause the runtime to run out of resources.
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#### Vulnerabilities affecting software downloaded by Corepack
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* Corepack defaults to downloading the latest version of the software requested
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by the user, or a specific version requested by the user. For this reason,
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Node.js releases won't be affected by such vulnerabilities, users are
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responsible to keep the software they use through Corepack up-to-date.
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## Assessing experimental features reports
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Experimental features are eligible to reports as any other stable feature of
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Node.js. They will also be susceptible to receiving the same severity score
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as any other stable feature.
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## Receiving security updates
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Security notifications will be distributed via the following methods.
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* <https://groups.google.com/group/nodejs-sec>
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* <https://nodejs.org/en/blog/>
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## Comments on this policy
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If you have suggestions on how this process could be improved please submit a
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[pull request](https://github.com/nodejs/nodejs.org) or
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[file an issue](https://github.com/nodejs/security-wg/issues/new) to discuss.
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