dominic-boban-portfolio

Projects that follow the best practices below can voluntarily self-certify and show that they've achieved an Open Source Security Foundation (OpenSSF) best practices badge.

There is no set of practices that can guarantee that software will never have defects or vulnerabilities; even formal methods can fail if the specifications or assumptions are wrong. Nor is there any set of practices that can guarantee that a project will sustain a healthy and well-functioning development community. However, following best practices can help improve the results of projects. For example, some practices enable multi-person review before release, which can both help find otherwise hard-to-find technical vulnerabilities and help build trust and a desire for repeated interaction among developers from different companies. To earn a badge, all MUST and MUST NOT criteria must be met, all SHOULD criteria must be met OR be unmet with justification, and all SUGGESTED criteria must be met OR unmet (we want them considered at least). If you want to enter justification text as a generic comment, instead of being a rationale that the situation is acceptable, start the text block with '//' followed by a space. Feedback is welcome via the GitHub site as issues or pull requests There is also a mailing list for general discussion.

We gladly provide the information in several locales, however, if there is any conflict or inconsistency between the translations, the English version is the authoritative version.
If this is your project, please show your baseline badge status on your project page! The baseline badge status looks like this: Baseline badge level for project 12952 is baseline-3 Here is how to embed the baseline badge:
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These are the Baseline Level 2 criteria. These are criteria version v2026.02.19.

Baseline Series: Baseline Level 1 Baseline Level 2 Baseline Level 3

        

 Basics

  • General

    Note that other projects may use the same name.

    A production-grade cybersecurity engineering portfolio, threat intelligence suite, and serverless telemetry normalization platform deployed at the edge on Cloudflare Pages and engineered using React, Vite, TypeScript, and Cloudflare Pages Functions.

    Please use SPDX license expression format; examples include "Apache-2.0", "BSD-2-Clause", "BSD-3-Clause", "GPL-2.0+", "LGPL-3.0+", "MIT", and "(BSD-2-Clause OR Ruby)". Do not include single quotes or double quotes.
    If there is more than one language, list them as comma-separated values (spaces optional) and sort them from most to least used. If there is a long list, please list at least the first three most common ones. If there is no language (e.g., this is a documentation-only or test-only project), use the single character "-". Please use a conventional capitalization for each language, e.g., "JavaScript".
    The Common Platform Enumeration (CPE) is a structured naming scheme for information technology systems, software, and packages. It is used in a number of systems and databases when reporting vulnerabilities.

    This application uses a split operational model separating background automated GitHub Actions ingestion/cache-warming crons from live, edge-cached user request fulfillment loops backed by the Cloudflare Edge Cache API. It incorporates active static application security testing pipelines via Semgrep OSS and GitHub CodeQL.

 Controls 19/19

  • Controls


    Enough for a badge!

    When a CI/CD task is executed with no permissions specified, the CI/CD system MUST default the task's permissions to the lowest permissions granted in the pipeline. [OSPS-AC-04.01]
    Configure the project's settings to assign the lowest available permissions to new pipelines by default, granting additional permissions only when necessary for specific tasks.

    Enforced via top-level workflow configuration policies. GitHub Actions workflow files explicitly declare minimized 'permissions:' blocks (e.g., contents: read, security-events: write) at the root level, ensuring tasks default to the absolute lowest privilege scope rather than inheriting broad default repository tokens


    Enough for a badge!

    When an official release is created, that release MUST be assigned a unique version identifier. [OSPS-BR-02.01]
    Assign a unique version identifier to each release produced by the project, following a consistent naming convention or numbering scheme. Examples include SemVer, CalVer, or git commit id.

    The project enforces strict semantic versioning tags (e.g., v1.0.0) generated through the GitHub Releases framework. Each deployment release boundary is uniquely tagged and permanently mapped to an immutable specific Git commit SHA hash


    Enough for a badge!

    When an official release is created, that release MUST contain a descriptive log of functional and security modifications. [OSPS-BR-04.01]
    Ensure that all releases include a descriptive change log. It is recommended to ensure that the change log is human-readable and includes details beyond commit messages, such as descriptions of the security impact or relevance to different use cases. To ensure machine readability, place the content under a markdown header such as "## Changelog".

    Met. Detailed change logs, functional modifications, security adjustments, and version evolution tracks are actively maintained and compiled inside the root 'CHANGELOG.md' asset file of the repository.


    Enough for a badge!

    When a build and release pipeline ingests dependencies, it MUST use standardized tooling where available. [OSPS-BR-05.01]
    Use a common tooling for your ecosystem, such as package managers or dependency management tools to ingest dependencies at build time. This may include using a dependency file, lock file, or manifest to specify the required dependencies, which are then pulled in by the build system.

    The package management pipeline relies exclusively on standard, widely verified ecosystem tooling (npm) to parse, ingest, lock down, and fetch project dependencies


    Enough for a badge!

    When an official release is created, that release MUST be signed or accounted for in a signed manifest including each asset's cryptographic hashes. [OSPS-BR-06.01]
    Sign all released software assets at build time with a cryptographic signature or attestations, such as GPG or PGP signature, Sigstore signatures, SLSA provenance, or SLSA VSAs. Include the cryptographic hashes of each asset in a signed manifest or metadata file.

    Enforced natively via lockfile tracking. The repository's root 'package-lock.json' file serves as a comprehensive, cryptographically verified integrity manifest, tracking precise 'integrity' hashes (SHA-512) for every dependency asset ingested by the system.


    Enough for a badge!

    When the project has made a release, the project documentation MUST include a description of how the project selects, obtains, and tracks its dependencies. [OSPS-DO-06.01]
    It is recommended to publish this information alongside the project's technical & design documentation on a publicly viewable resource such as the source code repository, project website, or other channel.

    The root documentation outlines that dependencies are declared within the project's native package manifests and audited automatically during integration cycles using GitHub dependency scanning alerts


    Enough for a badge!

    The project documentation MUST include instructions on how to build the software, including required libraries, frameworks, SDKs, and dependencies. [OSPS-DO-07.01]
    It is recommended to publish this information alongside the project's contributor documentation, such as in CONTRIBUTING.md or other developer task documentation. This may also be documented using Makefile targets or other automation scripts.

    The README.md documentation contains explicit step-by-step instructions on how to install dependencies, pass environment variables, and instantiate the local infrastructure testing boundary via the npm package scripts layout.


    Enough for a badge!

    While active, the project documentation MUST include a list of project members with access to sensitive resources. [OSPS-GV-01.01]
    Document project participants and their roles through such artifacts as members.md, governance.md, maintainers.md, or similar file within the source code repository of the project. This may be as simple as including names or account handles in a list of maintainers, or more complex depending on the project's governance.

    As an independent cybersecurity research and portfolio project, the sole maintainer with privileged system access and administrative authorization is transparently listed as Dominic Boban


    Enough for a badge!

    While active, the project documentation MUST include descriptions of the roles and responsibilities for members of the project. [OSPS-GV-01.02]
    Document project participants and their roles through such artifacts as members.md, governance.md, maintainers.md, or similar file within the source code repository of the project.

    The repository documentation explicitly clarifies that the project maintainer handles all code engineering, vulnerability triage, dependency management, architecture design, and final production edge deployments.


    Enough for a badge!

    While active, the project documentation MUST include a guide for code contributors that includes requirements for acceptable contributions. [OSPS-GV-03.02]
    Extend the CONTRIBUTING.md or CONTRIBUTING/ contents in the project documentation to outline the requirements for acceptable contributions, including coding standards, testing requirements, and submission guidelines for code contributors. It is recommended that this guide is the source of truth for both contributors and approvers.

    The project enforces code quality expectations, security baseline requirements, and continuous integration validation testing constraints through its contribution guidance instructions.


    Enough for a badge!

    While active, the version control system MUST require all code contributors to assert that they are legally authorized to make the associated contributions on every commit. [OSPS-LE-01.01]
    Include a DCO in the project's repository, requiring code contributors to assert that they are legally authorized to commit the associated contributions on every commit. Use a status check to ensure the assertion is made. A CLA also satisfies this requirement. Some version control systems, such as GitHub, may include this in the platform terms of service.

    Code contributions require authors to legally assert ownership and distribution rights on every commit by explicitly verifying changes against the project's open-source MIT License terms or using Git commit signing protocols.


    Enough for a badge!

    When a commit is made to the primary branch, any automated status checks for commits MUST pass or be manually bypassed. [OSPS-QA-03.01]
    Configure the project's version control system to require that all automated status checks pass or require manual acknowledgement before a commit can be merged into the primary branch. It is recommended that any optional status checks are NOT configured as a pass or fail requirement that approvers may be tempted to bypass.

    GitHub branch protection rules completely gate the primary 'main' branch. Automated testing pipelines including Semgrep scanning and GitHub CodeQL static application security testing—must pass successfully before any pull request can be merged


    Enough for a badge!

    Prior to a commit being accepted, the project's CI/CD pipelines MUST run at least one automated test suite to ensure the changes meet expectations. [OSPS-QA-06.01]
    Automated tests should be run prior to every merge into the primary branch. The test suite should be run in a CI/CD pipeline and the results should be visible to all contributors. The test suite should be run in a consistent environment and should be run in a way that allows contributors to run the tests locally. Examples of test suites include unit tests, integration tests, and end-to-end tests.

    The project's continuous integration pipelines run extensive automated static application security testing (SAST) suites via Semgrep OSS and GitHub CodeQL on every commit and pull request.


    Enough for a badge!

    When the project has made a release, the project documentation MUST include design documentation demonstrating all actions and actors within the system. [OSPS-SA-01.01]
    Include designs in the project documentation that explains the actions and actors. Actors include any subsystem or entity that can influence another segment in the system. Ensure this is updated for new features or breaking changes.

    The root README.md documentation incorporates a comprehensive, sequential, three-phase horizontal Mermaid architecture layout mapping out every data node flow, serverless edge action, automated warmup queue, and analyst UI triage actor.


    Enough for a badge!

    When the project has made a release, the project documentation MUST include descriptions of all external software interfaces of the released software assets. [OSPS-SA-02.01]
    Document all software interfaces (APIs) of the released software assets, explaining how users can interact with the software and what data is expected or produced. Ensure this is updated for new features or breaking changes.

    The project documentation explicitly breaks down all outbound security telemetry endpoints, including integration paths for AbuseIPDB, Cloudflare Radar, VirusTotal, and Spamhaus DQS/SIA routing loops.


    Enough for a badge!

    When the project has made a release, the project MUST perform a security assessment to understand the most likely and impactful potential security problems that could occur within the software. [OSPS-SA-03.01]
    Performing a security assessment informs both project members as well as downstream consumers that the project understands what problems could arise within the software. Understanding what threats could be realized helps the project manage and address risk. This information is useful to downstream consumers to demonstrate the security acumen and practices of the project. Ensure this is updated for new features or breaking changes.

    Regular security assessments are executed across the codebase via automated Semgrep OSS rule sets and GitHub CodeQL engines to evaluate input validation vectors, cache-manipulation paths, and dependency supply-chain risks.


    Enough for a badge!

    While active, the project documentation MUST include a policy for coordinated vulnerability disclosure (CVD), with a clear timeframe for response. [OSPS-VM-01.01]
    Create a SECURITY.md file at the root of the directory, outlining the project's policy for coordinated vulnerability disclosure. Include a method for reporting vulnerabilities. Set expectations for how the project will respond and address reported issues.

    The project features a dedicated 'SECURITY.md' policy file explicitly outlining a coordinated vulnerability disclosure pathway, including a strict, transparent promise to acknowledge and respond to all private triage reports within 48 hours.


    Enough for a badge!

    While active, the project documentation MUST provide a means for private vulnerability reporting directly to the security contacts within the project. [OSPS-VM-03.01]
    Provide a means for security researchers to report vulnerabilities privately to the project. This may be a dedicated email address, a web form, VCS specialized tools, email addresses for security contacts, or other methods.

    The 'SECURITY.md' policy documentation explicitly routes private security notices and proof-of-concept exploit disclosures away from public issue trackers and directly to a secure, private communication endpoint: dominicboban@dominic-boban.com.


    Enough for a badge!

    While active, the project documentation MUST publicly publish data about discovered vulnerabilities. [OSPS-VM-04.01]
    Provide information about known vulnerabilities in a predictable public channel, such as a CVE entry, blog post, or other medium. To the degree possible, this information should include affected version(s), how a consumer can determine if they are vulnerable, and instructions for mitigation or remediation.

    If a security flaw or input verification bypass is discovered and validated within an active release, the project coordinates remediation patches and publishes historical disclosures publicly via the GitHub repository's security advisory portal or release logs.



This data is available under the Community Data License Agreement – Permissive, Version 2.0 (CDLA-Permissive-2.0). This means that a Data Recipient may share the Data, with or without modifications, so long as the Data Recipient makes available the text of this agreement with the shared Data. Please credit Dominic Boban and the OpenSSF Best Practices badge contributors.

Project badge entry owned by: Dominic Boban.
Entry created on 2026-05-23 21:45:14 UTC, last updated on 2026-05-23 22:09:51 UTC.