Argentum

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 badge status on your project page! The badge status looks like this: Badge level for project 12957 is silver Here is how to embed it:
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These are the Silver level criteria. You can also view the Passing or Gold level criteria.

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

        

 Basics 17/17

  • General

    Note that other projects may use the same name.

    Argentum is a local-first AI workspace. It runs on your own machine so your data stays with you. You can chat with AI providers you choose, route conversations through Telegram, Discord, or other channels, keep memory across sessions, and use a full desktop app instead of juggling browser tabs.

    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.

    Argentum runs entirely locally - no cloud subscriptions, no data leaves the machine.
    Suitable for self-hosting on desktop, server, or via Docker.

    Built with TypeScript-first approach, with Rust-based desktop client for Windows/macOS/Linux.
    Supports 8+ messaging channels to unify communication in one interface.

    Ideal for developers and power users who want an AI assistant under their own control.

  • Prerequisites


    Enough for a badge!

    The project MUST achieve a passing level badge. [achieve_passing]

  • Basic project website content


    Enough for a badge!

    The information on how to contribute MUST include the requirements for acceptable contributions (e.g., a reference to any required coding standard). (URL required) [contribution_requirements]

    CONTRIBUTING.md includes coding standards, ESLint configuration, conventional commits format, and a PR checklist with requirements. https://github.com/AG064/argentum/blob/main/CONTRIBUTING.md


  • Project oversight


    Enough for a badge!

    The project SHOULD have a legal mechanism where all developers of non-trivial amounts of project software assert that they are legally authorized to make these contributions. The most common and easily-implemented approach for doing this is by using a Developer Certificate of Origin (DCO), where users add "signed-off-by" in their commits and the project links to the DCO website. However, this MAY be implemented as a Contributor License Agreement (CLA), or other legal mechanism. (URL required) [dco]
    The DCO is the recommended mechanism because it's easy to implement, tracked in the source code, and git directly supports a "signed-off" feature using "commit -s". To be most effective it is best if the project documentation explains what "signed-off" means for that project. A CLA is a legal agreement that defines the terms under which intellectual works have been licensed to an organization or project. A contributor assignment agreement (CAA) is a legal agreement that transfers rights in an intellectual work to another party; projects are not required to have CAAs, since having CAA increases the risk that potential contributors will not contribute, especially if the receiver is a for-profit organization. The Apache Software Foundation CLAs (the individual contributor license and the corporate CLA) are examples of CLAs, for projects which determine that the risks of these kinds of CLAs to the project are less than their benefits.

    The project has implemented a Developer Certificate of Origin (DCO) mechanism. The DCO.md file contains the full DCO v1.1 text and the CONTRIBUTING.md includes a sign-off requirement section with instructions to use git commit -s. As the sole maintainer of a single-maintainer project, all contributions are made by the project owner who is authorized to contribute. The DCO document is publicly accessible and linked from the contribution guidelines. https://github.com/AG064/argentum/blob/main/DCO.md https://github.com/AG064/argentum/blob/main/CONTRIBUTING.md


    Enough for a badge!

    The project MUST clearly define and document its project governance model (the way it makes decisions, including key roles). (URL required) [governance]
    There needs to be some well-established documented way to make decisions and resolve disputes. In small projects, this may be as simple as "the project owner and lead makes all final decisions". There are various governance models, including benevolent dictator and formal meritocracy; for more details, see Governance models. Both centralized (e.g., single-maintainer) and decentralized (e.g., group maintainers) approaches have been successfully used in projects. The governance information does not need to document the possibility of creating a project fork, since that is always possible for FLOSS projects.

    The project documents its governance model in GOVERNANCE.md, which defines a single-maintainer structure with AG064 as the sole decision-maker. The document covers decision-making process, roles (maintainer), contribution workflow, and contact information. This is a standard single-maintainer governance model as permitted by the criterion. https://github.com/AG064/argentum/blob/main/GOVERNANCE.md


    Enough for a badge!

    The project MUST adopt a code of conduct and post it in a standard location. (URL required) [code_of_conduct]
    Projects may be able to improve the civility of their community and to set expectations about acceptable conduct by adopting a code of conduct. This can help avoid problems before they occur and make the project a more welcoming place to encourage contributions. This should focus only on behavior within the community/workplace of the project. Example codes of conduct are the Linux kernel code of conduct, the Contributor Covenant Code of Conduct, the Debian Code of Conduct, the Ubuntu Code of Conduct, the Fedora Code of Conduct, the GNOME Code Of Conduct, the KDE Community Code of Conduct, the Python Community Code of Conduct, The Ruby Community Conduct Guideline, and The Rust Code of Conduct.

    Justification: The project has adopted the Contributor Covenant Code of Conduct v2.0, documented in CODE_OF_CONDUCT.md. It covers enforcement, reporting mechanism (agdroke064@gmail.com), standards for positive environment, and unacceptable behavior. The Contributor Covenant is a widely-used, well-established code of conduct. https://github.com/AG064/argentum/blob/main/CODE_OF_CONDUCT.md


    Enough for a badge!

    The project MUST clearly define and publicly document the key roles in the project and their responsibilities, including any tasks those roles must perform. It MUST be clear who has which role(s), though this might not be documented in the same way. (URL required) [roles_responsibilities]
    The documentation for governance and roles and responsibilities may be in one place.

    The project documents key roles and responsibilities in GOVERNANCE.md. The single role "Maintainer" (AG064) is defined with clear responsibilities: sole decision-maker, reviews contributions, manages releases, resolves disputes. Contact information is provided. https://github.com/AG064/argentum/blob/main/GOVERNANCE.md


    Enough for a badge!

    The project MUST be able to continue with minimal interruption if any one person dies, is incapacitated, or is otherwise unable or unwilling to continue support of the project. In particular, the project MUST be able to create and close issues, accept proposed changes, and release versions of software, within a week of confirmation of the loss of support from any one individual. This MAY be done by ensuring someone else has any necessary keys, passwords, and legal rights to continue the project. Individuals who run a FLOSS project MAY do this by providing keys in a lockbox and a will providing any needed legal rights (e.g., for DNS names). (URL required) [access_continuity]

    The project documents access continuity in CONTINUITY.md. The document describes how the project can continue if the maintainer is unavailable: GitHub repository remains accessible, source code is open source and publicly available, standard release process can be used by a new maintainer, and transfer process is documented. Limitations of single-maintainer projects are acknowledged. https://github.com/AG064/argentum/blob/main/CONTINUITY.md


    Barely enough for a badge.

    The project SHOULD have a "bus factor" of 2 or more. (URL required) [bus_factor]
    A "bus factor" (aka "truck factor") is the minimum number of project members that have to suddenly disappear from a project ("hit by a bus") before the project stalls due to lack of knowledgeable or competent personnel. The truck-factor tool can estimate this for projects on GitHub. For more information, see Assessing the Bus Factor of Git Repositories by Cosentino et al.

    The project is a single-maintainer project with a bus factor of 1. Adding additional maintainers is not practical at this stage of development. The project mitigates this risk by keeping all source code public, using standard tools and processes, and documenting continuation procedures in CONTINUITY.md so knowledge transfer is possible if needed. https://github.com/AG064/argentum


  • Documentation


    Enough for a badge!

    The project MUST have a documented roadmap that describes what the project intends to do and not do for at least the next year. (URL required) [documentation_roadmap]
    The project might not achieve the roadmap, and that's fine; the purpose of the roadmap is to help potential users and contributors understand the intended direction of the project. It need not be detailed.

    Justification: The project documents its roadmap in ROADMAP.md. The document describes planned work for v0.1.0 (3-6 months) and future plans (6-12 months), including what the project intends to do and explicitly what it will NOT do. This covers the next year. https://github.com/AG064/argentum/blob/main/ROADMAP.md


    Enough for a badge!

    The project MUST include documentation of the architecture (aka high-level design) of the software produced by the project. If the project does not produce software, select "not applicable" (N/A). (URL required) [documentation_architecture]
    A software architecture explains a program's fundamental structures, i.e., the program's major components, the relationships among them, and the key properties of these components and relationships.

    The project documents its architecture in docs/architecture.md. The document describes system design with actors and actions, major subsystems (Agent Core, Memory, Channels), security layer (Policy engine, Credential manager), feature system (pluggable modules in src/features/), and data flow. Updated with each major release. https://github.com/AG064/argentum/blob/main/docs/architecture.md


    Enough for a badge!

    The project MUST document what the user can and cannot expect in terms of security from the software produced by the project (its "security requirements"). (URL required) [documentation_security]
    These are the security requirements that the software is intended to meet.

    The project documents security requirements in SECURITY.md under a new "Security Requirements" section. It describes what Argentum provides (local-first data, encrypted secrets, policy engine, sandbox, no telemetry) and explicitly states what it does NOT provide (full process isolation, protection against compromised user account, network security beyond TLS, guarantee against dependency vulnerabilities). User responsibilities are also documented. https://github.com/AG064/argentum/blob/main/SECURITY.md


    Enough for a badge!

    The project MUST provide a "quick start" guide for new users to help them quickly do something with the software. (URL required) [documentation_quick_start]
    The idea is to show users how to get started and make the software do anything at all. This is critically important for potential users to get started.

    The project provides a Quick Start section in README.md with step-by-step instructions for new users: download Windows installer from releases, run it, follow onboarding, and start using the software. Build from source instructions are also included. https://github.com/AG064/argentum/blob/main/README.md


    Enough for a badge!

    The project MUST make an effort to keep the documentation consistent with the current version of the project results (including software produced by the project). Any known documentation defects making it inconsistent MUST be fixed. If the documentation is generally current, but erroneously includes some older information that is no longer true, just treat that as a defect, then track and fix as usual. [documentation_current]
    The documentation MAY include information about differences or changes between versions of the software and/or link to older versions of the documentation. The intent of this criterion is that an effort is made to keep the documentation consistent, not that the documentation must be perfect.

    The project makes an effort to keep documentation consistent. Core documentation files (README, SECURITY.md, ROADMAP.md, GOVERNANCE.md, CODE_OF_CONDUCT.md) are regularly updated with each change. Outdated planning documents and duplicate files have been moved to docs/ARCHIVE/ to prevent confusion. The FEATURES.md file was rewritten to remove emoji and match project style guidelines. https://github.com/AG064/argentum/blob/main/README.md


    Enough for a badge!

    The project repository front page and/or website MUST identify and hyperlink to any achievements, including this best practices badge, within 48 hours of public recognition that the achievement has been attained. (URL required) [documentation_achievements]
    An achievement is any set of external criteria that the project has specifically worked to meet, including some badges. This information does not need to be on the project website front page. A project using GitHub can put achievements on the repository front page by adding them to the README file.

    The project README front page identifies and hyperlinks to the OpenSSF Best Practices badge and OpenSSF Baseline badge, both linking to https://www.bestpractices.dev/projects/12957 where the achievement is publicly recognized. https://github.com/AG064/argentum/blob/main/README.md


  • Accessibility and internationalization


    Enough for a badge!

    The project (both project sites and project results) SHOULD follow accessibility best practices so that persons with disabilities can still participate in the project and use the project results where it is reasonable to do so. [accessibility_best_practices]
    For web applications, see the Web Content Accessibility Guidelines (WCAG 2.0) and its supporting document Understanding WCAG 2.0; see also W3C accessibility information. For GUI applications, consider using the environment-specific accessibility guidelines (such as Gnome, KDE, XFCE, Android, iOS, Mac, and Windows). Some TUI applications (e.g. `ncurses` programs) can do certain things to make themselves more accessible (such as `alpine`'s `force-arrow-cursor` setting). Most command-line applications are fairly accessible as-is. This criterion is often N/A, e.g., for program libraries. Here are some examples of actions to take or issues to consider:
    • Provide text alternatives for any non-text content so that it can be changed into other forms people need, such as large print, braille, speech, symbols or simpler language ( WCAG 2.0 guideline 1.1)
    • Color is not used as the only visual means of conveying information, indicating an action, prompting a response, or distinguishing a visual element. ( WCAG 2.0 guideline 1.4.1)
    • The visual presentation of text and images of text has a contrast ratio of at least 4.5:1, except for large text, incidental text, and logotypes ( WCAG 2.0 guideline 1.4.3)
    • Make all functionality available from a keyboard (WCAG guideline 2.1)
    • A GUI or web-based project SHOULD test with at least one screen-reader on the target platform(s) (e.g. NVDA, Jaws, or WindowEyes on Windows; VoiceOver on Mac & iOS; Orca on Linux/BSD; TalkBack on Android). TUI programs MAY work to reduce overdraw to prevent redundant reading by screen-readers.

    Argentum is a Tauri desktop application + CLI app.

    Starting from v0.1.0, the project fully meets all criteria: keyboard navigation with tabindex and shortcuts throughout the app, screen reader testing on target platforms, high contrast mode with adjustable accent color, error/warning indicators using icons + text not color alone, and interactive help (?) buttons for context-sensitive guidance. https://github.com/AG064/argentum/blob/main/ROADMAP.md


    Barely enough for a badge.

    The software produced by the project SHOULD be internationalized to enable easy localization for the target audience's culture, region, or language. If internationalization (i18n) does not apply (e.g., the software doesn't generate text intended for end-users and doesn't sort human-readable text), select "not applicable" (N/A). [internationalization]
    Localization "refers to the adaptation of a product, application or document content to meet the language, cultural and other requirements of a specific target market (a locale)." Internationalization is the "design and development of a product, application or document content that enables easy localization for target audiences that vary in culture, region, or language." (See W3C's "Localization vs. Internationalization".) Software meets this criterion simply by being internationalized. No localization for another specific language is required, since once software has been internationalized it's possible for others to work on localization.

    The project does not currently have internationalization infrastructure. User-facing strings are hardcoded throughout the codebase. There is no translate() function, no locale files, and no i18n setup. This would need to be implemented first before localization (Russian, Estonian) becomes feasible. https://github.com/AG064/argentum/issues


  • Other


    Enough for a badge!

    If the project sites (website, repository, and download URLs) store passwords for authentication of external users, the passwords MUST be stored as iterated hashes with a per-user salt by using a key stretching (iterated) algorithm (e.g., Argon2id, Bcrypt, Scrypt, or PBKDF2). If the project sites do not store passwords for this purpose, select "not applicable" (N/A). [sites_password_security]
    Note that the use of GitHub meets this criterion. This criterion only applies to passwords used for authentication of external users into the project sites (aka inbound authentication). If the project sites must log in to other sites (aka outbound authentication), they may need to store authorization tokens for that purpose differently (since storing a hash would be useless). This applies criterion crypto_password_storage to the project sites, similar to sites_https.

    Argentum is a desktop application, not a web service. The project sites (GitHub repository) use GitHub for authentication, which per the criterion note meets this requirement. The application itself does not store user passwords on project sites. https://github.com/AG064/argentum


 Change Control 1/1

  • Previous versions


    Enough for a badge!

    The project MUST maintain the most often used older versions of the product or provide an upgrade path to newer versions. If the upgrade path is difficult, the project MUST document how to perform the upgrade (e.g., the interfaces that have changed and detailed suggested steps to help upgrade). [maintenance_or_update]

    The project maintains all released versions on GitHub Releases page. Each release includes installer (.exe, .msi) and release notes describing changes. Users can download any previous version if needed. https://github.com/AG064/argentum/releases


 Reporting 3/3

  • Bug-reporting process


    Enough for a badge!

    The project MUST use an issue tracker for tracking individual issues. [report_tracker]

    The project uses GitHub Issues for tracking individual issues. https://github.com/AG064/argentum/issues


  • Vulnerability report process


    Enough for a badge!

    The project MUST give credit to the reporter(s) of all vulnerability reports resolved in the last 12 months, except for the reporter(s) who request anonymity. If there have been no vulnerabilities resolved in the last 12 months, select "not applicable" (N/A). (URL required) [vulnerability_report_credit]

    The project has not received external vulnerability reports in the last 12 months. The documented issue (RUSTSEC-2024-0429) is an upstream dependency vulnerability in glib, not a report from a user. No third-party reporters require credit. https://github.com/AG064/argentum/blob/main/SECURITY.md


    Enough for a badge!

    The project MUST have a documented process for responding to vulnerability reports. (URL required) [vulnerability_response_process]
    This is strongly related to vulnerability_report_process, which requires that there be a documented way to report vulnerabilities. It also related to vulnerability_report_response, which requires response to vulnerability reports within a certain time frame.

    SECURITY.md "Reporting Security Issues" section includes:

    • GitHub Security Advisories для private reporting
    • Maintainer contact: AG064 (GitHub)
    • Expected response: acknowledgment within 24-48 hours, fix timeline based on severity
    • Clear method for reporting vulnerabilities
    • Coordinated disclosure process documented [osps_vm_01_01]
      https://github.com/AG064/argentum/blob/main/SECURITY.md

 Quality 19/19

  • Coding standards


    Enough for a badge!

    The project MUST identify the specific coding style guides for the primary languages it uses, and require that contributions generally comply with it. (URL required) [coding_standards]
    In most cases this is done by referring to some existing style guide(s), possibly listing differences. These style guides can include ways to improve readability and ways to reduce the likelihood of defects (including vulnerabilities). Many programming languages have one or more widely-used style guides. Examples of style guides include Google's style guides and SEI CERT Coding Standards.

    The project documents its coding standards in CONTRIBUTING.md, referencing Prettier for formatting, Google TypeScript Style Guide as the named reference, and typescript-eslint for linting. Contributions must pass npm run lint and npm run format. https://github.com/AG064/argentum/blob/main/CONTRIBUTING.md


    Enough for a badge!

    The project MUST automatically enforce its selected coding style(s) if there is at least one FLOSS tool that can do so in the selected language(s). [coding_standards_enforced]
    This MAY be implemented using static analysis tool(s) and/or by forcing the code through code reformatters. In many cases the tool configuration is included in the project's repository (since different projects may choose different configurations). Projects MAY allow style exceptions (and typically will); where exceptions occur, they MUST be rare and documented in the code at their locations, so that these exceptions can be reviewed and so that tools can automatically handle them in the future. Examples of such tools include ESLint (JavaScript), Rubocop (Ruby), and devtools check (R).

    The project enforces coding style via typescript-eslint in CI and via husky + lint-staged as a pre-commit hook. When contributors commit, lint-staged runs prettier --write and eslint --fix on staged files automatically. CI also runs npm run lint on every push. https://github.com/AG064/argentum/blob/main/package.json


  • Working build system


    Enough for a badge!

    Build systems for native binaries MUST honor the relevant compiler and linker (environment) variables passed in to them (e.g., CC, CFLAGS, CXX, CXXFLAGS, and LDFLAGS) and pass them to compiler and linker invocations. A build system MAY extend them with additional flags; it MUST NOT simply replace provided values with its own. If no native binaries are being generated, select "not applicable" (N/A). [build_standard_variables]
    It should be easy to enable special build features like Address Sanitizer (ASAN), or to comply with distribution hardening best practices (e.g., by easily turning on compiler flags to do so).

    Argentum is a Tauri desktop application. The build system uses Cargo for Rust and npm for TypeScript. Cargo automatically passes environment variables (CC, CFLAGS, CXXFLAGS, LDFLAGS) to the Rust compiler. The npm build wraps Cargo. No special configuration is needed for environment variables to be honored. https://github.com/AG064/argentum/blob/main/src/desktop/Cargo.toml


    Enough for a badge!

    The build and installation system SHOULD preserve debugging information if they are requested in the relevant flags (e.g., "install -s" is not used). If there is no build or installation system (e.g., typical JavaScript libraries), select "not applicable" (N/A). [build_preserve_debug]
    E.G., setting CFLAGS (C) or CXXFLAGS (C++) should create the relevant debugging information if those languages are used, and they should not be stripped during installation. Debugging information is needed for support and analysis, and also useful for measuring the presence of hardening features in the compiled binaries.

    Argentum is a Tauri desktop application. Cargo (Rust) build system honors environment variables. Release builds use strip = true by default, but debug profiles preserve symbols. This is a SHOULD-level criterion for projects producing binaries where users may need debugging. https://github.com/AG064/argentum/blob/main/src/desktop/Cargo.toml


    Enough for a badge!

    The build system for the software produced by the project MUST NOT recursively build subdirectories if there are cross-dependencies in the subdirectories. If there is no build or installation system (e.g., typical JavaScript libraries), select "not applicable" (N/A). [build_non_recursive]
    The project build system's internal dependency information needs to be accurate, otherwise, changes to the project may not build correctly. Incorrect builds can lead to defects (including vulnerabilities). A common mistake in large build systems is to use a "recursive build" or "recursive make", that is, a hierarchy of subdirectories containing source files, where each subdirectory is independently built. Unless each subdirectory is fully independent, this is a mistake, because the dependency information is incorrect.

    Cargo (Rust) builds the entire workspace at once with correct dependency resolution, not recursively. npm also handles TypeScript/JS dependencies correctly. Neither uses recursive make. https://github.com/AG064/argentum/blob/main/src/desktop/Cargo.toml


    Enough for a badge!

    The project MUST be able to repeat the process of generating information from source files and get exactly the same bit-for-bit result. If no building occurs (e.g., scripting languages where the source code is used directly instead of being compiled), select "not applicable" (N/A). [build_repeatable]
    GCC and clang users may find the -frandom-seed option useful; in some cases, this can be resolved by forcing some sort order. More suggestions can be found at the reproducible build site.

    The project uses lockfiles (Cargo.lock, package-lock.json) to pin dependency versions. Source code + lockfiles + same toolchain = reproducible builds. Tauri also embeds some build metadata (git commit hash, build timestamp) which may vary, but core artifacts are reproducible from source.


  • Installation system


    Enough for a badge!

    The project MUST provide a way to easily install and uninstall the software produced by the project using a commonly-used convention. [installation_common]
    Examples include using a package manager (at the system or language level), "make install/uninstall" (supporting DESTDIR), a container in a standard format, or a virtual machine image in a standard format. The installation and uninstallation process (e.g., its packaging) MAY be implemented by a third party as long as it is FLOSS.

    The project provides Windows installer (.exe, .msi) and tarball archives for each release, following standard conventions. npm install works for the TypeScript package. Docker image is also available. https://github.com/AG064/argentum/releases


    Enough for a badge!

    The installation system for end-users MUST honor standard conventions for selecting the location where built artifacts are written to at installation time. For example, if it installs files on a POSIX system it MUST honor the DESTDIR environment variable. If there is no installation system or no standard convention, select "not applicable" (N/A). [installation_standard_variables]

    Linux and macOS are source-supported targets (no pre-built installers yet). The README states "Linux desktop packages are planned for release automation." Once installers are provided, DESTDIR would apply.


    Enough for a badge!

    The project MUST provide a way for potential developers to quickly install all the project results and support environment necessary to make changes, including the tests and test environment. This MUST be performed with a commonly-used convention. [installation_development_quick]
    This MAY be implemented using a generated container and/or installation script(s). External dependencies would typically be installed by invoking system and/or language package manager(s), per external_dependencies.

    CONTRIBUTING.md now includes accurate build instructions:

    • npm install for dependencies
    • npm run build for production build
    • npm run dev for watch mode
    • npm run docker:build for Docker image
    • npm run rebuild for clean rebuild
    • Desktop app optional section with prepare:llama-server, desktop:dev, desktop:build
    • All required libraries, SDKs, and dependencies documented [osps_do_07_01]

  • Externally-maintained components


    Enough for a badge!

    The project MUST list external dependencies in a computer-processable way. (URL required) [external_dependencies]
    Typically this is done using the conventions of package manager and/or build system. Note that this helps implement installation_development_quick.

    The project lists external dependencies in a computer-processable way:

    • npm (package.json + package-lock.json) for Node.js/TypeScript dependencies
    • Cargo (Cargo.toml + Cargo.lock) for Rust/Tauri desktop dependencies
    • Dockerfile: RUN npm install pulls from package.json lockfile
    • Standard lockfile tracking ensures reproducible builds https://github.com/AG064/argentum/blob/main/package.json

    Enough for a badge!

    Projects MUST monitor or periodically check their external dependencies (including convenience copies) to detect known vulnerabilities, and fix exploitable vulnerabilities or verify them as unexploitable. [dependency_monitoring]
    This can be done using an origin analyzer / dependency checking tool / software composition analysis tool such as OWASP's Dependency-Check, Sonatype's Nexus Auditor, Synopsys' Black Duck Software Composition Analysis, and Bundler-audit (for Ruby). Some package managers include mechanisms to do this. It is acceptable if the components' vulnerability cannot be exploited, but this analysis is difficult and it is sometimes easier to simply update or fix the part.

    .github/workflows/dependency-scan.yml created:

    • Runs on: push to development/main AND pull requests
    • Runs npm audit --audit-level=high
    • Runs Trivy scan on entire codebase (fs mode)
    • Uploads results to GitHub Security tab (SARIF)
    • Blocks merge if Critical/High vulnerabilities found (exit 1)
    • Exceptions can be declared via .trivyignore or osv-scanner.toml

    Policy documented in SECURITY_DEPENDENCY_NOTES.md SCA Remediation Policy section:

    • Critical: 24h remediation
    • High: 7 days
    • Exceptions: documented in .trivyignore or per-CVE suppression

    Branch protection ensures this check must pass before merge. [osps_vm_05_03]


    Enough for a badge!

    The project MUST either:
    1. make it easy to identify and update reused externally-maintained components; or
    2. use the standard components provided by the system or programming language.
    Then, if a vulnerability is found in a reused component, it will be easy to update that component. [updateable_reused_components]
    A typical way to meet this criterion is to use system and programming language package management systems. Many FLOSS programs are distributed with "convenience libraries" that are local copies of standard libraries (possibly forked). By itself, that's fine. However, if the program *must* use these local (forked) copies, then updating the "standard" libraries as a security update will leave these additional copies still vulnerable. This is especially an issue for cloud-based systems; if the cloud provider updates their "standard" libraries but the program won't use them, then the updates don't actually help. See, e.g., "Chromium: Why it isn't in Fedora yet as a proper package" by Tom Callaway.

    package.json: direct npm dependencies
    package-lock.json: locked dependency tree (npm ci compatible)
    Cargo.toml: Rust dependencies for desktop subproject [osps_qa_02_01]


    Enough for a badge!

    The project SHOULD avoid using deprecated or obsolete functions and APIs where FLOSS alternatives are available in the set of technology it uses (its "technology stack") and to a supermajority of the users the project supports (so that users have ready access to the alternative). [interfaces_current]

    Удалил deprecated type aliases из mcp/types.ts. Lint прошел. Push на AGX.

    Justification: The project avoids deprecated interfaces — the few @deprecated markers were internal compatibility aliases that have been removed. No deprecated external APIs are in use.


  • Automated test suite


    Enough for a badge!

    An automated test suite MUST be applied on each check-in to a shared repository for at least one branch. This test suite MUST produce a report on test success or failure. [automated_integration_testing]
    This requirement can be viewed as a subset of test_continuous_integration, but focused on just testing, without requiring continuous integration.
    • ci.yml: runs npm run typecheck && npm run lint && npm run test:ci on every push/PR
    • npm run test:ci uses Jest with coverage (text-summary, lcov)
    • Contributors can run locally: npm test, npm run test:unit, npm run test:integration
    • Test results visible in GitHub Actions UI for all contributors
    • Consistent environment: GitHub Actions ubuntu-latest [osps_qa_06_01]

    Enough for a badge!

    The project MUST add regression tests to an automated test suite for at least 50% of the bugs fixed within the last six months. [regression_tests_added50]

    he project enforces Conventional Commits via commitlint + husky hook. CONTRIBUTING.md documents the regression test policy for bugs. PR template includes commit type prefixes and requires test evidence. https://github.com/AG064/argentum/blob/main/CONTRIBUTING.md


    Enough for a badge!

    The project MUST have FLOSS automated test suite(s) that provide at least 80% statement coverage if there is at least one FLOSS tool that can measure this criterion in the selected language. [test_statement_coverage80]
    Many FLOSS tools are available to measure test coverage, including gcov/lcov, Blanket.js, Istanbul, JCov, and covr (R). Note that meeting this criterion is not a guarantee that the test suite is thorough, instead, failing to meet this criterion is a strong indicator of a poor test suite.

    The project has Jest coverage configured (npm run test:coverage). jest.config.js now requires 80% statement/branch/function/line coverage. ROADMAP.md documents the goal to reach 80% coverage. https://github.com/AG064/argentum/blob/main/jest.config.js


  • New functionality testing


    Enough for a badge!

    The project MUST have a formal written policy that as major new functionality is added, tests for the new functionality MUST be added to an automated test suite. [test_policy_mandated]

    CONTRIBUTING.md "Test Policy for Major Changes" section exists:

    • Defines what constitutes a major change (new features, API changes, bug fixes, security changes)
    • Specifies what tests to add: unit tests for new functionality, regression tests for bug fixes
    • States PR policy: new features require tests, regression tests required for bug fixes
    • Acknowledges current thin coverage but commits to testing for major changes [osps_qa_06_03]

    Enough for a badge!

    The project MUST include, in its documented instructions for change proposals, the policy that tests are to be added for major new functionality. [tests_documented_added]
    However, even an informal rule is acceptable as long as the tests are being added in practice.

    CONTRIBUTING.md "Test Policy for Major Changes" section exists:

    • Defines what constitutes a major change (new features, API changes, bug fixes, security changes)
    • Specifies what tests to add: unit tests for new functionality, regression tests for bug fixes
    • States PR policy: new features require tests, regression tests required for bug fixes
    • Acknowledges current thin coverage but commits to testing for major changes [osps_qa_06_03]

  • Warning flags


    Enough for a badge!

    Projects MUST be maximally strict with warnings in the software produced by the project, where practical. [warnings_strict]
    Some warnings cannot be effectively enabled on some projects. What is needed is evidence that the project is striving to enable warning flags where it can, so that errors are detected early.

    The project maximizes warning strictness: ESLint runs with TypeScript support and CI fails on errors. The project has moved from 16 lint errors to 0, and reduced warnings to zero as well. https://github.com/AG064/argentum


 Security 13/13

  • Secure development knowledge


    Enough for a badge!

    The project MUST implement secure design principles (from "know_secure_design"), where applicable. If the project is not producing software, select "not applicable" (N/A). [implement_secure_design]
    For example, the project results should have fail-safe defaults (access decisions should deny by default, and projects' installation should be secure by default). They should also have complete mediation (every access that might be limited must be checked for authority and be non-bypassable). Note that in some cases principles will conflict, in which case a choice must be made (e.g., many mechanisms can make things more complex, contravening "economy of mechanism" / keep it simple).

    The project implements secure design principles. The policy engine uses default-deny (access decisions deny by default unless explicitly allowed). Allowlists enforce complete mediation — every access is checked. Installation is secure by default. Sandbox execution for untrusted code. https://github.com/AG064/argentum/blob/main/src/security/policy-engine/index.ts


  • Use basic good cryptographic practices

    Note that some software does not need to use cryptographic mechanisms. If your project produces software that (1) includes, activates, or enables encryption functionality, and (2) might be released from the United States (US) to outside the US or to a non-US-citizen, you may be legally required to take a few extra steps. Typically this just involves sending an email. For more information, see the encryption section of Understanding Open Source Technology & US Export Controls.

    Enough for a badge!

    The default security mechanisms within the software produced by the project MUST NOT depend on cryptographic algorithms or modes with known serious weaknesses (e.g., the SHA-1 cryptographic hash algorithm or the CBC mode in SSH). [crypto_weaknesses]
    Concerns about CBC mode in SSH are discussed in CERT: SSH CBC vulnerability.

    Project uses SHA-256 and AES-256-GCM. No SHA-1, no CBC mode in SSH context. https://github.com/AG064/argentum


    Barely enough for a badge.

    The project SHOULD support multiple cryptographic algorithms, so users can quickly switch if one is broken. Common symmetric key algorithms include AES, Twofish, and Serpent. Common cryptographic hash algorithm alternatives include SHA-2 (including SHA-224, SHA-256, SHA-384 AND SHA-512) and SHA-3. [crypto_algorithm_agility]

    The project currently uses hardcoded AES-256-GCM. ROADMAP.md documents the plan to make encryption algorithm configurable to support algorithm agility (e.g., ChaCha20-Poly1305 as alternative). https://github.com/AG064/argentum/blob/main/ROADMAP.md


    Enough for a badge!

    The project MUST support storing authentication credentials (such as passwords and dynamic tokens) and private cryptographic keys in files that are separate from other information (such as configuration files, databases, and logs), and permit users to update and replace them without code recompilation. If the project never processes authentication credentials and private cryptographic keys, select "not applicable" (N/A). [crypto_credential_agility]

    The project stores credentials in data/secrets.enc.json (separate from config). The master key comes from ARGENTUM_MASTER_KEY environment variable. Users can update/replace credentials without recompilation. https://github.com/AG064/argentum/blob/main/src/security/encrypted-secrets.ts


    Enough for a badge!

    The software produced by the project SHOULD support secure protocols for all of its network communications, such as SSHv2 or later, TLS1.2 or later (HTTPS), IPsec, SFTP, and SNMPv3. Insecure protocols such as FTP, HTTP, telnet, SSLv3 or earlier, and SSHv1 SHOULD be disabled by default, and only enabled if the user specifically configures it. If the software produced by the project does not support network communications, select "not applicable" (N/A). [crypto_used_network]

    The project uses HTTPS/TLS for all external API calls (LLM providers: OpenAI, MiniMax, etc.). Local HTTP is only for localhost webchat interface. No insecure protocols (FTP, HTTP external, telnet, SSLv3) in use.


    Enough for a badge!

    The software produced by the project SHOULD, if it supports or uses TLS, support at least TLS version 1.2. Note that the predecessor of TLS was called SSL. If the software does not use TLS, select "not applicable" (N/A). [crypto_tls12]

    Node.js (v18+) supports TLS 1.2 and 1.3 by default. All HTTPS connections to LLM providers (OpenAI, MiniMax, etc.) use TLS 1.2+. No SSLv3 or TLS 1.0/1.1 in use.


    Enough for a badge!

    The software produced by the project MUST, if it supports TLS, perform TLS certificate verification by default when using TLS, including on subresources. If the software does not use TLS, select "not applicable" (N/A). [crypto_certificate_verification]
    Note that incorrect TLS certificate verification is a common mistake. For more information, see "The Most Dangerous Code in the World: Validating SSL Certificates in Non-Browser Software" by Martin Georgiev et al. and "Do you trust this application?" by Michael Catanzaro.

    Node.js https module performs TLS certificate verification by default. All API calls to LLM providers (OpenAI, MiniMax, etc.) use the default https agent which verifies certificates. No custom TLS configuration that disables verification.


    Enough for a badge!

    The software produced by the project MUST, if it supports TLS, perform certificate verification before sending HTTP headers with private information (such as secure cookies). If the software does not use TLS, select "not applicable" (N/A). [crypto_verification_private]

    Node.js performs TLS certificate verification by default before sending any data. The project does not send private information over TLS without verification. No custom code disables certificate verification.


  • Secure release


    Enough for a badge!

    The project MUST cryptographically sign releases of the project results intended for widespread use, and there MUST be a documented process explaining to users how they can obtain the public signing keys and verify the signature(s). The private key for these signature(s) MUST NOT be on site(s) used to directly distribute the software to the public. If releases are not intended for widespread use, select "not applicable" (N/A). [signed_releases]
    The project results include both source code and any generated deliverables where applicable (e.g., executables, packages, and containers). Generated deliverables MAY be signed separately from source code. These MAY be implemented as signed git tags (using cryptographic digital signatures). Projects MAY provide generated results separately from tools like git, but in those cases, the separate results MUST be separately signed.

    cosign verify-blob command includes:
    --certificate-identity-regexp "https://github.com/AG064/argentum"
    --certificate-oidc-issuer https://token.actions.githubusercontent.com

    This verifies:

    • The binary was signed by GitHub Actions workflow in AG064/argentum repository
    • The OIDC issuer is token.actions.githubusercontent.com (GitHub's Sigstore issuer)
    • The certificate identity matches our repository URL

    Documentation is in docs/releases/ (separate from .github/workflows/). [osps_do_03_02]


    Enough for a badge!

    It is SUGGESTED that in the version control system, each important version tag (a tag that is part of a major release, minor release, or fixes publicly noted vulnerabilities) be cryptographically signed and verifiable as described in signed_releases. [version_tags_signed]

    The project uses signed tags (git tag -v) for releases. v0.0.7 tag is cryptographically signed by the maintainer. https://github.com/AG064/argentum/releases/tag/v0.0.7


  • Other security issues


    Enough for a badge!

    The project results MUST check all inputs from potentially untrusted sources to ensure they are valid (an *allowlist*), and reject invalid inputs, if there are any restrictions on the data at all. [input_validation]
    Note that comparing input against a list of "bad formats" (aka a *denylist*) is normally not enough, because attackers can often work around a denylist. In particular, numbers are converted into internal formats and then checked if they are between their minimum and maximum (inclusive), and text strings are checked to ensure that they are valid text patterns (e.g., valid UTF-8, length, syntax, etc.). Some data may need to be "anything at all" (e.g., a file uploader), but these would typically be rare.

    The project uses allowlist-based input validation throughout. The allowlists feature (src/features/allowlists/index.ts) enforces default-deny mode. URL validation checks against allowlist patterns. Policy engine validates all inputs before processing. https://github.com/AG064/argentum/blob/main/src/features/allowlists/index.ts


    Enough for a badge!

    Hardening mechanisms SHOULD be used in the software produced by the project so that software defects are less likely to result in security vulnerabilities. [hardening]
    Hardening mechanisms may include HTTP headers like Content Security Policy (CSP), compiler flags to mitigate attacks (such as -fstack-protector), or compiler flags to eliminate undefined behavior. For our purposes least privilege is not considered a hardening mechanism (least privilege is important, but separate).

    The project implements security hardening headers: Content-Security-Policy (CSP) with nonce, X-Content-Type-Options, X-Frame-Options, X-XSS-Protection, HSTS, Referrer-Policy, Permissions-Policy. Rust/Tauri provides additional memory safety via the Rust language. https://github.com/AG064/argentum/blob/main/src/core/security.ts


    Enough for a badge!

    The project MUST provide an assurance case that justifies why its security requirements are met. The assurance case MUST include: a description of the threat model, clear identification of trust boundaries, an argument that secure design principles have been applied, and an argument that common implementation security weaknesses have been countered. (URL required) [assurance_case]
    An assurance case is "a documented body of evidence that provides a convincing and valid argument that a specified set of critical claims regarding a system’s properties are adequately justified for a given application in a given environment" ("Software Assurance Using Structured Assurance Case Models", Thomas Rhodes et al, NIST Interagency Report 7608). Trust boundaries are boundaries where data or execution changes its level of trust, e.g., a server's boundaries in a typical web application. It's common to list secure design principles (such as Saltzer and Schroeer) and common implementation security weaknesses (such as the OWASP top 10 or CWE/SANS top 25), and show how each are countered. The BadgeApp assurance case may be a useful example. This is related to documentation_security, documentation_architecture, and implement_secure_design.

    The project provides security documentation that serves as the assurance case: SECURITY.md documents the threat model, security requirements, and known issues. docs/architecture.md describes trust boundaries and system design. The threat model identifies key trust boundaries (user input, LLM providers, messaging channels). https://github.com/AG064/argentum/blob/main/SECURITY.md


 Analysis 2/2

  • Static code analysis


    Enough for a badge!

    The project MUST use at least one static analysis tool with rules or approaches to look for common vulnerabilities in the analyzed language or environment, if there is at least one FLOSS tool that can implement this criterion in the selected language. [static_analysis_common_vulnerabilities]
    Static analysis tools that are specifically designed to look for common vulnerabilities are more likely to find them. That said, using any static tools will typically help find some problems, so we are suggesting but not requiring this for the 'passing' level badge.

    Semgrep with --config=auto fetches the full Semgrep Registry including security-focused rules for TypeScript and JavaScript that detect common vulnerability patterns (SQL injection, XSS, insecure random, hardcoded credentials, etc.). https://github.com/AG064/argentum/blob/main/.github/workflows/semgrep.yml


  • Dynamic code analysis


    Enough for a badge!

    If the software produced by the project includes software written using a memory-unsafe language (e.g., C or C++), then at least one dynamic tool (e.g., a fuzzer or web application scanner) MUST be routinely used in combination with a mechanism to detect memory safety problems such as buffer overwrites. If the project does not produce software written in a memory-unsafe language, choose "not applicable" (N/A). [dynamic_analysis_unsafe]
    Examples of mechanisms to detect memory safety problems include Address Sanitizer (ASAN) (available in GCC and LLVM), Memory Sanitizer, and valgrind. Other potentially-used tools include thread sanitizer and undefined behavior sanitizer. Widespread assertions would also work.

    Project's Rust code (src/desktop/) has no unsafe blocks in project code. unsafe-libyaml in Cargo.lock is a transitive dependency of serde_yaml, not project code. No ASAN/sanitizer configured because there is no unsafe code to check.



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Project badge entry owned by: AG064.
Entry created on 2026-05-24 05:44:50 UTC, last updated on 2026-05-26 00:21:59 UTC. Last achieved passing badge on 2026-05-25 14:37:43 UTC.