ironmark
Supply chain provenance
Status for the latest visible version.
Maintainers
Keywords
Accepted risks
Findings the reviewer chose to accept rather than block on.
| Source | Rule | Reason | Accepted by | When |
|---|---|---|---|---|
| source-diff | obfuscated-file:wasm/node.js | AI (source-diff): Base64-encoded WASM binary inlined by wasm/build.mjs; expected artifact of Rust/wasm-bindgen build pipeline. | ai | |
| source-diff | source-size-tripled | AI (source-diff): Size increase is the compiled WASM binary embedded in node.js; consistent with the build pipeline. | ai | |
| provenance | publisher-changed | AI (provenance): Publisher changed to GitHub Actions with SLSA provenance attestation; legitimate CI/CD automation from the same repo. | ai | |
| source-diff | encoded-string-file:wasm/node.js | AI (source-diff): Base64-encoded WASM binary inlined via atob(); standard pattern for this Rust/WASM package, stable across versions. | ai |
Versions (showing 56 of 56)
| Version | Deps | Published |
|---|---|---|
| 2.0.1 | 0 / 12 | |
| 2.0.0 | 0 / 12 | |
| 1.13.0 | 0 / 12 | |
| 1.12.3 | 0 / 12 | |
| 1.12.2 | 0 / 12 | |
| 1.12.1 | 0 / 12 | |
| 1.12.0 | 0 / 12 | |
| 1.11.4 | 0 / 12 | |
| 1.11.3 | 0 / 12 | |
| 1.11.2 | 0 / 12 | |
| 1.11.1 | 0 / 12 | |
| 1.11.0 | 0 / 12 | |
| 1.10.2 | 0 / 12 | |
| 1.10.1 | 0 / 12 | |
| 1.10.0 | 0 / 12 | |
| 1.9.0 | 0 / 12 | |
| 1.8.1 | 0 / 12 | |
| 1.8.0 | 0 / 12 | |
| 1.7.1 | 0 / 12 | |
| 1.7.0 | 0 / 12 | |
| 1.6.0 | 0 / 12 | |
| 1.5.6 | 0 / 12 | |
| 1.5.5 | 0 / 12 | |
| 1.5.4 | 0 / 12 | |
| 1.5.3 | 0 / 12 | |
| 1.5.2 | 0 / 12 | |
| 1.5.1 | 0 / 12 | |
| 1.5.0 | 0 / 12 | |
| 1.4.0 | 0 / 12 | |
| 1.3.8 | 0 / 12 | |
| 1.3.7 | 0 / 12 | |
| 1.3.6 | 0 / 12 | |
| 1.3.5 | 0 / 12 | |
| 1.3.4 | 0 / 12 | |
| 1.3.3 | 0 / 12 | |
| 1.3.2 | 0 / 12 | |
| 1.3.1 | 0 / 12 | |
| 1.3.0 | 0 / 12 | |
| 1.2.0 | 0 / 12 | |
| 1.1.13 | 0 / 12 | |
| 1.1.12 | 0 / 12 | |
| 1.1.11 | 0 / 12 | |
| 1.1.10 | 0 / 12 | |
| 1.1.9 | 0 / 12 | |
| 1.1.8 | 0 / 12 | |
| 1.1.7 | 0 / 12 | |
| 1.1.6 | 0 / 12 | |
| 1.1.5 | 0 / 10 | |
| 1.1.4 | 0 / 10 | |
| 1.1.3 | 0 / 10 | |
| 1.1.2 | 0 / 10 | |
| 1.1.1 | 0 / 10 | |
| 1.1.0 | 0 / 10 | |
| 1.0.1 | 0 / 10 | |
| 1.0.0 | 0 / 9 | |
| 0.1.0 | 0 / 9 |
v2.0.1
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v2.0.0
1 findingPublished via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.13.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.12.3
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.12.2
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.12.1
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.12.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.11.4
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.11.3
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.11.2
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.11.1
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.11.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.10.2
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.10.1
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.10.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.9.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.8.1
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.8.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.7.1
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.7.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.6.0
2 findingsModified file contains 1 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.6
1 findingPublished via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.5
1 findingPublished via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.4
3 findingsThis version was published by a different npm account than previous versions on 2026-03-23. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.3
3 findingsThis version was published by a different npm account than previous versions on 2026-03-23. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.2
3 findingsThis version was published by a different npm account than previous versions on 2026-03-16. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.1
3 findingsThis version was published by a different npm account than previous versions on 2026-03-16. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.5.0
3 findingsThis version was published by a different npm account than previous versions on 2026-03-16. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.4.0
3 findingsThis version was published by a different npm account than previous versions on 2026-03-13. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.8
3 findingsThis version was published by a different npm account than previous versions on 2026-03-13. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.7
3 findingsThis version was published by a different npm account than previous versions on 2026-03-01. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.6
3 findingsThis version was published by a different npm account than previous versions on 2026-03-01. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.5
3 findingsThis version was published by a different npm account than previous versions on 2026-03-01. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.4
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.3
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.2
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.1
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.3.0
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.2.0
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.13
3 findingsThis version was published by a different npm account than previous versions on 2026-02-27. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.12
3 findingsThis version was published by a different npm account than previous versions on 2026-02-26. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.11
3 findingsThis version was published by a different npm account than previous versions on 2026-02-26. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.10
3 findingsThis version was published by a different npm account than previous versions on 2026-02-26. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.9
3 findingsThis version was published by a different npm account than previous versions on 2026-02-26. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.8
3 findingsThis version was published by a different npm account than previous versions on 2026-02-25. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.7
3 findingsThis version was published by a different npm account than previous versions on 2026-02-25. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.6
3 findingsThis version was published by a different npm account than previous versions on 2026-02-25. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.5
3 findingsThis version was published by a different npm account than previous versions on 2026-02-25. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.4
3 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.3
3 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.2
3 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.1
3 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.1.0
3 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.0.1
2 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v1.0.0
2 findingsThis version was published by a different npm account than previous versions on 2026-02-24. This could indicate a legitimate maintainer transition or an account compromise.
Published via CI/CD with Sigstore attestation (predicate: https://slsa.dev/provenance/v1). This is the strongest supply chain integrity signal.
v0.1.0
1 findingPackage was published without Sigstore provenance. Only ~12% of npm packages have provenance, so this is common but not ideal.