@babylonjs/node-particle-editor
The Node Particle Editor is a visual tool for creating and editing particle systems using a node-based graph in Babylon.js.
Supply chain provenance
Status for the latest visible version.
Without SLSA provenance there is no cryptographic link between this tarball and the public source — the axios compromise (March 2026) relied on exactly this gap.
Maintainers
Keywords
Accepted risks
Findings the reviewer chose to accept rather than block on.
| Source | Rule | Reason | Accepted by | When |
|---|---|---|---|---|
| source-diff | obfuscated-file:dist/babylon.nodeParticleEditor.js | AI (source-diff): Standard minified UMD rollup bundle for a BabylonJS editor tool; not obfuscated malware. | ai | |
| source-diff | obfuscated-file:dist/babylon.nodeParticleEditor.max.js | AI (source-diff): Standard minified UMD rollup bundle for a BabylonJS editor tool; not obfuscated malware. | ai | |
| source-diff | net-exec-file:dist/babylon.nodeParticleEditor.js | AI (source-diff): Network/exec pattern is from bundled React+BabylonJS library code, not dropper behavior. | ai | |
| source-diff | net-exec-file:dist/babylon.nodeParticleEditor.max.js | AI (source-diff): Network/exec pattern is from bundled React+BabylonJS library code, not dropper behavior. | ai | |
| source-diff | encoded-string-file:dist/babylon.nodeParticleEditor.js | AI (source-diff): Long strings are webpack-bundled CSS/JS, not obfuscated payloads; stable pattern for this package. | ai | |
| source-diff | encoded-string-file:dist/babylon.nodeParticleEditor.max.js | AI (source-diff): Same webpack bundle pattern; stable false positive for this package. | ai |
Versions (showing 24 of 24)
| Version | Deps | Published |
|---|---|---|
| 9.11.0 | 0 / 6 | |
| 9.10.1 | 0 / 6 | |
| 9.10.0 | 0 / 6 | |
| 9.9.2 | 0 / 6 | |
| 9.9.1 | 0 / 6 | |
| 9.9.0 | 0 / 6 | |
| 9.8.0 | 0 / 6 | |
| 9.7.0 | 0 / 6 | |
| 9.6.2 | 0 / 6 | |
| 9.6.1 | 0 / 6 | |
| 9.6.0 | 0 / 6 | |
| 9.5.2 | 0 / 6 | |
| 9.5.1 | 0 / 6 | |
| 9.5.0 | 0 / 6 | |
| 9.4.1 | 0 / 6 | |
| 9.4.0 | 0 / 6 | |
| 9.3.4 | 0 / 6 | |
| 9.3.3 | 0 / 6 | |
| 9.3.2 | 0 / 6 | |
| 9.3.1 | 0 / 6 | |
| 9.3.0 | 0 / 6 | |
| 9.2.2 | 0 / 6 | |
| 9.2.1 | 0 / 6 | |
| 9.2.0 | 0 / 6 |
v9.11.0
1 findingPackage was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.10.1
1 findingPackage was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.10.0
1 findingPackage was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.9.2
1 findingPackage was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.9.1
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.9.0
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.8.0
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.7.0
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.6.2
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.6.1
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.6.0
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.5.2
5 findingsNewly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Newly added source file contains lines over 3000 chars, suggesting minified or obfuscated code. New obfuscated files are a strong attack indicator.
Newly added file contains both network calls and dynamic code execution. This is a hallmark of dropper/loader malware.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.5.1
1 findingPackage was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.5.0
1 findingPackage was published without Sigstore provenance. Only ~12% of npm packages have provenance, so this is common but not ideal.
v9.4.1
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.4.0
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.3.4
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.3.3
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.3.2
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.3.1
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.3.0
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.2.2
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.2.1
3 findingsModified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Modified file contains 11 long encoded string(s) (200+ chars). These are commonly used to hide malicious payloads.
Package was published without Sigstore provenance. Consider requesting the maintainer enable provenance via CI/CD.
v9.2.0
1 findingPackage was published without Sigstore provenance. Only ~12% of npm packages have provenance, so this is common but not ideal.