Semgrep Rule Creator

trailofbits's avatarfrom trailofbits
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[Security Operations]

When & Why to Use This Skill

The Semgrep Rule Creator is a specialized Claude skill designed to build, test, and optimize custom Semgrep rules for static analysis. It enables developers and security engineers to detect complex bug patterns and security vulnerabilities using advanced techniques like taint-mode data flow analysis and AST-based pattern matching, ensuring high-precision code scanning with minimal false positives.

Use Cases

  • Custom Vulnerability Detection: Creating specific taint-mode rules to identify injection flaws (like SQLi or XSS) by tracking untrusted data from entry points to dangerous sinks.
  • Enforcing Coding Standards: Developing rules to prevent the use of deprecated APIs, insecure functions, or non-compliant code patterns across a large-scale enterprise codebase.
  • Automated Security Reviews: Building bespoke detectors for business-logic vulnerabilities or project-specific security flaws that generic scanners might miss.
  • False Positive Reduction: Iteratively refining existing static analysis patterns by testing them against both vulnerable and safe code samples to improve detection accuracy.
namesemgrep-rule-creator
descriptionCreate custom Semgrep rules for detecting bug patterns and security vulnerabilities. This skill should be used when the user explicitly asks to "create a Semgrep rule", "write a Semgrep rule", "make a Semgrep rule", "build a Semgrep rule", or requests detection of a specific bug pattern, vulnerability, or insecure code pattern using Semgrep.

Semgrep Rule Creator

Create production-quality Semgrep rules with proper testing and validation.

When to Use

Ideal scenarios:

  • Creating custom detection rules for specific bug patterns
  • Building security vulnerability detectors for your codebase
  • Writing taint-mode rules for data flow vulnerabilities
  • Developing rules to enforce coding standards

When NOT to Use

Do NOT use this skill for:

  • Running existing Semgrep rulesets
  • General static analysis without custom rules (use static-analysis plugin)

Rationalizations to Reject

When creating Semgrep rules, reject these common shortcuts:

  • "The pattern looks complete" → Still run semgrep --test --config rule.yaml test-file to verify. Untested rules have hidden false positives/negatives.
  • "It matches the vulnerable case" → Matching vulnerabilities is half the job. Verify safe cases don't match (false positives break trust).
  • "Taint mode is overkill for this" → If data flows from user input to a dangerous sink, taint mode gives better precision than pattern matching.
  • "One test case is enough" → Include edge cases: different coding styles, sanitized inputs, safe alternatives, and boundary conditions.
  • "I'll optimize the patterns first" → Write correct patterns first, optimize after all tests pass. Premature optimization causes regressions.
  • "The AST dump is too complex" → The AST reveals exactly how Semgrep sees code. Skipping it leads to patterns that miss syntactic variations.

Anti-Patterns

Too broad - matches everything, useless for detection:

# BAD: Matches any function call
pattern: $FUNC(...)

# GOOD: Specific dangerous function
pattern: eval(...)

Missing safe cases in tests - leads to undetected false positives:

# BAD: Only tests vulnerable case
# ruleid: my-rule
dangerous(user_input)

# GOOD: Include safe cases to verify no false positives
# ruleid: my-rule
dangerous(user_input)

# ok: my-rule
dangerous(sanitize(user_input))

# ok: my-rule
dangerous("hardcoded_safe_value")

Overly specific patterns - misses variations:

# BAD: Only matches exact format
pattern: os.system("rm " + $VAR)

# GOOD: Matches all os.system calls with taint tracking
mode: taint
pattern-sinks:
  - pattern: os.system(...)

Strictness Level

This workflow is strict - do not skip steps:

  • Test-first is mandatory: Never write a rule without test cases
  • 100% test pass is required: "Most tests pass" is not acceptable
  • Optimization comes last: Only simplify patterns after all tests pass
  • Documentation reading is required: Fetch external docs before writing rules

Overview

This skill guides creation of Semgrep rules that detect security vulnerabilities and bug patterns. Rules are created iteratively: write test cases first, analyze AST structure, write the rule, then iterate until all tests pass.

Approach selection:

  • Taint mode (prioritize): Data flow issues where untrusted input reaches dangerous sinks
  • Pattern matching: Simple syntactic patterns without data flow requirements

Why prioritize taint mode? Pattern matching finds syntax but misses context. A pattern eval($X) matches both eval(user_input) (vulnerable) and eval("safe_literal") (safe). Taint mode tracks data flow, so it only alerts when untrusted data actually reaches the sink—dramatically reducing false positives for injection vulnerabilities.

Iterating between approaches: It's okay to experiment. If you start with taint mode and it's not working well (e.g., taint doesn't propagate as expected, too many false positives/negatives), switch to pattern matching. Conversely, if pattern matching produces too many false positives on safe code, try taint mode instead. The goal is a working rule—not rigid adherence to one approach.

Output structure - exactly two files in a directory named after the rule ID:

<rule-id>/
├── <rule-id>.yaml     # Semgrep rule
└── <rule-id>.<ext>    # Test file with ruleid/ok annotations

Quick Start

rules:
  - id: insecure-eval
    languages: [python]
    severity: HIGH
    message: User input passed to eval() allows code execution
    mode: taint
    pattern-sources:
      - pattern: request.args.get(...)
    pattern-sinks:
      - pattern: eval(...)

Test file (insecure-eval.py):

# ruleid: insecure-eval
eval(request.args.get('code'))

# ok: insecure-eval
eval("print('safe')")

Run tests (from rule directory): semgrep --test --config rule.yaml test-file

Quick Reference

For commands, pattern operators, and taint mode syntax, see quick-reference.md.

Workflow

1. Analyze the Problem

Understand the bug pattern, identify target language, determine if taint mode applies.

Before writing any rule, see Documentation for required reading.

2. Create Test Cases First

Why test-first? Writing tests before the rule forces you to think about both vulnerable AND safe patterns. Rules written without tests often have hidden false positives (matching safe code) or false negatives (missing vulnerable variants). Tests make these visible immediately.

Create directory and test file with annotations (# ruleid:, # ok:, etc.). See quick-reference.md for full syntax.

The annotation line must contain ONLY the comment marker and annotation (e.g., # ruleid: my-rule). No other text, comments, or code on the same line.

3. Analyze AST Structure

Why analyze AST? Semgrep matches against the Abstract Syntax Tree, not raw text. Code that looks similar may parse differently (e.g., foo.bar() vs foo().bar). The AST dump shows exactly what Semgrep sees, preventing patterns that fail due to unexpected tree structure.

semgrep --dump-ast -l <language> <test-file>

4. Write the Rule

See workflow.md for detailed patterns and examples.

5. Iterate Until Tests Pass

semgrep --test --config rule.yaml test-file

Verification checkpoint: Output MUST show "All tests passed". Do not proceed to optimization until this is achieved.

For debugging taint rules:

semgrep --dataflow-traces -f rule.yaml test-file

6. Optimize the Rule

After all tests pass, remove redundant patterns (quote variants, ellipsis subsets). See workflow.md for detailed optimization examples and checklist.

Task complete ONLY when: All tests pass after optimization.

Key Requirements

  • Read documentation first: See Documentation before creating rules
  • Tests must pass 100%: Do not finish until all tests pass
  • Avoid generic patterns: Rules must be specific, not match broad patterns
  • Prioritize taint mode: For data flow vulnerabilities

Documentation

REQUIRED: Before creating any rule, use WebFetch to read this Semgrep documentation:

Next Steps