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Creates custom Semgrep rules for detecting security vulnerabilities, bug patterns, and code patterns. Use when writing Semgrep rules or building custom static analysis detections.
| name | semgrep-rule-creator |
| description | Creates custom Semgrep rules for detecting security vulnerabilities, bug patterns, and code patterns. Use when writing Semgrep rules or building custom static analysis detections. |
| allowed-tools | ["Bash","Read","Write","Edit","Glob","Grep","WebFetch"] |
| risk | unknown |
| source | community |
Create production-quality Semgrep rules with proper testing and validation.
Ideal scenarios:
Do NOT use this skill for:
static-analysis skill)When writing Semgrep rules, reject these common shortcuts:
semgrep --test --config <rule-id>.yaml <rule-id>.<ext> to verify. Untested rules have hidden false positives/negatives.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 " + $VAR)
# GOOD: Matches all os.system calls with taint tracking
mode: taint
pattern-sinks:
- pattern: os.system(...)
This workflow is strict - do not skip steps:
languages: generic)todook and todoruleid test annotations: todoruleid: <rule-id> and todook: <rule-id> annotations in tests files for future rule improvements are forbiddenThis skill guides creation of Semgrep rules that detect security vulnerabilities and code patterns. Rules are created iteratively: analyze the problem, write tests first, analyze AST structure, write the rule, iterate until all tests pass, optimize the rule.
Approach selection:
Why prioritize taint mode? Pattern matching finds syntax but misses context. A pattern eval($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 cases, try taint mode instead. The goal is a working rule—not rigid adherence to one approach.
Output structure - exactly 2 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
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-id>.yaml <rule-id>.<ext>
Copy this checklist and track progress:
Semgrep Rule Progress:
- [ ] Step 1: Analyze the Problem
- [ ] Step 2: Write Tests First
- [ ] Step 3: Analyze AST structure
- [ ] Step 4: Write the rule
- [ ] Step 5: Iterate until all tests pass (semgrep --test)
- [ ] Step 6: Optimize the rule (remove redundancies, re-test)
- [ ] Step 7: Final Run
REQUIRED: Before writing any rule, use WebFetch to read all of these 4 links with Semgrep documentation:
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