| name | sql-injection-testing |
| description | Validate SQL injection vulnerabilities (including blind SQLi) across time-based, error-based, boolean-based, UNION-based, stacked-query, and out-of-band patterns. Use when testing CWE-89 (SQL Injection), CWE-564 (Hibernate SQL Injection), and related SQL injection classes across MySQL, PostgreSQL, MSSQL, Oracle, and SQLite targets. |
| allowed-tools | Read, Write, Bash |
SQL Injection Testing Skill
Purpose
Validate SQL injection (including blind SQLi) by injecting SQL syntax into user-controlled inputs and observing:
- Time-based delays (blind)
- Error messages (error-based)
- Boolean/content differences (blind)
- Data extraction via UNION
- Stacked queries where supported
- Out-of-band interactions (DNS/HTTP callbacks) when infra allows
Vulnerability Types Covered
1. Time-Based Blind SQLi (CWE-89)
Inject time-delay functions and detect response latency.
Detection Methods: SLEEP(5), pg_sleep(5), WAITFOR DELAY '0:0:5', heavy functions (e.g., randomblob() for SQLite).
2. Boolean-Based Blind SQLi (CWE-89)
Inject true/false conditions and compare content/length/status.
Detection Methods: ' OR '1'='1 vs ' OR '1'='2, AND 1=1 vs AND 1=2.
3. Error-Based SQLi (CWE-89)
Trigger SQL parser errors and observe verbose error responses.
Detection Methods: stray quote/backtick, type-cast errors, extractvalue()/updatexml() (MySQL), CAST('a' AS INT) (PostgreSQL/MSSQL).
4. UNION-Based SQLi (CWE-89)
Use UNION to extract data when column counts align.
Detection Methods: UNION SELECT NULL,NULL, ORDER BY N probing for column count.
5. Stacked Queries (CWE-89)
Inject additional statements when DB/driver permits (e.g., MSSQL ; WAITFOR, PostgreSQL ; SELECT pg_sleep(5)).
6. Out-of-Band SQLi (CWE-89)
Detect DNS/HTTP callbacks via load_file(), xp_dirtree, or UTL_HTTP/UTL_INADDR when response-based detection is blocked (use only if callback infra is authorized).
7. ORM/Framework-Specific (CWE-564)
Hibernate/JPA or query-builder misuse leading to SQLi (parameter concatenation, unsafe createQuery).
Database-Specific Notes
| Database | Time-Based | Error-Based | Boolean-Based | UNION | Stacked Queries |
|---|
| MySQL/MariaDB | SLEEP(5) | ✓ | ✓ | ✓ | Limited |
| PostgreSQL | pg_sleep(5) | ✓ | ✓ | ✓ | ✓ (; SELECT ...) |
| MSSQL | WAITFOR DELAY '0:0:5' | ✓ | ✓ | ✓ | ✓ |
| Oracle | dbms_pipe.receive_message | ✓ | ✓ | ✓ | Limited |
| SQLite | No native sleep; use heavy ops (randomblob) | ✓ | ✓ | Partial | No |
Prerequisites
- Target reachable; SQL-backed functionality identified (endpoints, forms, headers, cookies, path params).
- If authentication required: test accounts available (low-priv + optional admin) or mark paths UNVALIDATED.
- Know (or infer) DB type to choose correct payloads; default to generic when unknown.
- VULNERABILITIES.json with suspected SQLi findings if provided.
Testing Methodology
Phase 1: Identify Injection Points
- URL params, POST bodies (JSON/form), headers, cookies, path segments.
- Look for string interpolation, query concatenation, ORM custom queries.
Phase 2: Establish Baseline
- Send a benign request; record status, content length, and response time.
- Note WAF/rate-limit behaviors.
Phase 3: Execute SQLi Tests
Time-Based (Blind):
payload = "123' OR SLEEP(5)--"
resp_time = send(payload)
if resp_time > baseline_time + 4.5:
status = "VALIDATED"
Boolean-Based (Blind):
true_p = "123' OR '1'='1"
false_p = "123' OR '1'='2"
len_true = len(send(true_p).text)
len_false = len(send(false_p).text)
if abs(len_true - len_false) >= 50:
status = "VALIDATED"
Error-Based:
payload = "123'"
resp = send(payload)
if any(err in resp.text.lower() for err in sql_errors):
status = "VALIDATED"
UNION/Stacked Probing:
ORDER BY incrementally to find column count.UNION SELECT NULL,... until count matches; watch for 200 vs 500.- For stacked-capable DBs: append
; SELECT pg_sleep(5) or ; WAITFOR DELAY '0:0:5'.
Out-of-Band (only if infra-approved):
- Use controlled collaborator domain; record DNS/HTTP hits.
- Stop if any unexpected external interaction occurs.
Phase 4: Classification Logic
| Status | Meaning |
|---|
| VALIDATED | Clear SQLi indicators (delay, error, boolean diff, data via UNION/stacked, OOB hit) |
| FALSE_POSITIVE | No indicators; behavior unchanged |
| PARTIAL | Mixed/weak signals (small deltas, inconsistent responses) |
| UNVALIDATED | Blocked, error, or insufficient evidence |
Phase 5: Capture Evidence
Capture minimal structured evidence (redact PII/secrets, truncate to 8KB, hash full response). Include:
status, injection_type, cwe- Baseline request (url/method/status/time/hash)
- Test request (url/method/status/time/hash, or collaborator hit details)
- Payload used
- Note if truncated and original size
Phase 6: Safety Rules
- Detection-only payloads; never destructive statements (DROP/DELETE/TRUNCATE/UPDATE/INSERT).
- Avoid data exfiltration; prefer boolean/time-based confirmation.
- Do not send OOB callbacks unless explicitly authorized.
- Respect rate limits; add delays between time-based probes.
- Redact credentials, tokens, and personal data in evidence.
Output Guidelines
- Keep responses concise (1-4 sentences).
- Include endpoint, payload, detection method, and impact.
Validated examples:
Time-based SQLi on /api/users?id - SLEEP(5) payload caused 5.1s delay (CWE-89). Evidence: path/to/evidence.json
Boolean-based SQLi on /products - response length differs for true vs false condition (CWE-89). Evidence: path/to/evidence.json
Error-based SQLi on /login - SQL syntax error returned to client (CWE-89). Evidence: path/to/evidence.json
Unvalidated example:
SQLi test incomplete on /reports - WAF blocked payloads (403). Evidence: path/to/evidence.json
CWE Mapping
Primary CWEs (DAST-testable):
- CWE-89: Improper Neutralization of Special Elements used in an SQL Command ('SQL Injection')
- CWE-564: SQL Injection: Hibernate (ORM-specific variant of CWE-89)
Parent/Related CWEs (context):
- CWE-943: Improper Neutralization of Special Elements in Data Query Logic (parent class of CWE-89)
- CWE-74: Improper Neutralization of Special Elements in Output Used by a Downstream Component ('Injection') (grandparent)
- CWE-20: Improper Input Validation (related - root cause)
Note: CWE-89 is ranked #2 in MITRE's 2025 CWE Top 25 Most Dangerous Software Weaknesses.
Notable CVEs (examples)
- CVE-2023-34362 (MOVEit Transfer): Pre-auth SQLi leading to mass data exfiltration; exploited by Cl0p ransomware.
- CVE-2024-27956 (WordPress Automatic Plugin): Unauthenticated SQLi allowing privilege escalation.
- CVE-2021-27065 (Microsoft Exchange ProxyLogon chain): Post-auth SQLi in OWA contributing to RCE chain.
- CVE-2019-2725 (Oracle WebLogic): Unauthenticated SQLi leading to RCE.
- CVE-2017-5638 (Apache Struts): OGNL injection (related pattern) leading to RCE via Content-Type header.
- CVE-2014-3704 (Drupal SA-CORE-2014-005): SQLi via Drupal 7/8 form API ("Drupalgeddon").
Safety Reminders
- ONLY test against user-approved targets; stop if production protections trigger.
- Do not log or store sensitive data; redact in evidence.
- Prefer parameterized queries and least-privileged DB accounts in mitigations.
Reference Implementations
- See
reference/sql_payloads.py for SQLi payloads by DB and detection type.
- See
reference/validate_sqli.py for a SQLi-focused validation flow (time/error/boolean/UNION/stacked).
- See
examples.md for concrete SQLi scenarios and evidence formats.
