GHSA-6XC5-4R68-67FC
Vulnerability from github – Published: 2026-07-06 20:39 – Updated: 2026-07-06 20:39SQLChatAgent _validate_query dangerous-pattern regex is bypassable via quoted/commented/qualified function names
Summary
The SQLChatAgent SQL-injection mitigation, with default allow_dangerous_operations=False, combines a raw-text regex blocklist (_DANGEROUS_SQL_PATTERNS) with a sqlglot SELECT-only statement allowlist. The blocklist entries that target callable functions require the function name to be immediately followed by \s*\(.
PostgreSQL accepts the same call with the name separated from ( by a quoted identifier, an inline comment, or schema qualification. These forms evade the regex, still parse as SELECT, and execute the same PostgreSQL function. This restores the pg_read_file server-side file-read primitive that the prior CVE-2026-25879 / GHSA-pmch-g965-grmr fix was meant to block: the parent advisory fixed a missing pg_read_file blocklist entry, while this report shows that the added regex is bypassable.
Affected Code
Tested against current main commit:
6e8e7b2bb23ec04c1c25be479f16b8cc9a4f8796
The current source still contains:
re.compile(r"\bpg_(read|stat|ls|current_logfile)[A-Za-z0-9_]*\s*\(", re.IGNORECASE)
_validate_query checks the raw query against _DANGEROUS_SQL_PATTERNS, then parses with sqlglot and allows SELECT statements. The dangerous-call check is raw text, not normalized AST function-name matching.
Root Cause
The current mitigation treats dangerous PostgreSQL function calls as a raw-text regex problem. The regex requires the pg_... function token to be followed directly by optional whitespace and (, but PostgreSQL accepts equivalent calls through quoted identifiers, comments, and schema-qualified names. Because _validate_query only uses sqlglot to enforce the top-level statement type, those normalized function names are never checked after parsing.
Auth Boundary
The boundary is the default SQLChatAgent safety policy between attacker-influenced SQL generation and database operations that can read server-side files. With allow_dangerous_operations=False, a user or prompt that influences generated SQL should not be able to bypass the guard and execute PostgreSQL file-read functions such as pg_read_file.
This is not a new unauthenticated endpoint or product-wide SQL injection; it applies when untrusted user content can influence SQLChatAgent's generated SQL.
Reproduction
The local harness uses the current sql_chat_agent.py, extracts the real shipped dangerous regex list, validates the queries with real sqlglot==30.8.0, then executes the accepted bypasses against a local throwaway PostgreSQL 16 container.
Transcript excerpt:
CONTROL "SELECT pg_read_file('/etc/passwd')" -> REJECTED: matches '\\bpg_(read|stat|ls|current_logfile)[A-Za-z0-9_]*\\s*\\('
BYPASS 'SELECT "pg_read_file"(\'/etc/passwd\')' -> ALLOWED (validator returned None -> would execute)
BYPASS "SELECT pg_read_file/**/('/etc/passwd')" -> ALLOWED (validator returned None -> would execute)
BYPASS 'SELECT pg_catalog."pg_read_file"(\'/etc/passwd\')' -> ALLOWED (validator returned None -> would execute)
=== Part B: real PostgreSQL execution of the bypass ===
connected; is_superuser=t
executed bypass 'SELECT "pg_read_file"(\'<file>\')' -> file contents returned: 'LANGROID_SAFE_MARKER_...'
executed bypass "SELECT pg_read_file/**/('<file>')" -> file contents returned: 'LANGROID_SAFE_MARKER_...'
executed bypass 'SELECT pg_catalog."pg_read_file"(\'<file>\')' -> file contents returned: 'LANGROID_SAFE_MARKER_...'
RESULT: VULNERABLE
The control query is blocked by the current regex, while all three equivalent PostgreSQL forms are allowed by the validator and return the mounted proof file contents from a real PostgreSQL server. The LANGROID_SAFE_MARKER_... value is a harmless marker generated inside the throwaway local container for this proof.
Impact
On a deployment using SQLChatAgent against PostgreSQL with a role able to call pg_read_file (superuser, or a role granted pg_read_server_files), an attacker who can influence LLM-generated SQL can coerce the agent into emitting one of the obfuscated queries and read files accessible to the PostgreSQL server process through pg_read_file.
This is the same impact and precondition shape as the published pg_read_file advisory, but it targets the bypassability of the current regex-based fix rather than the pre-fix absence of a pg_read_file block.
Severity: High by parity with the published parent advisory; not Critical. CWE-184 leading to server-side file read.
Suggested Fix
Do not rely on raw-text regex matching for dangerous-call detection. After the existing sqlglot parse, walk the AST and reject any function invocation whose normalized, unquoted, schema-stripped, case-folded name is in a dangerous set such as pg_read_file, pg_read_binary_file, pg_ls_dir, pg_stat_file, lo_import, lo_export, load_file, or load_extension.
Also recommend running SQLChatAgent with a least-privilege database role that lacks pg_read_server_files.
{
"affected": [
{
"database_specific": {
"last_known_affected_version_range": "\u003c= 0.65.0"
},
"package": {
"ecosystem": "PyPI",
"name": "langroid"
},
"ranges": [
{
"events": [
{
"introduced": "0"
},
{
"fixed": "0.65.1"
}
],
"type": "ECOSYSTEM"
}
]
}
],
"aliases": [
"CVE-2026-54760"
],
"database_specific": {
"cwe_ids": [
"CWE-22",
"CWE-89"
],
"github_reviewed": true,
"github_reviewed_at": "2026-07-06T20:39:02Z",
"nvd_published_at": null,
"severity": "CRITICAL"
},
"details": "# SQLChatAgent `_validate_query` dangerous-pattern regex is bypassable via quoted/commented/qualified function names\n\n## Summary\n\nThe `SQLChatAgent` SQL-injection mitigation, with default `allow_dangerous_operations=False`, combines a raw-text regex blocklist (`_DANGEROUS_SQL_PATTERNS`) with a `sqlglot` SELECT-only statement allowlist. The blocklist entries that target callable functions require the function name to be immediately followed by `\\s*\\(`.\n\nPostgreSQL accepts the same call with the name separated from `(` by a quoted identifier, an inline comment, or schema qualification. These forms evade the regex, still parse as `SELECT`, and execute the same PostgreSQL function. This restores the `pg_read_file` server-side file-read primitive that the prior CVE-2026-25879 / GHSA-pmch-g965-grmr fix was meant to block: the parent advisory fixed a missing `pg_read_file` blocklist entry, while this report shows that the added regex is bypassable.\n\n## Affected Code\n\nTested against current `main` commit:\n\n`6e8e7b2bb23ec04c1c25be479f16b8cc9a4f8796`\n\nThe current source still contains:\n\n```python\nre.compile(r\"\\bpg_(read|stat|ls|current_logfile)[A-Za-z0-9_]*\\s*\\(\", re.IGNORECASE)\n```\n\n`_validate_query` checks the raw query against `_DANGEROUS_SQL_PATTERNS`, then parses with `sqlglot` and allows `SELECT` statements. The dangerous-call check is raw text, not normalized AST function-name matching.\n\n## Root Cause\n\nThe current mitigation treats dangerous PostgreSQL function calls as a raw-text regex problem. The regex requires the `pg_...` function token to be followed directly by optional whitespace and `(`, but PostgreSQL accepts equivalent calls through quoted identifiers, comments, and schema-qualified names. Because `_validate_query` only uses `sqlglot` to enforce the top-level statement type, those normalized function names are never checked after parsing.\n\n## Auth Boundary\n\nThe boundary is the default `SQLChatAgent` safety policy between attacker-influenced SQL generation and database operations that can read server-side files. With `allow_dangerous_operations=False`, a user or prompt that influences generated SQL should not be able to bypass the guard and execute PostgreSQL file-read functions such as `pg_read_file`.\n\nThis is not a new unauthenticated endpoint or product-wide SQL injection; it applies when untrusted user content can influence SQLChatAgent\u0027s generated SQL.\n\n## Reproduction\n\nThe local harness uses the current `sql_chat_agent.py`, extracts the real shipped dangerous regex list, validates the queries with real `sqlglot==30.8.0`, then executes the accepted bypasses against a local throwaway PostgreSQL 16 container.\n\nTranscript excerpt:\n\n```text\nCONTROL \"SELECT pg_read_file(\u0027/etc/passwd\u0027)\" -\u003e REJECTED: matches \u0027\\\\bpg_(read|stat|ls|current_logfile)[A-Za-z0-9_]*\\\\s*\\\\(\u0027\nBYPASS \u0027SELECT \"pg_read_file\"(\\\u0027/etc/passwd\\\u0027)\u0027 -\u003e ALLOWED (validator returned None -\u003e would execute)\nBYPASS \"SELECT pg_read_file/**/(\u0027/etc/passwd\u0027)\" -\u003e ALLOWED (validator returned None -\u003e would execute)\nBYPASS \u0027SELECT pg_catalog.\"pg_read_file\"(\\\u0027/etc/passwd\\\u0027)\u0027 -\u003e ALLOWED (validator returned None -\u003e would execute)\n\n=== Part B: real PostgreSQL execution of the bypass ===\nconnected; is_superuser=t\n executed bypass \u0027SELECT \"pg_read_file\"(\\\u0027\u003cfile\u003e\\\u0027)\u0027 -\u003e file contents returned: \u0027LANGROID_SAFE_MARKER_...\u0027\n executed bypass \"SELECT pg_read_file/**/(\u0027\u003cfile\u003e\u0027)\" -\u003e file contents returned: \u0027LANGROID_SAFE_MARKER_...\u0027\n executed bypass \u0027SELECT pg_catalog.\"pg_read_file\"(\\\u0027\u003cfile\u003e\\\u0027)\u0027 -\u003e file contents returned: \u0027LANGROID_SAFE_MARKER_...\u0027\n\nRESULT: VULNERABLE\n```\n\nThe control query is blocked by the current regex, while all three equivalent PostgreSQL forms are allowed by the validator and return the mounted proof file contents from a real PostgreSQL server. The `LANGROID_SAFE_MARKER_...` value is a harmless marker generated inside the throwaway local container for this proof.\n\n## Impact\n\nOn a deployment using `SQLChatAgent` against PostgreSQL with a role able to call `pg_read_file` (superuser, or a role granted `pg_read_server_files`), an attacker who can influence LLM-generated SQL can coerce the agent into emitting one of the obfuscated queries and read files accessible to the PostgreSQL server process through `pg_read_file`.\n\nThis is the same impact and precondition shape as the published `pg_read_file` advisory, but it targets the bypassability of the current regex-based fix rather than the pre-fix absence of a `pg_read_file` block.\n\nSeverity: High by parity with the published parent advisory; not Critical. CWE-184 leading to server-side file read.\n\n## Suggested Fix\n\nDo not rely on raw-text regex matching for dangerous-call detection. After the existing `sqlglot` parse, walk the AST and reject any function invocation whose normalized, unquoted, schema-stripped, case-folded name is in a dangerous set such as `pg_read_file`, `pg_read_binary_file`, `pg_ls_dir`, `pg_stat_file`, `lo_import`, `lo_export`, `load_file`, or `load_extension`.\n\nAlso recommend running SQLChatAgent with a least-privilege database role that lacks `pg_read_server_files`.",
"id": "GHSA-6xc5-4r68-67fc",
"modified": "2026-07-06T20:39:02Z",
"published": "2026-07-06T20:39:02Z",
"references": [
{
"type": "WEB",
"url": "https://github.com/langroid/langroid/security/advisories/GHSA-6xc5-4r68-67fc"
},
{
"type": "PACKAGE",
"url": "https://github.com/langroid/langroid"
}
],
"schema_version": "1.4.0",
"severity": [
{
"score": "CVSS:4.0/AV:N/AC:L/AT:N/PR:N/UI:N/VC:H/VI:H/VA:H/SC:N/SI:N/SA:N",
"type": "CVSS_V4"
}
],
"summary": "Langroid: SQLChatAgent dangerous-function blocklist can be bypassed with quoted or schema-qualified pg_read_file calls"
}
Sightings
| Author | Source | Type | Date | Other |
|---|
Nomenclature
- Seen: The vulnerability was mentioned, discussed, or observed by the user.
- Confirmed: The vulnerability has been validated from an analyst's perspective.
- Published Proof of Concept: A public proof of concept is available for this vulnerability.
- Exploited: The vulnerability was observed as exploited by the user who reported the sighting.
- Patched: The vulnerability was observed as successfully patched by the user who reported the sighting.
- Not exploited: The vulnerability was not observed as exploited by the user who reported the sighting.
- Not confirmed: The user expressed doubt about the validity of the vulnerability.
- Not patched: The vulnerability was not observed as successfully patched by the user who reported the sighting.