Vulnerability Scan Result

Target:

http://imagesigngroup.com.au/ (redirect)

Scanned target: https://imagesigngroup.com.au/

Submitted: Aug 17, 2025 from SB

Public Scan

Scan mode: Passive (non-intrusive)

Summary

high

Info

Low

Medium

High

Critical

Screenshot

Screenshot could not be taken.

Title:	Image Sign Group
Description:	No description found

IP Information

ip_address	103.26.236.130
country	AU
network_name	Apnic ASN Block
asn	AS136557

Open Ports

21/tcp	ftp	Pure-FTPd -
25/tcp	smtp	- -
26/tcp	smtp	Exim smtpd 4.98.2
53/tcp	domain	ISC BIND 9.11.36
80/tcp	http	Apache httpd -
110/tcp	pop3	Dovecot pop3d -
143/tcp	imap	Dovecot imapd -
443/tcp	https	Apache httpd -
465/tcp	smtp	Exim smtpd 4.98.2
587/tcp	smtp	Exim smtpd 4.98.2
993/tcp	imaps	- -
995/tcp	pop3s	- -
2082/tcp	http	- -
2083/tcp	https	- -
2086/tcp	http	- -
2087/tcp	https	- -

Web Technologies

Software / Version	Category
cdnjs	CDN
Magnific Popup	JavaScript libraries
FitVids.JS 1.2.0	Widgets, Video players
jQuery Migrate 3.4.1	JavaScript libraries
Google Analytics GA4	Analytics
Google Font API	Font scripts
Hammer.js 2.0.7	JavaScript libraries
Apache HTTP Server	Web servers
jQuery 3.7.1	JavaScript libraries
Modernizr 2.8.3	JavaScript libraries
MySQL	Databases
PHP 8.2.29	Programming languages
scrollreveal	JavaScript libraries
Splide	JavaScript libraries
Twitter Emoji (Twemoji)	Font scripts
WordPress	CMS, Blogs
Instagram Feed for WordPress	Widgets, WordPress plugins
Cloudflare	CDN
Google Tag Manager	Tag managers
jsDelivr	CDN
HSTS	Security

Web Application Vulnerabilities

Evidence

URL	Method	Parameters	Evidence
https://imagesigngroup.com.au/	GET	Headers: User-Agent=Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/108.0.0.0 Safari/537.36	Different hostname found for a source file `player.vimeo.com`

Vulnerability description

We have noticed that the target application includes scripts from external domains. This may be problematic as such scripts have the same level of access as the application's own scripts, which means they can interact with application data and perform actions as the current user.

Risk description

The risk is that cross domain file inclusion can lead to a wide variety security breaches if the external scripts are malicious or become compromised.

Recommendation

You do not have any control over what is in that code. Ensure files on the site are loaded from only trusted sources.

Classification

CWE	CWE-829
OWASP Top 10 - 2017
OWASP Top 10 - 2021

Evidence

URL
https://imagesigngroup.com.au/robots.txt

Vulnerability description

We found the robots.txt on the target server. This file instructs web crawlers what URLs and endpoints of the web application they can visit and crawl. Website administrators often misuse this file while attempting to hide some web pages from the users.

Risk description

There is no particular security risk in having a robots.txt file. However, it's important to note that adding endpoints in it should not be considered a security measure, as this file can be directly accessed and read by anyone.

Recommendation

We recommend you to manually review the entries from robots.txt and remove the ones which lead to sensitive locations in the website (ex. administration panels, configuration files, etc).

Evidence

URL	Evidence
https://imagesigngroup.com.au/	Response does not include the HTTP Content-Security-Policy security header or meta tag

Vulnerability description

We noticed that the target application lacks the Content-Security-Policy (CSP) header in its HTTP responses. The CSP header is a security measure that instructs web browsers to enforce specific security rules, effectively preventing the exploitation of Cross-Site Scripting (XSS) vulnerabilities.

Risk description

The risk is that if the target application is vulnerable to XSS, lack of this header makes it easily exploitable by attackers.

Recommendation

Configure the Content-Security-Header to be sent with each HTTP response in order to apply the specific policies needed by the application.

Classification

CWE	CWE-693
OWASP Top 10 - 2017
OWASP Top 10 - 2021

Evidence

Software / Version	Category
cdnjs	CDN
Magnific Popup	JavaScript libraries
FitVids.JS 1.2.0	Widgets, Video players
jQuery Migrate 3.4.1	JavaScript libraries
Google Analytics GA4	Analytics
Google Font API	Font scripts
Hammer.js 2.0.7	JavaScript libraries
Apache HTTP Server	Web servers
jQuery 3.7.1	JavaScript libraries
Modernizr 2.8.3	JavaScript libraries
MySQL	Databases
PHP 8.2.29	Programming languages
scrollreveal	JavaScript libraries
Splide	JavaScript libraries
Twitter Emoji (Twemoji)	Font scripts
WordPress	CMS, Blogs
Instagram Feed for WordPress	Widgets, WordPress plugins
Cloudflare	CDN
Google Tag Manager	Tag managers
jsDelivr	CDN
HSTS	Security

Vulnerability description

We noticed that server software and technology details are exposed, potentially aiding attackers in tailoring specific exploits against identified systems and versions.

Risk description

The risk is that an attacker could use this information to mount specific attacks against the identified software type and version.

Recommendation

We recommend you to eliminate the information which permits the identification of software platform, technology, server and operating system: HTTP server headers, HTML meta information, etc.

Evidence

URL	Evidence
https://imagesigngroup.com.au/	Response headers do not include the Referrer-Policy HTTP security header as well as the `<meta/>` tag with name 'referrer' is not present in the response.

Vulnerability description

We noticed that the target application's server responses lack the Referrer-Policy HTTP header, which controls how much referrer information the browser will send with each request originated from the current web application.

Risk description

The risk is that if a user visits a web page (e.g. "http://example.com/pricing/") and clicks on a link from that page going to e.g. "https://www.google.com", the browser will send to Google the full originating URL in the `Referer` header, assuming the Referrer-Policy header is not set. The originating URL could be considered sensitive information and it could be used for user tracking.

Recommendation

The Referrer-Policy header should be configured on the server side to avoid user tracking and inadvertent information leakage. The value `no-referrer` of this header instructs the browser to omit the Referer header entirely.

Classification

CWE	CWE-693
OWASP Top 10 - 2017
OWASP Top 10 - 2021

Evidence

URL	Method	Parameters	Evidence
https://imagesigngroup.com.au/wp-content/themes/framework2	GET	Headers: User-Agent=Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/108.0.0.0 Safari/537.36	Response has an internal server error status code: 500

Vulnerability description

We noticed that the target application's website does not properly handle or incorrectly manages exceptional conditions like Internal Server Errors. These errors can reveal sensitive information through their error messages. For instance, an error message could inadvertently disclose system paths or private application details.

Risk description

The risk exists that attackers could utilize information revealed in Internal Server Error messages to mount more targeted and effective attacks. Detailed error messages could, for example, expose a path traversal weakness (CWE-22) or other exploitable system vulnerabilities.

Recommendation

Ensure that error messages only contain minimal details that are useful to the intended audience, and nobody else. The messages need to strike the balance between being too cryptic and not being cryptic enough. They should not necessarily reveal the methods that were used to determine the error. Such detailed information can be used to refine the original attack to increase the chances of success. If errors must be tracked in some detail, capture them in log messages - but consider what could occur if the log messages can be viewed by attackers. Avoid recording highly sensitive information such as passwords in any form. Avoid inconsistent messaging that might accidentally tip off an attacker about internal state, such as whether a username is valid or not.

Classification

CWE	CWE-209
OWASP Top 10 - 2017
OWASP Top 10 - 2021

Evidence

URL
Missing: https://imagesigngroup.com.au/.well-known/security.txt

Vulnerability description

We have noticed that the server is missing the security.txt file, which is considered a good practice for web security. It provides a standardized way for security researchers and the public to report security vulnerabilities or concerns by outlining the preferred method of contact and reporting procedures.

Risk description

There is no particular risk in not having a security.txt file for your server. However, this file is important because it offers a designated channel for reporting vulnerabilities and security issues.

Recommendation

We recommend you to implement the security.txt file according to the standard, in order to allow researchers or users report any security issues they find, improving the defensive mechanisms of your server.

Evidence

URL	Method	Parameters	Evidence
https://imagesigngroup.com.au/	GET	Headers: User-Agent=Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/108.0.0.0 Safari/537.36	Email Address: info@imagesigngroup.com.au

Vulnerability description

We noticed that this web application exposes email addresses, which might be unintended. While not inherently a vulnerability, this information could be leveraged in social engineering or spam related activities.

Risk description

The risk is that exposed email addresses within the application could be accessed by unauthorized parties. This could lead to privacy violations, spam, phishing attacks, or other forms of misuse.

Recommendation

Compartmentalize the application to have 'safe' areas where trust boundaries can be unambiguously drawn. Do not allow email addresses to go outside of the trust boundary, and always be careful when interfacing with a compartment outside of the safe area.

Classification

CWE	CWE-200
OWASP Top 10 - 2017
OWASP Top 10 - 2021

Infrastructure Vulnerabilities

Evidence

CVE	CVSS	EPSS Score	EPSS Percentile	CISA KEV	Summary
CVE-2023-4408	7.5	0.00295	0.52415	No	The DNS message parsing code in `named` includes a section whose computational complexity is overly high. It does not cause problems for typical DNS traffic, but crafted queries and responses may cause excessive CPU load on the affected `named` instance by exploiting this flaw. This issue affects both authoritative servers and recursive resolvers. This issue affects BIND 9 versions 9.0.0 through 9.16.45, 9.18.0 through 9.18.21, 9.19.0 through 9.19.19, 9.9.3-S1 through 9.11.37-S1, 9.16.8-S1 through 9.16.45-S1, and 9.18.11-S1 through 9.18.21-S1.
CVE-2023-3341	7.5	0.00137	0.34409	No	The code that processes control channel messages sent to `named` calls certain functions recursively during packet parsing. Recursion depth is only limited by the maximum accepted packet size; depending on the environment, this may cause the packet-parsing code to run out of available stack memory, causing `named` to terminate unexpectedly. Since each incoming control channel message is fully parsed before its contents are authenticated, exploiting this flaw does not require the attacker to hold a valid RNDC key; only network access to the control channel's configured TCP port is necessary. This issue affects BIND 9 versions 9.2.0 through 9.16.43, 9.18.0 through 9.18.18, 9.19.0 through 9.19.16, 9.9.3-S1 through 9.16.43-S1, and 9.18.0-S1 through 9.18.18-S1.
CVE-2023-2828	7.5	0.00658	0.70116	No	Every `named` instance configured to run as a recursive resolver maintains a cache database holding the responses to the queries it has recently sent to authoritative servers. The size limit for that cache database can be configured using the `max-cache-size` statement in the configuration file; it defaults to 90% of the total amount of memory available on the host. When the size of the cache reaches 7/8 of the configured limit, a cache-cleaning algorithm starts to remove expired and/or least-recently used RRsets from the cache, to keep memory use below the configured limit. It has been discovered that the effectiveness of the cache-cleaning algorithm used in `named` can be severely diminished by querying the resolver for specific RRsets in a certain order, effectively allowing the configured `max-cache-size` limit to be significantly exceeded. This issue affects BIND 9 versions 9.11.0 through 9.16.41, 9.18.0 through 9.18.15, 9.19.0 through 9.19.13, 9.11.3-S1 through 9.16.41-S1, and 9.18.11-S1 through 9.18.15-S1.
CVE-2022-38178	7.5	0.00671	0.70403	No	By spoofing the target resolver with responses that have a malformed EdDSA signature, an attacker can trigger a small memory leak. It is possible to gradually erode available memory to the point where named crashes for lack of resources.
CVE-2022-38177	7.5	0.00621	0.69104	No	By spoofing the target resolver with responses that have a malformed ECDSA signature, an attacker can trigger a small memory leak. It is possible to gradually erode available memory to the point where named crashes for lack of resources.

Vulnerability description

Vulnerabilities found for Isc Bind 9.11.36

Risk description

These vulnerabilities expose the affected applications to the risk of unauthorized access to confidential data and possibly to denial of service attacks. An attacker could search for an appropriate exploit (or create one) for any of these vulnerabilities and use it to attack the system. Notes: - The vulnerabilities are identified based on the server's version.; - Only the first 5 vulnerabilities with the highest risk are shown for each port.; Since the vulnerabilities were discovered using only version-based testing, the risk level for this finding will not exceed "high" severity. Critical risks will be assigned to vulnerabilities identified through accurate active testing methods.

Recommendation

We recommend you to upgrade the affected software to the latest version in order to eliminate the risks imposed by these vulnerabilities.

Evidence

Domain Queried	DNS Record Type	Description	Value
_dmarc.imagesigngroup.com.au	TXT	Text record	"v=DMARC1;p=none;sp=none;adkim=r;aspf=r;pct=100;fo=0;rf=afrf;ri=86400"

Vulnerability description

We found that the DMARC record for the domain is not configured with ruf tag. A missing ruf (forensic reporting) tag in a DMARC record indicates that the domain owner has not enabled the collection of detailed failure reports. Forensic reports provide valuable insights into specific instances where emails fail DMARC authentication. Without the ruf tag, the domain administrator loses the ability to receive and analyze these reports, making it difficult to investigate individual email failures or identify targeted phishing or spoofing attacks that may be exploiting weaknesses in the email authentication setup.

Risk description

Without forensic reports (ruf), domain owners have limited visibility into the specifics of failed DMARC validation. This means potential malicious activity, such as email spoofing or phishing attempts, might go unnoticed until they result in more significant security breaches or reputational damage. Forensic reports allow for quick response to email abuses by providing detailed information about the failure, including the header information of the emails involved. The absence of this data hampers an organization's ability to identify and mitigate threats targeting its domain, increasing the risk of ongoing spoofing and fraud.

Recommendation

We recommend configuring the ruf tag in the DMARC record. This tag specifies where forensic reports should be sent, providing the domain owner with detailed data on DMARC validation failures. Forensic reports allow administrators to analyze why certain emails failed authentication, making it easier to fine-tune DMARC policies or address potential vulnerabilities. Ensure that the ruf email address belongs to a secure and trusted location capable of handling sensitive email data.

Evidence

We managed to detect that jQuery has reached the End-of-Life (EOL).

Version detected: 1.1.0 Latest version for the cycle: 1.12.4 This release cycle (1) doesn't have long-term-support (LTS). The cycle was released on 2006-08-31 and its latest release date was 2016-05-20.

Risk description

Using end-of-life (EOL) software poses significant security risks for organizations. EOL software no longer receives updates, including critical security patches. This creates a vulnerability landscape where known and potentially new security flaws remain unaddressed, making the software an attractive target for malicious actors. Attackers can exploit these vulnerabilities to gain unauthorized access, disrupt services, or steal sensitive data. Moreover, without updates, compatibility issues arise with newer technologies, leading to operational inefficiencies and increased potential for system failures. Additionally, regulatory and compliance risks accompany the use of EOL software. Many industries have strict data protection regulations that require up-to-date software to ensure the highest security standards. Non-compliance can result in hefty fines and legal consequences. Organizations also risk damaging their reputation if a breach occurs due to outdated software, eroding customer trust and potentially leading to a loss of business. Therefore, continuing to use EOL software undermines both security posture and business integrity, necessitating timely upgrades and proactive risk management strategies.

Recommendation

To mitigate the risks associated with end-of-life (EOL) software, it's crucial to take proactive steps. Start by identifying any EOL software currently in use within your organization. Once identified, prioritize upgrading or replacing these applications with supported versions that receive regular updates and security patches. This not only helps close security gaps but also ensures better compatibility with newer technologies, enhancing overall system efficiency and reliability.Additionally, develop a comprehensive software lifecycle management plan. This plan should include regular audits to identify upcoming EOL dates and a schedule for timely updates or replacements. Train your IT staff and users about the importance of keeping software up to date and the risks associated with using outdated versions. By maintaining a proactive approach to software management, you can significantly reduce security risks, ensure compliance with industry regulations, and protect your organization's reputation and customer trust.

Evidence

Domain Queried	DNS Record Type	Description	Value
imagesigngroup.com.au	SPF	Sender Policy Framework	"v=spf1 ip4:103.26.236.130 ip4:103.127.42.219 ip4:103.18.109.187 a mx include:mail-filtering.hosting-service.net.au include:spf.protection.outlook.com include:relay.mailchannels.net ~all"

Vulnerability description

We found that the Sender Policy Framework (SPF) record for the domain is configured with ~all (soft fail), which indicates that emails from unauthorized IP addresses are not explicitly denied. Instead, the recipient mail server is instructed to treat these messages with suspicion but may still accept them. This configuration may not provide enough protection against email spoofing and unauthorized email delivery, leaving the domain more vulnerable to impersonation attempts.

Risk description

The ~all directive in an SPF record allows unauthorized emails to pass through some email servers, even though they fail SPF verification. While such emails may be marked as suspicious or placed into a spam folder, not all mail servers handle soft fail conditions consistently. This creates a risk that malicious actors can spoof the domain to send phishing emails or other fraudulent communications, potentially causing damage to the organization's reputation and leading to successful social engineering attacks.

Recommendation

We recommend changing the SPF record's ~all (soft fail) directive to -all (hard fail). The -all setting tells recipient mail servers to reject emails from any IP addresses not listed in the SPF record, providing stronger protection against email spoofing. Ensure that all legitimate IP addresses and services that send emails on behalf of your domain are properly included in the SPF record before implementing this change.

Evidence

Domain Queried	DNS Record Type	Description	Value
_dmarc.imagesigngroup.com.au	TXT	Text record	"v=DMARC1;p=none;sp=none;adkim=r;aspf=r;pct=100;fo=0;rf=afrf;ri=86400"

Vulnerability description

We found that the DMARC record for the domain is not configured with rua tag. When a DMARC record is not configured with the rua (Reporting URI for Aggregate Reports) tag, the domain owner misses out on critical feedback regarding the domain's email authentication performance. Aggregate reports are essential for monitoring how a domain's DMARC policy is applied across various mail servers and whether legitimate or malicious emails are being sent on behalf of the domain. Without this reporting, domain administrators have no visibility into how their DMARC policy is being enforced, which hinders their ability to detect potential spoofing or authentication issues.

Risk description

The absence of rua reporting creates a significant blind spot in the domain's email security posture. Without aggregate reports, domain administrators cannot track DMARC compliance across email sent from their domain, leaving them unaware of potential misconfigurations or unauthorized use of their domain for malicious purposes, such as phishing or spoofing. This lack of visibility increases the risk of undetected spoofing attempts, which could damage the domain's reputation and lead to financial, operational, or reputational harm. Moreover, legitimate email issues, such as misaligned SPF or DKIM configurations, may also go unnoticed, affecting email deliverability.

Recommendation

We recommend configuring the rua tag in the DMARC record to receive aggregate reports from mail servers. This tag should point to a reliable email address or monitoring service capable of handling DMARC aggregate reports, such as rua=mailto:dmarc-reports@example.com. These reports provide valuable insights into how email from the domain is being treated by receiving mail servers, highlighting potential authentication issues and attempts to spoof the domain. Regularly reviewing these reports will help ensure the DMARC policy is properly enforced and that any email authentication failures are addressed in a timely manner.

Evidence

DKIM selector	Key type	Key size	Value
default	rsa	1422	"v=DKIM1; k=rsa; p=MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAvGF5QCdhY2tZ9VOz1e1//IukWjlBhOvWzFOg6fEiF8C4ruM/lhnTciYbVFV/2bnpyakl2aVOCHOrE4IqriJo6wU5HraBc4MVOHKz1bdmiAAO6tsF5HrWmaJmqx873Bb6b69uLc4rwB3i1k8MD1rufRDBDCOlcljnp+EfFmnKgMqwO5FEWoM0qvrkkUMOxP4JJ" "ucoInn1johYBdgnWv5ueUELsEWhYM/9+MvOdDhoAE08k8ROdddOAC0YcpJLPS8uS5Op0WnUN6LPr33m8zgWsJrww+y47zO3m1JLEKj0jJs3kB6643sZ0EZ1yDaPw08jtXMAxUa15LD0AjaTCi8HBQIDAQAB;"

Vulnerability description

We found that the DKIM record uses common selectors. The use of common DKIM selectors such as default, test, dkim, or mail may indicate a lack of proper customization or key management. Attackers often target domains using such selectors because they suggest that the domain is relying on default configurations, which could be less secure and easier to exploit. This can increase the risk of DKIM key exposure or misuse.

Risk description

Using a common DKIM selector makes it easier for attackers to predict and exploit email authentication weaknesses. Attackers may attempt to find corresponding DKIM keys or improperly managed records associated with common selectors. If a common selector is coupled with a weak key length or poor key management practices, it significantly increases the likelihood of email spoofing and phishing attacks.

Recommendation

We recommend using unique, customized selectors for each DKIM key to make it more difficult for attackers to predict and target the domain's DKIM records. Regularly rotate selectors and associated keys to further strengthen the security of your domain's email authentication infrastructure.

Evidence

Domain Queried	DNS Record Type	Description	Value
_dmarc.imagesigngroup.com.au	TXT	Text record	"v=DMARC1;p=none;sp=none;adkim=r;aspf=r;pct=100;fo=0;rf=afrf;ri=86400"

Vulnerability description

We found that the DMARC record for the domain is configured with sp=none, meaning that no policy is enforced for subdomains. This allows subdomains to send emails without being subject to DMARC checks, making it easier for attackers to spoof emails from these subdomains. Subdomains are often overlooked in email security, and attackers can exploit this misconfiguration to launch phishing or spoofing attacks from seemingly legitimate subdomains of a protected domain.

Risk description

When the DMARC record is configured with sp=none, subdomains are not subject to DMARC enforcement, allowing attackers to spoof emails from subdomains without being blocked. This creates a significant risk of phishing and impersonation attacks, where malicious emails appear to originate from trusted subdomains. These spoofed emails can be used to deceive users or damage the organization's reputation, undermining the security benefits of DMARC for the primary domain.

Recommendation

To mitigate the risk, we recommend that the subdomain policy should be updated to sp=reject to ensure that any email failing DMARC checks from subdomains is automatically rejected. This will help prevent unauthorized emails from being sent from subdomains, reducing the risk of spoofing and phishing. Additionally, it's important to regularly monitor DMARC reports to track email activity from subdomains and adjust policies as needed to maintain consistent security across the entire domain.

Evidence

Software / Version	Category
cPanel	Hosting panels

Vulnerability description

We noticed that server software and technology details are exposed, potentially aiding attackers in tailoring specific exploits against identified systems and versions.

Risk description

The risk is that an attacker could use this information to mount specific attacks against the identified software type and version.

Recommendation

We recommend you to eliminate the information which permits the identification of software platform, technology, server and operating system: HTTP server headers, HTML meta information, etc.

Evidence

DKIM selector	Key type	Key size	Value
default	rsa	1422	"v=DKIM1; k=rsa; p=MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAvGF5QCdhY2tZ9VOz1e1//IukWjlBhOvWzFOg6fEiF8C4ruM/lhnTciYbVFV/2bnpyakl2aVOCHOrE4IqriJo6wU5HraBc4MVOHKz1bdmiAAO6tsF5HrWmaJmqx873Bb6b69uLc4rwB3i1k8MD1rufRDBDCOlcljnp+EfFmnKgMqwO5FEWoM0qvrkkUMOxP4JJ" "ucoInn1johYBdgnWv5ueUELsEWhYM/9+MvOdDhoAE08k8ROdddOAC0YcpJLPS8uS5Op0WnUN6LPr33m8zgWsJrww+y47zO3m1JLEKj0jJs3kB6643sZ0EZ1yDaPw08jtXMAxUa15LD0AjaTCi8HBQIDAQAB;"

Operating System	Accuracy
Linux 4.4	100%

Evidence

Domain Queried	DNS Record Type	Description	Value
imagesigngroup.com.au	A	IPv4 address	103.26.236.130
imagesigngroup.com.au	NS	Name server	dns1.argonhosting.com.au
imagesigngroup.com.au	NS	Name server	dns2.argonhosting.com.au
imagesigngroup.com.au	NS	Name server	dns3.argonhosting.com.au
imagesigngroup.com.au	MX	Mail server	0 imagesigngroup-com-au.mail.protection.outlook.com
imagesigngroup.com.au	SOA	Start of Authority	dns1.argonhosting.com.au. hosting.argon.com.au. 2025081701 3600 1800 1209600 86400
imagesigngroup.com.au	TXT	Text record	"MS=ms82617344"
imagesigngroup.com.au	SPF	Sender Policy Framework	"v=spf1 ip4:103.26.236.130 ip4:103.127.42.219 ip4:103.18.109.187 a mx include:mail-filtering.hosting-service.net.au include:spf.protection.outlook.com include:relay.mailchannels.net ~all"
_dmarc.imagesigngroup.com.au	TXT	Text record	"v=DMARC1;p=none;sp=none;adkim=r;aspf=r;pct=100;fo=0;rf=afrf;ri=86400"

Risk description

An initial step for an attacker aiming to learn about an organization involves conducting searches on its domain names to uncover DNS records associated with the organization. This strategy aims to amass comprehensive insights into the target domain, enabling the attacker to outline the organization's external digital landscape. This gathered intelligence may subsequently serve as a foundation for launching attacks, including those based on social engineering techniques. DNS records pointing to services or servers that are no longer in use can provide an attacker with an easy entry point into the network.

Recommendation

We recommend reviewing all DNS records associated with the domain and identifying and removing unused or obsolete records.

Evidence

Software / Version	Category
WordPress	CMS, Blogs
MySQL	Databases
PHP 8.2.29	Programming languages
FitVids.JS 1.2.0	Widgets, Video players
Apache HTTP Server	Web servers
Cloudflare	CDN
Instagram Feed for WordPress	Widgets, WordPress plugins
scrollreveal	JavaScript libraries
Modernizr	JavaScript libraries
Magnific Popup	JavaScript libraries
jsDelivr	CDN
jQuery Migrate 3.4.1	JavaScript libraries
jQuery 1.1.0	JavaScript libraries
Google Tag Manager	Tag managers
Google Analytics GA4	Analytics
cdnjs	CDN
HSTS	Security

Vulnerability description

We noticed that server software and technology details are exposed, potentially aiding attackers in tailoring specific exploits against identified systems and versions.

Risk description

The risk is that an attacker could use this information to mount specific attacks against the identified software type and version.

Recommendation

We recommend you to eliminate the information which permits the identification of software platform, technology, server and operating system: HTTP server headers, HTML meta information, etc.