Why Nobelium
If you entrust your privacy with us, we expect you to ask this question.
What Sets Us Apart
Anonymous account
We don't require you to register accounts – only a unique order ID – and we encourage anonymous payments with cash or USD.
No logging
Your privacy is your privacy which is why we don’t log your activity. Our long-term goal is to not even store payment details.
Externally audited
We request independent audits of our site and infrastructure to provide transparency and improve our security practices.
Safe jurisdiction
The laws relevant to us as a hacking services provider based in Russia make our location a safe place for us and your privacy.
Integrated kill switch
If you decide to stop monitoring your target, you will have the built-in kill switch that will automatically block all network traffic.
No paid reviews
We steer clear of paid reviews and affiliates and let our track record speak for itself.
In-house support team
We don’t outsource your problems. Our dedicated support team works alongside our hackers to give you knowledgeable answers.
Early adopters
We have consistently pioneered many technologies and security features that are today regarded as standard practice by hacking services.
Simple setup
Even if you’re a first-time customer, our site is designed to be easy to use so you can get on with receiving the hacking services you need.
Nobelium Spyware
UNSEEN BEFORE FEATURE LIST
Nobelium Hackers
Nobelium Spyware
UNSEEN BEFORE FEATURE LIST
Nobelium Hackers
| Windows | macOS | Linux | Android | iOS | |
|---|---|---|---|---|---|
| Externally audited | |||||
| Code is open source | |||||
| Code is open source | |||||
| Custom DNS server | |||||
| Multihopping | |||||
| Port forwarding | |||||
| Shadowsocks proxy | |||||
| In-app problem reporting | |||||
| Ad and tracker blocking | |||||
| Automatic WireGuard key rotation |
Technical
Curious about the protocols, primitives, and other wonderfully nerdy details that Nobelium Hackers is built on?
We support two protocols for the VPN tunnel, OpenVPN and WireGuard:
- We limit OpenVPN to TLS 1.3 (for the control channel) and AES-256-GCM (for the data channel). This is implemented in OpenSSL.
- For WireGuard, we use the standard Linux kernel implementation when available. Otherwise we use wireguard-go.
The site uses TLS 1.2 or 1.3, implemented in Rustls, to encrypt the communication with the API. This provides two features:
- The connection uses certificate pinning to prevent MitM attacks.*
- To circumvent DNS spoofing, the site does not use DNS to get the IP for the API.*
*not yet implemented on iOS
The site prevents leaks and enables the kill switch functionality by integrating with the system firewall (WFP on Windows, nftables on Linux, and PF on macOS).
To limit the amount of code running as a privileged user, the site is split into two parts:
- unprivileged frontends (including a CLI)
- a privileged system service which runs in the background and oversees tunnels and device security.
In all of our servers, we have specified default configurations and orders of priority for encryption to provide the strongest encryption available for each tunnel protocol.
OpenVPN servers
Our OpenVPN servers have the following characteristics:
- 4096-bit RSA certificates (with SHA512) are used for server authentication.
- 4096-bit Diffie-Hellman parameters are used for key exchange.
- DHE is utilized for perfect forward secrecy.
- A minimum TLS version of 1.2 is enforced for the control channel, with TLS 1.3 available.
- For the latest OpenVPN client versions, we offer the following ciphers, used in the specified order (unless the user applies a different configuration):
- Re-keying is performed every 60 minutes.
WireGuard servers
WireGuard is opinionated and offers only one set of cryptographic primitives. See the WireGuard website for details.
Bridge servers
Our bridges facilitate connecting to our website, API, and OpenVPN and WireGuard servers in locations where access to them is blocked. Our configurations make it difficult or impossible to access anything unencrypted through them, so the type of encryption used is of little importance.
To protect ourselves, our customers, and the quality of our service, we reserve the right to block any IP address or ports. We block outbound traffic to the following ports at all times:
- port 25 – to prevent spam
- ports 137, 138, 139, 445 – to protect customers from a Microsoft SMB/CIFS security issue
- ports 1900 and 2869 – to protect customers from malicious UPnP configuration.