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1. Best Hardware Keylogger

Introduction Familiar with the concept of hardware keylogging? A hardware keylogger is a perfect solution for monitoring user activity, at very low risk of disclosure. A hardware keylogger is a purely electronic device, so no access to the operating system is required, no traces are left, and software has no possibility of detecting such a device. However, the hardware keylogger concept inherits one weakness: physical access to the keylogger is required for retrieving captured data. This problem has finally found its solution: a Wireless Keylogger. Has already released one design to the public. Now, we are doing it again with the DIY Wireless Keylogger.

Best Hardware Keylogger

This design is fully free for private and commercial use, with the following restrictions:. All materials presented on this web page are the intellectual property of KeeLog and using them constitutes acceptance of the license terms below and the general. This Wireless Keylogger project is provided as is, with all faults, and with no warranty whatsoever. You should not use the Wireless Keylogger to intercept data you are not authorized to possess, especially passwords, banking data, confidential correspondence etc. Most countries recognize this as a crime. The Wireless Keylogger consists of two main building blocks: the transmitter, and the receiver. The actual keylogging takes place in the transmitter, which is in fact a PS/2 hardware keylogger, with a built-in 2.4 GHz wireless module.

Captured keystroke data is transmitted through the radio-link in real-time, rather than getting stored. The receiver on the other hand, is a wireless acquisition unit with a USB interface. All keystroke data received from the transmitter is sent to the host computer via USB. From the software side, this data is available through a virtual COM port, allowing any terminal client to be used for visualizing keystroke data. Wireless Keylogger block scheme The entire system works in real-time, so text typed on the remote computer is seen immediately on the receiver side.

The system has a maximum range of around 50 yards (meters). This corresponds to an effective range of around 20 yards (meters) through 2-4 walls, depending on their thickness. Wireless Keylogger transmitter Wireless Keylogger receiver Both the transmitter and the receiver are based on the same schematics and circuit board. Both have the same form factor, and are intended for mounting on PS/2 and USB extension cables. The recommended housing is an EMC-balun enclosure, which makes the device resemble a standard extension cable. Components This article describes the entire assembly process of the DIY Wireless Keylogger.

Depending on your skills, you may choose to create your own Wireless Keylogger from scratch, or order a preassembled one from us. We can deliver a set of components with pre-programmed microcontrollers and standard casing (as seen on pictures), or a fully assembled and tested set of devices. Please scroll to the for more details. If you decide to create your own Wireless Keylogger, you should have some basic experience with electronics and soldering, ideally with SMT (Surface Mounted Technology). The easiest option includes ordering a kit with components from us, and doing the soldering, cabling, and final assembly on your own. This involves having a temperature-controlled soldering iron and quite good soldering skills. If you decide to design and produce the PCBs yourself, you should have significant experience in this field and proper equipment.

The table below summarizes the BOM (Bill of Materials) contained in a single transmitter or receiver unit. An additional PS/2 extension cable is required for the transmitter, and a USB type A connector or cable is required for the receiver. Assembly The Wireless Keylogger electrical circuit is composed of two main building-blocks: the microcontroller and the transceiver. The accompanying passive components are mainly oscillator and RF circuitry.

The entire circuit is powered with 3.3V, generated by the regulator and filtered by a set of capacitors. Power is drawn directly through the PS/2 bus (transmitter), or USB (receiver). If you already have assembled mini-boards, skip to the. If you have decided to assemble the circuit boards yourself, you'll need to follow the schematics and guidelines below.

Wireless Keylogger electrical schematics Use a fine tip for soldering (typically smaller than 0.5 mm) and soldering flux (for example RMA7). Don't overheat the components. Start the assembly with the transceiver, as it has the most difficult footprint. Proceed with the microcontroller and the voltage regulator. Always make sure pin 1 matches the first pad on the PCB.

Finally, solder all the auxiliary circuitry: crystals, resistors, capacitors, and inductors. Leave the antenna for the end.

You can use a dedicated ISM 2.4 GHz antenna, or simply make a quarter-wave dipole antenna from a piece of wire. The optimal length is 1.23' (3.125 cm). Assembled mini-boards should look similar to the ones on the pictures below. Assembled PCB top side with microcontroller Assembled PCB bottom side with transceiver After assembling the circuit boards, it's time for the cabling. Apart from firmware, this is the place where the transmitter differs from the receiver. The transmitter should be coupled in parallel with the PS/2 bus.

The PCB has pads for connections leading both to the computer, and to the keyboard. The receiver, on the other hand, should have a standard connection to the USB port. The images below show how the connections should be made. Transmitter PS/2 wiring diagram Receiver USB wiring diagram Use PS/2 and USB extension cables, cut them open, and isolate the signal lines. The tricky part is to identify how the wires inside correspond to signal lines. Some PS/2 and USB cables have standardized colors, however trusting in this is very risky.

The recommended solution would be to use a short-circuit tester or ohmmeter to find out which wire corresponds to which signal. The diagrams below will be helpful. Power-up Once you have a transmitter-receiver pair of devices assembled, it's time for the first test.

We recommend to use a single computer for testing both devices. First, power down the computer and connect the transmitter unit between the PS/2 keyboard and PS/2 port. Connect the transmitter unit to the PS/2 port Connect the PS/2 keyboard to the transmitter unit When done, boot the computer and make sure the PS/2 keyboard is working properly (no influence of the keylogger should be noticeable). Now it's time to test the receiver unit.

Before you proceed, please download the first. Unzip and save the files to the local hard disk on your computer. Then, plug the receiver unit into a free USB port (no need to power down the computer). Make sure it's in a position enabling reception of the radio signals coming from the transmitter. Connect the receiver unit to a free USB port The first time the receiver unit is connected, a driver installation dialog will appear.

Strictly speaking, it will use the bundled virtual COM port driver delivered with most operating systems, such as Windows. However, the corresponding INF description file has to be selected manually.

When the system asks for a driver, browse to the location where the driver file was saved. The pictures below illustrate the process. Choose to locate and install driver software Choose to browse for driver Choose to show browse option Browse to driver location If the driver installation process was successful, the receiver unit should be visible as a USB to serial converter. Open the Device Manager in Windows to find out, and check which virtual port was assigned to the device.

Receiver unit visible in the Device Manager To start receiving keystroke data from the transmitter unit, you may use any terminal client, such as Hyperterminal. We recommend to use our free application for it's flexibility and ease of use.

(free terminal client from KeeLog) After launching Simple Serial Monitor (or any alternative application), remember to set the correct COM port. If everything proceeded correctly, the receiver unit will immediately show all keystrokes typed on the PS/2 keyboard. Remote computer with PS/2 transmitter unit Local computer with USB receiver unit The next step would be to test the same using two different computers. Make sure they are in transmission range. If you see text popping up in the terminal window, then your Wireless Keylogger set is ready for it's first real mission. Remember to use this device only for legitimate purposes!

Download Conditions for using and reproducing are contained within the document Microcontroller firmware for programming the transmitter and receiver Driver allowing the receiver to be recognized as a virtual COM port Free software for displaying intercepted keystroke data through the virtual COM port (equivalent to Hyperterminal). Requires the. Firmware Read this section only if you need to flash the microcontroller by yourself. If you have purchased a kit from us, we have already done this for you. Modern microcontrollers, such as the Atmel have highly-packed footprints, making it difficult to find traditional programmers supporting them. That's why ISP (In-System Programming) has developed very rapidly in the recent years. ISP allows for assemble the entire circuit board first, and then flash the firmware, often using very simple tools.

The implements a very convenient ISP solution, based on the built-in USB module. It's called the SAM-BA (SAM Boot Assistant), and requires only a USB cable and a few simple jumpers. To run SAM-BA on your Wireless Keylogger mini-boards, first download the tool. Then, follow the steps below to complete firmware flashing on the transmitter and receiver unit. Step 1: Applies for the transmitter unit only. Prepare a USB cable with a type A male plug on one side, and isolated wires on the other side. Solder the USB lines VCC, GND, D+, and D- to the appropriate pads on the PCB.

This step is not necessary for the receiver, as it already has a USB connection. Step 2: Prepare a few short wires for short-circuiting the SAM-BA pins: TST, ERASE, PA2, PA1, PA0, 3.3V. Solder one end of each wire to the SAM-BA pads on both boards. Alternatively, you may prepare special jumpers as seen on the pictures. SAM-BA wiring scheme Step 3: Install the software package.

Step 4: Connect the device to a free USB port. A Device Not Recognized message is normal at this stage. Step 5: Short the ERASE and 3.3V signal wires for a moment. This will erase the microcontroller's flash memory.

USB cable and jumpers for SAM-BA bootloading Memory erasing (ERASE pin shorted to 3.3V) Bootloader activation (PA0, PA1, PA2 and TST shorted to 3.3V) Step 6: Disconnect the device from the USB port. Make sure the ERASE pin is not connected to 3.3V any more.

Now short the set of pins PA0, PA1, PA2 and TST to 3.3V. Connect the device to the USB port again ( Device Not Recognized may appear again). Leave the device connected for approximately 10 seconds, and then disconnect the device from the USB port.

This operation should have activated the SAM-BA bootloader. Step 7: Remove all shorts or jumpers and connect the device to the USB port. The New Hardware Found dialog should appear. Please follow the default procedure and allow the wizard to find the drivers itself.

Found New Hardware wizard Step 8: Open the Device Manager and verify that the SAM-BA bootloader has been activated. Device Manager with Atmel AT91 device Step 9: Run the SAM-BA application from the software suite and select the AT91SAM7S64-EK target microcontroller board. Akai ito visual novel.

Microcontroller board selection Step 10: After establishing the connection with the board, switch to the Flash tab, select the appropriate for the transmitter/receiver, and click on Send File. When the application asks whether to lock and unlock the involved flash regions, select yes. If you were successful in finalizing this step, it means the firmware has been downloaded to the microcontroller. SAM-BA Main Window Remember to go through the SAM-BA procedure for both the transmitter, and the receiver.

When finished, both devices are ready to go.