For those who see hardware as an attack surface — and a system to be understood.
Probe boards, extract firmware, and interrogate embedded systems with tools like the JTAGulator, Bus Pirate, clips and precision probes, these tools are built for chip interrogation, debugging, and hands-on exploitation.
The ESP32 WROOM Programming Tool is a practical bench accessory for flashing, testing, and iterating on WROOM-class ESP32 modules during embedded development. It is intended for engineers and researchers who want a stable programming workflow for module-level bring-up, firmware validation, and rapid test cycles before integrating hardware into larger systems. Typical use cases include firmware development, peripheral validation, communications testing, and controlled prototype evaluation using standard ESP32 software ecosystems. Technical Requirements Requires a compatible host computer and the usual ESP32 development toolchain such as esptool, ESP-IDF, Arduino, or PlatformIO. Best suited to controlled development environments using supported WROVER-class modules and 3.3V logic. To use first install the CP2104 serial chip driver for your system. Press the module into the coppr clips. (ESP32 module not included) Power on and connect to your PC via usb cable. Configure the com port of your ESP32 flasher/ serial software of choice. Product Specifications Supported Modules ESP32 WROOM-class modules Programming Interface UART / serial flashing workflow Logic Voltage 3.3V environment Use Case Development, programming, and test validation Compatibility ESP-IDF, Arduino, PlatformIO, custom ESP32 firmware Safety Note Improper connections may damage connected hardware. Confirm voltage levels, module fitment, and programming pin mapping before use.
$21.95
The ESP32 WROVER Programming Tool is a practical bench accessory for flashing, testing, and iterating on WROVER-class ESP32 modules during embedded development. It is intended for engineers and researchers who want a stable programming workflow for module-level bring-up, firmware validation, and rapid test cycles before integrating hardware into larger systems. Typical use cases include firmware development, peripheral validation, communications testing, and controlled prototype evaluation using standard ESP32 software ecosystems. Technical Requirements Requires a compatible host computer and the usual ESP32 development toolchain such as esptool, ESP-IDF, Arduino, or PlatformIO. Best suited to controlled development environments using supported WROVER-class modules and 3.3V logic. To use first install the CP2104 serial chip driver for your system. Press the module into the coppr clips. (ESP32 module not included) Power on and connect to your PC via usb cable. Configure the com port of your ESP32 flasher/ serial software of choice. Product Specifications Supported Modules ESP32 WROVER-class modules Programming Interface UART / serial flashing workflow Logic Voltage 3.3V environment Use Case Development, programming, and test validation Compatibility ESP-IDF, Arduino, PlatformIO, custom ESP32 firmware Safety Note Improper connections may damage connected hardware. Confirm voltage levels, module fitment, and programming pin mapping before use.
$19.95
Description Hackitsune ESP-Bus-Pirate is a customised ESP32-S3 development board designed around breakout access and bench-friendly connectivity for ESP32 Bus Pirate-style firmware workflows. It is intended for researchers and hardware developers who want a compact multi-protocol tool for digital bus interaction, serial terminal use, and rapid prototyping without building a one-off fixture for each target. With multiple exposed breakouts and a firmware ecosystem inspired by the Bus Pirate concept, the board is well suited to I2C, SPI, UART, 1-Wire, GPIO, JTAG and other supported lab workflows in controlled environments. Technical Requirements Requires a host workstation for USB serial or web-based access and a supported firmware build for the ESP32-S3 platform. Best suited for lab setups where researchers need flexible wiring access, repeatable bench connections, and quick mode switching across supported protocols. Firmware Designed for the ESP32 Bus Pirate / TSP-Bus-Pirate style firmware ecosystem, which provides interactive serial and web-based CLI workflows for multiple protocol modes. Firmware compatibility depends on the final board pin mapping and the currently supported ESP32-S3 targets in the selected firmware project. How to Use Connect the board to the host system and wire the required breakout points to the authorised target hardware. Install a supported ESP32-S3 firmware build appropriate for the intended protocol workflow. Open the serial or web interface and select the required bus mode. Capture responses, validate signalling, or automate bench tasks in a controlled environment. Product Specification Table Processor Platform ESP32-S3 Primary Use Multi-protocol hardware research and bench interaction Interfaces USB plus breakout access for supported bus modes Firmware Ecosystem ESP32 Bus Pirate / TSP-Bus-Pirate style firmware Typical Protocols I2C, SPI, UART, 1-Wire, GPIO and other supported modes Key Features Custom ESP32-S3 board tailored for bench work Breakout-friendly design for rapid protocol access Suitable for Bus Pirate-style firmware workflows Useful for prototyping, validation, and hardware research Supports interactive multi-protocol testing in controlled environments Safety Note Improper wiring can damage target hardware or the board itself. Always verify voltage domains, pin mapping, and authorised scope before connection. Reverse Engineering Notice Some Hackitsune products may be capable of interacting with, analysing, or modifying electronic systems, firmware, and communication protocols for research, development, repair, interoperability testing, and authorised security analysis. Laws relating to reverse engineering and firmware analysis vary between jurisdictions and may be subject to copyright, anti-circumvention, telecommunications, or computer misuse legislation. Users are responsible for ensuring all use complies with applicable laws and is performed only on systems they own or have explicit permission to test.Hackitsune accepts no liability for misuse of this product. Use responsibly. 🦊
$60.00
The 2.54mm Pogo Pin PCB Clip Clamp Fixture is a bench accessory for creating temporary electrical contact with 2.54mm pitch pads or headers during programming, test, and validation work. It is useful when a researcher or developer needs repeatable access to a PCB without soldering permanent leads, especially during firmware loading, diagnostics, fixture-based production checks, or board recovery workflows. Gold-plated pogo contacts and multi-pin options make this style of fixture practical for development labs, repair benches, and small-scale manufacturing support. Application Used to create temporary non-solder contact with compatible PCB pads or headers for programming, diagnostics, and bench validation. How to Use Identify the compatible test points or pad spacing on the authorised target board. Select the correct probe count and align the fixture with the contact points. Apply consistent pressure to establish contact during programming or testing. Remove the fixture after validation or firmware operations are complete. Product Specification Table Pin Pitch 2.54 mm Probe Options 3P to 10P variants Contact Type Gold-plated pogo pins Use Case Temporary programming and PCB test access Key Features Temporary non-solder contact for development workflows Useful for programming, diagnostics, and validation Available in multiple pin-count options Suitable for lab, repair, and production bench use Gold-plated contacts for repeatable probing Safety Note Improper alignment may short adjacent contacts or damage pads. Confirm spacing, polarity, and voltage before applying the fixture. Disclaimer Some HacKitsune products may be capable of interacting with, analysing, or modifying electronic systems, firmware, and communication protocols for research, development, repair, interoperability testing, and authorised security analysis. Laws relating to reverse engineering and firmware analysis vary between jurisdictions and may be subject to copyright, anti-circumvention, telecommunications, or computer misuse legislation. Users are responsible for ensuring all use complies with applicable laws and is performed only on systems they own or have explicit permission to test.Hackitsune accepts no liability for misuse of this product. Use responsibly. 🦊
$0.00 - $34.00
The Hackitsune GhostBlaster is a portable multi-radio research platform built for wireless exploration, device interaction, and field analysis. Powered by dual ESP modules (ESP32-S3 + ESP32-C5) and running GhostESP firmware, GhostBlaster combines Wi-Fi, Bluetooth, GPS, infrared, Ethernet, and SD card logging into a single handheld device with a full colour touchscreen. Capture wireless environments, interact with devices, log data, and experiment with protocols — all from a self-contained portable toolkit. Key Features Dual ESP architecture – ESP32-S3 + ESP32-C5 2.4 GHz + 5 GHz Wi-Fi support Bluetooth / BLE scanning and discovery Integrated GPS for wardriving and geolocation logging Infrared transmit and receive for IR capture and replay Ethernet networking support MicroSD card slot for PCAP captures and data logging Rechargeable lithium battery powered operation Full colour touchscreen interface Portable handheld form factor USB interface for firmware updates and development GhostBlaster runs GhostESP, an open-source firmware platform designed for wireless experimentation and device interaction. GhostBlaster is designed to be a self-contained wireless research platform.built specifically to support the GhostESP revival firmware. Devices are pre flashed with the latest GhostESP firmware, latest compatable firmwares are avaialble for online update via the HacKitsune web flasher. The integrated touchscreen interface, rechargeable battery, and SD card storage allow researchers to capture and analyse wireless environments without needing a laptop. From wardriving and wireless discovery to signal interaction and protocol experimentation, GhostBlaster brings a full research toolkit into a compact handheld device. Disclaimer Hackitsune hardware is designed for professional security research, development, and authorised testing purposes only. Users are responsible for ensuring compliance with all applicable laws and regulations in their jurisdiction. Always obtain proper authorisation before interacting with systems, networks, or devices you do not own.Hackitsune accepts no liability for misuse of this product. Use responsibly. 🦊
$139.00
The Jtagulator is a professional hardware debugging tool used to help identify common on-board debug and serial interfaces during authorised hardware analysis and reverse engineering. It is particularly useful when working with undocumented or unfamiliar PCBs where interface discovery would otherwise be slow and error-prone. In a lab setting, it can help narrow down candidate pins for JTAG, SWD, and UART-style communications before deeper analysis begins. This makes it a practical addition to embedded security, board bring-up, and hardware assessment workflows that rely on reproducible interface mapping and integration with standard debugging tools. Key Features Helps identify common debug and serial interfaces Useful for embedded security and reverse-engineering labs 24-channel platform with protected inputs Adjustable target I/O level support Integrates with OpenOCD and sigrok workflows Safety Note Incorrect probing can damage target hardware. Verify voltage domains, ground reference, and authorised scope before attaching to a board under test. Reverse Engineering Notice Some Hackitsune products may be capable of interacting with, analysing, or modifying electronic systems, firmware, and communication protocols for research, development, repair, interoperability testing, and authorised security analysis. Laws relating to reverse engineering and firmware analysis vary between jurisdictions and may be subject to copyright, anti-circumvention, telecommunications, or computer misuse legislation. Users are responsible for ensuring all use complies with applicable laws and is performed only on systems they own or have explicit permission to test.Hackitsune accepts no liability for misuse of this product. Use responsibly. 🦊
$175.00
The SOP8/SOP16 IC Programmer Testing Clip is a practical accessory for in-circuit access to supported flash, EEPROM, and related IC packages for diagnostics, programming, and firmware extraction. It allows technicians and hardware researchers to attach to compatible devices without immediate desoldering, making it well suited to lab analysis, board recovery, and firmware maintenance tasks where temporary access is preferred. This style of clamp is commonly used with external programmers and bench tools (JTAGULATOR, Bus Pirate, ESP bus pirate, etc) during flashing, and reverse-engineering work. Supported packages These push down probes are designed for specific chip package sizes. Select the right cable form the options when orgering that suits your purpose. These packages are most commonly used for flash. Key Features Supports multiple common IC package formats Useful for temporary in-circuit access Suitable for repair, analysis, and firmware maintenance Reduces need for immediate chip removal Helpful for bench and lab diagnostics Safety Note Always verify chip orientation, pinout, and programmer voltage before attaching the clamp. In-circuit programming on live or unsupported boards may cause damage. Disclaimer Hackitsune hardware is designed for professional security research, development, and authorised testing purposes only. Users are responsible for ensuring compliance with all applicable laws and regulations in their jurisdiction. Always obtain proper authorisation before interacting with systems, networks, or devices you do not own.Hackitsune accepts no liability for misuse of this product. Use responsibly. 🦊
$39.00
