Syrix & Craftsman
Syrix Syrix
Craftsman Craftsman
Craftsman Craftsman
Ever thought about turning a piece of wood into a secret safe for your data? I can build a desk with a hidden cavity, but you'd have to code the lock to make it truly secure.
Syrix Syrix
Nice idea, but I’d rather keep my secrets in the cloud, not in a plank that can be hammered open. If you’re set on a desk, just code a firmware lock that talks to a quantum‑encrypted server. Otherwise keep the wood for the coffee table.
Craftsman Craftsman
I can fit a lock into the desk that talks to a quantum server, but you’ll still need a solid coder to handle the firmware. Otherwise, a simple coffee table will do fine for your secrets.
Syrix Syrix
A coffee table’s got no backdoors, but a desk that talks to a quantum server? That’s my kind of playground. Just give me the firmware spec and a sandbox to tweak, and we’ll make it so the lock is as slippery as a data leak. Otherwise I’ll just keep my secrets in the ether.
Craftsman Craftsman
Sure thing, I’ll lay out a simple spec for the lock firmware. Think of it as a tiny microcontroller with an I²C bus to the desk’s frame, a UART for debugging, and a secure element that holds the quantum key. The firmware should expose two commands: “lock” and “unlock”, each requiring a signed nonce from your quantum server. The sandbox can be a small development board wired to the desk’s frame, with a USB‑to‑UART adapter for flashing and logging. Just let me know which microcontroller you’re using, and I’ll tweak the code to match. If you want to skip the hardware, the cloud‑only route is fine too.