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89 lines
3.2 KiB
Markdown
89 lines
3.2 KiB
Markdown
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# Brute Force Gate Remote using Flipper Zero
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## Original by [Hong5489](https://github.com/Hong5489/flipperzero-gate-bruteforce)
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Brute force gate remote for SMC5326, UNILARM and PT2260 using Flipper Zero, inspired by [Breaking Protocol](https://medium.com/csg-govtech/breaking-protocol-d3988fa85eef) and [flipperzero-bruteforce](https://github.com/tobiabocchi/flipperzero-bruteforce)
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Only works on UNILARM, SMC5326, PT2260 and others remote that using the same protocol.
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Also can read my [blog post](https://hong5489.github.io/2022-09-23-gate-protocol/) on how I investigate the gate remote protocol
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## UNILARM remote sample
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<img src="unilarm.JPG" width="500">
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## SMC5326 remote sample
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<img src="smc5326.JPG" width="500">
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## PT2260 remote sample
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<img src="PT2260_front.jpg" width="250"><img src="PT2260_inside.jpg" width="250">
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## Protocol Structure
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### UNILARM & SMC5326
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[ 16bits of DIP switch combinations ][ 9bits of Instruction base ]
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Example in [Pulse Plotter](https://my.flipp.dev/pulse-plotter):
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![protocol](protocol.png)
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### PT2260
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[ 16bits of DIP switch combinations ][ 8bits of Instruction base ]
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Example in [Pulse Plotter](https://my.flipp.dev/pulse-plotter):
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![protocol](PT2260_protocol.png)
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Both protocol is similar to the PT-2262 Format (Princeton). More info [here in russian](https://phreakerclub.com/447)
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### UNILARM
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- 150μs high 650μs low represent `0`, 550μs high 250μs low represent `1`
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- Button 1 Instruction: 110000000
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- Button 2 Instruction: 001100000
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### SMC5326
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- 300μs high 900μs low represent `0`, 900μs high 300μs low represent `1`
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- Button 1 Instruction: 111010101
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- Button 2 Instruction: 101110101
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### PT2260
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- 300μs high 850μs low represent `0`, 850μs high 300μs low represent `1`
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- Button open Instruction: 00000011
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- Button lock Instruction: 00001100
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- Button stop Instruction: 00110000
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- Button close Instruction: 11000000
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[Sample raw .sub files here](raw_sample)
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## DIP switch
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Switch | UNILARM | SMC5326 | PT2260
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---|---|---|---
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`+` | 11 | 11 | 11
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`o` | 10 | 10 | 01
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`-` | 00 | 00 | 00
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# How it works
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Using `generate.py` you can generate all the .sub files to brute force, or you can directly copy the generated .sub files into the flipper's SD card under the `/subghz` folder
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Under `6561` folder got 1 file contains all 6561 combinations of DIP switch, `2187` contains 3 sub files that contains 2187 combinations, and `729` contains 9 sub files etc. (The less the combinations the more the sub files)
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To brute force all combinations of DIP switch, simply run the `0_0.sub` in the `6561` folder
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To narrow down the brute force time, you need to run multiple times (Something like binary search)
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For example:
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1. Your gate remote is `SMC5326` and frequency is `330MHz`
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2. Copy the folder `SMC5326_330` into flipper's sdcard `subghz` folder
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3. Play the `2187/0_0.sub` file and the gate opens
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4. Under the `729` folder, play the sub starts with `0`: 0_0,1,2.sub and see which files opens the gate
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5. If `0_1.sub` works, then play the sub starts with `1`: 1_3,4,5.sub under `243` folder
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6. Continue narrow down the combinations until you happy with the sending time of the .sub file
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**PS: Please test on your own gate or get permission before you test!**
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