https://github.com/brndnmtthws/seed-otp

One-time pad tool for Bitcoin seed mnemonic cold storage
https://github.com/brndnmtthws/seed-otp

bitcoin bitcoin-wallet hardware-wallet privacy-tools security-tools

Last synced: 4 months ago
JSON representation

One-time pad tool for Bitcoin seed mnemonic cold storage

• Host: GitHub
• URL: https://github.com/brndnmtthws/seed-otp
• Owner: brndnmtthws
• License: unlicense
• Created: 2018-12-04T15:15:21.000Z (about 6 years ago)
• Default Branch: master
• Last Pushed: 2021-12-19T14:58:25.000Z (about 3 years ago)
• Last Synced: 2024-09-29T04:04:09.872Z (4 months ago)
• Topics: bitcoin, bitcoin-wallet, hardware-wallet, privacy-tools, security-tools
• Language: Python
• Homepage:
• Size: 88.9 KB
• Stars: 21
• Watchers: 4
• Forks: 6
• Open Issues: 1
• Metadata Files:
  • Readme: README.md
  • License: LICENSE

Awesome Lists containing this project

README

        
[![Build Status](https://travis-ci.org/brndnmtthws/seed-otp.svg?branch=master)](https://travis-ci.org/brndnmtthws/seed-otp) [![Maintainability](https://api.codeclimate.com/v1/badges/679cd32dba7a27f9bb4d/maintainability)](https://codeclimate.com/github/brndnmtthws/seed-otp/maintainability) [![Test Coverage](https://api.codeclimate.com/v1/badges/679cd32dba7a27f9bb4d/test_coverage)](https://codeclimate.com/github/brndnmtthws/seed-otp/test_coverage) [![PyPI version](https://badge.fury.io/py/seed-otp.svg)](https://badge.fury.io/py/seed-otp) [![Dependabot Status](https://api.dependabot.com/badges/status?host=github&repo=brndnmtthws/seed-otp)](https://dependabot.com)

# seed-otp

`seed-otp` is a Python-based one-time pad CLI tool for storing your Bitcoin seed

mnemonic words securely using multi-factor auth. The simple, well-written code

can be easily audited, and the method itself can be applied using pen-and-paper,

rather than using a computer.



  



📹[I made a presentation about this tool (YouTube)](https://www.youtube.com/watch?v=N6uV5jWfXXQ)

## Background

### The Problem

You have an HD wallet such as a Trezor or Ledger for storing your Bitcoin,

and you would like to store your seed mnemonic phrase. You may also

want to store multiple copies of your seed in different places.

Unfortunately, if any one of those copies of your seed becomes compromised,

anyone with access to the seed can now take all your coins, and buy

themselves

a lambo.

Normally you would not need access to your seed mnemonic. However, should

something happen to your wallet (perhaps you lose it, or it breaks), you may

need to restore the wallet using the seed phrase.

### This Solution

Combine a [one-time pad](https://en.wikipedia.org/wiki/One-time_pad) with

[multi-factor

authentication](https://en.wikipedia.org/wiki/Multi-factor_authentication).

By using mult-factor auth (something you know plus something you have)

and one-time pad encryption, you have a simple yet extremely hard to crack

solution. With your OTP key and seed mnemonic stored separately, it becomes

onerous to obtain both. Even if someone _does_ obtain either your mnemonic or

OTP key, you would have time to move your coins to a new wallet with a brand

new seed before anything happens to your coins. A one-time pad is considered

perfect secrecy: it's nearly impossible to brute force attack so long as the

key remains secret.

Your auth factors are:

- **Something you know**: A one-time pad key which you have stored securely in

  a password manager, which is locked with a password only you know. The

  password DB is backed up securely.

- **Something you have**: An encrypted mnemonic seed phrase stored on archival

  paper or another long term physical cold storage device. The phrase itself

  looks like a normal mnenomic phrase, which provides plausible deniability,

  and does not indicate to anyone who might find the phrase _how_ it's

  actually used.

### Caveats, Limitations, Considerations, Gotchas

- To use this tool, you need to enter the seed words into a computer. If your

  computer is compromised, someone could still use a keylogger or other tool to

  capture the seed mnemonic. Only use this tool if you trust the computer you

  are using.

- The BIP-0039 mnemonic includes a checksum. After encrypting the words, the

  checksum will break. Encrypted seed words are unlikely to be valid. This

  may be a problem since it breaks the plausible deniability of storing

  the encrypted seed words (as the encrypted mnemonic is not actually a

  valid phrase). The disadvantages of handling the checksum gracefully is

  that it's backward incompatible, and it would be much more difficult to

  apply the OTP by hand using pen and paper.

- The OTP encoding (see [the "OTP key" section](#otp-key) below) does not

  include any version/format metadata. The reason for doing this is to

  reduce the amount of information in the key which could be used to

  derive some other information (i.e., reduces the degree to which it is

  [information-theoretically secure](https://en.wikipedia.org/wiki/Information-theoretic_security)).

  The trade off, of course, is that it's difficult to modify the key format

  and maintain backward compatibility.

### Other Solutions

There are a variety of other solutions to this problem, some of which may be

more appropriate for your needs. Let's go over some of the alternatives and

discuss why they might not be appropriate:

1. Custody with a third party, such as Coinbase.

   - The main problem with any third party custody service is that you must

     place complete trust in that third party.

   - Custody providers are not immune to crime, theft, rogue employees,

     mistakes, going out of business, or government intervention. _Rekt_.

2. The Horcrux design (using a multi-signature scheme).

   - This pattern is based on the idea of storing small pieces of your seed

     phrase in several different places, much like Voldemort did with his soul

     in Harry Potter.

   - While it's not impossible to do this on your own, it's logistically

     tricky and prone to error.

   - There is at least one company which provides this option as a service,

     but at the time of writing they're asking for several thousand dollars

     per year in subscription fees, an amount that is both absurd and out of

     reach for normal people. _Rekt_ because you have no money left.

3. Storing your seed phrase in a super secret place and hoping nobody finds

   it.

   - This is equivalent to burying a chest full of treasure in your backyard

     and hoping nobody looks there. _Rekt_ when your neighbour buys a metal

     detector.

4. Store the seed phares itself using a password manager.

   - The main downside is that you do not have multi-factor auth: if someone

     gains access to your password manager, you will be _rekt_.

## Quickstart

### Checklist

Before using this tool, you should have a few things:

- [x] Get a decent hardware wallet from a reputable vendor. 2 popular options

      are [Trezor](https://trezor.io/) and [Ledger](https://www.ledger.com/).

- [x] Get a password manager, and learn to use it (if you haven't already). A

      few good options are [KeepPassX](https://www.keepassx.org/),

      [1Password](https://1password.com/), or [BitWarden](https://bitwarden.com/).

      Make sure your passwords are backed up, and test the restore process.

- [x] Figure out a good way to store your mnemonic seed phrase, such as using

      archival paper or a metal seed storage product (check out [@lopp's stress

      test

      here](https://medium.com/@lopp/metal-bitcoin-seed-storage-stress-test-21f47cf8e6f5)).

- [x] Have a safe place to store the seed mnemonic, such as in an actual safe,

      or a safe deposit box.

- [x] Make sure you have a secure computer to run the software. It should be

      running an up-to-date and secure OS. Avoid using any computers which might be

      controlled by third parties (such as a work computer, or your friend's

      computer). If you want to be extra safe, consider using a [privacy OS such as

      Tails](https://tails.boum.org/)

After using the tool, make sure you **test the seed restore process**!

### Install from PyPI

```ShellSession

$ pip install seed-otp

```

### Generate an OTP key

```ShellSession

$ seed-otp generate 12

{

  "otp-key": "AAwCnwGIAe0EWABWAI4AkAMjAFQBLgZjB1T1PJtz",

  "success": true

}

```

Store the key above in your password management tool.

### Encode your seed mnemonic using the OTP

```ShellSession

$ seed-otp encrypt AAwCnwGIAe0EWABWAI4AkAMjAFQBLgZjB1T1PJtz abandon ability able about above absent absorb abstract absurd abuse access accident

{

  "encrypted-words": [

    "fault",

    "couple",

    "digital",

    "merge",

    "area",

    "bar",

    "barrel",

    "grab",

    "argue",

    "cheap",

    "soap",

    "typical"

  ],

  "success": true

}

```

Store the phrase above in your safe place.

### Decode your seed mnemonic using the OTP

```ShellSession

$ seed-otp decrypt AAwCnwGIAe0EWABWAI4AkAMjAFQBLgZjB1T1PJtz fault couple digital merge area bar barrel grab argue cheap soap typical

{

  "decrypted-words": [

    "abandon",

    "ability",

    "able",

    "about",

    "above",

    "absent",

    "absorb",

    "abstract",

    "absurd",

    "abuse",

    "access",

    "accident"

  ],

  "success": true

}

```

## Synopsis

    Usage: seed-otp [OPTIONS] COMMAND [ARGS]...

    Options:

      -h, --help  Show this message and exit.

    Commands:

      check-key  Check OTP key for encoding or checksum errors.

      decrypt    Decrypt seed words using an OTP key.

      encrypt    Encrypt seed words using an OTP key.

      generate   Generate a secure OTP key for up to NUM_WORDS number of words.

Command output is usually formatted as JSON, so you can pipe the output to

other tools (such as [`jq`](https://github.com/stedolan/jq)) and get wild.

## Implementation Details

### OTP Key

The OTP key is a URL-safe base64 encoded key (without padding) composed of N

subkeys, where N is the number of keys specified at creation time. The values

are stored as big-endian short unsigned integers (2-bytes each). The last 4

bytes of the OTP key is the first 4 bytes of the SHA256 digest of the

preceeding bytes.

    0                   1

    0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5

    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

    |         Number of Keys        |

    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

    \                               /

    /   Keylist (variable length)   \

    \                               /

    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

    |                               |

    +            Checksum           +

    |                               |

    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

BIP-0039 uses 11 bits per word, but in this scheme we're using 16 bits per

word. This is mainly for simplicity, with the trade-off of using more bytes.

It also allows the possibilty of using larger wordlists (of up to 65536

words).

### Encrypting/decrypting words

Below is some pseudocode for encrypting/decrypting. Assume that the words and

keys are mapped to integers representing an index position in the wordlist.

To encrypt a word, the algorithm is as follows:

    ciphertext = (word + key) mod 2048

To decrypt a word, do the following:

    word = (ciphertext - key) mod 2048

You could perform the encryption/decryption using pen and paper if you feel

the need to do so. This would prevent the necessity of typing your seed words

into a computer. Naturally, you could also generate your own keys and store

those offline as well. For practical purposes, however, this is probably

unnecessary.