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162 lines
5.4 KiB
Plaintext
162 lines
5.4 KiB
Plaintext
----------------------------------------------------------
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BIP: BIP-0039
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Title: Mnemonic code for generating deterministic keys
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Authors: Marek Palatinus <slush@satoshilabs.com>
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Pavol Rusnak <stick@satoshilabs.com>
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ThomasV <thomasv@bitcointalk.org>
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Aaron Voisine <voisine@gmail.com>
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Sean Bowe <ewillbefull@gmail.com>
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Status: Draft
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Type: Standards Track
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Created: 2013-09-10
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----------------------------------------------------------
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[[abstract]]
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Abstract
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~~~~~~~~
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This BIP describes the implementation of a mnemonic code or mnemonic
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sentence -- a group of easy to remember words -- for the generation of
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deterministic wallets.
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It consists of two parts: generating the mnenomic, and converting it
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into a binary seed. This seed can be later used to generate
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deterministic wallets using BIP-0032 or similar methods.
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[[motivation]]
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Motivation
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~~~~~~~~~~
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A mnenomic code or sentence is superior for human interaction compared
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to the handling of raw binary or hexidecimal representations of a wallet
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seed. The sentence could be written on paper or spoken over the
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telephone.
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This guide meant to be as a way to transport computer-generated
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randomnes over human readable transcription. It's not a way how to
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process user-created sentences (also known as brainwallet) to wallet
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seed.
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[[generating-the-mnemonic]]
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Generating the mnemonic
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~~~~~~~~~~~~~~~~~~~~~~~
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The mnemonic must encode entropy in any multiple of 32 bits. With larger
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entropy security is improved but the sentence length increases. We can
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refer to the initial entropy length as ENT. The recommended size of ENT
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is 128-256 bits.
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First, an initial entropy of ENT bits is generated. A checksum is
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generated by taking the first
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--------
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ENT / 32
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--------
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bits of its SHA256 hash. This checksum is appended to the end of the
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initial entropy. Next, these concatenated bits are are split into groups
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of 11 bits, each encoding a number from 0-2047, serving as an index to a
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wordlist. Later, we will convert these numbers into words and use the
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joined words as a mnemonic sentence.
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The following table describes the relation between the initial entropy
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length (ENT), the checksum length (CS) and length of the generated
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mnemonic sentence (MS) in words.
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------------------------------
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CS = ENT / 32
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MS = (ENT + CS) / 11
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| ENT | CS | ENT+CS | MS |
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+-------+----+--------+------+
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| 128 | 4 | 132 | 12 |
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| 160 | 5 | 165 | 15 |
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| 192 | 6 | 198 | 18 |
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| 224 | 7 | 231 | 21 |
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| 256 | 8 | 264 | 24 |
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------------------------------
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[[wordlist]]
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Wordlist
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~~~~~~~~
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An ideal wordlist has the following characteristics:
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\a) smart selection of words
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` - wordlist is created in such way that it's enough to type the first four` +
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` letters to unambiguously identify the word`
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\b) similar words avoided
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` - word pairs like "build" and "built", "woman" and "women", or "quick" and "quickly"` +
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` not only make remembering the sentence difficult, but are also more error` +
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` prone and more difficult to guess`
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\c) sorted wordlists
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` - wordlist is sorted which allows for more efficient lookup of the code words` +
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` (i.e. implementation can use binary search instead of linear search)` +
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` - this also allows trie (prefix tree) to be used, e.g. for better compression`
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The wordlist can contain native characters, but they have to be encoded
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in UTF-8 using Normalization Form Compatibility Decomposition (NFKD).
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[[from-mnemonic-to-seed]]
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From mnemonic to seed
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~~~~~~~~~~~~~~~~~~~~~
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A user may decide to protect their mnemonic by passphrase. If a
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passphrase is not present, an empty string "" is used instead.
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To create a binary seed from the mnemonic, we use PBKDF2 function with a
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mnemonic sentence (in UTF-8 NFKD) used as a password and string
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"mnemonic" + passphrase (again in UTF-8 NFKD) used as a salt. Iteration
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count is set to 2048 and HMAC-SHA512 is used as a pseudo-random
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function. Desired length of the derived key is 512 bits (= 64 bytes).
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This seed can be later used to generate deterministic wallets using
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BIP-0032 or similar methods.
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The conversion of the mnemonic sentence to binary seed is completely
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independent from generating the sentence. This results in rather simple
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code; there are no constraints on sentence structure and clients are
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free to implement their own wordlists or even whole sentence generators,
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allowing for flexibility in wordlists for typo detection or other
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purposes.
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Although using mnemonic not generated by algorithm described in
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"Generating the mnemonic" section is possible, this is not advised and
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software must compute checksum of the mnemonic sentence using wordlist
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and issue a warning if it is invalid.
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Described method also provides plausible deniability, because every
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passphrase generates a valid seed (and thus deterministic wallet) but
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only the correct one will make the desired wallet available.
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[[wordlists]]
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Wordlists
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~~~~~~~~~
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* link:bip-0039/english.txt[English]
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[[test-vectors]]
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Test vectors
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~~~~~~~~~~~~
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See https://github.com/trezor/python-mnemonic/blob/master/vectors.json
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[[reference-implementation]]
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Reference Implementation
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~~~~~~~~~~~~~~~~~~~~~~~~
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Reference implementation including wordlists is available from
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http://github.com/trezor/python-mnemonic
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[[other-implementations]]
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Other Implementations
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~~~~~~~~~~~~~~~~~~~~~
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Objective-C - https://github.com/nybex/NYMnemonic
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