Struct bip39::Mnemonic [−][src]
pub struct Mnemonic { /* fields omitted */ }The primary type in this crate, most tasks require creating or using one.
To create a new Mnemonic from a randomly generated key, call Mnemonic::new().
To get a Mnemonic instance for an existing mnemonic phrase, including
those generated by other software or hardware wallets, use Mnemonic::from_phrase().
You can get the HD wallet Seed from a Mnemonic by calling Seed::new().
From there you can either get the raw byte value with Seed::as_bytes(), or the hex
representation using Rust formatting: format!("{:X}", seed).
You can also get the original entropy value back from a Mnemonic with Mnemonic::entropy(),
but beware that the entropy value is not the same thing as an HD wallet seed, and should
never be used that way.
Mnemonic implements Zeroize, so it’s bytes will be zeroed when it’s dropped.
Implementations
impl Mnemonic[src]
impl Mnemonic[src]pub fn new(mtype: MnemonicType, lang: Language) -> Mnemonic[src]
Generates a new Mnemonic
Use Mnemonic::phrase() to get an str slice of the generated phrase.
Example
use bip39::{Mnemonic, MnemonicType, Language}; let mnemonic = Mnemonic::new(MnemonicType::Words12, Language::English); let phrase = mnemonic.phrase(); println!("phrase: {}", phrase); assert_eq!(phrase.split(" ").count(), 12);
pub fn from_entropy(entropy: &[u8], lang: Language) -> Result<Mnemonic, Error>[src]
Create a Mnemonic from pre-generated entropy
Example
use bip39::{Mnemonic, MnemonicType, Language}; let entropy = &[0x33, 0xE4, 0x6B, 0xB1, 0x3A, 0x74, 0x6E, 0xA4, 0x1C, 0xDD, 0xE4, 0x5C, 0x90, 0x84, 0x6A, 0x79]; let mnemonic = Mnemonic::from_entropy(entropy, Language::English).unwrap(); assert_eq!("crop cash unable insane eight faith inflict route frame loud box vibrant", mnemonic.phrase()); assert_eq!("33E46BB13A746EA41CDDE45C90846A79", format!("{:X}", mnemonic));
pub fn from_phrase(phrase: &str, lang: Language) -> Result<Mnemonic, Error>[src]
Create a Mnemonic from an existing mnemonic phrase
The phrase supplied will be checked for word length and validated according to the checksum specified in BIP0039
Example
use bip39::{Mnemonic, Language}; let phrase = "park remain person kitchen mule spell knee armed position rail grid ankle"; let mnemonic = Mnemonic::from_phrase(phrase, Language::English).unwrap(); assert_eq!(phrase, mnemonic.phrase());
pub fn validate(phrase: &str, lang: Language) -> Result<(), Error>[src]
Validate a mnemonic phrase
The phrase supplied will be checked for word length and validated according to the checksum specified in BIP0039.
Example
use bip39::{Mnemonic, Language}; let test_mnemonic = "park remain person kitchen mule spell knee armed position rail grid ankle"; assert!(Mnemonic::validate(test_mnemonic, Language::English).is_ok());
pub fn phrase(&self) -> &str[src]
Get the mnemonic phrase as a string reference.
pub fn into_phrase(self) -> String[src]
Consume the Mnemonic and return the phrase as a String.
pub fn entropy(&self) -> &[u8][src]
Get the original entropy value of the mnemonic phrase as a slice.
Example
use bip39::{Mnemonic, Language}; let phrase = "park remain person kitchen mule spell knee armed position rail grid ankle"; let mnemonic = Mnemonic::from_phrase(phrase, Language::English).unwrap(); let entropy: &[u8] = mnemonic.entropy();
Note: You shouldn’t use the generated entropy as secrets, for that generate a new
Seed from the Mnemonic.
pub fn language(&self) -> Language[src]
Get the Language