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HD Wallet
TODO: Explain BIP32 BIP-39 and whatnot here...
Types
Constants
ethers . utils . defaultPath => "m/44'/60'/0'/0/0"
The default path for Ethereum in an HD Wallet
Mnemonic
mnemonic . phrase => string
The mnemonic phrase for this mnemonic. It is 12, 15, 18, 21 or 24 words long
and separated by the whitespace specified by the locale.
mnemonic . path => string
The HD path for this mnemonic.
mnemonic . locale => string
The language of the wordlist this mnemonic is using.
HDNode
Creating Instances
ethers . HDNode . fromMnemonic ( phrase [ , password [ , wordlist ] ] ) => HDNode
Return the HDNode for phrase with the optional password and wordlist.
ethers . HDNode . fromSeed ( aBytesLike ) => HDNode
Return the HDNode for the seed aBytesLike.
ethers . HDNode . fromExtendedKey ( extendedKey ) => HDNode
Return the HDNode for the extendedKey. If extendedKey was neutered, the HDNode will only be able to compute addresses and not private keys.
Properties
hdNode . privateKey => string< DataHexstring< 32 > >
The private key for this HDNode.
hdNode . publicKey => string< DataHexstring< 33 > >
The (compresses) public key for this HDNode.
hdNode . fingerprint => string< DataHexstring< 4 > >
The fingerprint is meant as an index to quickly match parent and children nodes together, however collisions may occur and software should verify matching nodes.
Most developers will not need to use this.
hdNode . parentFingerprint => string< DataHexstring< 4 > >
The fingerprint of the parent node. See fingerprint for more details.
Most developers will not need to use this.
hdNode . address => string< Address >
The address of this HDNode.
hdNode . mnemonic => Mnemonic
The mnemonic of this HDNode, if known.
hdNode . path => string
The path of this HDNode, if known. If the mnemonic is also known,
this will match mnemonic.path.
hdNode . chainCode => string< DataHexstring< 32 > >
The chain code is used as a non-secret private key which is then used with EC-multiply to provide the ability to derive addresses without the private key of child non-hardened nodes.
Most developers will not need to use this.
hdNode . index => number
The index of this HDNode. This will match the last component of the path.
Most developers will not need to use this.
hdNode . depth => number
The depth of this HDNode. This will match the number of components
(less one, the m/) of the path.
Most developers will not need to use this.
hdNode . extendedKey => string
A serialized string representation of this HDNode. Not all properties
are included in the serialization, such as the mnemonic and path, so
serializing and deserializing (using the fromExtendedKey class
method) will result in reduced information.
Methods
hdNode . neuter ( ) => HDNode
Return a new instance of hdNode with its private key removed but all otehr properties preserved. This ensures that the key can not leak the private key of itself or any derived children, but may still be used to compute the addresses of itself and any non-hardened children.
hdNode . derivePath ( path ) => HDNode
Return a new HDNode which is the child of hdNode found by deriving path.
Other Functions
ethers . utils . mnemonicToSeed ( phrase [ , password ] ) => string< DataHexstring< 64 > >
Convert a mnemonic phrase to a seed, according to BIP-39.
ethers . utils . mnemonicToEntropy ( phrase [ , wordlist ] ) => string< DataHexstring >
Convert a mnemonic phrase to its entropy, according to BIP-39.
ethers . utils . isValidMnemonic ( phrase [ , wordlist ] ) => boolean
Returns true if phrase is a valid mnemonic phrase, by testing the checksum.
Content Hash: 042e28f2a611879151bc40783559c6310e23d466a310b508b22f264fa40d53e8