326 lines
12 KiB
Markdown
326 lines
12 KiB
Markdown
-----
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Documentation: [html](https://docs.ethers.io/)
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-----
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Signers
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=======
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Signer
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------
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#### *signer* . **connect**( provider ) => *[Signer](/v5/api/signer/#Signer)*
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Sub-classes **must** implement this, however they may simply throw an error if changing providers is not supported.
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#### *signer* . **getAddress**( ) => *Promise< string< [Address](/v5/api/utils/address/#address) > >*
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Returns a Promise that resolves to the account address.
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This is a Promise so that a **Signer** can be designed around an asynchronous source, such as hardware wallets.
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Sub-classes **must** implement this.
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#### *Signer* . **isSigner**( object ) => *boolean*
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Returns true if an only if *object* is a **Signer**.
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### Blockchain Methods
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#### *signer* . **getBalance**( [ blockTag = "latest" ] ) => *Promise< [BigNumber](/v5/api/utils/bignumber/) >*
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Returns the balance of this wallet at *blockTag*.
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#### *signer* . **getChainId**( ) => *Promise< number >*
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Returns the chain ID this wallet is connected to.
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#### *signer* . **getGasPrice**( ) => *Promise< [BigNumber](/v5/api/utils/bignumber/) >*
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Returns the current gas price.
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#### *signer* . **getTransactionCount**( [ blockTag = "latest" ] ) => *Promise< number >*
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Returns the number of transactions this account has ever sent. This is the value required to be included in transactions as the `nonce`.
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#### *signer* . **call**( transactionRequest ) => *Promise< string< [DataHexString](/v5/api/utils/bytes/#DataHexString) > >*
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Returns the result of calling using the *transactionRequest*, with this account address being used as the `from` field.
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#### *signer* . **estimateGas**( transactionRequest ) => *Promise< [BigNumber](/v5/api/utils/bignumber/) >*
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Returns the result of estimating the cost to send the *transactionRequest*, with this account address being used as the `from` field.
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#### *signer* . **resolveName**( ensName ) => *Promise< string< [Address](/v5/api/utils/address/#address) > >*
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Returns the address associated with the *ensName*.
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### Signing
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#### *signer* . **signMessage**( message ) => *Promise< string< [RawSignature](/v5/api/utils/bytes/#signature-raw) > >*
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This returns a Promise which resolves to the [Raw Signature](/v5/api/utils/bytes/#signature-raw) of *message*.
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Sub-classes **must** implement this, however they may throw if signing a message is not supported, such as in a Contract-based Wallet or Meta-Transaction-based Wallet.
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#### Note
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If *message* is a string, it is **treated as a string** and converted to its representation in UTF8 bytes.
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**If and only if** a message is a [Bytes](/v5/api/utils/bytes/#Bytes) will it be treated as binary data.
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For example, the string `"0x1234"` is 6 characters long (and in this case 6 bytes long). This is **not** equivalent to the array `[ 0x12, 0x34 ]`, which is 2 bytes long.
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A common case is to sign a hash. In this case, if the hash is a string, it **must** be converted to an array first, using the [arrayify](/v5/api/utils/bytes/#utils-arrayify) utility function.
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#### *signer* . **signTransaction**( transactionRequest ) => *Promise< string< [DataHexString](/v5/api/utils/bytes/#DataHexString) > >*
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Returns a Promise which resolves to the signed transaction of the *transactionRequest*. This method does not populate any missing fields.
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Sub-classes **must** implement this, however they may throw if signing a transaction is not supported, which is common for security reasons in many clients.
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#### *signer* . **sendTransaction**( transactionRequest ) => *Promise< [TransactionResponse](/v5/api/providers/types/#providers-TransactionResponse) >*
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This method populates the transactionRequest with missing fields, using [populateTransaction](/v5/api/signer/#Signer-populateTransaction) and returns a Promise which resolves to the transaction.
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Sub-classes **must** implement this, however they may throw if sending a transaction is not supported, such as the [VoidSigner](/v5/api/signer/#VoidSigner) or if the Wallet is offline and not connected to a [Provider](/v5/api/providers/provider/).
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### Sub-Classes
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#### *signer* . **checkTransaction**( transactionRequest ) => *[TransactionRequest](/v5/api/providers/types/#providers-TransactionRequest)*
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This is generally not required to be overridden, but may needed to provide custom behaviour in sub-classes.
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This should return a **copy** of the *transactionRequest*, with any properties needed by `call`, `estimateGas` and `populateTransaction` (which is used by sendTransaction). It should also throw an error if any unknown key is specified.
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The default implementation checks only valid [TransactionRequest](/v5/api/providers/types/#providers-TransactionRequest) properties exist and adds `from` to the transaction if it does not exist.
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If there is a `from` field it **must** be verified to be equal to the Signer's address.
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#### *signer* . **populateTransaction**( transactionRequest ) => *Promise< [TransactionRequest](/v5/api/providers/types/#providers-TransactionRequest) >*
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This is generally not required to be overridden, but may needed to provide custom behaviour in sub-classes.
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This should return a **copy** of *transactionRequest*, follow the same procedure as `checkTransaction` and fill in any properties required for sending a transaction. The result should have all promises resolved; if needed the [resolveProperties](/v5/api/utils/properties/#utils-resolveproperties) utility function can be used for this.
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The default implementation calls `checkTransaction` and resolves to if it is an ENS name, adds `gasPrice`, `nonce`, `gasLimit` and `chainId` based on the related operations on Signer.
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Wallet
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------
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#### **new ***ethers* . **Wallet**( privateKey [ , provider ] )
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Create a new Wallet instance for *privateKey* and optionally connected to the *provider*.
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#### *ethers* . *Wallet* . **createRandom**( [ options = {} ] ) => *[Wallet](/v5/api/signer/#Wallet)*
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Returns a new Wallet with a random private key, generated from cryptographically secure entropy sources. If the current environment does not have a secure entropy source, an error is thrown.
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Wallets created using this method will have a mnemonic.
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#### *ethers* . *Wallet* . **fromEncryptedJson**( json , password [ , progress ] ) => *Promise< [Wallet](/v5/api/signer/#Wallet) >*
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Create an instance from an encrypted JSON wallet.
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If *progress* is provided it will be called during decryption with a value between 0 and 1 indicating the progress towards completion.
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#### *ethers* . *Wallet* . **fromEncryptedJsonSync**( json , password ) => *[Wallet](/v5/api/signer/#Wallet)*
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Create an instance from an encrypted JSON wallet.
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This operation will operate synchronously which will lock up the user interface, possibly for a non-trivial duration. Most applications should use the asynchronous `fromEncryptedJson` instead.
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#### *ethers* . *Wallet* . **fromMnemonic**( mnemonic [ , path , [ wordlist ] ] ) => *[Wallet](/v5/api/signer/#Wallet)*
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Create an instance from a mnemonic phrase.
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If path is not specified, the Ethereum default path is used (i.e. `m/44'/60'/0'/0/0`).
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If wordlist is not specified, the English Wordlist is used.
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### Properties
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#### *wallet* . **address** => *string< [Address](/v5/api/utils/address/#address) >*
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The address for the account this Wallet represents.
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#### *wallet* . **provider** => *[Provider](/v5/api/providers/provider/)*
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The provider this wallet is connected to, which will ge used for any [Blockchain Methods](/v5/api/signer/#Signer--blockchain-methods) methods. This can be null.
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#### Note
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A **Wallet** instance is immutable, so if you wish to change the Provider, you may use the [connect](/v5/api/signer/#Signer-connect) method to create a new instance connected to the desired provider.
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#### *wallet* . **publicKey** => *string< [DataHexString](/v5/api/utils/bytes/#DataHexString)< 65 > >*
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The uncompressed public key for this Wallet represents.
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### Methods
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#### *wallet* . **encrypt**( password , [ options = {} , [ progress ] ] ) => *Promise< string >*
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Encrypt the wallet using *password* returning a Promise which resolves to a JSON wallet.
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If *progress* is provided it will be called during decryption with a value between 0 and 1 indicating the progress towards completion.
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```javascript
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// Create a wallet instance from a mnemonic...
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mnemonic = "announce room limb pattern dry unit scale effort smooth jazz weasel alcohol"
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walletMnemonic = Wallet.fromMnemonic(mnemonic)
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// ...or from a private key
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walletPrivateKey = new Wallet(walletMnemonic.privateKey)
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walletMnemonic.address === walletPrivateKey.address
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// true
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// The address as a Promise per the Signer API
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walletMnemonic.getAddress()
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// { Promise: '0x71CB05EE1b1F506fF321Da3dac38f25c0c9ce6E1' }
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// A Wallet address is also available synchronously
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walletMnemonic.address
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// '0x71CB05EE1b1F506fF321Da3dac38f25c0c9ce6E1'
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// The internal cryptographic components
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walletMnemonic.privateKey
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// '0x1da6847600b0ee25e9ad9a52abbd786dd2502fa4005dd5af9310b7cc7a3b25db'
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walletMnemonic.publicKey
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// '0x04b9e72dfd423bcf95b3801ac93f4392be5ff22143f9980eb78b3a860c4843bfd04829ae61cdba4b3b1978ac5fc64f5cc2f4350e35a108a9c9a92a81200a60cd64'
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// The wallet mnemonic
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walletMnemonic.mnemonic
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// {
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// locale: 'en',
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// path: 'm/44\'/60\'/0\'/0/0',
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// phrase: 'announce room limb pattern dry unit scale effort smooth jazz weasel alcohol'
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// }
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// Note: A wallet created with a private key does not
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// have a mnemonic (the derivation prevents it)
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walletPrivateKey.mnemonic
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// null
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// Signing a message
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walletMnemonic.signMessage("Hello World")
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// { Promise: '0x14280e5885a19f60e536de50097e96e3738c7acae4e9e62d67272d794b8127d31c03d9cd59781d4ee31fb4e1b893bd9b020ec67dfa65cfb51e2bdadbb1de26d91c' }
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tx = {
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to: "0x8ba1f109551bD432803012645Ac136ddd64DBA72",
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value: utils.parseEther("1.0")
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}
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// Signing a transaction
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walletMnemonic.signTransaction(tx)
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// { Promise: '0xf865808080948ba1f109551bd432803012645ac136ddd64dba72880de0b6b3a7640000801ca0918e294306d177ab7bd664f5e141436563854ebe0a3e523b9690b4922bbb52b8a01181612cec9c431c4257a79b8c9f0c980a2c49bb5a0e6ac52949163eeb565dfc' }
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// The connect method returns a new instance of the
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// Wallet connected to a provider
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wallet = walletMnemonic.connect(provider)
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// Querying the network
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wallet.getBalance();
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// { Promise: { BigNumber: "42" } }
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wallet.getTransactionCount();
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// { Promise: 0 }
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// Sending ether
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wallet.sendTransaction(tx)
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```
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VoidSigner
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----------
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#### **new ***ethers* . **VoidSigner**( address [ , provider ] ) => *[VoidSigner](/v5/api/signer/#VoidSigner)*
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Create a new instance of a **VoidSigner** for *address*.
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#### *voidSigner* . **address** => *string< [Address](/v5/api/utils/address/#address) >*
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The address of this **VoidSigner**.
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```javascript
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address = "0x8ba1f109551bD432803012645Ac136ddd64DBA72"
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signer = new ethers.VoidSigner(address, provider)
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// The DAI token contract
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abi = [
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"function balanceOf(address) view returns (uint)",
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"function transfer(address, uint) returns (bool)"
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]
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contract = new ethers.Contract("dai.tokens.ethers.eth", abi, signer)
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// Get the number of tokens for this account
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tokens = await contract.balanceOf(signer.getAddress())
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// { BigNumber: "8814410125722568213383" }
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//
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// Pre-flight (check for revert) on DAI from the signer
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//
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// Note: We do not have the private key at this point, this
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// simply allows us to check what would happen if we
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// did. This can be useful to check before prompting
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// a request in the UI
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//
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// This will pass since the token balance is available
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contract.callStatic.transfer("donations.ethers.eth", tokens)
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// { Promise: true }
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// This will fail since it is greater than the token balance
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contract.callStatic.transfer("donations.ethers.eth", tokens.add(1))
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// Error: call revert exception (method="transfer(address,uint256)", errorSignature="Error(string)", errorArgs=["Dai/insufficient-balance"], reason="Dai/insufficient-balance", code=CALL_EXCEPTION, version=abi/5.0.1)
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```
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ExternallyOwnedAccount
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----------------------
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#### *eoa* . **address** => *string< [Address](/v5/api/utils/address/#address) >*
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The [Address](/v5/api/utils/address/#address) of this EOA.
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#### *eoa* . **privateKey** => *string< [DataHexString](/v5/api/utils/bytes/#DataHexString)< 32 > >*
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The privateKey of this EOA
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#### *eoa* . **mnemonic** => *[Mnemonic](/v5/api/utils/hdnode/#Mnemonic)*
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*Optional*. The account HD mnemonic, if it has one and can be determined. Some sources do not encode the mnemonic, such as an HD extended keys.
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