218 lines
9.2 KiB
Plaintext
218 lines
9.2 KiB
Plaintext
_section: Signers
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A Signer represents...
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_subsection: Signer @<signer> @SRC<abstract-signer:class.Signer>
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The **Signer** class is abstract and cannot be directly instaniated. Instead
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use one of the concreate sub-classes, such as the [[wallet]], [[void-signer]]
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or [[signer-jsonrpc]].
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_property: signer.connect(provider) => [[signer]] @<signer-connect>
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Sub-classes **must** implement this, however they may simply throw an error
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if changing providers is not supported.
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_property: signer.getAddress() => Promise<string<[Address](address)>> @<signer-getaddress> @SRC<abstract-signer:Signer.connect>
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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
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asynchronous source, such as hardware wallets.
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Sub-classes **must** implement this.
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_property: Signer.isSigner(object) => boolean @<signer-issigner> @SRC<abstract-signer>
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Returns true if an only if //object// is a **Signer**.
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_heading: Blockchain Methods @<signer-blockchain>
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_property: signer.getBalance([ blockTag = "latest" ]) => Promise<[[bignumber]]> @<signer-getbalance> @SRC<abstract-signer>
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Returns the balance of this wallet at //blockTag//.
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_property: signer.getChainId() => Promise<number> @<signer-getchainid> @SRC<abstract-signer>
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Returns ths chain ID this wallet is connected to.
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_property: signer.getGasPrice() => Promise<[[bignumber]]> @<signer-getgasprice> @SRC<abstract-signer>
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Returns the current gas price.
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_property: signer.getTransactionCount([ blockTag = "latest" ]) => Promise<number> @<signer-gettransactioncount> @SRC<abstract-signer>
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Returns the number of transactions this account has ever sent. This
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is the value required to be included in transactions as the ``nonce``.
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_property: signer.call(transactionRequest) => Promise<string<[[datahexstring]]>> @<signer-call> @SRC<abstract-signer>
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Returns the result of calling using the //transactionRequest//, with this
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account address being used as the ``from`` field.
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_property: signer.estimateGas(transactionRequest) => Promise<[[bignumber]]> @<signer-estimategas> @SRC<abstract-signer>
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Returns the result of estimating the cost to send the //transactionRequest//,
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with this account address being used as the ``from`` field.
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_property: signer.resolveName(ensName) => Promise<string<[Address](address)>> @<signer-resolvename> @SRC<abstract-signer>
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Returns the address associated with the //ensName//.
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_heading: Signing
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_property: signer.signMessage(message) => Promise<string<[FlatSignature](signature-flat)>> @<signer-signmessage>
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This returns a Promise which resolves to the [[signature-flat]]
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of //message//.
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Sub-classes **must** implement this, however they may throw if signing a
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message is not supported.
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_note: Note
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If //message// is a string, it is **treated as a string** and
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converted to its representation in UTF8 bytes.
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**If and only if** a message is a [[bytes]] will it be treated as
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binary data.
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For example, the string ``"0x1234"`` is 6 characters long (and in
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this case 6 bytes long). This is **not** equivalent to the array
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``[ 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
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string, it **must** be converted to an array first, using the
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[arrayify](utils-arrayify) utility function.
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_null:
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_property: signer.signTransaction(transactionRequest) => Promise<string<[[datahexstring]]>> @<signer-signtransaction>
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Returns a Promise which resolves to the signed transaction of the
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//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
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transaction is not supported.
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_property: signer.sendTransaction(transactionRequest) => Promise<[[provider-transactionresponse]]> @<signer-sendtransaction>
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This method populates the transactionRequest with missing fields, using
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[populateTransaction](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 signing a
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transaction is not supported.
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_heading: Sub-Classes @<signer-subclassing>
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It is very important that all important properties of a **Signer** are
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**immutable**. Since Ethereum is very asynchronous and deals with critical
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data (such as ether and other potentially valuable crypto assets), keeping
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properties such as the //provider// and //address// static helps prevent
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serious issues.
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A sub-class **must** call ``super()``.
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_property: signer.checkTransaction(transactionRequest) => [[provider-transactionrequest]] @<signer-checktransaction> @SRC<abstract-signer>
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This is generally not required to be overridden, but may needed to provide
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custom behaviour in sub-classes.
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This should return a **copy** of the //transactionRequest//, with any properties
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needed by ``call``, ``estimateGas`` and ``populateTransaction`` (which is used
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by sendTransaction). It should also throw an error if any unknown key is specified.
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The default implementation checks only valid [[provider-transactionrequest]] properties
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exist and adds ``from`` to the transaction if it does not exist, or verifies it is equal
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to the Signer's address if it does exist.
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_property: signer.populateTransaction(transactionRequest) => Promise<[[provider-transactionrequest]]> @<signer-populatetransaction> @SRC<abstract-signer>
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This is generally not required to be overridden, but may needed to provide
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custom behaviour in sub-classes.
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This should return a **copy** of //transactionRequest//, follow the same procedure
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as ``checkTransaction`` and fill in any properties required for sending a transaction.
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The result should have all promises resolved; if needed the [resolveProperties](utils-resolveproperties)
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utility function can be used for this.
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The default implementation calls ``checkTransaction`` and resolves to if it is an
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ENS name, adds ``gasPrice``, ``nonce``, ``gasLimit`` and ``chainId`` based on the
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related operations on Signer.
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_subsection: Wallet @<wallet> @INHERIT<[[externally-owned-account]] and [[signer]]> @SRC<wallet:class.Wallet>
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The Wallet class inherits [[signer]] and can sign transactions and messages
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using a private key as a standard Externally Owned Account (EOA).
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_property: new ethers.Wallet(privateKey [ , provider ]) @<wallet-constructor> @SRC<wallet:constructor.Wallet>
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Create a new Wallet instance for //privateKey// and optionally
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connected to the //provider//.
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_property: ethers.Wallet.createRandom( [ options = { } ]) => [[wallet]] @<wallet-createrandom> @SRC<wallet>
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Returns a new Wallet with a random private key, generated from
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cryptographically secure entropy sources. If the current environment
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does not have a secure entropy source, an error is thrown.
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_property: ethers.Wallet.fromEncryptedJson(json, password [ , progress ]) => Promise<[[wallet]]> @<wallet-fromencryptedjson> @SRC<wallet>
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Create an instance from an encrypted JSON wallet. If //progress//
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is provided it will be called during decryption with a value between 0 and
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1 indicating the progress towards completion.
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_property: ethers.Wallet.fromMnemonic(mnemonic [ , path, [ wordlist ] ]) => [[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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_heading: Properties
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_property: wallet.address => string<[Address](address)>
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The address for the account this Wallet represents.
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_property: wallet.provider => [[provider]]
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The provider this wallet is connected to, which will ge used for any [[signer-blockchain]]
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methods. This can be null.
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_note: Note
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A **Wallet** instance is immuatable, so if you wish to change the Provider, you
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may use the [connect](signer-connect) method to create a new instance connected
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to the desired provider.
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_property: wallet.publicKey => string<[[datahexstring]]<65>>
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The uncompressed public key for this Wallet represents.
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_heading: Methods
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_property: wallet.encrypt(password, [ options = { }, [ progress ] ]) => Promise<string>
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Encrypt the wallet using //password// returning a Promise which resolves
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to a JSON wallet.
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_subsection: VoidSigner @<void-signer> @INHERIT<[[signer]]> @SRC<abstract-signer:class.VoidSigner>
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A **VoidSigner** is a simple Signer which cannot sign.
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It is useful as a read-only signer, when an API requires a
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Signer as a parameter, but it is known only read-only operations
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will be carried.
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For example, the ``call`` operation will automatically have the
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provided address passed along during the execution.
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_property: new ethers.VoidSigner(address) => [[void-signer]]
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Create a new instance of a **VoidSigner** for //address//.
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_property: voidSigner.address => string<[Address](address)>
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The address of this **VoidSigner**.
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_subsection: ExternallyOwnedAccount @<externally-owned-account>
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This is an interface which contains a minimal set of properties
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required for Externally Owned Accounts which can have certain
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operations performed, such as encoding as a JSON wallet.
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_property: eoa.address => string<[Address](address)>
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The [[address]] of this EOA.
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_property: eoa.privateKey => string<[[datahexstring]]<32>>
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The privateKey of this EOA
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_property: eoa.mnemonic => [[hdnode-mnemonic]]
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//Optional//. The account HD mnemonic, if it has one and can be
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determined. Some sources do not encode the mnemonic, such as an
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HD extended keys.
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