ethers.js/packages/abstract-signer/src.ts/index.ts

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"use strict";
import { BlockTag, Provider, TransactionRequest, TransactionResponse } from "@ethersproject/abstract-provider";
import { BigNumber } from "@ethersproject/bignumber";
import { Bytes } from "@ethersproject/bytes";
import { Deferrable, defineReadOnly, resolveProperties, shallowCopy } from "@ethersproject/properties";
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import { Logger } from "@ethersproject/logger";
import { version } from "./_version";
const logger = new Logger(version);
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const allowedTransactionKeys: Array<string> = [
"chainId", "data", "from", "gasLimit", "gasPrice", "nonce", "to", "value"
];
// Sub-classes of Signer may optionally extend this interface to indicate
// they have a private key available synchronously
export interface ExternallyOwnedAccount {
readonly address: string;
readonly privateKey: string;
}
// Sub-Class Notes:
// - A Signer MUST always make sure, that if present, the "from" field
// matches the Signer, before sending or signing a transaction
// - A Signer SHOULD always wrap private information (such as a private
// key or mnemonic) in a function, so that console.log does not leak
// the data
export abstract class Signer {
readonly provider?: Provider;
///////////////////
// Sub-classes MUST implement these
// Returns the checksum address
abstract getAddress(): Promise<string>
// Returns the signed prefixed-message. This MUST treat:
// - Bytes as a binary message
// - string as a UTF8-message
// i.e. "0x1234" is a SIX (6) byte string, NOT 2 bytes of data
abstract signMessage(message: Bytes | string): Promise<string>;
// Signs a transaxction and returns the fully serialized, signed transaction.
// The EXACT transaction MUST be signed, and NO additional properties to be added.
// - This MAY throw if signing transactions is not supports, but if
// it does, sentTransaction MUST be overridden.
abstract signTransaction(transaction: Deferrable<TransactionRequest>): Promise<string>;
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// Returns a new instance of the Signer, connected to provider.
// This MAY throw if changing providers is not supported.
abstract connect(provider: Provider): Signer;
readonly _isSigner: boolean;
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///////////////////
// Sub-classes MUST call super
constructor() {
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logger.checkAbstract(new.target, Signer);
defineReadOnly(this, "_isSigner", true);
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}
///////////////////
// Sub-classes MAY override these
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async getBalance(blockTag?: BlockTag): Promise<BigNumber> {
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this._checkProvider("getBalance");
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return await this.provider.getBalance(this.getAddress(), blockTag);
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}
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async getTransactionCount(blockTag?: BlockTag): Promise<number> {
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this._checkProvider("getTransactionCount");
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return await this.provider.getTransactionCount(this.getAddress(), blockTag);
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}
// Populates "from" if unspecified, and estimates the gas for the transation
async estimateGas(transaction: Deferrable<TransactionRequest>): Promise<BigNumber> {
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this._checkProvider("estimateGas");
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const tx = await resolveProperties(this.checkTransaction(transaction));
return await this.provider.estimateGas(tx);
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}
// Populates "from" if unspecified, and calls with the transation
async call(transaction: Deferrable<TransactionRequest>, blockTag?: BlockTag): Promise<string> {
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this._checkProvider("call");
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const tx = await resolveProperties(this.checkTransaction(transaction));
return await this.provider.call(tx, blockTag);
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}
// Populates all fields in a transaction, signs it and sends it to the network
sendTransaction(transaction: Deferrable<TransactionRequest>): Promise<TransactionResponse> {
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this._checkProvider("sendTransaction");
return this.populateTransaction(transaction).then((tx) => {
return this.signTransaction(tx).then((signedTx) => {
return this.provider.sendTransaction(signedTx);
});
});
}
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async getChainId(): Promise<number> {
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this._checkProvider("getChainId");
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const network = await this.provider.getNetwork();
return network.chainId;
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}
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async getGasPrice(): Promise<BigNumber> {
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this._checkProvider("getGasPrice");
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return await this.provider.getGasPrice();
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}
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async resolveName(name: string): Promise<string> {
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this._checkProvider("resolveName");
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return await this.provider.resolveName(name);
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}
// Checks a transaction does not contain invalid keys and if
// no "from" is provided, populates it.
// - does NOT require a provider
// - adds "from" is not present
// - returns a COPY (safe to mutate the result)
// By default called from: (overriding these prevents it)
// - call
// - estimateGas
// - populateTransaction (and therefor sendTransaction)
checkTransaction(transaction: Deferrable<TransactionRequest>): Deferrable<TransactionRequest> {
for (const key in transaction) {
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if (allowedTransactionKeys.indexOf(key) === -1) {
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logger.throwArgumentError("invalid transaction key: " + key, "transaction", transaction);
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}
}
const tx = shallowCopy(transaction);
if (tx.from == null) {
tx.from = this.getAddress();
} else {
// Make sure any provided address matches this signer
tx.from = Promise.all([
Promise.resolve(tx.from),
this.getAddress()
]).then((result) => {
if (result[0] !== result[1]) {
logger.throwArgumentError("from address mismatch", "transaction", transaction);
}
return result[0];
});
}
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return tx;
}
// Populates ALL keys for a transaction and checks that "from" matches
// this Signer. Should be used by sendTransaction but NOT by signTransaction.
// By default called from: (overriding these prevents it)
// - sendTransaction
async populateTransaction(transaction: Deferrable<TransactionRequest>): Promise<TransactionRequest> {
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const tx: Deferrable<TransactionRequest> = await resolveProperties(this.checkTransaction(transaction))
if (tx.to != null) { tx.to = Promise.resolve(tx.to).then((to) => this.resolveName(to)); }
if (tx.gasPrice == null) { tx.gasPrice = this.getGasPrice(); }
if (tx.nonce == null) { tx.nonce = this.getTransactionCount("pending"); }
if (tx.gasLimit == null) {
tx.gasLimit = this.estimateGas(tx).catch((error) => {
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return logger.throwError("cannot estimate gas; transaction may fail or may require manual gas limit", Logger.errors.UNPREDICTABLE_GAS_LIMIT, {
error: error,
tx: tx
});
});
}
if (tx.chainId == null) {
tx.chainId = this.getChainId();
} else {
tx.chainId = Promise.all([
Promise.resolve(tx.chainId),
this.getChainId()
]).then((results) => {
if (results[1] !== 0 && results[0] !== results[1]) {
logger.throwArgumentError("chainId address mismatch", "transaction", transaction);
}
return results[0];
});
}
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return await resolveProperties(tx);
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}
///////////////////
// Sub-classes SHOULD leave these alone
_checkProvider(operation?: string): void {
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if (!this.provider) { logger.throwError("missing provider", Logger.errors.UNSUPPORTED_OPERATION, {
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operation: (operation || "_checkProvider") });
}
}
static isSigner(value: any): value is Signer {
return !!(value && value._isSigner);
}
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}
export class VoidSigner extends Signer {
readonly address: string;
constructor(address: string, provider?: Provider) {
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logger.checkNew(new.target, VoidSigner);
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super();
defineReadOnly(this, "address", address);
defineReadOnly(this, "provider", provider || null);
}
getAddress(): Promise<string> {
return Promise.resolve(this.address);
}
_fail(message: string, operation: string): Promise<any> {
return Promise.resolve().then(() => {
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logger.throwError(message, Logger.errors.UNSUPPORTED_OPERATION, { operation: operation });
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});
}
signMessage(message: Bytes | string): Promise<string> {
return this._fail("VoidSigner cannot sign messages", "signMessage");
}
signTransaction(transaction: Deferrable<TransactionRequest>): Promise<string> {
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return this._fail("VoidSigner cannot sign transactions", "signTransaction");
}
connect(provider: Provider): VoidSigner {
return new VoidSigner(this.address, provider);
}
}