ethers.js/packages/contracts/src.ts/index.ts

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"use strict";
import { checkResultErrors, EventFragment, Fragment, FunctionFragment, Indexed, Interface, JsonFragment, LogDescription, ParamType, Result } from "@ethersproject/abi";
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import { Block, BlockTag, Filter, FilterByBlockHash, Listener, Log, Provider, TransactionReceipt, TransactionRequest, TransactionResponse } from "@ethersproject/abstract-provider";
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import { Signer, VoidSigner } from "@ethersproject/abstract-signer";
import { getAddress, getContractAddress } from "@ethersproject/address";
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import { BigNumber, BigNumberish } from "@ethersproject/bignumber";
import { arrayify, BytesLike, concat, hexlify, isBytes, isHexString } from "@ethersproject/bytes";
import { Deferrable, defineReadOnly, deepCopy, getStatic, resolveProperties, shallowCopy } from "@ethersproject/properties";
// @TOOD remove dependences transactions
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import { Logger } from "@ethersproject/logger";
import { version } from "./_version";
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const logger = new Logger(version);
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export interface Overrides {
gasLimit?: BigNumberish | Promise<BigNumberish>;
gasPrice?: BigNumberish | Promise<BigNumberish>;
nonce?: BigNumberish | Promise<BigNumberish>;
};
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export interface PayableOverrides extends Overrides {
value?: BigNumberish | Promise<BigNumberish>;
}
export interface CallOverrides extends PayableOverrides {
blockTag?: BlockTag | Promise<BlockTag>;
from?: string | Promise<string>;
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}
// @TODO: Better hierarchy with: (in v6)
// - abstract-provider:TransactionRequest
// - transactions:Transaction
// - transaction:UnsignedTransaction
export interface PopulatedTransaction {
to?: string;
from?: string;
nonce?: number;
gasLimit?: BigNumber;
gasPrice?: BigNumber;
data?: string;
value?: BigNumber;
chainId?: number;
};
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export type EventFilter = {
address?: string;
topics?: Array<string|Array<string>>;
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};
export type ContractFunction<T = any> = (...args: Array<any>) => Promise<T>;
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// The (n + 1)th parameter passed to contract event callbacks
export interface Event extends Log {
// The event name
event?: string;
// The event signature
eventSignature?: string;
// The parsed arguments to the event
args?: Result;
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// If parsing the arguments failed, this is the error
decodeError?: Error;
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// A function that can be used to decode event data and topics
decode?: (data: string, topics?: Array<string>) => any;
// A function that will remove the listener responsible for this event (if any)
removeListener: () => void;
// Get blockchain details about this event's block and transaction
getBlock: () => Promise<Block>;
getTransaction: () => Promise<TransactionResponse>;
getTransactionReceipt: () => Promise<TransactionReceipt>;
}
export interface ContractReceipt extends TransactionReceipt {
events?: Array<Event>;
}
export interface ContractTransaction extends TransactionResponse {
wait(confirmations?: number): Promise<ContractReceipt>;
}
///////////////////////////////
const allowedTransactionKeys: { [ key: string ]: boolean } = {
chainId: true, data: true, from: true, gasLimit: true, gasPrice:true, nonce: true, to: true, value: true
}
async function resolveName(resolver: Signer | Provider, nameOrPromise: string | Promise<string>): Promise<string> {
const name = await nameOrPromise;
// If it is already an address, just use it (after adding checksum)
try {
return getAddress(name);
} catch (error) { }
if (!resolver) {
logger.throwError("a provider or signer is needed to resolve ENS names", Logger.errors.UNSUPPORTED_OPERATION, {
operation: "resolveName"
});
}
const address = await resolver.resolveName(name);
if (address == null) {
logger.throwArgumentError("resolver or addr is not configured for ENS name", "name", name);
}
return address;
}
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// Recursively replaces ENS names with promises to resolve the name and resolves all properties
async function resolveAddresses(resolver: Signer | Provider, value: any, paramType: ParamType | Array<ParamType>): Promise<any> {
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if (Array.isArray(paramType)) {
return await Promise.all(paramType.map((paramType, index) => {
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return resolveAddresses(
resolver,
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((Array.isArray(value)) ? value[index]: value[paramType.name]),
paramType
);
}));
}
if (paramType.type === "address") {
return await resolveName(resolver, value);
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}
if (paramType.type === "tuple") {
return await resolveAddresses(resolver, value, paramType.components);
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}
if (paramType.baseType === "array") {
if (!Array.isArray(value)) { return Promise.reject(new Error("invalid value for array")); }
return await Promise.all(value.map((v) => resolveAddresses(resolver, v, paramType.arrayChildren)));
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}
return value;
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}
async function populateTransaction(contract: Contract, fragment: FunctionFragment, args: Array<any>): Promise<PopulatedTransaction> {
// If an extra argument is given, it is overrides
let overrides: CallOverrides = { };
if (args.length === fragment.inputs.length + 1 && typeof(args[args.length - 1]) === "object") {
overrides = shallowCopy(args.pop());
}
// Make sure the parameter count matches
logger.checkArgumentCount(args.length, fragment.inputs.length, "passed to contract");
// Populate "from" override (allow promises)
if (contract.signer) {
if (overrides.from) {
// Contracts with a Signer are from the Signer's frame-of-reference;
// but we allow overriding "from" if it matches the signer
overrides.from = resolveProperties({
override: resolveName(contract.signer, overrides.from),
signer: contract.signer.getAddress()
}).then(async (check) => {
if (getAddress(check.signer) !== check.override) {
logger.throwError("Contract with a Signer cannot override from", Logger.errors.UNSUPPORTED_OPERATION, {
operation: "overrides.from"
});
}
return check.override;
});
} else {
overrides.from = contract.signer.getAddress();
}
} else if (overrides.from) {
overrides.from = resolveName(contract.provider, overrides.from);
//} else {
// Contracts without a signer can override "from", and if
// unspecified the zero address is used
//overrides.from = AddressZero;
}
// Wait for all dependencies to be resolved (prefer the signer over the provider)
const resolved = await resolveProperties({
args: resolveAddresses(contract.signer || contract.provider, args, fragment.inputs),
address: contract.resolvedAddress,
overrides: (resolveProperties(overrides) || { })
});
// The ABI coded transaction
const data = contract.interface.encodeFunctionData(fragment, resolved.args);
const tx: PopulatedTransaction = {
data: data,
to: resolved.address
};
// Resolved Overrides
const ro = resolved.overrides;
// Populate simple overrides
if (ro.nonce != null) { tx.nonce = BigNumber.from(ro.nonce).toNumber(); }
if (ro.gasLimit != null) { tx.gasLimit = BigNumber.from(ro.gasLimit); }
if (ro.gasPrice != null) { tx.gasPrice = BigNumber.from(ro.gasPrice); }
if (ro.from != null) { tx.from = ro.from; }
// If there was no "gasLimit" override, but the ABI specifies a default, use it
if (tx.gasLimit == null && fragment.gas != null) {
// Conmpute the intrinisic gas cost for this transaction
// @TODO: This is based on the yellow paper as of Petersburg; this is something
// we may wish to parameterize in v6 as part of the Network object. Since this
// is always a non-nil to address, we can ignore G_create, but may wish to add
// similar logic to the ContractFactory.
let intrinsic = 21000;
const bytes = arrayify(data);
for (let i = 0; i < bytes.length; i++) {
intrinsic += 4;
if (bytes[i]) { intrinsic += 64; }
}
tx.gasLimit = BigNumber.from(fragment.gas).add(intrinsic);
}
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// Populate "value" override
if (ro.value) {
const roValue = BigNumber.from(ro.value);
if (!roValue.isZero() && !fragment.payable) {
logger.throwError("non-payable method cannot override value", Logger.errors.UNSUPPORTED_OPERATION, {
operation: "overrides.value",
value: overrides.value
});
}
tx.value = roValue;
}
// Remvoe the overrides
delete overrides.nonce;
delete overrides.gasLimit;
delete overrides.gasPrice;
delete overrides.from;
delete overrides.value;
// Make sure there are no stray overrides, which may indicate a
// typo or using an unsupported key.
const leftovers = Object.keys(overrides).filter((key) => ((<any>overrides)[key] != null));
if (leftovers.length) {
logger.throwError(`cannot override ${ leftovers.map((l) => JSON.stringify(l)).join(",") }`, Logger.errors.UNSUPPORTED_OPERATION, {
operation: "overrides",
overrides: leftovers
});
}
return tx;
}
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function buildPopulate(contract: Contract, fragment: FunctionFragment): ContractFunction<PopulatedTransaction> {
return function(...args: Array<any>): Promise<PopulatedTransaction> {
return populateTransaction(contract, fragment, args);
};
}
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function buildEstimate(contract: Contract, fragment: FunctionFragment): ContractFunction<BigNumber> {
const signerOrProvider = (contract.signer || contract.provider);
return async function(...args: Array<any>): Promise<BigNumber> {
if (!signerOrProvider) {
logger.throwError("estimate require a provider or signer", Logger.errors.UNSUPPORTED_OPERATION, {
operation: "estimateGas"
})
}
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const tx = await populateTransaction(contract, fragment, args);
return await signerOrProvider.estimateGas(tx);
};
}
function buildCall(contract: Contract, fragment: FunctionFragment, collapseSimple: boolean): ContractFunction {
const signerOrProvider = (contract.signer || contract.provider);
return async function(...args: Array<any>): Promise<any> {
// Extract the "blockTag" override if present
let blockTag = undefined;
if (args.length === fragment.inputs.length + 1 && typeof(args[args.length - 1]) === "object") {
const overrides = shallowCopy(args.pop());
if (overrides.blockTag != null) {
blockTag = await overrides.blockTag;
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}
delete overrides.blockTag;
args.push(overrides);
}
// If the contract was just deployed, wait until it is mined
if (contract.deployTransaction != null) {
await contract._deployed(blockTag);
}
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// Call a node and get the result
const tx = await populateTransaction(contract, fragment, args);
const result = await signerOrProvider.call(tx, blockTag);
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try {
let value = contract.interface.decodeFunctionResult(fragment, result);
if (collapseSimple && fragment.outputs.length === 1) {
value = value[0];
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}
return value;
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} catch (error) {
if (error.code === Logger.errors.CALL_EXCEPTION) {
error.address = contract.address;
error.args = args;
error.transaction = tx;
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}
throw error;
}
};
}
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function buildSend(contract: Contract, fragment: FunctionFragment): ContractFunction<TransactionResponse> {
return async function(...args: Array<any>): Promise<TransactionResponse> {
if (!contract.signer) {
logger.throwError("sending a transaction requires a signer", Logger.errors.UNSUPPORTED_OPERATION, {
operation: "sendTransaction"
})
}
// If the contract was just deployed, wait until it is minded
if (contract.deployTransaction != null) {
await contract._deployed();
}
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const txRequest = await populateTransaction(contract, fragment, args);
const tx = await contract.signer.sendTransaction(txRequest);
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// Tweak the tw.wait so the receipt has extra properties
const wait = tx.wait.bind(tx);
tx.wait = (confirmations?: number) => {
return wait(confirmations).then((receipt: ContractReceipt) => {
receipt.events = receipt.logs.map((log) => {
let event: Event = (<Event>deepCopy(log));
let parsed: LogDescription = null;
try {
parsed = contract.interface.parseLog(log);
} catch (e){ }
// Successfully parsed the event log; include it
if (parsed) {
event.args = parsed.args;
event.decode = (data: BytesLike, topics?: Array<any>) => {
return contract.interface.decodeEventLog(parsed.eventFragment, data, topics);
};
event.event = parsed.name;
event.eventSignature = parsed.signature;
}
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// Useful operations
event.removeListener = () => { return contract.provider; }
event.getBlock = () => {
return contract.provider.getBlock(receipt.blockHash);
}
event.getTransaction = () => {
return contract.provider.getTransaction(receipt.transactionHash);
}
event.getTransactionReceipt = () => {
return Promise.resolve(receipt);
}
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return event;
});
return receipt;
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});
};
return tx;
};
}
function buildDefault(contract: Contract, fragment: FunctionFragment, collapseSimple: boolean): ContractFunction {
if (fragment.constant) {
return buildCall(contract, fragment, collapseSimple);
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}
return buildSend(contract, fragment);
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}
function getEventTag(filter: EventFilter): string {
if (filter.address && (filter.topics == null || filter.topics.length === 0)) {
return "*";
}
return (filter.address || "*") + "@" + (filter.topics ? filter.topics.map((topic) => {
if (Array.isArray(topic)) {
return topic.join("|");
}
return topic;
}).join(":"): "");
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}
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class RunningEvent {
readonly tag: string;
readonly filter: EventFilter;
private _listeners: Array<{ listener: Listener, once: boolean }>;
constructor(tag: string, filter: EventFilter) {
defineReadOnly(this, "tag", tag);
defineReadOnly(this, "filter", filter);
this._listeners = [ ];
}
addListener(listener: Listener, once: boolean): void {
this._listeners.push({ listener: listener, once: once });
}
removeListener(listener: Listener): void {
let done = false;
this._listeners = this._listeners.filter((item) => {
if (done || item.listener !== listener) { return true; }
done = true;
return false;
});
}
removeAllListeners(): void {
this._listeners = [];
}
listeners(): Array<Listener> {
return this._listeners.map((i) => i.listener);
}
listenerCount(): number {
return this._listeners.length;
}
run(args: Array<any>): number {
const listenerCount = this.listenerCount();
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this._listeners = this._listeners.filter((item) => {
const argsCopy = args.slice();
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// Call the callback in the next event loop
setTimeout(() => {
item.listener.apply(this, argsCopy);
}, 0);
// Reschedule it if it not "once"
return !(item.once);
});
return listenerCount;
}
prepareEvent(event: Event): void {
}
// Returns the array that will be applied to an emit
getEmit(event: Event): Array<any> {
return [ event ];
}
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}
class ErrorRunningEvent extends RunningEvent {
constructor() {
super("error", null);
}
}
// @TODO Fragment should inherit Wildcard? and just override getEmit?
// or have a common abstract super class, with enough constructor
// options to configure both.
// A Fragment Event will populate all the properties that Wildcard
// will, and additioanlly dereference the arguments when emitting
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class FragmentRunningEvent extends RunningEvent {
readonly address: string;
readonly interface: Interface;
readonly fragment: EventFragment;
constructor(address: string, contractInterface: Interface, fragment: EventFragment, topics?: Array<string|Array<string>>) {
const filter: EventFilter = {
address: address
}
let topic = contractInterface.getEventTopic(fragment);
if (topics) {
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if (topic !== topics[0]) { logger.throwArgumentError("topic mismatch", "topics", topics); }
filter.topics = topics.slice();
} else {
filter.topics = [ topic ];
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}
super(getEventTag(filter), filter);
defineReadOnly(this, "address", address);
defineReadOnly(this, "interface", contractInterface);
defineReadOnly(this, "fragment", fragment);
}
prepareEvent(event: Event): void {
super.prepareEvent(event);
event.event = this.fragment.name;
event.eventSignature = this.fragment.format();
event.decode = (data: BytesLike, topics?: Array<string>) => {
return this.interface.decodeEventLog(this.fragment, data, topics);
};
try {
event.args = this.interface.decodeEventLog(this.fragment, event.data, event.topics);
} catch (error) {
event.args = null;
event.decodeError = error;
}
}
getEmit(event: Event): Array<any> {
const errors = checkResultErrors(event.args);
if (errors.length) { throw errors[0].error; }
const args = (event.args || []).slice();
args.push(event);
return args;
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}
}
// A Wildard Event will attempt to populate:
// - event The name of the event name
// - eventSignature The full signature of the event
// - decode A function to decode data and topics
// - args The decoded data and topics
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class WildcardRunningEvent extends RunningEvent {
readonly address: string;
readonly interface: Interface;
constructor(address: string, contractInterface: Interface) {
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super("*", { address: address });
defineReadOnly(this, "address", address);
defineReadOnly(this, "interface", contractInterface);
}
prepareEvent(event: Event): void {
super.prepareEvent(event);
try {
const parsed = this.interface.parseLog(event);
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event.event = parsed.name;
event.eventSignature = parsed.signature;
event.decode = (data: BytesLike, topics?: Array<string>) => {
return this.interface.decodeEventLog(parsed.eventFragment, data, topics);
};
event.args = parsed.args;
} catch (error) {
// No matching event
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}
}
}
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export type ContractInterface = string | Array<Fragment | JsonFragment | string> | Interface;
type InterfaceFunc = (contractInterface: ContractInterface) => Interface;
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export class Contract {
readonly address: string;
readonly interface: Interface;
readonly signer: Signer;
readonly provider: Provider;
readonly functions: { [ name: string ]: ContractFunction };
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readonly callStatic: { [ name: string ]: ContractFunction };
readonly estimateGas: { [ name: string ]: ContractFunction<BigNumber> };
readonly populateTransaction: { [ name: string ]: ContractFunction<PopulatedTransaction> };
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readonly filters: { [ name: string ]: (...args: Array<any>) => EventFilter };
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// The meta-class properties
readonly [ key: string ]: ContractFunction | any;
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// This will always be an address. This will only differ from
// address if an ENS name was used in the constructor
readonly resolvedAddress: Promise<string>;
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// This is only set if the contract was created with a call to deploy
readonly deployTransaction: TransactionResponse;
_deployedPromise: Promise<Contract>;
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// A list of RunningEvents to track listsners for each event tag
_runningEvents: { [ eventTag: string ]: RunningEvent };
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// Wrapped functions to call emit and allow deregistration from the provider
_wrappedEmits: { [ eventTag: string ]: (...args: Array<any>) => void };
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constructor(addressOrName: string, contractInterface: ContractInterface, signerOrProvider?: Signer | Provider) {
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logger.checkNew(new.target, Contract);
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// @TODO: Maybe still check the addressOrName looks like a valid address or name?
//address = getAddress(address);
defineReadOnly(this, "interface", getStatic<InterfaceFunc>(new.target, "getInterface")(contractInterface));
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if (signerOrProvider == null) {
defineReadOnly(this, "provider", null);
defineReadOnly(this, "signer", null);
} else if (Signer.isSigner(signerOrProvider)) {
defineReadOnly(this, "provider", signerOrProvider.provider || null);
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defineReadOnly(this, "signer", signerOrProvider);
} else if (Provider.isProvider(signerOrProvider)) {
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defineReadOnly(this, "provider", signerOrProvider);
defineReadOnly(this, "signer", null);
} else {
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logger.throwArgumentError("invalid signer or provider", "signerOrProvider", signerOrProvider);
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}
defineReadOnly(this, "callStatic", { });
defineReadOnly(this, "estimateGas", { });
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defineReadOnly(this, "functions", { });
defineReadOnly(this, "populateTransaction", { });
defineReadOnly(this, "filters", { });
{
const uniqueFilters: { [ name: string ]: Array<string> } = { };
Object.keys(this.interface.events).forEach((eventSignature) => {
const event = this.interface.events[eventSignature];
defineReadOnly(this.filters, eventSignature, (...args: Array<any>) => {
return {
address: this.address,
topics: this.interface.encodeFilterTopics(event, args)
}
});
if (!uniqueFilters[event.name]) { uniqueFilters[event.name] = [ ]; }
uniqueFilters[event.name].push(eventSignature);
});
Object.keys(uniqueFilters).forEach((name) => {
const filters = uniqueFilters[name];
if (filters.length === 1) {
defineReadOnly(this.filters, name, this.filters[filters[0]]);
} else {
logger.warn(`Duplicate definition of ${ name } (${ filters.join(", ")})`);
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}
});
}
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defineReadOnly(this, "_runningEvents", { });
defineReadOnly(this, "_wrappedEmits", { });
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defineReadOnly(this, "address", addressOrName);
if (this.provider) {
defineReadOnly(this, "resolvedAddress", resolveName(this.provider, addressOrName));
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} else {
try {
defineReadOnly(this, "resolvedAddress", Promise.resolve(getAddress(addressOrName)));
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} catch (error) {
// Without a provider, we cannot use ENS names
logger.throwError("provider is required to use ENS name as contract address", Logger.errors.UNSUPPORTED_OPERATION, {
operation: "new Contract"
});
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}
}
const uniqueNames: { [ name: string ]: Array<string> } = { };
const uniqueSignatures: { [ signature: string ]: boolean } = { };
Object.keys(this.interface.functions).forEach((signature) => {
const fragment = this.interface.functions[signature];
// Check that the signature is unique; if not the ABI generation has
// not been cleaned or may be incorrectly generated
if (uniqueSignatures[signature]) {
logger.warn(`Duplicate ABI entry for ${ JSON.stringify(name) }`);
return;
}
uniqueSignatures[signature] = true;
// Track unique names; we only expose bare named functions if they
// are ambiguous
{
const name = fragment.name;
if (!uniqueNames[name]) { uniqueNames[name] = [ ]; }
uniqueNames[name].push(signature);
}
if (this[signature] == null) {
defineReadOnly<any, any>(this, signature, buildDefault(this, fragment, true));
}
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// We do not collapse simple calls on this bucket, which allows
// frameworks to safely use this without introspection as well as
// allows decoding error recovery.
if (this.functions[signature] == null) {
defineReadOnly(this.functions, signature, buildDefault(this, fragment, false));
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}
if (this.callStatic[signature] == null) {
defineReadOnly(this.callStatic, signature, buildCall(this, fragment, true));
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}
if (this.populateTransaction[signature] == null) {
defineReadOnly(this.populateTransaction, signature, buildPopulate(this, fragment));
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}
if (this.estimateGas[signature] == null) {
defineReadOnly(this.estimateGas, signature, buildEstimate(this, fragment));
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}
});
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Object.keys(uniqueNames).forEach((name) => {
// Ambiguous names to not get attached as bare names
const signatures = uniqueNames[name];
if (signatures.length > 1) { return; }
const signature = signatures[0];
if (this[name] == null) {
defineReadOnly(this, name, this[signature]);
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}
if (this.functions[name] == null) {
defineReadOnly(this.functions, name, this.functions[signature]);
}
if (this.callStatic[name] == null) {
defineReadOnly(this.callStatic, name, this.callStatic[signature]);
}
if (this.populateTransaction[name] == null) {
defineReadOnly(this.populateTransaction, name, this.populateTransaction[signature]);
}
if (this.estimateGas[name] == null) {
defineReadOnly(this.estimateGas, name, this.estimateGas[signature]);
}
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});
}
static getContractAddress(transaction: { from: string, nonce: BigNumberish }): string {
return getContractAddress(transaction);
}
static getInterface(contractInterface: ContractInterface): Interface {
if (Interface.isInterface(contractInterface)) {
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return contractInterface;
}
return new Interface(contractInterface);
}
// @TODO: Allow timeout?
deployed(): Promise<Contract> {
return this._deployed();
}
_deployed(blockTag?: BlockTag): Promise<Contract> {
if (!this._deployedPromise) {
// If we were just deployed, we know the transaction we should occur in
if (this.deployTransaction) {
this._deployedPromise = this.deployTransaction.wait().then(() => {
return this;
});
} else {
// @TODO: Once we allow a timeout to be passed in, we will wait
// up to that many blocks for getCode
// Otherwise, poll for our code to be deployed
this._deployedPromise = this.provider.getCode(this.address, blockTag).then((code) => {
if (code === "0x") {
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logger.throwError("contract not deployed", Logger.errors.UNSUPPORTED_OPERATION, {
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contractAddress: this.address,
operation: "getDeployed"
});
}
return this;
});
}
}
return this._deployedPromise;
}
// @TODO:
// estimateFallback(overrides?: TransactionRequest): Promise<BigNumber>
// @TODO:
// estimateDeploy(bytecode: string, ...args): Promise<BigNumber>
fallback(overrides?: TransactionRequest): Promise<TransactionResponse> {
if (!this.signer) {
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logger.throwError("sending a transactions require a signer", Logger.errors.UNSUPPORTED_OPERATION, { operation: "sendTransaction(fallback)" })
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}
const tx: Deferrable<TransactionRequest> = shallowCopy(overrides || {});
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["from", "to"].forEach(function(key) {
if ((<any>tx)[key] == null) { return; }
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logger.throwError("cannot override " + key, Logger.errors.UNSUPPORTED_OPERATION, { operation: key })
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});
tx.to = this.resolvedAddress;
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return this.deployed().then(() => {
return this.signer.sendTransaction(tx);
});
}
// Reconnect to a different signer or provider
connect(signerOrProvider: Signer | Provider | string): Contract {
if (typeof(signerOrProvider) === "string") {
signerOrProvider = new VoidSigner(signerOrProvider, this.provider);
}
const contract = new (<{ new(...args: any[]): Contract }>(this.constructor))(this.address, this.interface, signerOrProvider);
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if (this.deployTransaction) {
defineReadOnly(contract, "deployTransaction", this.deployTransaction);
}
return contract;
}
// Re-attach to a different on-chain instance of this contract
attach(addressOrName: string): Contract {
return new (<{ new(...args: any[]): Contract }>(this.constructor))(addressOrName, this.interface, this.signer || this.provider);
}
static isIndexed(value: any): value is Indexed {
return Indexed.isIndexed(value);
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}
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private _normalizeRunningEvent(runningEvent: RunningEvent): RunningEvent {
// Already have an instance of this event running; we can re-use it
if (this._runningEvents[runningEvent.tag]) {
return this._runningEvents[runningEvent.tag];
}
return runningEvent
}
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private _getRunningEvent(eventName: EventFilter | string): RunningEvent {
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if (typeof(eventName) === "string") {
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// Listen for "error" events (if your contract has an error event, include
// the full signature to bypass this special event keyword)
if (eventName === "error") {
return this._normalizeRunningEvent(new ErrorRunningEvent());
}
// Listen for any event that is registered
if (eventName === "event") {
return this._normalizeRunningEvent(new RunningEvent("event", null));
}
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// Listen for any event
if (eventName === "*") {
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return this._normalizeRunningEvent(new WildcardRunningEvent(this.address, this.interface));
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}
// Get the event Fragment (throws if ambiguous/unknown event)
const fragment = this.interface.getEvent(eventName)
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return this._normalizeRunningEvent(new FragmentRunningEvent(this.address, this.interface, fragment));
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}
// We have topics to filter by...
if (eventName.topics && eventName.topics.length > 0) {
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// Is it a known topichash? (throws if no matching topichash)
try {
const topic = eventName.topics[0];
if (typeof(topic) !== "string") {
throw new Error("invalid topic"); // @TODO: May happen for anonymous events
}
const fragment = this.interface.getEvent(topic);
return this._normalizeRunningEvent(new FragmentRunningEvent(this.address, this.interface, fragment, eventName.topics));
} catch (error) { }
// Filter by the unknown topichash
const filter: EventFilter = {
address: this.address,
topics: eventName.topics
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}
return this._normalizeRunningEvent(new RunningEvent(getEventTag(filter), filter));
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}
return this._normalizeRunningEvent(new WildcardRunningEvent(this.address, this.interface));
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}
_checkRunningEvents(runningEvent: RunningEvent): void {
if (runningEvent.listenerCount() === 0) {
delete this._runningEvents[runningEvent.tag];
// If we have a poller for this, remove it
const emit = this._wrappedEmits[runningEvent.tag];
if (emit) {
this.provider.off(runningEvent.filter, emit);
delete this._wrappedEmits[runningEvent.tag];
}
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}
}
// Subclasses can override this to gracefully recover
// from parse errors if they wish
_wrapEvent(runningEvent: RunningEvent, log: Log, listener: Listener): Event {
const event = <Event>deepCopy(log);
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event.removeListener = () => {
if (!listener) { return; }
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runningEvent.removeListener(listener);
this._checkRunningEvents(runningEvent);
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};
event.getBlock = () => { return this.provider.getBlock(log.blockHash); }
event.getTransaction = () => { return this.provider.getTransaction(log.transactionHash); }
event.getTransactionReceipt = () => { return this.provider.getTransactionReceipt(log.transactionHash); }
// This may throw if the topics and data mismatch the signature
runningEvent.prepareEvent(event);
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return event;
}
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private _addEventListener(runningEvent: RunningEvent, listener: Listener, once: boolean): void {
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if (!this.provider) {
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logger.throwError("events require a provider or a signer with a provider", Logger.errors.UNSUPPORTED_OPERATION, { operation: "once" })
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}
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runningEvent.addListener(listener, once);
// Track this running event and its listeners (may already be there; but no hard in updating)
this._runningEvents[runningEvent.tag] = runningEvent;
// If we are not polling the provider, start polling
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if (!this._wrappedEmits[runningEvent.tag]) {
const wrappedEmit = (log: Log) => {
let event = this._wrapEvent(runningEvent, log, listener);
// Try to emit the result for the parameterized event...
if (event.decodeError == null) {
try {
const args = runningEvent.getEmit(event);
this.emit(runningEvent.filter, ...args);
} catch (error) {
event.decodeError = error.error;
}
}
// Always emit "event" for fragment-base events
if (runningEvent.filter != null) {
this.emit("event", event);
}
// Emit "error" if there was an error
if (event.decodeError != null) {
this.emit("error", event.decodeError, event);
}
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};
this._wrappedEmits[runningEvent.tag] = wrappedEmit;
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// Special events, like "error" do not have a filter
if (runningEvent.filter != null) {
this.provider.on(runningEvent.filter, wrappedEmit);
}
}
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}
queryFilter(event: EventFilter, fromBlockOrBlockhash?: BlockTag | string, toBlock?: BlockTag): Promise<Array<Event>> {
const runningEvent = this._getRunningEvent(event);
const filter = shallowCopy(runningEvent.filter);
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if (typeof(fromBlockOrBlockhash) === "string" && isHexString(fromBlockOrBlockhash, 32)) {
if (toBlock != null) {
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logger.throwArgumentError("cannot specify toBlock with blockhash", "toBlock", toBlock);
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}
(<FilterByBlockHash>filter).blockHash = fromBlockOrBlockhash;
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} else {
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(<Filter>filter).fromBlock = ((fromBlockOrBlockhash != null) ? fromBlockOrBlockhash: 0);
(<Filter>filter).toBlock = ((toBlock != null) ? toBlock: "latest");
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}
return this.provider.getLogs(filter).then((logs) => {
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return logs.map((log) => this._wrapEvent(runningEvent, log, null));
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});
}
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on(event: EventFilter | string, listener: Listener): this {
this._addEventListener(this._getRunningEvent(event), listener, false);
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return this;
}
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once(event: EventFilter | string, listener: Listener): this {
this._addEventListener(this._getRunningEvent(event), listener, true);
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return this;
}
emit(eventName: EventFilter | string, ...args: Array<any>): boolean {
if (!this.provider) { return false; }
const runningEvent = this._getRunningEvent(eventName);
const result = (runningEvent.run(args) > 0);
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// May have drained all the "once" events; check for living events
this._checkRunningEvents(runningEvent);
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return result;
}
listenerCount(eventName?: EventFilter | string): number {
if (!this.provider) { return 0; }
if (eventName == null) {
return Object.keys(this._runningEvents).reduce((accum, key) => {
return accum + this._runningEvents[key].listenerCount();
}, 0);
}
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return this._getRunningEvent(eventName).listenerCount();
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}
listeners(eventName?: EventFilter | string): Array<Listener> {
if (!this.provider) { return []; }
if (eventName == null) {
const result: Array<Listener> = [ ];
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for (let tag in this._runningEvents) {
this._runningEvents[tag].listeners().forEach((listener) => {
result.push(listener)
});
}
return result;
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}
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return this._getRunningEvent(eventName).listeners();
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}
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removeAllListeners(eventName?: EventFilter | string): this {
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if (!this.provider) { return this; }
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if (eventName == null) {
for (const tag in this._runningEvents) {
const runningEvent = this._runningEvents[tag];
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runningEvent.removeAllListeners();
this._checkRunningEvents(runningEvent);
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}
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return this;
}
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// Delete any listeners
const runningEvent = this._getRunningEvent(eventName);
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runningEvent.removeAllListeners();
this._checkRunningEvents(runningEvent);
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return this;
}
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off(eventName: EventFilter | string, listener: Listener): this {
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if (!this.provider) { return this; }
const runningEvent = this._getRunningEvent(eventName);
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runningEvent.removeListener(listener);
this._checkRunningEvents(runningEvent);
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return this;
}
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removeListener(eventName: EventFilter | string, listener: Listener): this {
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return this.off(eventName, listener);
}
}
export class ContractFactory {
readonly interface: Interface;
readonly bytecode: string;
readonly signer: Signer;
constructor(contractInterface: ContractInterface, bytecode: BytesLike | { object: string }, signer?: Signer) {
let bytecodeHex: string = null;
if (typeof(bytecode) === "string") {
bytecodeHex = bytecode;
} else if (isBytes(bytecode)) {
bytecodeHex = hexlify(bytecode);
} else if (bytecode && typeof(bytecode.object) === "string") {
// Allow the bytecode object from the Solidity compiler
bytecodeHex = (<any>bytecode).object;
} else {
// Crash in the next verification step
bytecodeHex = "!";
}
// Make sure it is 0x prefixed
if (bytecodeHex.substring(0, 2) !== "0x") { bytecodeHex = "0x" + bytecodeHex; }
// Make sure the final result is valid bytecode
if (!isHexString(bytecodeHex) || (bytecodeHex.length % 2)) {
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logger.throwArgumentError("invalid bytecode", "bytecode", bytecode);
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}
// If we have a signer, make sure it is valid
if (signer && !Signer.isSigner(signer)) {
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logger.throwArgumentError("invalid signer", "signer", signer);
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}
defineReadOnly(this, "bytecode", bytecodeHex);
defineReadOnly(this, "interface", getStatic<InterfaceFunc>(new.target, "getInterface")(contractInterface));
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defineReadOnly(this, "signer", signer || null);
}
// @TODO: Future; rename to populteTransaction?
getDeployTransaction(...args: Array<any>): TransactionRequest {
let tx: TransactionRequest = { };
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// If we have 1 additional argument, we allow transaction overrides
if (args.length === this.interface.deploy.inputs.length + 1 && typeof(args[args.length - 1]) === "object") {
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tx = shallowCopy(args.pop());
for (const key in tx) {
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if (!allowedTransactionKeys[key]) {
throw new Error("unknown transaction override " + key);
}
}
}
// Do not allow these to be overridden in a deployment transaction
["data", "from", "to"].forEach((key) => {
if ((<any>tx)[key] == null) { return; }
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logger.throwError("cannot override " + key, Logger.errors.UNSUPPORTED_OPERATION, { operation: key })
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});
// Make sure the call matches the constructor signature
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logger.checkArgumentCount(args.length, this.interface.deploy.inputs.length, " in Contract constructor");
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// Set the data to the bytecode + the encoded constructor arguments
tx.data = hexlify(concat([
this.bytecode,
this.interface.encodeDeploy(args)
]));
return tx
}
async deploy(...args: Array<any>): Promise<Contract> {
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let overrides: any = { };
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// If 1 extra parameter was passed in, it contains overrides
if (args.length === this.interface.deploy.inputs.length + 1) {
overrides = args.pop();
}
// Make sure the call matches the constructor signature
logger.checkArgumentCount(args.length, this.interface.deploy.inputs.length, " in Contract constructor");
// Resolve ENS names and promises in the arguments
const params = await resolveAddresses(this.signer, args, this.interface.deploy.inputs);
params.push(overrides);
// Get the deployment transaction (with optional overrides)
const unsignedTx = this.getDeployTransaction(...params);
// Send the deployment transaction
const tx = await this.signer.sendTransaction(unsignedTx);
const address = getStatic<(tx: TransactionResponse) => string>(this.constructor, "getContractAddress")(tx);
const contract = getStatic<(address: string, contractInterface: ContractInterface, signer?: Signer) => Contract>(this.constructor, "getContract")(address, this.interface, this.signer);
defineReadOnly(contract, "deployTransaction", tx);
return contract;
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}
attach(address: string): Contract {
return (<any>(this.constructor)).getContract(address, this.interface, this.signer);
}
connect(signer: Signer) {
return new (<{ new(...args: any[]): ContractFactory }>(this.constructor))(this.interface, this.bytecode, signer);
}
static fromSolidity(compilerOutput: any, signer?: Signer): ContractFactory {
if (compilerOutput == null) {
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logger.throwError("missing compiler output", Logger.errors.MISSING_ARGUMENT, { argument: "compilerOutput" });
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}
if (typeof(compilerOutput) === "string") {
compilerOutput = JSON.parse(compilerOutput);
}
const abi = compilerOutput.abi;
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let bytecode: any = null;
if (compilerOutput.bytecode) {
bytecode = compilerOutput.bytecode;
} else if (compilerOutput.evm && compilerOutput.evm.bytecode) {
bytecode = compilerOutput.evm.bytecode;
}
return new this(abi, bytecode, signer);
}
static getInterface(contractInterface: ContractInterface) {
return Contract.getInterface(contractInterface);
}
static getContractAddress(tx: { from: string, nonce: BytesLike | BigNumber | number }): string {
return getContractAddress(tx);
}
static getContract(address: string, contractInterface: ContractInterface, signer?: Signer): Contract {
return new Contract(address, contractInterface, signer);
}
}