本文整理汇总了TypeScript中ts/blockchain_watcher.BlockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState方法的典型用法代码示例。如果您正苦于以下问题:TypeScript BlockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState方法的具体用法?TypeScript BlockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState怎么用?TypeScript BlockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类ts/blockchain_watcher.BlockchainWatcher的用法示例。
在下文中一共展示了BlockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的TypeScript代码示例。
示例1: updateProviderToInjectedAsync
public async updateProviderToInjectedAsync() {
utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.');
if (_.isUndefined(this._cachedProvider)) {
return; // Going from injected to injected, so we noop
}
this._blockchainWatcher.destroy();
const provider = this._cachedProvider;
this.networkId = this._cachedProviderNetworkId;
const shouldPollUserAddress = true;
this._web3Wrapper = new Web3Wrapper(provider);
this._blockchainWatcher = new BlockchainWatcher(
this._dispatcher,
this._web3Wrapper,
this.networkId,
shouldPollUserAddress,
);
const userAddresses = await this._web3Wrapper.getAvailableAddressesAsync();
this._userAddressIfExists = userAddresses[0];
this._zeroEx.setProvider(provider, this.networkId);
await this.fetchTokenInformationAsync();
this._blockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState();
this._dispatcher.updateProviderType(ProviderType.Injected);
delete this._ledgerSubprovider;
delete this._cachedProvider;
}示例2: _onPageLoadInitFireAndForgetAsync
private async _onPageLoadInitFireAndForgetAsync() {
await utils.onPageLoadAsync(); // wait for page to load
// Hack: We need to know the networkId the injectedWeb3 is connected to (if it is defined) in
// order to properly instantiate the web3Wrapper. Since we must use the async call, we cannot
// retrieve it from within the web3Wrapper constructor. This is and should remain the only
// call to a web3 instance outside of web3Wrapper in the entire dapp.
// In addition, if the user has an injectedWeb3 instance that is disconnected from a backing
// Ethereum node, this call will throw. We need to handle this case gracefully
const injectedWeb3 = (window as any).web3;
let networkIdIfExists: number;
if (!_.isUndefined(injectedWeb3)) {
try {
networkIdIfExists = _.parseInt(await promisify<string>(injectedWeb3.version.getNetwork)());
} catch (err) {
// Ignore error and proceed with networkId undefined
}
}
const provider = await Blockchain._getProviderAsync(injectedWeb3, networkIdIfExists);
this.networkId = !_.isUndefined(networkIdIfExists)
? networkIdIfExists
: configs.IS_MAINNET_ENABLED ? constants.NETWORK_ID_MAINNET : constants.NETWORK_ID_KOVAN;
this._dispatcher.updateNetworkId(this.networkId);
const zeroExConfigs = {
networkId: this.networkId,
};
this._zeroEx = new ZeroEx(provider, zeroExConfigs);
this._updateProviderName(injectedWeb3);
const shouldPollUserAddress = true;
this._web3Wrapper = new Web3Wrapper(provider);
this._blockchainWatcher = new BlockchainWatcher(
this._dispatcher,
this._web3Wrapper,
this.networkId,
shouldPollUserAddress,
);
const userAddresses = await this._web3Wrapper.getAvailableAddressesAsync();
this._userAddressIfExists = userAddresses[0];
this._dispatcher.updateUserAddress(this._userAddressIfExists);
await this.fetchTokenInformationAsync();
this._blockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState();
await this._rehydrateStoreWithContractEvents();
}示例3: updateProviderToLedgerAsync
public async updateProviderToLedgerAsync(networkId: number) {
utils.assert(!_.isUndefined(this._zeroEx), 'ZeroEx must be instantiated.');
const isU2FSupported = await utils.isU2FSupportedAsync();
if (!isU2FSupported) {
throw new Error('Cannot update providerType to LEDGER without U2F support');
}
// Cache injected provider so that we can switch the user back to it easily
if (_.isUndefined(this._cachedProvider)) {
this._cachedProvider = this._web3Wrapper.getProvider();
this._cachedProviderNetworkId = this.networkId;
}
this._blockchainWatcher.destroy();
delete this._userAddressIfExists;
this._dispatcher.updateUserAddress(undefined); // Clear old userAddress
const provider = new ProviderEngine();
const ledgerWalletConfigs = {
networkId,
ledgerEthereumClientFactoryAsync: ledgerEthereumBrowserClientFactoryAsync,
};
this._ledgerSubprovider = new LedgerSubprovider(ledgerWalletConfigs);
provider.addProvider(this._ledgerSubprovider);
provider.addProvider(new FilterSubprovider());
provider.addProvider(new RedundantRPCSubprovider(configs.PUBLIC_NODE_URLS_BY_NETWORK_ID[networkId]));
provider.start();
this.networkId = networkId;
this._dispatcher.updateNetworkId(this.networkId);
const shouldPollUserAddress = false;
this._web3Wrapper = new Web3Wrapper(provider);
this._blockchainWatcher = new BlockchainWatcher(
this._dispatcher,
this._web3Wrapper,
this.networkId,
shouldPollUserAddress,
);
this._zeroEx.setProvider(provider, this.networkId);
this._blockchainWatcher.startEmittingNetworkConnectionAndUserBalanceState();
this._dispatcher.updateProviderType(ProviderType.Ledger);
}