@pulsardefi/nestjs-terra
v1.0.0
Published
Terra blockchain utilities for NestJS based on terra.js
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NestJS-Terra
Terra blockchain utilities for NestJS based on Terra.js
Install
npm i nestjs-terra
Register module
Configuration params
nestjs-terra
can be configured with this options:
interface TerraModuleOptions {
/**
* The base URL to wich Light Client Daemon (LCD) requests will be made.
* For example: https://lcd.terra.dev
*/
URL: string;
/**
* Chain ID of the blockchain to connect to.
* For example:
* - columbus-5: Mainnet
* - tequila-0004: Testnet
* - bombay-9: Testnet
*/
chainID: string;
/**
* Optional parameter for gas prices to use for fee estimation.
*/
gasPrices?: Coins.Input;
/**
* Optional parameter for gas adjustment value to use for fee estimation.
*/
gasAdjustment?: Numeric.Input;
}
Synchronous configuration
Use TerraModule.forRoot
method with Options interface:
import {
TerraModule,
MAINNET_LCD_BASE_URL,
MAINNET_CHAIN_ID
} from 'nestjs-terra';
@Module({
imports: [
TerraModule.forRoot({
URL: MAINNET_LCD_BASE_URL,
chainID: MAINNET_CHAIN_ID,
})
],
...
})
class MyModule {}
Asynchronous configuration
With TerraModule.forRootAsync
you can, for example, import your ConfigModule
and inject ConfigService
to use it in useFactory
method.
useFactory
should return object with Options interface
Here's an example:
import {
TerraModule,
MAINNET_LCD_BASE_URL,
MAINNET_CHAIN_ID
} from 'nestjs-terra';
@Injectable()
class ConfigService {
public readonly URL = MAINNET_LCD_BASE_URL;
public readonly chainID = MAINNET_CHAIN_ID;
}
@Module({
providers: [ConfigService],
exports: [ConfigService]
})
class ConfigModule {}
@Module({
imports: [
TerraModule.forRootAsync({
imports: [ConfigModule],
inject: [ConfigService],
useFactory: async (config: ConfigService) => {
await somePromise();
return {
URL: config.URL,
chainID: config.chainID,
};
}
})
],
...
})
class MyModule {}
Or you can just pass ConfigService
to providers
, if you don't have any ConfigModule
:
import {
TerraModule,
MAINNET_LCD_BASE_URL,
MAINNET_CHAIN_ID,
} from 'nestjs-terra';
@Injectable()
class ConfigService {
public readonly URL = MAINNET_LCD_BASE_URL;
public readonly chainID = MAINNET_CHAIN_ID;
}
@Module({
imports: [
TerraModule.forRootAsync({
providers: [ConfigService],
inject: [ConfigService],
useFactory: (config: ConfigService) => {
return {
URL: config.URL,
chainID: config.chainID,
};
}
})
],
controllers: [TestController]
})
class MyModule {}
LCDClient
if you are familiar with LCDClient, you are ready to go.
import { InjectLCDClient, LCDClient, MnemonicKey } from 'nestjs-terra';
@Injectable()
export class TestService {
constructor(
@InjectLCDClient()
private readonly terraClient: LCDClient,
) {}
async someMethod(): Promise<{ accountNumber: string }> {
const wallet = this.terraClient.wallet(
new MnemonicKey({
mnemonic: [
'satisfy',
'adjust',
'timber',
'high',
'purchase',
'tuition',
'stool',
'faith',
'fine',
'install',
'that',
'you',
'unaware',
'feed',
'domain',
'license',
'impose',
'boss',
'human',
'eager',
'hat',
'rent',
'enjoy',
'dawn',
].join(' ')
}),
);
const accountNumber = await wallet.accountNumber();
return { accountNumber: accountNumber.toString() };
}
}
Testing a class that uses @InjectLCDClient
This package exposes a getTerraToken() function that returns a prepared injection token based on the provided context.
Using this token, you can easily provide a mock implementation of the LCDClient
using any of the standard custom provider techniques, including useClass, useValue, and useFactory.
const module: TestingModule = await Test.createTestingModule({
providers: [
MyService,
{
provide: getTerraToken(),
useValue: mockProvider,
},
],
}).compile();
Change Log
See Changelog for more information.
Contributing
Contributions welcome! See Contributing.
Author
Jose Ramirez Twitter
License
Licensed under the Apache 2.0 - see the LICENSE file for details.