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fluence-js/packages/client/api/src/compilerSupport/implementation.ts

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/*
* Copyright 2022 Fluence Labs Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import type { FnConfig, FunctionCallDef, ServiceDef } from '@fluencelabs/interfaces';
import type { IFluenceClient } from '@fluencelabs/interfaces';
import { getArgumentTypes } from '@fluencelabs/interfaces';
import { isFluencePeer } from '@fluencelabs/interfaces';
import { getFluenceInterface } from '../util.js';
/**
* Convenience function to support Aqua `func` generation backend
* The compiler only need to generate a call the function and provide the corresponding definitions and the air script
*
* @param rawFnArgs - raw arguments passed by user to the generated function
* @param def - function definition generated by the Aqua compiler
* @param script - air script with function execution logic generated by the Aqua compiler
*/
export const callFunction = async (rawFnArgs: Array<any>, def: FunctionCallDef, script: string): Promise<unknown> => {
const { args, client: peer, config } = await extractFunctionArgs(rawFnArgs, def);
if (peer.internals.getConnectionState() !== 'connected') {
throw new Error(
'Could not call the Aqua function because client is disconnected. Did you forget to call Fluence.connect()?',
);
}
const fluence = await getFluenceInterface();
return fluence.callAquaFunction({
args,
def,
script,
config: config || {},
peer: peer,
});
};
/**
* Convenience function to support Aqua `service` generation backend
* The compiler only need to generate a call the function and provide the corresponding definitions and the air script
* @param args - raw arguments passed by user to the generated function
* @param def - service definition generated by the Aqua compiler
*/
export const registerService = async (args: any[], def: ServiceDef): Promise<unknown> => {
const { peer, service, serviceId } = await extractServiceArgs(args, def.defaultServiceId);
// TODO: TBH service registration is just putting some stuff into a hashmap
// there should not be such a check at all
if (peer.internals.getConnectionState() !== 'connected') {
throw new Error(
'Could not register Aqua service because the client is disconnected. Did you forget to call Fluence.connect()?',
);
}
const fluence = await getFluenceInterface();
return fluence.registerService({
def,
service,
serviceId,
peer,
});
};
/**
* Arguments could be passed in one these configurations:
* [...actualArgs]
* [peer, ...actualArgs]
* [...actualArgs, config]
* [peer, ...actualArgs, config]
*
* This function select the appropriate configuration and returns
* arguments in a structured way of: { peer, config, args }
*/
const extractFunctionArgs = async (
args: any[],
def: FunctionCallDef,
): Promise<{
client: IFluenceClient;
config?: FnConfig;
args: { [key: string]: any };
}> => {
const argumentTypes = getArgumentTypes(def);
const argumentNames = Object.keys(argumentTypes);
const numberOfExpectedArgs = argumentNames.length;
let peer: IFluenceClient;
let structuredArgs: any[];
let config: FnConfig;
if (isFluencePeer(args[0])) {
peer = args[0];
structuredArgs = args.slice(1, numberOfExpectedArgs + 1);
config = args[numberOfExpectedArgs + 1];
} else {
const fluence = await getFluenceInterface();
peer = fluence.defaultClient;
structuredArgs = args.slice(0, numberOfExpectedArgs);
config = args[numberOfExpectedArgs];
}
if (structuredArgs.length !== numberOfExpectedArgs) {
throw new Error(`Incorrect number of arguments. Expecting ${numberOfExpectedArgs}`);
}
const argsRes = argumentNames.reduce((acc, name, index) => ({ ...acc, [name]: structuredArgs[index] }), {});
return {
client: peer,
config: config,
args: argsRes,
};
};
/**
* Arguments could be passed in one these configurations:
* [serviceObject]
* [peer, serviceObject]
* [defaultId, serviceObject]
* [peer, defaultId, serviceObject]
*
* Where serviceObject is the raw object with function definitions passed by user
*
* This function select the appropriate configuration and returns
* arguments in a structured way of: { peer, serviceId, service }
*/
const extractServiceArgs = async (
args: any[],
defaultServiceId?: string,
): Promise<{ peer: IFluenceClient; serviceId: string; service: any }> => {
let peer: IFluenceClient;
let serviceId: any;
let service: any;
if (isFluencePeer(args[0])) {
peer = args[0];
} else {
const fluence = await getFluenceInterface();
peer = fluence.defaultClient;
}
if (typeof args[0] === 'string') {
serviceId = args[0];
} else if (typeof args[1] === 'string') {
serviceId = args[1];
} else {
serviceId = defaultServiceId;
}
// Figuring out which overload is the service.
// If the first argument is not Fluence Peer and it is an object, then it can only be the service def
// If the first argument is peer, we are checking further. The second argument might either be
// an object, that it must be the service object
// or a string, which is the service id. In that case the service is the third argument
if (!isFluencePeer(args[0]) && typeof args[0] === 'object') {
service = args[0];
} else if (typeof args[1] === 'object') {
service = args[1];
} else {
service = args[2];
}
return {
peer: peer,
serviceId: serviceId,
service: service,
};
};
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