/** * * This file is auto-generated. Do not edit manually: changes may be erased. * Generated by Aqua compiler: https://github.com/fluencelabs/aqua/. * If you find any bugs, please write an issue on GitHub: https://github.com/fluencelabs/aqua/issues * Aqua version: 0.3.1-231 * */ import { Fluence, FluencePeer } from '@fluencelabs/fluence'; import { ResultCodes, RequestFlow, RequestFlowBuilder, CallParams, } from '@fluencelabs/fluence/dist/internal/compilerSupport/v1'; function missingFields(obj: any, fields: string[]): string[] { return fields.filter((f) => !(f in obj)); } // Services export interface ServiceWithDefaultIdDef { hello: (s: string, callParams: CallParams<'s'>) => void; } export function registerServiceWithDefaultId(service: ServiceWithDefaultIdDef): void; export function registerServiceWithDefaultId(serviceId: string, service: ServiceWithDefaultIdDef): void; export function registerServiceWithDefaultId(peer: FluencePeer, service: ServiceWithDefaultIdDef): void; export function registerServiceWithDefaultId( peer: FluencePeer, serviceId: string, service: ServiceWithDefaultIdDef, ): void; export function registerServiceWithDefaultId(...args: any) { let peer: FluencePeer; let serviceId: any; let service: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; } else { peer = Fluence.getPeer(); } if (typeof args[0] === 'string') { serviceId = args[0]; } else if (typeof args[1] === 'string') { serviceId = args[1]; } else { serviceId = 'defaultId'; } // 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 (!FluencePeer.isInstance(args[0]) && typeof args[0] === 'object') { service = args[0]; } else if (typeof args[1] === 'object') { service = args[1]; } else { service = args[2]; } const incorrectServiceDefinitions = missingFields(service, ['hello']); if (!!incorrectServiceDefinitions.length) { throw new Error( 'Error registering service ServiceWithDefaultId: missing functions: ' + incorrectServiceDefinitions.map((d) => "'" + d + "'").join(', '), ); } peer.internals.callServiceHandler.use((req, resp, next) => { if (req.serviceId !== serviceId) { next(); return; } if (req.fnName === 'hello') { const callParams = { ...req.particleContext, tetraplets: { s: req.tetraplets[0], }, }; resp.retCode = ResultCodes.success; service.hello(req.args[0], callParams); resp.result = {}; } next(); }); } export interface ServiceWithOUTDefaultIdDef { hello: (s: string, callParams: CallParams<'s'>) => void; } export function registerServiceWithOUTDefaultId(serviceId: string, service: ServiceWithOUTDefaultIdDef): void; export function registerServiceWithOUTDefaultId( peer: FluencePeer, serviceId: string, service: ServiceWithOUTDefaultIdDef, ): void; export function registerServiceWithOUTDefaultId(...args: any) { let peer: FluencePeer; let serviceId: any; let service: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; } else { peer = Fluence.getPeer(); } if (typeof args[0] === 'string') { serviceId = args[0]; } else if (typeof args[1] === 'string') { serviceId = args[1]; } // 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 (!FluencePeer.isInstance(args[0]) && typeof args[0] === 'object') { service = args[0]; } else if (typeof args[1] === 'object') { service = args[1]; } else { service = args[2]; } const incorrectServiceDefinitions = missingFields(service, ['hello']); if (!!incorrectServiceDefinitions.length) { throw new Error( 'Error registering service ServiceWithOUTDefaultId: missing functions: ' + incorrectServiceDefinitions.map((d) => "'" + d + "'").join(', '), ); } peer.internals.callServiceHandler.use((req, resp, next) => { if (req.serviceId !== serviceId) { next(); return; } if (req.fnName === 'hello') { const callParams = { ...req.particleContext, tetraplets: { s: req.tetraplets[0], }, }; resp.retCode = ResultCodes.success; service.hello(req.args[0], callParams); resp.result = {}; } next(); }); } export interface MoreMembersDef { member1: (callParams: CallParams) => void; member2: (s1: string, callParams: CallParams<'s1'>) => void; member3: (s1: string, s2: string, callParams: CallParams<'s1' | 's2'>) => void; member4: (s1: string, s2: string, i: number, callParams: CallParams<'s1' | 's2' | 'i'>) => number; member5: (s1: string, s2: string, i: number, callParams: CallParams<'s1' | 's2' | 'i'>) => number; } export function registerMoreMembers(serviceId: string, service: MoreMembersDef): void; export function registerMoreMembers(peer: FluencePeer, serviceId: string, service: MoreMembersDef): void; export function registerMoreMembers(...args: any) { let peer: FluencePeer; let serviceId: any; let service: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; } else { peer = Fluence.getPeer(); } if (typeof args[0] === 'string') { serviceId = args[0]; } else if (typeof args[1] === 'string') { serviceId = args[1]; } // 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 (!FluencePeer.isInstance(args[0]) && typeof args[0] === 'object') { service = args[0]; } else if (typeof args[1] === 'object') { service = args[1]; } else { service = args[2]; } const incorrectServiceDefinitions = missingFields(service, ['member1', 'member2', 'member3', 'member4', 'member5']); if (!!incorrectServiceDefinitions.length) { throw new Error( 'Error registering service MoreMembers: missing functions: ' + incorrectServiceDefinitions.map((d) => "'" + d + "'").join(', '), ); } peer.internals.callServiceHandler.use((req, resp, next) => { if (req.serviceId !== serviceId) { next(); return; } if (req.fnName === 'member1') { const callParams = { ...req.particleContext, tetraplets: {}, }; resp.retCode = ResultCodes.success; service.member1(callParams); resp.result = {}; } if (req.fnName === 'member2') { const callParams = { ...req.particleContext, tetraplets: { s1: req.tetraplets[0], }, }; resp.retCode = ResultCodes.success; service.member2(req.args[0], callParams); resp.result = {}; } if (req.fnName === 'member3') { const callParams = { ...req.particleContext, tetraplets: { s1: req.tetraplets[0], s2: req.tetraplets[1], }, }; resp.retCode = ResultCodes.success; service.member3(req.args[0], req.args[1], callParams); resp.result = {}; } if (req.fnName === 'member4') { const callParams = { ...req.particleContext, tetraplets: { s1: req.tetraplets[0], s2: req.tetraplets[1], i: req.tetraplets[2], }, }; resp.retCode = ResultCodes.success; resp.result = service.member4(req.args[0], req.args[1], req.args[2], callParams); } if (req.fnName === 'member5') { const callParams = { ...req.particleContext, tetraplets: { s1: req.tetraplets[0], s2: req.tetraplets[1], i: req.tetraplets[2], }, }; resp.retCode = ResultCodes.success; resp.result = service.member5(req.args[0], req.args[1], req.args[2], callParams); } next(); }); } // Functions export function f1( callback: (arg0: string, arg1: number, callParams: CallParams<'arg0' | 'arg1'>) => void, config?: { ttl?: number }, ): Promise; export function f1( peer: FluencePeer, callback: (arg0: string, arg1: number, callParams: CallParams<'arg0' | 'arg1'>) => void, config?: { ttl?: number }, ): Promise; export function f1(...args: any) { let peer: FluencePeer; let callback: any; let config: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; callback = args[1]; config = args[2]; } else { peer = Fluence.getPeer(); callback = args[0]; config = args[1]; } let request: RequestFlow; const promise = new Promise((resolve, reject) => { const r = new RequestFlowBuilder() .disableInjections() .withRawScript( ` (xor (seq (call %init_peer_id% ("getDataSrv" "-relay-") [] -relay-) (xor (call %init_peer_id% ("callbackSrv" "callback") ["hello, world" 42]) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 1]) ) ) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 2]) ) `, ) .configHandler((h) => { h.on('getDataSrv', '-relay-', () => { return peer.getStatus().relayPeerId; }); h.use((req, resp, next) => { if (req.serviceId === 'callbackSrv' && req.fnName === 'callback') { const callParams = { ...req.particleContext, tetraplets: { arg0: req.tetraplets[0], arg1: req.tetraplets[1], }, }; resp.retCode = ResultCodes.success; callback(req.args[0], req.args[1], callParams); resp.result = {}; } next(); }); h.onEvent('callbackSrv', 'response', (args) => {}); h.onEvent('errorHandlingSrv', 'error', (args) => { const [err] = args; reject(err); }); }) .handleScriptError(reject) .handleTimeout(() => { reject('Request timed out for f1'); }); if (config && config.ttl) { r.withTTL(config.ttl); } request = r.build(); }); peer.internals.initiateFlow(request!); return Promise.race([promise, Promise.resolve()]); } export function f2( num: number, callback: (arg0: string, arg1: number, callParams: CallParams<'arg0' | 'arg1'>) => void, config?: { ttl?: number }, ): Promise; export function f2( peer: FluencePeer, num: number, callback: (arg0: string, arg1: number, callParams: CallParams<'arg0' | 'arg1'>) => void, config?: { ttl?: number }, ): Promise; export function f2(...args: any) { let peer: FluencePeer; let num: any; let callback: any; let config: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; num = args[1]; callback = args[2]; config = args[3]; } else { peer = Fluence.getPeer(); num = args[0]; callback = args[1]; config = args[2]; } let request: RequestFlow; const promise = new Promise((resolve, reject) => { const r = new RequestFlowBuilder() .disableInjections() .withRawScript( ` (xor (seq (seq (call %init_peer_id% ("getDataSrv" "-relay-") [] -relay-) (call %init_peer_id% ("getDataSrv" "num") [] num) ) (xor (call %init_peer_id% ("callbackSrv" "callback") ["hello, world" 42]) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 1]) ) ) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 2]) ) `, ) .configHandler((h) => { h.on('getDataSrv', '-relay-', () => { return peer.getStatus().relayPeerId; }); h.on('getDataSrv', 'num', () => { return num; }); h.use((req, resp, next) => { if (req.serviceId === 'callbackSrv' && req.fnName === 'callback') { const callParams = { ...req.particleContext, tetraplets: { arg0: req.tetraplets[0], arg1: req.tetraplets[1], }, }; resp.retCode = ResultCodes.success; callback(req.args[0], req.args[1], callParams); resp.result = {}; } next(); }); h.onEvent('callbackSrv', 'response', (args) => {}); h.onEvent('errorHandlingSrv', 'error', (args) => { const [err] = args; reject(err); }); }) .handleScriptError(reject) .handleTimeout(() => { reject('Request timed out for f2'); }); if (config && config.ttl) { r.withTTL(config.ttl); } request = r.build(); }); peer.internals.initiateFlow(request!); return Promise.race([promise, Promise.resolve()]); } export function f3( num: number, callback: (arg0: string, arg1: number, callParams: CallParams<'arg0' | 'arg1'>) => void, config?: { ttl?: number }, ): Promise; export function f3( peer: FluencePeer, num: number, callback: (arg0: string, arg1: number, callParams: CallParams<'arg0' | 'arg1'>) => void, config?: { ttl?: number }, ): Promise; export function f3(...args: any) { let peer: FluencePeer; let num: any; let callback: any; let config: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; num = args[1]; callback = args[2]; config = args[3]; } else { peer = Fluence.getPeer(); num = args[0]; callback = args[1]; config = args[2]; } let request: RequestFlow; const promise = new Promise((resolve, reject) => { const r = new RequestFlowBuilder() .disableInjections() .withRawScript( ` (xor (seq (seq (seq (call %init_peer_id% ("getDataSrv" "-relay-") [] -relay-) (call %init_peer_id% ("getDataSrv" "num") [] num) ) (xor (call %init_peer_id% ("callbackSrv" "callback") ["hello, world" 42]) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 1]) ) ) (xor (call %init_peer_id% ("callbackSrv" "response") ["hello world"]) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 2]) ) ) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 3]) ) `, ) .configHandler((h) => { h.on('getDataSrv', '-relay-', () => { return peer.getStatus().relayPeerId; }); h.on('getDataSrv', 'num', () => { return num; }); h.use((req, resp, next) => { if (req.serviceId === 'callbackSrv' && req.fnName === 'callback') { const callParams = { ...req.particleContext, tetraplets: { arg0: req.tetraplets[0], arg1: req.tetraplets[1], }, }; resp.retCode = ResultCodes.success; callback(req.args[0], req.args[1], callParams); resp.result = {}; } next(); }); h.onEvent('callbackSrv', 'response', (args) => { const [res] = args; resolve(res); }); h.onEvent('errorHandlingSrv', 'error', (args) => { const [err] = args; reject(err); }); }) .handleScriptError(reject) .handleTimeout(() => { reject('Request timed out for f3'); }); if (config && config.ttl) { r.withTTL(config.ttl); } request = r.build(); }); peer.internals.initiateFlow(request!); return promise; } export function callBackZeroArgs( callback: (callParams: CallParams) => void, config?: { ttl?: number }, ): Promise; export function callBackZeroArgs( peer: FluencePeer, callback: (callParams: CallParams) => void, config?: { ttl?: number }, ): Promise; export function callBackZeroArgs(...args: any) { let peer: FluencePeer; let callback: any; let config: any; if (FluencePeer.isInstance(args[0])) { peer = args[0]; callback = args[1]; config = args[2]; } else { peer = Fluence.getPeer(); callback = args[0]; config = args[1]; } let request: RequestFlow; const promise = new Promise((resolve, reject) => { const r = new RequestFlowBuilder() .disableInjections() .withRawScript( ` (xor (seq (call %init_peer_id% ("getDataSrv" "-relay-") [] -relay-) (xor (call %init_peer_id% ("callbackSrv" "callback") []) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 1]) ) ) (call %init_peer_id% ("errorHandlingSrv" "error") [%last_error% 2]) ) `, ) .configHandler((h) => { h.on('getDataSrv', '-relay-', () => { return peer.getStatus().relayPeerId; }); h.use((req, resp, next) => { if (req.serviceId === 'callbackSrv' && req.fnName === 'callback') { const callParams = { ...req.particleContext, tetraplets: {}, }; resp.retCode = ResultCodes.success; callback(callParams); resp.result = {}; } next(); }); h.onEvent('callbackSrv', 'response', (args) => {}); h.onEvent('errorHandlingSrv', 'error', (args) => { const [err] = args; reject(err); }); }) .handleScriptError(reject) .handleTimeout(() => { reject('Request timed out for callBackZeroArgs'); }); if (config && config.ttl) { r.withTTL(config.ttl); } request = r.build(); }); peer.internals.initiateFlow(request!); return Promise.race([promise, Promise.resolve()]); }