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pulumi/sdk/nodejs/runtime/invoke.ts
Cyrus Najmabadi 608b95e1e5 Switch away from native grpc impl.
2020-01-08 14:09:45 -08:00

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TypeScript
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// Copyright 2016-2018, Pulumi Corporation.
//
// 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 * as grpc from "@grpc/grpc-js";
import * as fs from "fs";
import { AsyncIterable } from "@pulumi/query/interfaces";
import * as asset from "../asset";
import { Config } from "../config";
import { InvokeOptions } from "../invoke";
import * as log from "../log";
import { Inputs, Output } from "../output";
import { debuggablePromise } from "./debuggable";
import { deserializeProperties, serializeProperties } from "./rpc";
import { excessiveDebugOutput, getMonitor, rpcKeepAlive, SyncInvokes, tryGetSyncInvokes } from "./settings";
import { ProviderResource, Resource } from "../resource";
import * as utils from "../utils";
import { PushableAsyncIterable } from "./asyncIterableUtil";
const gstruct = require("google-protobuf/google/protobuf/struct_pb.js");
const providerproto = require("../proto/provider_pb.js");
/**
* `invoke` dynamically invokes the function, `tok`, which is offered by a provider plugin. `invoke`
* behaves differently in the case that options contains `{async:true}` or not.
*
* In the case where `{async:true}` is present in the options bag:
*
* 1. the result of `invoke` will be a Promise resolved to the result value of the provider plugin.
* 2. the `props` inputs can be a bag of computed values (including, `T`s, `Promise<T>`s,
* `Output<T>`s etc.).
*
*
* In the case where `{async:true}` is not present in the options bag:
*
* 1. the result of `invoke` will be a Promise resolved to the result value of the provider call.
* However, that Promise will *also* have the respective values of the Provider result exposed
* directly on it as properties.
*
* 2. The inputs must be a bag of simple values, and the result is the result that the Provider
* produced.
*
* Simple values are:
* 1. `undefined`, `null`, string, number or boolean values.
* 2. arrays of simple values.
* 3. objects containing only simple values.
*
* Importantly, simple values do *not* include:
* 1. `Promise`s
* 2. `Output`s
* 3. `Asset`s or `Archive`s
* 4. `Resource`s.
*
* All of these contain async values that would prevent `invoke from being able to operate
* synchronously.
*/
export function invoke(tok: string, props: Inputs, opts: InvokeOptions = {}): Promise<any> {
return invokeAsync(tok, props, opts);
}
export async function streamInvoke(
tok: string,
props: Inputs,
opts: InvokeOptions = {},
): Promise<StreamInvokeResponse<any>> {
const label = `StreamInvoking function: tok=${tok} asynchronously`;
log.debug(label + (excessiveDebugOutput ? `, props=${JSON.stringify(props)}` : ``));
// Wait for all values to be available, and then perform the RPC.
const done = rpcKeepAlive();
try {
const serialized = await serializeProperties(`streamInvoke:${tok}`, props);
log.debug(
`StreamInvoke RPC prepared: tok=${tok}` + excessiveDebugOutput
? `, obj=${JSON.stringify(serialized)}`
: ``,
);
// Fetch the monitor and make an RPC request.
const monitor: any = getMonitor();
const provider = await ProviderResource.register(getProvider(tok, opts));
const req = createInvokeRequest(tok, serialized, provider, opts);
// Call `streamInvoke`.
const call = monitor.streamInvoke(req, {});
const queue = new PushableAsyncIterable();
call.on("data", function(thing: any) {
const live = deserializeResponse(tok, thing);
queue.push(live);
});
call.on("error", (err: any) => {
if (err.code === 1 && err.details === "Cancelled") {
return;
}
throw err;
});
call.on("end", () => {
queue.complete();
});
// Return a cancellable handle to the stream.
return new StreamInvokeResponse(
queue,
() => call.cancel());
} finally {
done();
}
}
async function invokeAsync(tok: string, props: Inputs, opts: InvokeOptions): Promise<any> {
const label = `Invoking function: tok=${tok} asynchronously`;
log.debug(label + (excessiveDebugOutput ? `, props=${JSON.stringify(props)}` : ``));
// Wait for all values to be available, and then perform the RPC.
const done = rpcKeepAlive();
try {
const serialized = await serializeProperties(`invoke:${tok}`, props);
log.debug(`Invoke RPC prepared: tok=${tok}` + excessiveDebugOutput ? `, obj=${JSON.stringify(serialized)}` : ``);
// Fetch the monitor and make an RPC request.
const monitor: any = getMonitor();
const provider = await ProviderResource.register(getProvider(tok, opts));
const req = createInvokeRequest(tok, serialized, provider, opts);
const resp: any = await debuggablePromise(new Promise((innerResolve, innerReject) =>
monitor.invoke(req, (err: grpc.StatusObject, innerResponse: any) => {
log.debug(`Invoke RPC finished: tok=${tok}; err: ${err}, resp: ${innerResponse}`);
if (err) {
// If the monitor is unavailable, it is in the process of shutting down or has already
// shut down. Don't emit an error and don't do any more RPCs, just exit.
if (err.code === grpc.status.UNAVAILABLE) {
log.debug("Resource monitor is terminating");
process.exit(0);
}
// If the RPC failed, rethrow the error with a native exception and the message that
// the engine provided - it's suitable for user presentation.
innerReject(new Error(err.details));
}
else {
innerResolve(innerResponse);
}
})), label);
// Finally propagate any other properties that were given to us as outputs.
return deserializeResponse(tok, resp);
}
finally {
done();
}
}
// StreamInvokeResponse represents a (potentially infinite) streaming response to `streamInvoke`,
// with facilities to gracefully cancel and clean up the stream.
export class StreamInvokeResponse<T> implements AsyncIterable<T> {
constructor(
private source: AsyncIterable<T>,
private cancelSource: () => void,
) {}
// cancel signals the `streamInvoke` should be cancelled and cleaned up gracefully.
public cancel() {
this.cancelSource();
}
[Symbol.asyncIterator]() {
return this.source[Symbol.asyncIterator]();
}
}
function createInvokeRequest(tok: string, serialized: any, provider: string | undefined, opts: InvokeOptions) {
if (provider !== undefined && typeof provider !== "string") {
throw new Error("Incorrect provider type.");
}
const obj = gstruct.Struct.fromJavaScript(serialized);
const req = new providerproto.InvokeRequest();
req.setTok(tok);
req.setArgs(obj);
req.setProvider(provider);
req.setVersion(opts.version || "");
return req;
}
function getProvider(tok: string, opts: InvokeOptions) {
return opts.provider ? opts.provider :
opts.parent ? opts.parent.getProvider(tok) : undefined;
}
function deserializeResponse(tok: string, resp: any): any {
const failures: any = resp.getFailuresList();
if (failures && failures.length) {
let reasons = "";
for (let i = 0; i < failures.length; i++) {
if (reasons !== "") {
reasons += "; ";
}
reasons += `${failures[i].getReason()} (${failures[i].getProperty()})`;
}
throw new Error(`Invoke of '${tok}' failed: ${reasons}`);
}
const ret = resp.getReturn();
return ret === undefined
? ret
: deserializeProperties(ret);
}
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