client.js
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"use strict";
/*
* Copyright 2019 gRPC authors.
*
* 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.
*
*/
Object.defineProperty(exports, "__esModule", { value: true });
exports.Client = void 0;
const call_1 = require("./call");
const channel_1 = require("./channel");
const constants_1 = require("./constants");
const metadata_1 = require("./metadata");
const client_interceptors_1 = require("./client-interceptors");
const CHANNEL_SYMBOL = Symbol();
const INTERCEPTOR_SYMBOL = Symbol();
const INTERCEPTOR_PROVIDER_SYMBOL = Symbol();
const CALL_INVOCATION_TRANSFORMER_SYMBOL = Symbol();
function isFunction(arg) {
return typeof arg === 'function';
}
/**
* A generic gRPC client. Primarily useful as a base class for all generated
* clients.
*/
class Client {
constructor(address, credentials, options = {}) {
var _a, _b;
options = Object.assign({}, options);
this[INTERCEPTOR_SYMBOL] = (_a = options.interceptors) !== null && _a !== void 0 ? _a : [];
delete options.interceptors;
this[INTERCEPTOR_PROVIDER_SYMBOL] = (_b = options.interceptor_providers) !== null && _b !== void 0 ? _b : [];
delete options.interceptor_providers;
if (this[INTERCEPTOR_SYMBOL].length > 0 &&
this[INTERCEPTOR_PROVIDER_SYMBOL].length > 0) {
throw new Error('Both interceptors and interceptor_providers were passed as options ' +
'to the client constructor. Only one of these is allowed.');
}
this[CALL_INVOCATION_TRANSFORMER_SYMBOL] =
options.callInvocationTransformer;
delete options.callInvocationTransformer;
if (options.channelOverride) {
this[CHANNEL_SYMBOL] = options.channelOverride;
}
else if (options.channelFactoryOverride) {
const channelFactoryOverride = options.channelFactoryOverride;
delete options.channelFactoryOverride;
this[CHANNEL_SYMBOL] = channelFactoryOverride(address, credentials, options);
}
else {
this[CHANNEL_SYMBOL] = new channel_1.ChannelImplementation(address, credentials, options);
}
}
close() {
this[CHANNEL_SYMBOL].close();
}
getChannel() {
return this[CHANNEL_SYMBOL];
}
waitForReady(deadline, callback) {
const checkState = (err) => {
if (err) {
callback(new Error('Failed to connect before the deadline'));
return;
}
let newState;
try {
newState = this[CHANNEL_SYMBOL].getConnectivityState(true);
}
catch (e) {
callback(new Error('The channel has been closed'));
return;
}
if (newState === channel_1.ConnectivityState.READY) {
callback();
}
else {
try {
this[CHANNEL_SYMBOL].watchConnectivityState(newState, deadline, checkState);
}
catch (e) {
callback(new Error('The channel has been closed'));
}
}
};
setImmediate(checkState);
}
checkOptionalUnaryResponseArguments(arg1, arg2, arg3) {
if (isFunction(arg1)) {
return { metadata: new metadata_1.Metadata(), options: {}, callback: arg1 };
}
else if (isFunction(arg2)) {
if (arg1 instanceof metadata_1.Metadata) {
return { metadata: arg1, options: {}, callback: arg2 };
}
else {
return { metadata: new metadata_1.Metadata(), options: arg1, callback: arg2 };
}
}
else {
if (!(arg1 instanceof metadata_1.Metadata &&
arg2 instanceof Object &&
isFunction(arg3))) {
throw new Error('Incorrect arguments passed');
}
return { metadata: arg1, options: arg2, callback: arg3 };
}
}
makeUnaryRequest(method, serialize, deserialize, argument, metadata, options, callback) {
var _a, _b;
const checkedArguments = this.checkOptionalUnaryResponseArguments(metadata, options, callback);
const methodDefinition = {
path: method,
requestStream: false,
responseStream: false,
requestSerialize: serialize,
responseDeserialize: deserialize,
};
let callProperties = {
argument: argument,
metadata: checkedArguments.metadata,
call: new call_1.ClientUnaryCallImpl(),
channel: this[CHANNEL_SYMBOL],
methodDefinition: methodDefinition,
callOptions: checkedArguments.options,
callback: checkedArguments.callback,
};
if (this[CALL_INVOCATION_TRANSFORMER_SYMBOL]) {
callProperties = this[CALL_INVOCATION_TRANSFORMER_SYMBOL](callProperties);
}
const emitter = callProperties.call;
const interceptorArgs = {
clientInterceptors: this[INTERCEPTOR_SYMBOL],
clientInterceptorProviders: this[INTERCEPTOR_PROVIDER_SYMBOL],
callInterceptors: (_a = callProperties.callOptions.interceptors) !== null && _a !== void 0 ? _a : [],
callInterceptorProviders: (_b = callProperties.callOptions.interceptor_providers) !== null && _b !== void 0 ? _b : [],
};
const call = client_interceptors_1.getInterceptingCall(interceptorArgs, callProperties.methodDefinition, callProperties.callOptions, callProperties.channel);
/* This needs to happen before the emitter is used. Unfortunately we can't
* enforce this with the type system. We need to construct this emitter
* before calling the CallInvocationTransformer, and we need to create the
* call after that. */
emitter.call = call;
if (callProperties.callOptions.credentials) {
call.setCredentials(callProperties.callOptions.credentials);
}
let responseMessage = null;
let receivedStatus = false;
call.start(callProperties.metadata, {
onReceiveMetadata: (metadata) => {
emitter.emit('metadata', metadata);
},
// eslint-disable-next-line @typescript-eslint/no-explicit-any
onReceiveMessage(message) {
if (responseMessage !== null) {
call.cancelWithStatus(constants_1.Status.INTERNAL, 'Too many responses received');
}
responseMessage = message;
},
onReceiveStatus(status) {
if (receivedStatus) {
return;
}
receivedStatus = true;
if (status.code === constants_1.Status.OK) {
callProperties.callback(null, responseMessage);
}
else {
callProperties.callback(call_1.callErrorFromStatus(status));
}
emitter.emit('status', status);
},
});
call.sendMessage(argument);
call.halfClose();
return emitter;
}
makeClientStreamRequest(method, serialize, deserialize, metadata, options, callback) {
var _a, _b;
const checkedArguments = this.checkOptionalUnaryResponseArguments(metadata, options, callback);
const methodDefinition = {
path: method,
requestStream: true,
responseStream: false,
requestSerialize: serialize,
responseDeserialize: deserialize,
};
let callProperties = {
metadata: checkedArguments.metadata,
call: new call_1.ClientWritableStreamImpl(serialize),
channel: this[CHANNEL_SYMBOL],
methodDefinition: methodDefinition,
callOptions: checkedArguments.options,
callback: checkedArguments.callback,
};
if (this[CALL_INVOCATION_TRANSFORMER_SYMBOL]) {
callProperties = this[CALL_INVOCATION_TRANSFORMER_SYMBOL](callProperties);
}
const emitter = callProperties.call;
const interceptorArgs = {
clientInterceptors: this[INTERCEPTOR_SYMBOL],
clientInterceptorProviders: this[INTERCEPTOR_PROVIDER_SYMBOL],
callInterceptors: (_a = callProperties.callOptions.interceptors) !== null && _a !== void 0 ? _a : [],
callInterceptorProviders: (_b = callProperties.callOptions.interceptor_providers) !== null && _b !== void 0 ? _b : [],
};
const call = client_interceptors_1.getInterceptingCall(interceptorArgs, callProperties.methodDefinition, callProperties.callOptions, callProperties.channel);
/* This needs to happen before the emitter is used. Unfortunately we can't
* enforce this with the type system. We need to construct this emitter
* before calling the CallInvocationTransformer, and we need to create the
* call after that. */
emitter.call = call;
if (callProperties.callOptions.credentials) {
call.setCredentials(callProperties.callOptions.credentials);
}
let responseMessage = null;
let receivedStatus = false;
call.start(callProperties.metadata, {
onReceiveMetadata: (metadata) => {
emitter.emit('metadata', metadata);
},
// eslint-disable-next-line @typescript-eslint/no-explicit-any
onReceiveMessage(message) {
if (responseMessage !== null) {
call.cancelWithStatus(constants_1.Status.INTERNAL, 'Too many responses received');
}
responseMessage = message;
},
onReceiveStatus(status) {
if (receivedStatus) {
return;
}
receivedStatus = true;
if (status.code === constants_1.Status.OK) {
callProperties.callback(null, responseMessage);
}
else {
callProperties.callback(call_1.callErrorFromStatus(status));
}
emitter.emit('status', status);
},
});
return emitter;
}
checkMetadataAndOptions(arg1, arg2) {
let metadata;
let options;
if (arg1 instanceof metadata_1.Metadata) {
metadata = arg1;
if (arg2) {
options = arg2;
}
else {
options = {};
}
}
else {
if (arg1) {
options = arg1;
}
else {
options = {};
}
metadata = new metadata_1.Metadata();
}
return { metadata, options };
}
makeServerStreamRequest(method, serialize, deserialize, argument, metadata, options) {
var _a, _b;
const checkedArguments = this.checkMetadataAndOptions(metadata, options);
const methodDefinition = {
path: method,
requestStream: false,
responseStream: true,
requestSerialize: serialize,
responseDeserialize: deserialize,
};
let callProperties = {
argument: argument,
metadata: checkedArguments.metadata,
call: new call_1.ClientReadableStreamImpl(deserialize),
channel: this[CHANNEL_SYMBOL],
methodDefinition: methodDefinition,
callOptions: checkedArguments.options,
};
if (this[CALL_INVOCATION_TRANSFORMER_SYMBOL]) {
callProperties = this[CALL_INVOCATION_TRANSFORMER_SYMBOL](callProperties);
}
const stream = callProperties.call;
const interceptorArgs = {
clientInterceptors: this[INTERCEPTOR_SYMBOL],
clientInterceptorProviders: this[INTERCEPTOR_PROVIDER_SYMBOL],
callInterceptors: (_a = callProperties.callOptions.interceptors) !== null && _a !== void 0 ? _a : [],
callInterceptorProviders: (_b = callProperties.callOptions.interceptor_providers) !== null && _b !== void 0 ? _b : [],
};
const call = client_interceptors_1.getInterceptingCall(interceptorArgs, callProperties.methodDefinition, callProperties.callOptions, callProperties.channel);
/* This needs to happen before the emitter is used. Unfortunately we can't
* enforce this with the type system. We need to construct this emitter
* before calling the CallInvocationTransformer, and we need to create the
* call after that. */
stream.call = call;
if (callProperties.callOptions.credentials) {
call.setCredentials(callProperties.callOptions.credentials);
}
let receivedStatus = false;
call.start(callProperties.metadata, {
onReceiveMetadata(metadata) {
stream.emit('metadata', metadata);
},
// eslint-disable-next-line @typescript-eslint/no-explicit-any
onReceiveMessage(message) {
stream.push(message);
},
onReceiveStatus(status) {
if (receivedStatus) {
return;
}
receivedStatus = true;
stream.push(null);
if (status.code !== constants_1.Status.OK) {
stream.emit('error', call_1.callErrorFromStatus(status));
}
stream.emit('status', status);
},
});
call.sendMessage(argument);
call.halfClose();
return stream;
}
makeBidiStreamRequest(method, serialize, deserialize, metadata, options) {
var _a, _b;
const checkedArguments = this.checkMetadataAndOptions(metadata, options);
const methodDefinition = {
path: method,
requestStream: true,
responseStream: true,
requestSerialize: serialize,
responseDeserialize: deserialize,
};
let callProperties = {
metadata: checkedArguments.metadata,
call: new call_1.ClientDuplexStreamImpl(serialize, deserialize),
channel: this[CHANNEL_SYMBOL],
methodDefinition: methodDefinition,
callOptions: checkedArguments.options,
};
if (this[CALL_INVOCATION_TRANSFORMER_SYMBOL]) {
callProperties = this[CALL_INVOCATION_TRANSFORMER_SYMBOL](callProperties);
}
const stream = callProperties.call;
const interceptorArgs = {
clientInterceptors: this[INTERCEPTOR_SYMBOL],
clientInterceptorProviders: this[INTERCEPTOR_PROVIDER_SYMBOL],
callInterceptors: (_a = callProperties.callOptions.interceptors) !== null && _a !== void 0 ? _a : [],
callInterceptorProviders: (_b = callProperties.callOptions.interceptor_providers) !== null && _b !== void 0 ? _b : [],
};
const call = client_interceptors_1.getInterceptingCall(interceptorArgs, callProperties.methodDefinition, callProperties.callOptions, callProperties.channel);
/* This needs to happen before the emitter is used. Unfortunately we can't
* enforce this with the type system. We need to construct this emitter
* before calling the CallInvocationTransformer, and we need to create the
* call after that. */
stream.call = call;
if (callProperties.callOptions.credentials) {
call.setCredentials(callProperties.callOptions.credentials);
}
let receivedStatus = false;
call.start(callProperties.metadata, {
onReceiveMetadata(metadata) {
stream.emit('metadata', metadata);
},
onReceiveMessage(message) {
stream.push(message);
},
onReceiveStatus(status) {
if (receivedStatus) {
return;
}
receivedStatus = true;
stream.push(null);
if (status.code !== constants_1.Status.OK) {
stream.emit('error', call_1.callErrorFromStatus(status));
}
stream.emit('status', status);
},
});
return stream;
}
}
exports.Client = Client;
//# sourceMappingURL=client.js.map