File: /var/www/javago-api-updates/node_modules/@grpc/grpc-js/build/src/channelz.js
"use strict";
/*
* Copyright 2021 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.registerChannelzSocket = exports.registerChannelzServer = exports.registerChannelzSubchannel = exports.registerChannelzChannel = exports.ChannelzCallTrackerStub = exports.ChannelzCallTracker = exports.ChannelzChildrenTrackerStub = exports.ChannelzChildrenTracker = exports.ChannelzTrace = exports.ChannelzTraceStub = void 0;
exports.unregisterChannelzRef = unregisterChannelzRef;
exports.getChannelzHandlers = getChannelzHandlers;
exports.getChannelzServiceDefinition = getChannelzServiceDefinition;
exports.setup = setup;
const net_1 = require("net");
const ordered_map_1 = require("@js-sdsl/ordered-map");
const connectivity_state_1 = require("./connectivity-state");
const constants_1 = require("./constants");
const subchannel_address_1 = require("./subchannel-address");
const admin_1 = require("./admin");
const make_client_1 = require("./make-client");
function channelRefToMessage(ref) {
return {
channel_id: ref.id,
name: ref.name,
};
}
function subchannelRefToMessage(ref) {
return {
subchannel_id: ref.id,
name: ref.name,
};
}
function serverRefToMessage(ref) {
return {
server_id: ref.id,
};
}
function socketRefToMessage(ref) {
return {
socket_id: ref.id,
name: ref.name,
};
}
/**
* The loose upper bound on the number of events that should be retained in a
* trace. This may be exceeded by up to a factor of 2. Arbitrarily chosen as a
* number that should be large enough to contain the recent relevant
* information, but small enough to not use excessive memory.
*/
const TARGET_RETAINED_TRACES = 32;
/**
* Default number of sockets/servers/channels/subchannels to return
*/
const DEFAULT_MAX_RESULTS = 100;
class ChannelzTraceStub {
constructor() {
this.events = [];
this.creationTimestamp = new Date();
this.eventsLogged = 0;
}
addTrace() { }
getTraceMessage() {
return {
creation_timestamp: dateToProtoTimestamp(this.creationTimestamp),
num_events_logged: this.eventsLogged,
events: [],
};
}
}
exports.ChannelzTraceStub = ChannelzTraceStub;
class ChannelzTrace {
constructor() {
this.events = [];
this.eventsLogged = 0;
this.creationTimestamp = new Date();
}
addTrace(severity, description, child) {
const timestamp = new Date();
this.events.push({
description: description,
severity: severity,
timestamp: timestamp,
childChannel: (child === null || child === void 0 ? void 0 : child.kind) === 'channel' ? child : undefined,
childSubchannel: (child === null || child === void 0 ? void 0 : child.kind) === 'subchannel' ? child : undefined,
});
// Whenever the trace array gets too large, discard the first half
if (this.events.length >= TARGET_RETAINED_TRACES * 2) {
this.events = this.events.slice(TARGET_RETAINED_TRACES);
}
this.eventsLogged += 1;
}
getTraceMessage() {
return {
creation_timestamp: dateToProtoTimestamp(this.creationTimestamp),
num_events_logged: this.eventsLogged,
events: this.events.map(event => {
return {
description: event.description,
severity: event.severity,
timestamp: dateToProtoTimestamp(event.timestamp),
channel_ref: event.childChannel
? channelRefToMessage(event.childChannel)
: null,
subchannel_ref: event.childSubchannel
? subchannelRefToMessage(event.childSubchannel)
: null,
};
}),
};
}
}
exports.ChannelzTrace = ChannelzTrace;
class ChannelzChildrenTracker {
constructor() {
this.channelChildren = new ordered_map_1.OrderedMap();
this.subchannelChildren = new ordered_map_1.OrderedMap();
this.socketChildren = new ordered_map_1.OrderedMap();
this.trackerMap = {
["channel" /* EntityTypes.channel */]: this.channelChildren,
["subchannel" /* EntityTypes.subchannel */]: this.subchannelChildren,
["socket" /* EntityTypes.socket */]: this.socketChildren,
};
}
refChild(child) {
const tracker = this.trackerMap[child.kind];
const trackedChild = tracker.find(child.id);
if (trackedChild.equals(tracker.end())) {
tracker.setElement(child.id, {
ref: child,
count: 1,
}, trackedChild);
}
else {
trackedChild.pointer[1].count += 1;
}
}
unrefChild(child) {
const tracker = this.trackerMap[child.kind];
const trackedChild = tracker.getElementByKey(child.id);
if (trackedChild !== undefined) {
trackedChild.count -= 1;
if (trackedChild.count === 0) {
tracker.eraseElementByKey(child.id);
}
}
}
getChildLists() {
return {
channels: this.channelChildren,
subchannels: this.subchannelChildren,
sockets: this.socketChildren,
};
}
}
exports.ChannelzChildrenTracker = ChannelzChildrenTracker;
class ChannelzChildrenTrackerStub extends ChannelzChildrenTracker {
refChild() { }
unrefChild() { }
}
exports.ChannelzChildrenTrackerStub = ChannelzChildrenTrackerStub;
class ChannelzCallTracker {
constructor() {
this.callsStarted = 0;
this.callsSucceeded = 0;
this.callsFailed = 0;
this.lastCallStartedTimestamp = null;
}
addCallStarted() {
this.callsStarted += 1;
this.lastCallStartedTimestamp = new Date();
}
addCallSucceeded() {
this.callsSucceeded += 1;
}
addCallFailed() {
this.callsFailed += 1;
}
}
exports.ChannelzCallTracker = ChannelzCallTracker;
class ChannelzCallTrackerStub extends ChannelzCallTracker {
addCallStarted() { }
addCallSucceeded() { }
addCallFailed() { }
}
exports.ChannelzCallTrackerStub = ChannelzCallTrackerStub;
const entityMaps = {
["channel" /* EntityTypes.channel */]: new ordered_map_1.OrderedMap(),
["subchannel" /* EntityTypes.subchannel */]: new ordered_map_1.OrderedMap(),
["server" /* EntityTypes.server */]: new ordered_map_1.OrderedMap(),
["socket" /* EntityTypes.socket */]: new ordered_map_1.OrderedMap(),
};
const generateRegisterFn = (kind) => {
let nextId = 1;
function getNextId() {
return nextId++;
}
const entityMap = entityMaps[kind];
return (name, getInfo, channelzEnabled) => {
const id = getNextId();
const ref = { id, name, kind };
if (channelzEnabled) {
entityMap.setElement(id, { ref, getInfo });
}
return ref;
};
};
exports.registerChannelzChannel = generateRegisterFn("channel" /* EntityTypes.channel */);
exports.registerChannelzSubchannel = generateRegisterFn("subchannel" /* EntityTypes.subchannel */);
exports.registerChannelzServer = generateRegisterFn("server" /* EntityTypes.server */);
exports.registerChannelzSocket = generateRegisterFn("socket" /* EntityTypes.socket */);
function unregisterChannelzRef(ref) {
entityMaps[ref.kind].eraseElementByKey(ref.id);
}
/**
* Parse a single section of an IPv6 address as two bytes
* @param addressSection A hexadecimal string of length up to 4
* @returns The pair of bytes representing this address section
*/
function parseIPv6Section(addressSection) {
const numberValue = Number.parseInt(addressSection, 16);
return [(numberValue / 256) | 0, numberValue % 256];
}
/**
* Parse a chunk of an IPv6 address string to some number of bytes
* @param addressChunk Some number of segments of up to 4 hexadecimal
* characters each, joined by colons.
* @returns The list of bytes representing this address chunk
*/
function parseIPv6Chunk(addressChunk) {
if (addressChunk === '') {
return [];
}
const bytePairs = addressChunk
.split(':')
.map(section => parseIPv6Section(section));
const result = [];
return result.concat(...bytePairs);
}
function isIPv6MappedIPv4(ipAddress) {
return (0, net_1.isIPv6)(ipAddress) && ipAddress.toLowerCase().startsWith('::ffff:') && (0, net_1.isIPv4)(ipAddress.substring(7));
}
/**
* Prerequisite: isIPv4(ipAddress)
* @param ipAddress
* @returns
*/
function ipv4AddressStringToBuffer(ipAddress) {
return Buffer.from(Uint8Array.from(ipAddress.split('.').map(segment => Number.parseInt(segment))));
}
/**
* Converts an IPv4 or IPv6 address from string representation to binary
* representation
* @param ipAddress an IP address in standard IPv4 or IPv6 text format
* @returns
*/
function ipAddressStringToBuffer(ipAddress) {
if ((0, net_1.isIPv4)(ipAddress)) {
return ipv4AddressStringToBuffer(ipAddress);
}
else if (isIPv6MappedIPv4(ipAddress)) {
return ipv4AddressStringToBuffer(ipAddress.substring(7));
}
else if ((0, net_1.isIPv6)(ipAddress)) {
let leftSection;
let rightSection;
const doubleColonIndex = ipAddress.indexOf('::');
if (doubleColonIndex === -1) {
leftSection = ipAddress;
rightSection = '';
}
else {
leftSection = ipAddress.substring(0, doubleColonIndex);
rightSection = ipAddress.substring(doubleColonIndex + 2);
}
const leftBuffer = Buffer.from(parseIPv6Chunk(leftSection));
const rightBuffer = Buffer.from(parseIPv6Chunk(rightSection));
const middleBuffer = Buffer.alloc(16 - leftBuffer.length - rightBuffer.length, 0);
return Buffer.concat([leftBuffer, middleBuffer, rightBuffer]);
}
else {
return null;
}
}
function connectivityStateToMessage(state) {
switch (state) {
case connectivity_state_1.ConnectivityState.CONNECTING:
return {
state: 'CONNECTING',
};
case connectivity_state_1.ConnectivityState.IDLE:
return {
state: 'IDLE',
};
case connectivity_state_1.ConnectivityState.READY:
return {
state: 'READY',
};
case connectivity_state_1.ConnectivityState.SHUTDOWN:
return {
state: 'SHUTDOWN',
};
case connectivity_state_1.ConnectivityState.TRANSIENT_FAILURE:
return {
state: 'TRANSIENT_FAILURE',
};
default:
return {
state: 'UNKNOWN',
};
}
}
function dateToProtoTimestamp(date) {
if (!date) {
return null;
}
const millisSinceEpoch = date.getTime();
return {
seconds: (millisSinceEpoch / 1000) | 0,
nanos: (millisSinceEpoch % 1000) * 1000000,
};
}
function getChannelMessage(channelEntry) {
const resolvedInfo = channelEntry.getInfo();
const channelRef = [];
const subchannelRef = [];
resolvedInfo.children.channels.forEach(el => {
channelRef.push(channelRefToMessage(el[1].ref));
});
resolvedInfo.children.subchannels.forEach(el => {
subchannelRef.push(subchannelRefToMessage(el[1].ref));
});
return {
ref: channelRefToMessage(channelEntry.ref),
data: {
target: resolvedInfo.target,
state: connectivityStateToMessage(resolvedInfo.state),
calls_started: resolvedInfo.callTracker.callsStarted,
calls_succeeded: resolvedInfo.callTracker.callsSucceeded,
calls_failed: resolvedInfo.callTracker.callsFailed,
last_call_started_timestamp: dateToProtoTimestamp(resolvedInfo.callTracker.lastCallStartedTimestamp),
trace: resolvedInfo.trace.getTraceMessage(),
},
channel_ref: channelRef,
subchannel_ref: subchannelRef,
};
}
function GetChannel(call, callback) {
const channelId = parseInt(call.request.channel_id, 10);
const channelEntry = entityMaps["channel" /* EntityTypes.channel */].getElementByKey(channelId);
if (channelEntry === undefined) {
callback({
code: constants_1.Status.NOT_FOUND,
details: 'No channel data found for id ' + channelId,
});
return;
}
callback(null, { channel: getChannelMessage(channelEntry) });
}
function GetTopChannels(call, callback) {
const maxResults = parseInt(call.request.max_results, 10) || DEFAULT_MAX_RESULTS;
const resultList = [];
const startId = parseInt(call.request.start_channel_id, 10);
const channelEntries = entityMaps["channel" /* EntityTypes.channel */];
let i;
for (i = channelEntries.lowerBound(startId); !i.equals(channelEntries.end()) && resultList.length < maxResults; i = i.next()) {
resultList.push(getChannelMessage(i.pointer[1]));
}
callback(null, {
channel: resultList,
end: i.equals(channelEntries.end()),
});
}
function getServerMessage(serverEntry) {
const resolvedInfo = serverEntry.getInfo();
const listenSocket = [];
resolvedInfo.listenerChildren.sockets.forEach(el => {
listenSocket.push(socketRefToMessage(el[1].ref));
});
return {
ref: serverRefToMessage(serverEntry.ref),
data: {
calls_started: resolvedInfo.callTracker.callsStarted,
calls_succeeded: resolvedInfo.callTracker.callsSucceeded,
calls_failed: resolvedInfo.callTracker.callsFailed,
last_call_started_timestamp: dateToProtoTimestamp(resolvedInfo.callTracker.lastCallStartedTimestamp),
trace: resolvedInfo.trace.getTraceMessage(),
},
listen_socket: listenSocket,
};
}
function GetServer(call, callback) {
const serverId = parseInt(call.request.server_id, 10);
const serverEntries = entityMaps["server" /* EntityTypes.server */];
const serverEntry = serverEntries.getElementByKey(serverId);
if (serverEntry === undefined) {
callback({
code: constants_1.Status.NOT_FOUND,
details: 'No server data found for id ' + serverId,
});
return;
}
callback(null, { server: getServerMessage(serverEntry) });
}
function GetServers(call, callback) {
const maxResults = parseInt(call.request.max_results, 10) || DEFAULT_MAX_RESULTS;
const startId = parseInt(call.request.start_server_id, 10);
const serverEntries = entityMaps["server" /* EntityTypes.server */];
const resultList = [];
let i;
for (i = serverEntries.lowerBound(startId); !i.equals(serverEntries.end()) && resultList.length < maxResults; i = i.next()) {
resultList.push(getServerMessage(i.pointer[1]));
}
callback(null, {
server: resultList,
end: i.equals(serverEntries.end()),
});
}
function GetSubchannel(call, callback) {
const subchannelId = parseInt(call.request.subchannel_id, 10);
const subchannelEntry = entityMaps["subchannel" /* EntityTypes.subchannel */].getElementByKey(subchannelId);
if (subchannelEntry === undefined) {
callback({
code: constants_1.Status.NOT_FOUND,
details: 'No subchannel data found for id ' + subchannelId,
});
return;
}
const resolvedInfo = subchannelEntry.getInfo();
const listenSocket = [];
resolvedInfo.children.sockets.forEach(el => {
listenSocket.push(socketRefToMessage(el[1].ref));
});
const subchannelMessage = {
ref: subchannelRefToMessage(subchannelEntry.ref),
data: {
target: resolvedInfo.target,
state: connectivityStateToMessage(resolvedInfo.state),
calls_started: resolvedInfo.callTracker.callsStarted,
calls_succeeded: resolvedInfo.callTracker.callsSucceeded,
calls_failed: resolvedInfo.callTracker.callsFailed,
last_call_started_timestamp: dateToProtoTimestamp(resolvedInfo.callTracker.lastCallStartedTimestamp),
trace: resolvedInfo.trace.getTraceMessage(),
},
socket_ref: listenSocket,
};
callback(null, { subchannel: subchannelMessage });
}
function subchannelAddressToAddressMessage(subchannelAddress) {
var _a;
if ((0, subchannel_address_1.isTcpSubchannelAddress)(subchannelAddress)) {
return {
address: 'tcpip_address',
tcpip_address: {
ip_address: (_a = ipAddressStringToBuffer(subchannelAddress.host)) !== null && _a !== void 0 ? _a : undefined,
port: subchannelAddress.port,
},
};
}
else {
return {
address: 'uds_address',
uds_address: {
filename: subchannelAddress.path,
},
};
}
}
function GetSocket(call, callback) {
var _a, _b, _c, _d, _e;
const socketId = parseInt(call.request.socket_id, 10);
const socketEntry = entityMaps["socket" /* EntityTypes.socket */].getElementByKey(socketId);
if (socketEntry === undefined) {
callback({
code: constants_1.Status.NOT_FOUND,
details: 'No socket data found for id ' + socketId,
});
return;
}
const resolvedInfo = socketEntry.getInfo();
const securityMessage = resolvedInfo.security
? {
model: 'tls',
tls: {
cipher_suite: resolvedInfo.security.cipherSuiteStandardName
? 'standard_name'
: 'other_name',
standard_name: (_a = resolvedInfo.security.cipherSuiteStandardName) !== null && _a !== void 0 ? _a : undefined,
other_name: (_b = resolvedInfo.security.cipherSuiteOtherName) !== null && _b !== void 0 ? _b : undefined,
local_certificate: (_c = resolvedInfo.security.localCertificate) !== null && _c !== void 0 ? _c : undefined,
remote_certificate: (_d = resolvedInfo.security.remoteCertificate) !== null && _d !== void 0 ? _d : undefined,
},
}
: null;
const socketMessage = {
ref: socketRefToMessage(socketEntry.ref),
local: resolvedInfo.localAddress
? subchannelAddressToAddressMessage(resolvedInfo.localAddress)
: null,
remote: resolvedInfo.remoteAddress
? subchannelAddressToAddressMessage(resolvedInfo.remoteAddress)
: null,
remote_name: (_e = resolvedInfo.remoteName) !== null && _e !== void 0 ? _e : undefined,
security: securityMessage,
data: {
keep_alives_sent: resolvedInfo.keepAlivesSent,
streams_started: resolvedInfo.streamsStarted,
streams_succeeded: resolvedInfo.streamsSucceeded,
streams_failed: resolvedInfo.streamsFailed,
last_local_stream_created_timestamp: dateToProtoTimestamp(resolvedInfo.lastLocalStreamCreatedTimestamp),
last_remote_stream_created_timestamp: dateToProtoTimestamp(resolvedInfo.lastRemoteStreamCreatedTimestamp),
messages_received: resolvedInfo.messagesReceived,
messages_sent: resolvedInfo.messagesSent,
last_message_received_timestamp: dateToProtoTimestamp(resolvedInfo.lastMessageReceivedTimestamp),
last_message_sent_timestamp: dateToProtoTimestamp(resolvedInfo.lastMessageSentTimestamp),
local_flow_control_window: resolvedInfo.localFlowControlWindow
? { value: resolvedInfo.localFlowControlWindow }
: null,
remote_flow_control_window: resolvedInfo.remoteFlowControlWindow
? { value: resolvedInfo.remoteFlowControlWindow }
: null,
},
};
callback(null, { socket: socketMessage });
}
function GetServerSockets(call, callback) {
const serverId = parseInt(call.request.server_id, 10);
const serverEntry = entityMaps["server" /* EntityTypes.server */].getElementByKey(serverId);
if (serverEntry === undefined) {
callback({
code: constants_1.Status.NOT_FOUND,
details: 'No server data found for id ' + serverId,
});
return;
}
const startId = parseInt(call.request.start_socket_id, 10);
const maxResults = parseInt(call.request.max_results, 10) || DEFAULT_MAX_RESULTS;
const resolvedInfo = serverEntry.getInfo();
// If we wanted to include listener sockets in the result, this line would
// instead say
// const allSockets = resolvedInfo.listenerChildren.sockets.concat(resolvedInfo.sessionChildren.sockets).sort((ref1, ref2) => ref1.id - ref2.id);
const allSockets = resolvedInfo.sessionChildren.sockets;
const resultList = [];
let i;
for (i = allSockets.lowerBound(startId); !i.equals(allSockets.end()) && resultList.length < maxResults; i = i.next()) {
resultList.push(socketRefToMessage(i.pointer[1].ref));
}
callback(null, {
socket_ref: resultList,
end: i.equals(allSockets.end()),
});
}
function getChannelzHandlers() {
return {
GetChannel,
GetTopChannels,
GetServer,
GetServers,
GetSubchannel,
GetSocket,
GetServerSockets,
};
}
let loadedChannelzDefinition = null;
function getChannelzServiceDefinition() {
if (loadedChannelzDefinition) {
return loadedChannelzDefinition;
}
/* The purpose of this complexity is to avoid loading @grpc/proto-loader at
* runtime for users who will not use/enable channelz. */
const loaderLoadSync = require('@grpc/proto-loader')
.loadSync;
const loadedProto = loaderLoadSync('channelz.proto', {
keepCase: true,
longs: String,
enums: String,
defaults: true,
oneofs: true,
includeDirs: [`${__dirname}/../../proto`],
});
const channelzGrpcObject = (0, make_client_1.loadPackageDefinition)(loadedProto);
loadedChannelzDefinition =
channelzGrpcObject.grpc.channelz.v1.Channelz.service;
return loadedChannelzDefinition;
}
function setup() {
(0, admin_1.registerAdminService)(getChannelzServiceDefinition, getChannelzHandlers);
}
//# sourceMappingURL=channelz.js.map