sync/lib/channel/channel.js

617 lines
18 KiB
JavaScript

var MakeEmitter = require("../emitter");
var Logger = require("../logger");
var ChannelModule = require("./module");
var Flags = require("../flags");
var Account = require("../account");
var util = require("../utilities");
var fs = require("fs");
var path = require("path");
var sio = require("socket.io");
var db = require("../database");
/**
* Previously, async channel functions were riddled with race conditions due to
* an event causing the channel to be unloaded while a pending callback still
* needed to reference it.
*
* This solution should be better than constantly checking whether the channel
* has been unloaded in nested callbacks. The channel won't be unloaded until
* nothing needs it anymore. Conceptually similar to a reference count.
*/
function ActiveLock(channel) {
this.channel = channel;
this.count = 0;
}
ActiveLock.prototype = {
lock: function () {
this.count++;
//console.log('dbg: lock/count: ', this.count);
//console.trace();
},
release: function () {
this.count--;
//console.log('dbg: release/count: ', this.count);
//console.trace();
if (this.count === 0) {
/* sanity check */
if (this.channel.users.length > 0) {
Logger.errlog.log("Warning: ActiveLock count=0 but users.length > 0 (" +
"channel: " + this.channel.name + ")");
this.count = this.channel.users.length;
} else {
this.channel.emit("empty");
}
}
}
};
function Channel(name) {
MakeEmitter(this);
this.name = name;
this.uniqueName = name.toLowerCase();
this.modules = {};
this.logger = new Logger.Logger(path.join(__dirname, "..", "..", "chanlogs",
this.uniqueName));
this.users = [];
this.activeLock = new ActiveLock(this);
this.flags = 0;
var self = this;
db.channels.load(this, function (err) {
if (err && err !== "Channel is not registered") {
return;
} else {
self.initModules();
self.loadState();
}
});
}
Channel.prototype.is = function (flag) {
return Boolean(this.flags & flag);
};
Channel.prototype.setFlag = function (flag) {
this.flags |= flag;
this.emit("setFlag", flag);
};
Channel.prototype.clearFlag = function (flag) {
this.flags &= ~flag;
this.emit("clearFlag", flag);
};
Channel.prototype.waitFlag = function (flag, cb) {
var self = this;
if (self.is(flag)) {
cb();
} else {
var wait = function () {
if (self.is(flag)) {
self.unbind("setFlag", wait);
cb();
}
};
self.on("setFlag", wait);
}
};
Channel.prototype.moderators = function () {
return this.users.filter(function (u) {
return u.account.effectiveRank >= 2;
});
};
Channel.prototype.initModules = function () {
const modules = {
"./permissions" : "permissions",
"./emotes" : "emotes",
"./chat" : "chat",
"./drink" : "drink",
"./filters" : "filters",
"./customization" : "customization",
"./opts" : "options",
"./library" : "library",
"./playlist" : "playlist",
"./voteskip" : "voteskip",
"./poll" : "poll",
"./kickban" : "kickban",
"./ranks" : "rank",
"./accesscontrol" : "password"
};
var self = this;
var inited = [];
Object.keys(modules).forEach(function (m) {
var ctor = require(m);
var module = new ctor(self);
self.modules[modules[m]] = module;
inited.push(modules[m]);
});
self.logger.log("[init] Loaded modules: " + inited.join(", "));
};
Channel.prototype.loadState = function () {
var self = this;
var file = path.join(__dirname, "..", "..", "chandump", self.uniqueName);
/* Don't load from disk if not registered */
if (!self.is(Flags.C_REGISTERED)) {
self.modules.permissions.loadUnregistered();
self.setFlag(Flags.C_READY);
return;
}
var errorLoad = function (msg) {
if (self.modules.customization) {
self.modules.customization.load({
motd: {
motd: msg,
html: msg
}
});
}
self.setFlag(Flags.C_ERROR);
};
fs.stat(file, function (err, stats) {
if (!err) {
var mb = stats.size / 1048576;
mb = Math.floor(mb * 100) / 100;
if (mb > 1) {
Logger.errlog.log("Large chandump detected: " + self.uniqueName +
" (" + mb + " MiB)");
var msg = "This channel's state size has exceeded the memory limit " +
"enforced by this server. Please contact an administrator " +
"for assistance.";
errorLoad(msg);
return;
}
}
continueLoad();
});
var continueLoad = function () {
fs.readFile(file, function (err, data) {
if (err) {
/* ENOENT means the file didn't exist. This is normal for new channels */
if (err.code === "ENOENT") {
self.setFlag(Flags.C_READY);
Object.keys(self.modules).forEach(function (m) {
self.modules[m].load({});
});
} else {
Logger.errlog.log("Failed to open channel dump " + self.uniqueName);
Logger.errlog.log(err);
errorLoad("Unknown error occurred when loading channel state. " +
"Contact an administrator for assistance.");
}
return;
}
self.logger.log("[init] Loading channel state from disk");
try {
data = JSON.parse(data);
Object.keys(self.modules).forEach(function (m) {
self.modules[m].load(data);
});
self.setFlag(Flags.C_READY);
} catch (e) {
Logger.errlog.log("Channel dump for " + self.uniqueName + " is not " +
"valid");
Logger.errlog.log(e);
errorLoad("Unknown error occurred when loading channel state. Contact " +
"an administrator for assistance.");
}
});
};
};
Channel.prototype.saveState = function () {
var self = this;
var file = path.join(__dirname, "..", "..", "chandump", self.uniqueName);
/**
* Don't overwrite saved state data if the current state is dirty,
* or if this channel is unregistered
*/
if (self.is(Flags.C_ERROR) || !self.is(Flags.C_REGISTERED)) {
return;
}
self.logger.log("[init] Saving channel state to disk");
var data = {};
Object.keys(this.modules).forEach(function (m) {
self.modules[m].save(data);
});
var json = JSON.stringify(data);
/**
* Synchronous on purpose.
* When the server is shutting down, saveState() is called on all channels and
* then the process terminates. Async writeFile causes a race condition that wipes
* channels.
*/
var err = fs.writeFileSync(file, json);
};
Channel.prototype.checkModules = function (fn, args, cb) {
var self = this;
this.waitFlag(Flags.C_READY, function () {
self.activeLock.lock();
var keys = Object.keys(self.modules);
var next = function (err, result) {
if (result !== ChannelModule.PASSTHROUGH) {
/* Either an error occured, or the module denied the user access */
cb(err, result);
self.activeLock.release();
return;
}
var m = keys.shift();
if (m === undefined) {
/* No more modules to check */
cb(null, ChannelModule.PASSTHROUGH);
self.activeLock.release();
return;
}
var module = self.modules[m];
module[fn].apply(module, args);
};
args.push(next);
next(null, ChannelModule.PASSTHROUGH);
});
};
Channel.prototype.notifyModules = function (fn, args) {
var self = this;
this.waitFlag(Flags.C_READY, function () {
var keys = Object.keys(self.modules);
keys.forEach(function (k) {
self.modules[k][fn].apply(self.modules[k], args);
});
});
};
Channel.prototype.joinUser = function (user, data) {
var self = this;
self.waitFlag(Flags.C_READY, function () {
/* User closed the connection before the channel finished loading */
if (user.socket.disconnected) {
return;
}
if (self.is(Flags.C_REGISTERED)) {
user.refreshAccount({ channel: self.name }, function (err, account) {
if (err) {
Logger.errlog.log("user.refreshAccount failed at Channel.joinUser");
Logger.errlog.log(err.stack);
return;
}
afterAccount();
});
} else {
afterAccount();
}
function afterAccount() {
if (self.dead || user.socket.disconnected) {
return;
}
self.checkModules("onUserPreJoin", [user, data], function (err, result) {
if (result === ChannelModule.PASSTHROUGH) {
if (user.account.channelRank !== user.account.globalRank) {
user.socket.emit("rank", user.account.effectiveRank);
}
self.activeLock.lock();
self.acceptUser(user);
} else {
user.account.channelRank = 0;
user.account.effectiveRank = user.account.globalRank;
}
});
}
});
};
Channel.prototype.acceptUser = function (user) {
user.channel = this;
user.setFlag(Flags.U_IN_CHANNEL);
user.socket.join(this.name);
user.autoAFK();
user.socket.on("readChanLog", this.handleReadLog.bind(this, user));
Logger.syslog.log(user.ip + " joined " + this.name);
this.logger.log("[login] Accepted connection from " + user.longip);
if (user.is(Flags.U_LOGGED_IN)) {
this.logger.log("[login] " + user.longip + " authenticated as " + user.getName());
}
var self = this;
user.waitFlag(Flags.U_LOGGED_IN, function () {
for (var i = 0; i < self.users.length; i++) {
if (self.users[i] !== user &&
self.users[i].getLowerName() === user.getLowerName()) {
self.users[i].kick("Duplicate login");
}
}
self.sendUserJoin(self.users, user);
});
this.users.push(user);
user.socket.on("disconnect", this.partUser.bind(this, user));
Object.keys(this.modules).forEach(function (m) {
self.modules[m].onUserPostJoin(user);
});
this.sendUserlist([user]);
this.sendUsercount(this.users);
if (!this.is(Flags.C_REGISTERED)) {
user.socket.emit("channelNotRegistered");
}
};
Channel.prototype.partUser = function (user) {
if (!this.logger) {
Logger.errlog.log("partUser called on dead channel");
return;
}
this.logger.log("[login] " + user.longip + " (" + user.getName() + ") " +
"disconnected.");
user.channel = null;
/* Should be unnecessary because partUser only occurs if the socket dies */
user.clearFlag(Flags.U_IN_CHANNEL);
if (user.is(Flags.U_LOGGED_IN)) {
this.broadcastAll("userLeave", { name: user.getName() });
}
var idx = this.users.indexOf(user);
if (idx >= 0) {
this.users.splice(idx, 1);
}
var self = this;
Object.keys(this.modules).forEach(function (m) {
self.modules[m].onUserPart(user);
});
this.sendUsercount(this.users);
this.activeLock.release();
user.die();
};
Channel.prototype.packUserData = function (user) {
var base = {
name: user.getName(),
rank: user.account.effectiveRank,
profile: user.account.profile,
meta: {
afk: user.is(Flags.U_AFK),
muted: user.is(Flags.U_MUTED) && !user.is(Flags.U_SMUTED)
}
};
var mod = {
name: user.getName(),
rank: user.account.effectiveRank,
profile: user.account.profile,
meta: {
afk: user.is(Flags.U_AFK),
muted: user.is(Flags.U_MUTED),
smuted: user.is(Flags.U_SMUTED),
aliases: user.account.aliases,
ip: util.maskIP(user.longip)
}
};
var sadmin = {
name: user.getName(),
rank: user.account.effectiveRank,
profile: user.account.profile,
meta: {
afk: user.is(Flags.U_AFK),
muted: user.is(Flags.U_MUTED),
smuted: user.is(Flags.U_SMUTED),
aliases: user.account.aliases,
ip: user.ip
}
};
return {
base: base,
mod: mod,
sadmin: sadmin
};
};
Channel.prototype.sendUserMeta = function (users, user, minrank) {
var self = this;
var userdata = self.packUserData(user);
users.filter(function (u) {
return typeof minrank !== "number" || u.account.effectiveRank > minrank
}).forEach(function (u) {
if (u.account.globalRank >= 255) {
u.socket.emit("setUserMeta", {
name: user.getName(),
meta: userdata.sadmin.meta
});
} else if (u.account.effectiveRank >= 2) {
u.socket.emit("setUserMeta", {
name: user.getName(),
meta: userdata.mod.meta
});
} else {
u.socket.emit("setUserMeta", {
name: user.getName(),
meta: userdata.base.meta
});
}
});
};
Channel.prototype.sendUserProfile = function (users, user) {
var packet = {
name: user.getName(),
profile: user.account.profile
};
users.forEach(function (u) {
u.socket.emit("setUserProfile", packet);
});
};
Channel.prototype.sendUserlist = function (toUsers) {
var self = this;
var base = [];
var mod = [];
var sadmin = [];
for (var i = 0; i < self.users.length; i++) {
var u = self.users[i];
if (u.getName() === "") {
continue;
}
var data = self.packUserData(self.users[i]);
base.push(data.base);
mod.push(data.mod);
sadmin.push(data.sadmin);
}
toUsers.forEach(function (u) {
if (u.account.globalRank >= 255) {
u.socket.emit("userlist", sadmin);
} else if (u.account.effectiveRank >= 2) {
u.socket.emit("userlist", mod);
} else {
u.socket.emit("userlist", base);
}
if (self.leader != null) {
u.socket.emit("setLeader", self.leader.name);
}
});
};
Channel.prototype.sendUsercount = function (users) {
var self = this;
users.forEach(function (u) {
u.socket.emit("usercount", self.users.length);
});
};
Channel.prototype.sendUserJoin = function (users, user) {
var self = this;
if (user.account.aliases.length === 0) {
user.account.aliases.push(user.getName());
}
var data = self.packUserData(user);
users.forEach(function (u) {
if (u.account.globalRank >= 255) {
u.socket.emit("addUser", data.sadmin);
} else if (u.account.effectiveRank >= 2) {
u.socket.emit("addUser", data.mod);
} else {
u.socket.emit("addUser", data.base);
}
});
self.modules.chat.sendModMessage(user.getName() + " joined (aliases: " +
user.account.aliases.join(",") + ")", 2);
};
Channel.prototype.readLog = function (shouldMaskIP, cb) {
var maxLen = 102400;
var file = this.logger.filename;
this.activeLock.lock();
var self = this;
fs.stat(file, function (err, data) {
if (err) {
self.activeLock.release();
return cb(err, null);
}
var start = Math.max(data.size - maxLen, 0);
var end = data.size - 1;
var read = fs.createReadStream(file, {
start: start,
end: end
});
var buffer = "";
read.on("data", function (data) {
buffer += data;
});
read.on("end", function () {
if (shouldMaskIP) {
buffer = buffer.replace(
/^(\d+\.\d+\.\d+)\.\d+/g,
"$1.x"
).replace(
/^((?:[0-9a-f]+:){3}[0-9a-f]+):(?:[0-9a-f]+:){3}[0-9a-f]+$/,
"$1:x:x:x:x"
);
}
cb(null, buffer);
self.activeLock.release();
});
});
};
Channel.prototype.handleReadLog = function (user) {
if (user.account.effectiveRank < 3) {
user.kick("Attempted readChanLog with insufficient permission");
return;
}
if (!this.is(Flags.C_REGISTERED)) {
user.socket.emit("readChanLog", {
success: false,
data: "Channel log is only available to registered channels."
});
return;
}
var shouldMaskIP = user.account.globalRank < 255;
this.readLog(shouldMaskIP, function (err, data) {
if (err) {
user.socket.emit("readChanLog", {
success: false,
data: "Error reading channel log"
});
} else {
user.socket.emit("readChanLog", {
success: true,
data: data
});
}
});
};
Channel.prototype._broadcast = function (msg, data, ns) {
sio.ioServers.forEach(function (io) {
io.sockets.in(ns).emit(msg, data);
});
};
Channel.prototype.broadcastAll = function (msg, data) {
this._broadcast(msg, data, this.name);
};
module.exports = Channel;