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rtud.d
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rtud.d
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/**
OBSOLETE: This provides a kind of real time updates that can be consumed
by javascript (and probably other things eventually). Superseded by
new functionality built into [arsd.cgi].
First, you compile the server app. dmd -version=standalone_rtud -version=rtud_daemon
Run it. It's pretty generic; probably don't have to modify it
but you always can. It's useful to have a long running process
anyway.
But then you'll want an intermediary between this and the javascript.
Use the handleListenerGateway() function in your cgi app for that.
You can pass it a channel prefix for things like user ids.
In your javascript, use EventListener("path to gateway");
And addEventListener(type, function, false);
Note: this javascript does not work in all browsers, but
real time updates should really be optional anyway.
I might add a traditional ajax fallback but still, it's all
js so be sure it's non-essential if possible.
And in your app, as events happen, use in D:
auto stream = new UpdateStream(channel);
stream.sendMessage(type, message);
and the helper app will push it all out. You might want to wrap
some of this in try/catch since if the helper app dies, this will
throw since it can't connect.
I found using user names as channels is good stuff. Then your JS
doesn't provide a channel at all - your helper app gives it through
the channel prefix argument.
*/
module arsd.rtud;
import std.string;
import std.array : replace;
import std.conv;
import std.date;
class UpdateStream {
File net;
string channel;
this(string channel) {
net = openNetwork("localhost", 7071);
this.channel = channel;
}
~this() {
net.close();
}
void deleteMessage(string messageId) {
import arsd.cgi; // : encodeVariables;
string message = encodeVariables([
"id" : messageId,
"operation" : "delete"
]);
net.writeln(message);
net.flush();
}
void sendMessage(string eventType, string messageText, long ttl = 2500) {
import arsd.cgi; // : encodeVariables;
string message = encodeVariables([
//"operation" : "post",
//"id" : ????,
"channel" : channel,
"type" : eventType,
"data" : messageText,
"ttl" : to!string(ttl)
]);
net.writeln(message);
net.flush();
}
}
/+
if("channels" in message) {
if("last-message-id" in message)
if("minimum-time" in message)
if("close-time" in message)
+/
version(D_Version2) {
static import linux = core.sys.posix.unistd;
static import sock = core.sys.posix.sys.socket;
} else {
static import linux = std.c.linux.linux;
static import sock = std.c.linux.socket;
}
int openNetworkFd(string host, ushort port) {
import std.exception;
auto h = enforce( sock.gethostbyname(std.string.toStringz(host)),
new StdioException("gethostbyname"));
int s = sock.socket(sock.AF_INET, sock.SOCK_STREAM, 0);
enforce(s != -1, new StdioException("socket"));
scope(failure) {
linux.close(s);
}
sock.sockaddr_in addr;
addr.sin_family = sock.AF_INET;
addr.sin_port = sock.htons(port);
std.c.string.memcpy(&addr.sin_addr.s_addr, h.h_addr, h.h_length);
enforce(sock.connect(s, cast(sock.sockaddr*) &addr, addr.sizeof) != -1,
new StdioException("Connect failed"));
return s;
}
void writeToFd(int fd, string s) {
again:
auto num = linux.write(fd, s.ptr, s.length);
if(num < 0)
throw new Exception("couldn't write");
if(num == 0)
return;
s = s[num .. $];
if(s.length)
goto again;
}
__gshared bool deathRequested = false;
extern(C)
void requestDeath(int sig) {
deathRequested = true;
}
import arsd.cgi;
/// The throttledConnection param is useful for helping to get
/// around browser connection limitations.
/// If the user opens a bunch of tabs, these long standing
/// connections can hit the per-host connection limit, breaking
/// navigation until the connection times out.
/// The throttle option sets a long retry period and polls
/// instead of waits. This sucks, but sucks less than your whole
/// site hanging because the browser is queuing your connections!
int handleListenerGateway(Cgi cgi, string channelPrefix, bool throttledConnection = false) {
cgi.setCache(false);
import core.sys.posix.signal;
sigaction_t act;
// I want all zero everywhere else; the read() must not automatically restart for this to work.
act.sa_handler = &requestDeath;
if(linux.sigaction(linux.SIGTERM, &act, null) != 0)
throw new Exception("sig err");
auto f = openNetworkFd("localhost", 7070);
scope(exit) linux.close(f);
string[string] variables;
variables["channel"] = channelPrefix ~ ("channel" in cgi.get ? cgi.get["channel"] : "");
if("minimum-time" in cgi.get)
variables["minimum-time"] = cgi.get["minimum-time"];
if("last-message-id" in cgi.get)
variables["last-message-id"] = cgi.get["last-message-id"];
bool isSse;
if(cgi.accept == "text/event-stream") {
cgi.setResponseContentType("text/event-stream");
isSse = true;
if(cgi.lastEventId.length)
variables["last-message-id"] = cgi.lastEventId;
if(throttledConnection) {
cgi.write("retry: 15000\n");
} else {
cgi.write(":\n"); // the comment ensures apache doesn't skip us
}
cgi.flush(); // sending the headers along
} else {
// gotta handle it as ajax polling
variables["close-time"] = "0"; // ask for long polling
}
if(throttledConnection)
variables["close-time"] = "-1"; // close immediately
writeToFd(f, encodeVariables(variables) ~ "\n");
string wegot;
string[4096] buffer;
for(; !deathRequested ;) {
auto num = linux.read(f, buffer.ptr, buffer.length);
if(num < 0)
throw new Exception("read error");
if(num == 0)
break;
auto chunk = buffer[0 .. num];
if(isSse) {
cgi.write(chunk);
cgi.flush();
} else {
wegot ~= cast(string) chunk;
}
}
// this is to support older browsers
if(!isSse && !deathRequested) {
// we have to parse it out and reformat for plain cgi...
auto lol = parseMessages(wegot);
//cgi.setResponseContentType("text/json");
// FIXME gotta reorganize my json stuff
//cgi.write(toJson(lol));
return 1;
}
return 0;
}
struct Message {
string type;
string id;
string data;
long timestamp;
long ttl;
string operation;
}
Message[] getMessages(string channel, string eventTypeFilter = null, long maxAge = 0) {
auto f = openNetworkFd("localhost", 7070);
scope(exit) linux.close(f);
string[string] variables;
variables["channel"] = channel;
if(maxAge)
variables["minimum-time"] = to!string(getUtcTime() - maxAge);
variables["close-time"] = "-1"; // close immediately
writeToFd(f, encodeVariables(variables) ~ "\n");
string wegot;
string[4096] buffer;
for(;;) {
auto num = linux.read(f, buffer.ptr, buffer.length);
if(num < 0)
throw new Exception("read error");
if(num == 0)
break;
auto chunk = buffer[0 .. num];
wegot ~= cast(string) chunk;
}
return parseMessages(wegot, eventTypeFilter);
}
Message[] parseMessages(string wegot, string eventTypeFilter = null) {
// gotta parse this since rtud writes out the format for browsers
Message[] ret;
foreach(message; wegot.split("\n\n")) {
Message m;
foreach(line; message.split("\n")) {
if(line.length == 0)
throw new Exception("wtf");
if(line[0] == ':')
line = line[1 .. $];
if(line.length == 0)
continue; // just an empty comment
auto idx = line.indexOf(":");
if(idx == -1)
continue; // probably just a comment
if(idx + 2 > line.length)
continue; // probably just a comment too
auto name = line[0 .. idx];
auto data = line[idx + 2 .. $];
switch(name) {
default: break; // do nothing
case "timestamp":
if(data.length)
m.timestamp = to!long(data);
break;
case "ttl":
if(data.length)
m.ttl = to!long(data);
break;
case "operation":
m.operation = data;
break;
case "id":
m.id = data;
break;
case "event":
m.type = data;
break;
case "data":
m.data ~= data;
break;
}
}
if(eventTypeFilter is null || eventTypeFilter == m.type)
ret ~= m;
}
return ret;
}
version(rtud_daemon) :
import arsd.netman;
// Real time update daemon
/*
You push messages out to channels, where they are held for a certain length of time.
It can also do state with listener updates.
Clients ask for messages since a time, and if there are none, you hold the connection until something arrives.
There should be D and Javascript apis for pushing and receiving.
JS:
var updateObject = RealTimeUpdate();
updateObject.someMessage = function(msg) {
// react to it
}
updateObject.listen(channel);
updateObject.send(message, args); // probably shouldn't need this from JS
*/
/*
Incoming Packet format is x-www-urlencoded. There must be no new lines
in there - be sure to url encode them.
A message is separated by newlines.
*/
class RtudConnection : Connection {
RealTimeUpdateDaemon daemon;
this(RealTimeUpdateDaemon daemon) {
this.daemon = daemon;
}
override void onDataReceived() {
import arsd.cgi;// : decodeVariables;
try_again:
auto data = cast(string) read();
auto index = data.indexOf("\n");
if(index == -1)
return; // wait for more data
auto messageRaw = data[0 .. index];
changeReadPosition(index + 1);
auto message = decodeVariables(messageRaw);
handleMessage(message);
goto try_again;
}
invariant() {
assert(daemon !is null);
}
abstract void handleMessage(string[][string] message);
}
class NotificationConnection : RtudConnection {
this(RealTimeUpdateDaemon daemon) {
super(daemon);
closeTime = long.max;
}
long closeTime;
/// send: what channels you're interested in, a minimum time,
/// and a close time.
/// if the close time is negative, you are just polling curiously.
/// if it is zero, it will close after your next batch. (long polling)
/// anything else stays open for as long as it can in there.
override void handleMessage(string[][string] message) {
Channel*[] channels;
if("channels" in message) {
foreach(ch; message["channels"]) {
auto channel = daemon.getChannel(ch);
channels ~= channel;
channel.subscribeTo(this);
}
}
if("channel" in message) {
auto channel = daemon.getChannel(message["channel"][$-1]);
channels ~= channel;
channel.subscribeTo(this);
}
import std.algorithm;
import std.range;
Message*[] backMessages;
if("last-message-id" in message) {
auto lastMessageId = message["last-message-id"][$-1];
foreach(channel; channels)
backMessages ~= channel.messages;
auto bm = sort!"a.timestamp < b.timestamp"(backMessages);
backMessages = array(find!("a.id == b")(bm, lastMessageId));
while(backMessages.length && backMessages[0].id == lastMessageId)
backMessages = backMessages[1 .. $]; // the last message is the one they got
//writeln("backed up from ", lastMessageId, " is");
//foreach(msg; backMessages)
//writeln(*msg);
} else if("minimum-time" in message) {
foreach(channel; channels)
backMessages ~= channel.messages;
auto bm = sort!"a.timestamp < b.timestamp"(backMessages);
backMessages = array(find!("a.timestamp >= b")(bm, to!long(message["minimum-time"][$-1])));
}
if("close-time" in message)
closeTime = to!long(message["close-time"][$-1]);
// send the back messages immediately
daemon.writeMessagesTo(backMessages, this, "backed-up");
// if(closeTime > 0 && closeTime != long.max)
// closeTime = getUtcTime() + closeTime; // FIXME: do i use this? Should I use this?
}
override void onDisconnect() {
daemon.removeConnection(this);
}
}
class DataConnection : RtudConnection {
this(RealTimeUpdateDaemon daemon) {
super(daemon);
}
override void handleMessage(string[][string] message) {
string getStr(string key, string def) {
if(key in message) {
auto s = message[key][$ - 1];
if(s.length)
return s;
}
return def;
}
string operation = getStr("operation", "post");
Message* m = daemon.getMessage(getStr("id", null));
switch(operation) {
default: throw new Exception("unknown operation " ~ operation); break;
case "delete":
daemon.deleteMessage(m);
break;
case "edit":
case "post":
// we have to create the message and send it out
m.type = getStr("type", "message");
m.data = getStr("data", "");
m.timestamp = to!long(getStr("timestamp", to!string(getUtcTime())));
m.ttl = to!long(getStr("ttl", "1000"));
}
assert(m !is null);
if("channels" in message)
foreach(ch; message["channels"]) {
auto channel = daemon.getChannel(ch);
assert(channel !is null);
channel.writeMessage(m, operation);
}
if("channel" in message) {
auto channel = daemon.getChannel(message["channel"][$-1]);
channel.writeMessage(m, operation);
}
}
}
struct Channel {
string id;
Message*[] messages;
// a poor man's set...
NotificationConnection[NotificationConnection] listeningConnections;
RealTimeUpdateDaemon daemon;
void writeMessage(Message* message, string operation) {
messages ~= message;
foreach(k, v; listeningConnections)
daemon.writeMessagesTo([message], v, operation);
}
void subscribeTo(NotificationConnection c) {
listeningConnections[c] = c;
}
}
class RealTimeUpdateDaemon : NetworkManager {
this() {
super();
setConnectionSpawner(7070, &createNotificationConnection);
listen(7070);
setConnectionSpawner(7071, &createDataConnection);
listen(7071);
}
private Channel*[string] channels;
private Message*[string] messages;
Message* getMessage(string id) {
if(id.length && id in messages)
return messages[id];
if(id.length == 0)
id = to!string(getUtcTime());
longerId:
if(id in messages) {
id ~= "-";
goto longerId;
}
auto message = new Message;
message.id = id;
messages[id] = message;
//writeln("NEW MESSAGE: ", *message);
return message;
}
void deleteMessage(Message* m) {
messages.remove(m.id);
foreach(k, v; channels)
foreach(i, msg; v.messages) {
if(msg is m) {
v.messages = v.messages[0 .. i] ~ v.messages[i + 1 .. $];
break;
}
}
}
Channel* getChannel(string id) {
if(id in channels)
return channels[id];
auto c = new Channel;
c.daemon = this;
c.id = id;
channels[id] = c;
return c;
}
void writeMessagesTo(Message*[] messages, NotificationConnection connection, string operation) {
foreach(messageMain; messages) {
if(messageMain.timestamp + messageMain.ttl < getUtcTime)
deleteMessage(messageMain); // too old, kill it
Message message = *messageMain;
message.operation = operation;
// this should never happen, but just in case
replace(message.type, "\n", "");
connection.write(":timestamp: " ~ to!string(message.timestamp) ~ "\n");
connection.write(":ttl: " ~ to!string(message.ttl) ~ "\n");
connection.write(":operation: " ~ message.operation ~ "\n");
if(message.id.length)
connection.write("id: " ~ message.id ~ "\n");
connection.write("event: " ~ message.type ~ "\n");
connection.write("data: " ~ replace(message.data, "\n", "\ndata: ") ~ "\n");
connection.write("\n");
}
if(connection.closeTime <= 0) // FIXME: other times?
if(connection.closeTime != 0 || messages.length)
connection.disconnect(); // note this actually queues a disconnect, so we cool
}
void removeConnection(NotificationConnection connection) {
foreach(channel; channels)
channel.listeningConnections.remove(connection);
}
Connection createNotificationConnection() {
return new NotificationConnection(this);
}
Connection createDataConnection() {
return new DataConnection(this);
}
}
void rtudMain() {
auto netman = new RealTimeUpdateDaemon;
bool proceed = true;
while(proceed)
try
proceed = netman.proceed();
catch(ConnectionException e) {
writeln(e.toString());
e.c.disconnectNow();
}
catch(Throwable e) {
writeln(e.toString());
}
}
version(standalone_rtud)
void main() {
rtudMain();
}