[Problem]
System.Net.Sockets.Socket's async receiving corrupts the receiving buffer, injecting a random burst of bytes into the middle of the received data.
[Background]
I have a TCP connections server. Clients establish socket connection with the server, and send encrypted packets to server.
Initially, the server operated using threads. Every incoming connection is served by a dedicated thread. All buffers to be sent and received via sockets are allocated on the heap and garbage collected. Everything worked fine.
Then, to improve performance, I did two changes:
Instead of allocating buffers on the heap, I allocated from using ArrayPool.Shared.Rent().
I changed the socket's sending and receiving to async.
I did not change how packets are serialized, deserialized, encrypted and decrypted.
After the change, everything works fine on my development PC. When deployed to production server on AWS, when packets are small (50 bytes or so), everything was fine.
When the packet size is large, 16 KB each, the server will receive a few of such packets fine, then, randomly, one of the received packets will be corrupted, with a burst of a thousand or so unknow bytes injected in the middle of the received data, causing the AES decryption to throw the "invalid padding" exception:
I have no idea where the injected extra bytes come from.
Following are the socket sending and receiving code:
public static Task<int> ReceiveBytesAsync(this Socket socket, SocketAsyncEventArgs args) // , int offset, int count)
{
var tcs = new TaskCompletionSource<int>(TaskCreationOptions.RunContinuationsAsynchronously);
EventHandler<SocketAsyncEventArgs> handler = null;
handler = (s, e) =>
{
args.Completed -= handler;
if (args.SocketError != SocketError.Success)
tcs.SetException(new InvalidOperationException(args.SocketError.ToString()));
else
tcs.SetResult(args.BytesTransferred);
};
args.Completed += handler;
if (!socket.ReceiveAsync(args))
{
args.Completed -= handler;
if (args.SocketError != SocketError.Success)
tcs.SetException(new InvalidOperationException(args.SocketError.ToString()));
else
tcs.SetResult(args.BytesTransferred);
}
return tcs.Task;
}
private static async Task<bool> ReadBufferFromSocketAsync(Socket socket, SocketAsyncEventArgs socketArgs) // , int offset, int length)
{
for (int bytesRead = 0; bytesRead < socketArgs.Count;)
{
// If bytesRead is 0, SetBuffer would have been called by the caller of this method.
if (bytesRead > 0)
socketArgs.SetBuffer(socketArgs.Offset + bytesRead, socketArgs.Count - bytesRead);
int nRead = await socket.ReceiveBytesAsync(socketArgs);
bytesRead += nRead;
if (nRead == 0)
{
socket.Close();
return false;
}
}
return true;
}
public static Task<int> SendBytesAsync(this Socket socket, SocketAsyncEventArgs args) // , int offset, int count)
{
var tcs = new TaskCompletionSource<int>(TaskCreationOptions.RunContinuationsAsynchronously);
EventHandler<SocketAsyncEventArgs> handler = null;
handler = (s, e) =>
{
args.Completed -= handler;
if (args.SocketError != SocketError.Success)
tcs.SetException(new InvalidOperationException(args.SocketError.ToString()));
else
tcs.SetResult(args.BytesTransferred);
};
args.Completed += handler;
if (!socket.SendAsync(args)) // means the operation completed synchronously & Completed handler won't fire
{
args.Completed -= handler;
if (args.SocketError != SocketError.Success)
tcs.SetException(new InvalidOperationException(args.SocketError.ToString()));
else
tcs.SetResult(args.BytesTransferred);
}
return tcs.Task;
}
private static async Task<bool> SendBufferToSocketAsync(Socket socket, SocketAsyncEventArgs socketArgs)
{
int retry = 0;
for (int ixWrite = 0; ixWrite < socketArgs.Count;)
{
if (ixWrite > 0)
socketArgs.SetBuffer(socketArgs.Offset + ixWrite, socketArgs.Count - ixWrite);
int nSent = await socket.SendBytesAsync(socketArgs);
ixWrite += nSent;
if (retry >= 10)
{
socket.Close();
return false;
}
if (nSent == 0)
{
retry++;
await Task.Delay(10 * retry);
}
else
retry = 0;
}
return true;
}
Problem disappeared after I changed the ReadBufferFromSocketAsync to the following
private static async Task<bool> ReadBufferFromSocketAsync(Socket socket, byte[] buffer, int offset, int totalToRead)
{
using (SocketAsyncEventArgs socketArgs = new SocketAsyncEventArgs())
{
int iAllRead = 0, iOneRead = 0;
socketArgs.SetBuffer(buffer, offset, totalToRead);
while (true)
{
iOneRead = await socket.ReceiveBytesAsync(socketArgs);
if (iOneRead == 0)
{
socket.Close();
return false;
}
iAllRead += iOneRead;
if (iAllRead == totalToRead)
return true;
offset += iOneRead;
socketArgs.SetBuffer(offset, totalToRead - iAllRead);
}
}
}
Related
A former employees used TCP Client & TCP Listener, Thread, and NetworkStream to create a payment server with Unity 32-bit for Unity 32-bit games and payment connections.
(I don't know what I'm talking about either)
BUT Only the first payment is successful, and the second payment cannot be 'Read' even if it is 'Write'.
(Or maybe client server listener(?) is dumb.... ;( )
So I tried debugging, but this comment came up.
'SocketException System.Net.Sockets.SocketException: Blocking operation aborted by calling WSACanceBlockingCall.'
I can't even connect to the clientServer.
It's fatal to the company that only one payment is made.
This is because after the payment, the game proceeds and when the GameLife is exhausted, you have to return to the lobby and pay again.
But "Write" works, but why doesn't it go on after that?
If you are disconnected from the game and payment server, you will be warned that you are disconnected from the server.
I'm so confused. I'm a client developer and I don't understand anything because I think I'm developing a server.
I'm just a three-month-old junior developer...
This is my client Write Code
public void SendMessage()
{
if (socketConnection == null)
{
return;
}
try
{
// Get a stream object for writing.
NetworkStream stream = socketConnection.GetStream();
if (stream.CanWrite)
{
//string clientMessage = "This is a message from one of your clients.";
string clientMessage = string.Format("Charge,{0}",DataManager.instance.payData._Money);
// Convert string message to byte array.
//byte[] clientMessageAsByteArray = Encoding.ASCII.GetBytes(clientMessage);
byte[] clientMessageAsByteArray = Encoding.UTF8.GetBytes(clientMessage);
// Write byte array to socketConnection stream.
stream.Write(clientMessageAsByteArray, 0, clientMessageAsByteArray.Length);
Debug.Log("Client sent his message - should be received by server");
}
}
catch (SocketException socketException)
{
serverState = ServerState.Disconnect;
Debug.Log("Socket exception: " + socketException);
}
}
This is Server Read Code
private void ListenForIncomingRequests()
{
try
{
// Get Local IPv4 Address
IPHostEntry host = Dns.GetHostEntry(Dns.GetHostName());
foreach (var ip in host.AddressList)
{
if (ip.AddressFamily == AddressFamily.InterNetwork)
{
address = ip.ToString();
}
}
Debug.Log("address : "+ address);
// Create listener on localhost port 8052.
tcpListener = new TcpListener(IPAddress.Parse(address), 50001);
tcpListener.Start();
Debug.Log("Server is listening");
Byte[] bytes = new Byte[1024];
while (true)
{
using (connectedTcpClient = tcpListener.AcceptTcpClient())
{
Debug.Log(connectedTcpClient.ToString());
// Get a stream object for reading
using (NetworkStream stream = connectedTcpClient.GetStream())
{
int length;
// Read incoming stream into byte arrary.
while ((length = stream.Read(bytes, 0, bytes.Length)) != 0)
{
var incomingData = new byte[length];
Array.Copy(bytes, 0, incomingData, 0, length);
// Convert byte array to string message.
//string clientMessage = Encoding.ASCII.GetString(incomingData);
string[] message = Encoding.UTF8.GetString(incomingData).Split(',');
string clientMessage = message[0];
string value = message[1];
if (string.IsNullOrEmpty(_clientMessage))
{
_clientMessage = clientMessage;
if (_clientMessage.Equals("Charge"))
{
_clientMessage = string.Empty;
pay.PayEvent(int.Parse(value));
}
}
Debug.Log("client message received as: " + clientMessage);
Debug.Log("_client message received as: " + _clientMessage);
Debug.Log(length);
}
}
}
}
}
catch (SocketException socketException)
{
Debug.Log("SocketException " + socketException.ToString());
}
}
We have a project that we should send message to a huge number of sim cards (more than 1 Million) and receive and handle answers.
For testing this, I am using Selenium SMPPSim to simulate sending a message.
this is work fine for sending messages. and with enabling callback server I can receive messages that I send on another port.
But my question is how can I send back a message to SMPP server?
I am using EasySMPP library for connecting to smpp server
My SMPP Server Code:
private SMPPClient _client;
private readonly object _lockObject = new object();
public SMPPClient GetClient()
{
if (_client != null)
{
return _client;
}
lock (_lockObject)
{
_client = new SMPPClient();
var smsc = new SMSC
{
Host = "127.0.0.1",
Port = 2775,
SystemId = "smppclient1",
Password = "password",
SourceTon = 5,
SourceNpi = 1,
AddrTon = 1,
AddrNpi = 1,
SystemType = "8945",
};
_client.OnDeliverSm += Client_OnDeliverSm;
Console.WriteLine("Client_OnDeliverSm added");
_client.OnSubmitSmResp += Client_OnSubmitSmResp;
Console.WriteLine("OnSubmitSmResp added");
_client.AddSMSC(smsc);
if (!_client.Connect())
throw new Exception($"Can not connect to smpp link: {smsc.Host} : {smsc.Port}");
return _client;
}
}
public void SendByCampaignItemId()
{
var smppClient = GetClient();
lock (smppClient)
{
var msgId = smppClient.SubmitSM(1, 1, "339123456789", 1, 1, "339632587436",
0x40, // EsmClass.UdhIndicator
0x7f, // protocol identifier
0, // priority flag level 0
DateTime.MinValue,
DateTime.MinValue,
// DateTime.Now.AddMinutes(10),
//DateTime.Now.AddHours(3),
(byte)DeliveryReportType.AlwaysSendDeliveryReport,
0x00, //replace if present
0xf6, // data coding
0, // default msg id
new byte[] { 0x02,0x70,0x00,0x34,0x77,0x88,0x99,0xAA,0xBB,0xCC,0xDD,0xEE,0xFF});
}
}
private void Client_OnSubmitSmResp(SubmitSmRespEventArgs e)
{
Console.WriteLine("Submit Received");
}
private void Client_OnDeliverSm(DeliverSmEventArgs e)
{
Console.WriteLine("Deliver Received");
}
And here is my code which listens to port 3333:
static void Main(string[] args)
{
TcpListener server = null;
try
{
Int32 port = 3333;
IPAddress localAddr = IPAddress.Parse("127.0.0.1");
server = new TcpListener(localAddr, port);
server.Start();
// Buffer for reading data
Byte[] bytes = new Byte[256];
String data = null;
while (true)
{
Console.Write("Waiting for a connection... ");
TcpClient client = server.AcceptTcpClient();
Console.WriteLine("Connected!");
data = null;
NetworkStream stream = client.GetStream();
int i;
while ((i = stream.Read(bytes, 0, bytes.Length)) != 0)
{
data = System.Text.Encoding.ASCII.GetString(bytes, 0, i);
Console.WriteLine("Received: {0}", data);
data = data.ToUpper();
byte[] msg = System.Text.Encoding.ASCII.GetBytes(data);
stream.Write(msg, 0, msg.Length);
//WHAT SHOULD I DO HERE SO THAT I CAN SEND BACK A MESSAGE (DELIVER SM) TO SMPP SIM??!!!
Console.WriteLine("Sent: {0}", data);
}
client.Close();
}
}
catch (SocketException e)
{
Console.WriteLine("SocketException: {0}", e);
}
finally
{
server.Stop();
}
Console.WriteLine("\nHit enter to continue...");
Console.Read();
}
And my SMPPSIM Config file :
SMPP_PORT=2775
SMPP_CONNECTION_HANDLERS=10
CONNECTION_HANDLER_CLASS=com.seleniumsoftware.SMPPSim.StandardConnectionHandler
PROTOCOL_HANDLER_CLASS=com.seleniumsoftware.SMPPSim.StandardProtocolHandler
LIFE_CYCLE_MANAGER=com.seleniumsoftware.SMPPSim.LifeCycleManager
MESSAGE_STATE_CHECK_FREQUENCY=5000
MAX_TIME_ENROUTE=10000
DELAY_DELIVERY_RECEIPTS_BY=0
PERCENTAGE_THAT_TRANSITION=75
PERCENTAGE_DELIVERED=90
PERCENTAGE_UNDELIVERABLE=6
PERCENTAGE_ACCEPTED=2
PERCENTAGE_REJECTED=2
DISCARD_FROM_QUEUE_AFTER=60000
HTTP_PORT=88
HTTP_THREADS=1
DOCROOT=www
AUTHORISED_FILES=/css/style.css,/index.htm,/inject_mo.htm,/favicon.ico,/images/logo.gif,/images/dots.gif,/user-guide.htm,/images/homepage.gif,/images/inject_mo.gif
INJECT_MO_PAGE=/inject_mo.htm
SYSTEM_IDS=smppclient1,smppclient2
PASSWORDS=password,password
OUTBIND_ENABLED=false
OUTBIND_ESME_IP_ADDRESS=127.0.0.1
OUTBIND_ESME_PORT=2776
OUTBIND_ESME_SYSTEMID=smppclient1
OUTBIND_ESME_PASSWORD=password
DELIVERY_MESSAGES_PER_MINUTE=0
DELIVER_MESSAGES_FILE=deliver_messages.csv
LOOPBACK=TRUE
ESME_TO_ESME=false
OUTBOUND_QUEUE_MAX_SIZE=1000
INBOUND_QUEUE_MAX_SIZE=1000
DELAYED_INBOUND_QUEUE_PROCESSING_PERIOD=60
DELAYED_INBOUND_QUEUE_MAX_ATTEMPTS=100
DECODE_PDUS_IN_LOG=true
CAPTURE_SME_BINARY=false
CAPTURE_SME_BINARY_TO_FILE=sme_binary.capture
CAPTURE_SMPPSIM_BINARY=false
CAPTURE_SMPPSIM_BINARY_TO_FILE=smppsim_binary.capture
CAPTURE_SME_DECODED=false
CAPTURE_SME_DECODED_TO_FILE=sme_decoded.capture
CAPTURE_SMPPSIM_DECODED=false
CAPTURE_SMPPSIM_DECODED_TO_FILE=smppsim_decoded.capture
CALLBACK=true
CALLBACK_ID=SIM1
CALLBACK_TARGET_HOST=localhost
CALLBACK_PORT=3333
DELIVER_SM_INCLUDES_USSD_SERVICE_OP=false
DELIVERY_RECEIPT_OPTIONAL_PARAMS=true
DELIVERY_RECEIPT_TLV=1403/0A/34343132333435363738
SMSCID=SMPPSim
SIMULATE_VARIABLE_SUBMIT_SM_RESPONSE_TIMES=false
And another question:
If SMPPSim is not a good choice for my work, what else can i use?
UPDATE 1:
I look a little more and I think I find a simpler question.
assume that i have to SMPPSims.
How can I send message from a SMPPSim to another one?
I don't get it, my friend and I are developing an API and our WebSocket services works, but not the mobile side.. I tried with a couple of clients, on the web, our echo messaging and everything works.
The thing is, I mean, the things seem like the socket is mono-directional. I tried the example of https://github.com/rdavisau/sockets-for-pcl#a-tcp-client:
var address = "127.0.0.1";
var port = 11000;
var r = new Random();
var client = new TcpSocketClient();
await client.ConnectAsync(address, port);
// we're connected!
for (int i = 0; i<5; i++)
{
// write to the 'WriteStream' property of the socket client to send data
var nextByte = (byte) r.Next(0,254);
client.WriteStream.WriteByte(nextByte);
await client.WriteStream.FlushAsync();
// wait a little before sending the next bit of data
await Task.Delay(TimeSpan.FromMilliseconds(500));
}
await client.DisconnectAsync();
First, after I get connected with this :
public async void ConnectSocketToAPIAsync()
{
SocketClient = new TcpSocketClient();
await SocketClient.ConnectAsync("my.ws.service", 4242);
ActiveSocketExchange();
}
public async void ActiveSocketExchange()
{
var bytesRead = -1;
var buf = new byte[1];
while (bytesRead != 0)
{
bytesRead = await SocketClient.ReadStream.ReadAsync(buf, 0, 1);
if (bytesRead > 0)
MessagingCenter.Send((App)Current, SOCKET_Message, System.Text.Encoding.UTF8.GetString(buf, 0, bytesRead));
}
}
Everything's fine, my TcpClient is well initialized (even the web-link becomes the http's API addr)
From my page view, when I'm done writing my text, I'm pressing the done button of the keyboard and this code is called:
private void InitSocketPart()
{
MessagingCenter.Subscribe<App, string>((App)Application.Current, App.SOCKET_Message, (sender, text) =>
{
SocketResponseText = text;
});
}
private async void OnTextCompleted(object sender, EventArgs ea)
{
var bytes = Encoding.UTF8.GetBytes(TextToSend);
try {
if (App.SocketClient.WriteStream.CanRead)
Debug.WriteLine("canRead");
if (App.SocketClient.WriteStream.CanWrite)
Debug.WriteLine("canWrite");
App.SocketClient.WriteStream.Write(bytes, 0, TextToSend.Length);
App.SocketClient.WriteStream.Flush();
} catch (Exception e)
{
Debug.WriteLine(e);
}
}
So now CanWrite && CanRead are true, but nothing at all happens, even with the use of Async methods... Why so? I don't get it..
The use of messaging center is just to have only one point of incoming message. I'm using it for other things and it works perfectly :)
Thank for any help..
I trying to write program, that combines several machines in ring. And after that I send token around this ring. I have a problem: when marker has passed around the ring once and I want to send it second time, machine doesn't want to accept it marker. Sometimes VS rises exception, sort of "... host forcibly closed the connection". Before this problem did not arise at work with asynchronous sockets...
I guess, that problem in listening socket, that work out 1 time and closed. But how can I fix it?
Thanks in advance for your help.
Function, that initializes machines:
private void connectButton_Click(object sender, EventArgs e)
{
if (!connected)
{
//some operation
}
else
{
//some operation
}
try
{
sendS = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
recieveS = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);
portFrom = int.Parse(port1TextBox.Text);
portTo = int.Parse(port2TextBox.Text);
}
catch (Exception)
{
port1TextBox.Text = "Incorrect!";
}
IPAddress ipAddressFrom = IPAddress.Parse("192.168.1.122");
IPEndPoint ipEnd = new IPEndPoint(ipAddressFrom, portFrom); //IPAddress.Any
sendS.Bind(ipEnd);
sendS.Listen(1);
sendS.BeginAccept(new AsyncCallback(accept), null);
}
public void accept(IAsyncResult asyn)
{
Socket sock = sendS.EndAccept(asyn);
// Let the worker Socket do the further processing for the just connected client
begin(sock);
// Since the main Socket is now free, it can go back and wait for
// other clients who are attempting to connect
sendS.BeginAccept(new AsyncCallback(accept), null);
}
public class SocketPacket
{
public Socket m_currentSocket;
public byte[] dataBuffer;
// Constructor that takes one argument.
public SocketPacket(int size)
{
dataBuffer = new byte[size];
}
}
public void begin(Socket s)
{
AsyncCallback pfnWorkerCallBack = new AsyncCallback(serialPort1_DataReceived);
SocketPacket theSocPkt = new SocketPacket(15);
theSocPkt.m_currentSocket = s;
s.BeginReceive(theSocPkt.dataBuffer, 0, theSocPkt.dataBuffer.Length, SocketFlags.None, pfnWorkerCallBack, theSocPkt);
}
private void serialPort1_DataReceived(IAsyncResult asyn)
{
SocketPacket socketData = (SocketPacket)asyn.AsyncState;
int iRx = socketData.m_currentSocket.EndReceive(asyn);
byte[] dataBytes = socketData.dataBuffer.ToArray();
for (int i = dataBytes.Length - 1; i > 0; i--)
{
if (dataBytes[i] != 0)
{
Array.Resize(ref dataBytes, i+1);
break;
}
}
Encoding enc = Encoding.GetEncoding(1251);
String text = enc.GetString(dataBytes);
analyze(text);
}
Function, that connects 2 machines:
private void button1_Click(object sender, EventArgs e)
{
if (connected)
{
IPEndPoint ip = new IPEndPoint(IPAddress.Parse(ipTo.Text), System.Convert.ToInt32(portTo));
recieveS.Connect(ip);
}
}
Ok. Solved. I forgot about string
begin(socketData.m_currentSocket);
at the end serialPort1_DataReceived function...
I am working on an NPAPI plugin that allows to use sockets with local inside browsers and I am using Boost sockets for this.
My usage right now is just open the socket write a meesage, read, send a closing message and close and then repeat (I know it is stupid to close and open everytime but I can not change that).
The problem is that after the second open I am unable to read from the socket, until las changes I was able to open write but never got the info back and now it seems the io_service thread is just dying.
I have read a lot of tutorial and info, but no one seems to open several client sockets as I am trying to do.
Here are the class that stores the socket info and handler:
SocketInfo.hpp
class SocketInfo
{
public:
void start_read();
void handle_read(const boost::system::error_code& error, std::size_t bytes_transferred);
FB::JSObjectPtr m_callback;
boost::shared_ptr<boost::asio::ip::tcp::socket> m_socket;
char data_[SOCKETS_API_BUFFER];
int key;
boost::shared_ptr<SocketsAPI> parent;
};
SocketInfo.cpp
void SocketInfo::start_read()
{
parent->log("start_read" + boost::lexical_cast<std::string>(key));
m_socket->async_receive(boost::asio::buffer(data_, SOCKETS_API_BUFFER),
boost::bind(&SocketInfo::handle_read, this,
boost::asio::placeholders::error,
boost::asio::placeholders::bytes_transferred));
}
void SocketInfo::handle_read(const boost::system::error_code& error,
std::size_t bytes_transferred)
{
if (!error) {
parent->log("handle_read" + boost::lexical_cast<std::string>(key));
std::string str(&data_[0], &data_[0] + bytes_transferred);
m_callback->InvokeAsync("processData", FB::variant_list_of(str));
start_read();
} else {
parent->log("error closing " + boost::lexical_cast<std::string>(key));
m_callback->InvokeAsync("processCancel", FB::variant_list_of());
parent->do_close(*this);
}
}
SocketApi.h
class SocketsAPI : public FB::JSAPIAuto
{
public:
SocketsAPI(const SocketsPtr& plugin, const FB::BrowserHostPtr& host) :
m_plugin(plugin), m_host(host)
{
... FireBreath code here ...
//Start thread with work
workPtr.reset( new boost::asio::io_service::work(io_service));
ioThreadPtr.reset(new boost::thread(boost::bind(&boost::asio::io_service::run, &io_service)));
}
virtual ~SocketsAPI() {
workPtr.reset();
if (ioThreadPtr) {
ioThreadPtr->join();
}
};
//Socket Methods
int open(const int port, const FB::JSObjectPtr &callback );
void close(const int key);
void write(const int key, const std::string data);
// Method echo
FB::variant echo(const FB::variant& msg);
void do_close(const SocketInfo socket);
void log(const std::string &str);
private:
mapType sockets;
boost::asio::io_service io_service;
boost::shared_ptr<boost::thread> ioThreadPtr;
boost::shared_ptr<boost::asio::io_service::work> workPtr;
void checkOpen(const SocketInfo socket);
void do_write(const std::string data, const SocketInfo socket);
void start_read(const SocketInfo socket);
void empty_handle(const boost::system::error_code& error);
int getFirstEmpty();
SocketInfo getSocket(const int key);
};
SocketAPI.cpp
int SocketsAPI::open(const int port, const FB::JSObjectPtr &callback )
{
log("open");
boost::shared_ptr<SocketInfo> socket;
socket.reset(new SocketInfo);
socket->m_socket.reset(new boost::asio::ip::tcp::socket(io_service));
socket->m_callback = callback;
ip::tcp::endpoint tcp(ip::address::from_string("127.0.0.1"), port);
boost::system::error_code errorcode;
socket->m_socket->connect(tcp, errorcode);
if (errorcode) {
trace("Connection failed: ", errorcode.message());
return -1;
}
log("conenected");
boost::asio::socket_base::keep_alive o(true);
socket->m_socket->set_option(o);
int key = getFirstEmpty();
socket->key = key;
socket->parent.reset(this);
sockets.insert ( std::pair<int,boost::shared_ptr<SocketInfo>>(key,socket));
socket->start_read();
if (io_service.stopped()) {
log("Resetting service");
io_service.reset();
}
return key;
}
void SocketsAPI::close(const int key)
{
SocketInfo socket = getSocket(key);
checkOpen(socket);
log("close");
io_service.post(boost::bind(&SocketsAPI::do_close, this, socket));
}
void SocketsAPI::write(const int key, const std::string data)
{
log("write socket " + boost::lexical_cast<std::string>(key));
SocketInfo socket = getSocket(key);
checkOpen(socket);
io_service.post(boost::bind(&SocketsAPI::do_write, this, Base64::decode(data), socket));
}
void SocketsAPI::checkOpen(const SocketInfo socket)
{
log("checkOpen");
if (!socket.m_socket || !socket.m_socket->is_open()) {
trace("Socket not opened", "");
throw FB::script_error("There is no open socket");
}
}
void SocketsAPI::do_write(const std::string data,
const SocketInfo socket)
{
log("do_write " + boost::lexical_cast<std::string>(socket.key));
if (!socket.m_socket->is_open()) {
return;
}
boost::asio::async_write(*(socket.m_socket.get()),
boost::asio::buffer(&data[0], data.size()),
boost::bind(&SocketsAPI::empty_handle, this, boost::asio::placeholders::error)
);
}
void SocketsAPI::empty_handle(const boost::system::error_code& error)
{
if (error) {
trace("Error writing: ", error.message());
}
}
void SocketsAPI::do_close(const SocketInfo socket)
{
log("do_close");
if (!socket.m_socket || !socket.m_socket->is_open()) {
return;
}
boost::system::error_code errorcode;
socket.m_socket->shutdown(boost::asio::ip::tcp::socket::shutdown_both, errorcode);
if (errorcode) {
trace("Closing failed: ", errorcode.message());
}
socket.m_socket->close(errorcode);
if (errorcode) {
trace("Closing2 failed: ", errorcode.message());
}
mapType::iterator iter = sockets.find(socket.key);
if (iter != sockets.end()) {
sockets.erase (iter);
}
log("do_close end");
}
int SocketsAPI::getFirstEmpty() {
int i = 0;
mapType::iterator iter;
while(true) {
iter = sockets.find(i);
if (iter == sockets.end()) {
return i;
}
i++;
}
}
SocketInfo SocketsAPI::getSocket(const int key) {
mapType::iterator iter = sockets.find(key);
if (iter == sockets.end()) {
trace("Socket not found", "");
throw FB::script_error("Socket not found");
}
log("socket " + boost::lexical_cast<std::string>(key) +" found");
return *iter->second.get();
}
I am sure that something could be improved (please tell me) but I can not find the error why after the second open it just doesn't work.
Traces of excution:
open
conenected
start_read0
write socket 0
socket 0 found
checkOpen
do_write 0
handle_read0
start_read0
write socket 0
socket 0 found
checkOpen
do_write 0
socket 0 found
checkOpen
close
do_close
do_close end
open
conenected
start_read0
write socket 0
socket 0 found
checkOpen
It seems that io_service.run() just stops but the thread is still working and io_service is not stopped so I am not sure what could be happening.
Ok I found the error it was a lot simpler than I thought it just throw an exception and that stop everything but as I was using it inside a browser I didn't notice that.
Still I am unable to solve the problem so you can check: Boost bind object freed on read handler to share some insight.