public void Bind([NotNull] string addr)
{
CheckContextTerminated();
// Process pending commands, if any.
ProcessCommands(0, false);
string protocol;
string address;
DecodeAddress(addr, out address, out protocol);
CheckProtocol(protocol);
if (protocol.Equals(Address.InProcProtocol))
{
var endpoint = new Ctx.Endpoint(this, m_options);
bool addressRegistered = RegisterEndpoint(addr, endpoint);
if (!addressRegistered)
{
string xMsg = String.Format("Cannot bind address ( {0} ) - already in use.", addr);
throw new AddressAlreadyInUseException(xMsg);
}
// Save last endpoint URI
m_options.LastEndpoint = addr;
return;
}
if ((protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol)) && (
m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub))
{
// For convenience's sake, bind can be used interchangeable with
// connect for PGM and EPGM transports.
Connect(addr);
return;
}
// Remaining transports require to be run in an I/O thread, so at this
// point we'll choose one.
IOThread ioThread = ChooseIOThread(m_options.Affinity);
if (ioThread == null)
{
throw NetMQException.Create(ErrorCode.EmptyThread);
}
if (protocol.Equals(Address.TcpProtocol))
{
var listener = new TcpListener(ioThread, this, m_options);
try
{
listener.SetAddress(address);
m_port = listener.Port;
// Recreate the address string (localhost:1234) in case the port was system-assigned
var host = address.Substring(0, address.IndexOf(':'));
addr = "tcp://" + host + ":" + m_port;
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol))
{
var listener = new PgmListener(ioThread, this, m_options);
try
{
listener.Init(address);
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
m_options.LastEndpoint = addr;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals(Address.IpcProtocol))
{
var listener = new IpcListener(ioThread, this, m_options);
try
{
listener.SetAddress(address);
m_port = listener.Port;
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
Debug.Assert(false);
throw new FaultException(String.Format("SocketBase.Bind({0}) failure.", addr));
}
public void Bind(String addr)
{
if (m_ctxTerminated)
{
throw TerminatingException.Create();
}
// Process pending commands, if any.
ProcessCommands(0, false);
string protocol;
string address;
DecodeAddress(addr, out address, out protocol);
CheckProtocol(protocol);
if (protocol.Equals(Address.InProcProtocol))
{
Ctx.Endpoint endpoint = new Ctx.Endpoint(this, m_options);
RegisterEndpoint(addr, endpoint);
// Save last endpoint URI
m_options.LastEndpoint = addr;
return;
}
if ((protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol)) && (
m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub))
{
// For convenience's sake, bind can be used interchageable with
// connect for PGM and EPGM transports.
Connect(addr);
return;
}
// Remaining trasnports require to be run in an I/O thread, so at this
// point we'll choose one.
IOThread ioThread = ChooseIOThread(m_options.Affinity);
if (ioThread == null)
{
throw NetMQException.Create(ErrorCode.EMTHREAD);
}
if (protocol.Equals(Address.TcpProtocol))
{
TcpListener listener = new TcpListener(
ioThread, this, m_options);
try
{
listener.SetAddress(address);
m_port = listener.Port;
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol))
{
PgmListener listener = new PgmListener(ioThread, this, m_options);
try
{
listener.Init(address);
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
m_options.LastEndpoint = addr;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals(Address.IpcProtocol))
{
IpcListener listener = new IpcListener(
ioThread, this, m_options);
try
{
listener.SetAddress(address);
m_port = listener.Port;
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
Debug.Assert(false);
throw NetMQException.Create(ErrorCode.EFAULT);
}
public void Bind(String addr)
{
if (m_ctxTerminated)
{
throw TerminatingException.Create();
}
// Process pending commands, if any.
ProcessCommands(0, false);
string protocol;
string address;
DecodeAddress(addr, out address, out protocol);
CheckProtocol(protocol);
if (protocol.Equals("inproc"))
{
Ctx.Endpoint endpoint = new Ctx.Endpoint(this, m_options);
RegisterEndpoint(addr, endpoint);
// Save last endpoint URI
m_options.LastEndpoint = addr;
return;
}
if ((protocol.Equals("pgm") || protocol.Equals("epgm")) && (
m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub))
{
// For convenience's sake, bind can be used interchageable with
// connect for PGM and EPGM transports.
Connect(addr);
return;
}
// Remaining trasnports require to be run in an I/O thread, so at this
// point we'll choose one.
IOThread ioThread = ChooseIOThread(m_options.Affinity);
if (ioThread == null)
{
throw NetMQException.Create(ErrorCode.EMTHREAD);
}
if (protocol.Equals("tcp"))
{
TcpListener listener = new TcpListener(
ioThread, this, m_options);
try
{
listener.SetAddress(address);
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals("pgm") || protocol.Equals("epgm"))
{
PgmListener listener = new PgmListener(ioThread, this, m_options);
try
{
listener.Init(address);
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
m_options.LastEndpoint = addr;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals("ipc"))
{
IpcListener listener = new IpcListener(
ioThread, this, m_options);
try
{
listener.SetAddress(address);
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
Debug.Assert(false);
throw NetMQException.Create(ErrorCode.EFAULT);
}
public bool Bind(String addr)
{
if (m_ctxTerminated)
{
ZError.ErrorNumber = (ErrorNumber.ETERM);
return false;
}
// Process pending commands, if any.
bool brc = ProcessCommands(0, false);
if (!brc)
return false;
// Parse addr_ string.
//Uri uri;
//try
//{
// uri = new Uri(addr);
//}
//catch (Exception e)
//{
// throw new ArgumentException(addr, e);
//}
//String protocol = uri.Scheme;
//String address = uri.Authority;
//String path = uri.AbsolutePath;
//if (string.IsNullOrEmpty(address))
// address = path;
string protocol;
string address;
DecodeAddress(addr, out address, out protocol);
CheckProtocol(protocol);
if (protocol.Equals("inproc"))
{
Ctx.Endpoint endpoint = new Ctx.Endpoint(this, m_options);
bool rc = RegisterEndpoint(addr, endpoint);
if (rc)
{
// Save last endpoint URI
m_options.LastEndpoint = addr;
}
return rc;
}
if ((protocol.Equals("pgm") || protocol.Equals("epgm")) && (
m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub))
{
// For convenience's sake, bind can be used interchageable with
// connect for PGM and EPGM transports.
return Connect(addr);
}
// Remaining trasnports require to be run in an I/O thread, so at this
// point we'll choose one.
IOThread ioThread = ChooseIOThread(m_options.Affinity);
if (ioThread == null)
{
ZError.ErrorNumber = (ErrorNumber.EMTHREAD);
return false;
}
if (protocol.Equals("tcp"))
{
TcpListener listener = new TcpListener(
ioThread, this, m_options);
bool rc = listener.SetAddress(address);
if (!rc)
{
listener.Destroy();
EventBindFailed(addr, ZError.ErrorNumber);
//LOG.error("Failed to Bind", ZError.exc());
return false;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return true;
}
if (protocol.Equals("pgm") || protocol.Equals("epgm"))
{
PgmListener listener = new PgmListener(ioThread, this, m_options);
bool rc = listener.Init(address);
if (!rc)
{
listener.Destroy();
EventBindFailed(addr, ZError.ErrorNumber);
return false;
}
m_options.LastEndpoint = addr;
AddEndpoint(addr, listener);
return true;
}
if (protocol.Equals("ipc"))
{
IpcListener listener = new IpcListener(
ioThread, this, m_options);
bool rc = listener.SetAddress(address);
if (!rc)
{
listener.Destroy();
EventBindFailed(addr, ZError.ErrorNumber);
return false;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return true;
}
Debug.Assert(false);
return false;
}
public void Bind(String addr)
{
CheckContextTerminated();
// Process pending commands, if any.
ProcessCommands(0, false);
string protocol;
string address;
DecodeAddress(addr, out address, out protocol);
CheckProtocol(protocol);
if (protocol.Equals(Address.InProcProtocol))
{
Ctx.Endpoint endpoint = new Ctx.Endpoint(this, m_options);
bool addressRegistered = RegisterEndpoint(addr, endpoint);
if (!addressRegistered)
{
throw new AddressAlreadyInUseException("Cannot bind address, address already in use");
}
// Save last endpoint URI
m_options.LastEndpoint = addr;
return;
}
if ((protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol)) && (
m_options.SocketType == ZmqSocketType.Pub || m_options.SocketType == ZmqSocketType.Xpub))
{
// For convenience's sake, bind can be used interchageable with
// connect for PGM and EPGM transports.
Connect(addr);
return;
}
// Remaining trasnports require to be run in an I/O thread, so at this
// point we'll choose one.
IOThread ioThread = ChooseIOThread(m_options.Affinity);
if (ioThread == null)
{
throw NetMQException.Create(ErrorCode.EmptyThread);
}
if (protocol.Equals(Address.TcpProtocol))
{
TcpListener listener = new TcpListener(
ioThread, this, m_options);
try
{
listener.SetAddress(address);
m_port = listener.Port;
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals(Address.PgmProtocol) || protocol.Equals(Address.EpgmProtocol))
{
PgmListener listener = new PgmListener(ioThread, this, m_options);
try
{
listener.Init(address);
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
m_options.LastEndpoint = addr;
AddEndpoint(addr, listener);
return;
}
if (protocol.Equals(Address.IpcProtocol))
{
IpcListener listener = new IpcListener(
ioThread, this, m_options);
try
{
listener.SetAddress(address);
m_port = listener.Port;
}
catch (NetMQException ex)
{
listener.Destroy();
EventBindFailed(addr, ex.ErrorCode);
throw;
}
// Save last endpoint URI
m_options.LastEndpoint = listener.Address;
AddEndpoint(addr, listener);
return;
}
Debug.Assert(false);
throw new FaultException();
}