setsockopt Function (Windows)

setsockopt Function

The setsockopt function sets a socket option.

Syntax

C++

int setsockopt(
  __in  SOCKET s,
  __in  int level,
  __in  int optname,
  __in  const char *optval,
  __in  int optlen
);

Parameters

s [in]: A descriptor that identifies a socket.
level [in]: The level at which the option is defined (for example, SOL_SOCKET).
optname [in]: The socket option for which the value is to be set (for example, SO_BROADCAST). The optname parameter must be a socket option defined within the specified level, or behavior is undefined.
optval [in]: A pointer to the buffer in which the value for the requested option is specified.
optlen [in]: The size, in bytes, of the buffer pointed to by the optval parameter.

Return Value

If no error occurs, setsockopt returns zero. Otherwise, a value of SOCKET_ERROR is returned, and a specific error code can be retrieved by calling WSAGetLastError.

Error code	Meaning
WSANOTINITIALISED	A successful WSAStartup call must occur before using this function.
WSAENETDOWN	The network subsystem has failed.
WSAEFAULT	The buffer pointed to by the optval parameter is not in a valid part of the process address space or the optlen parameter is too small.
WSAEINPROGRESS	A blocking Windows Sockets 1.1 call is in progress, or the service provider is still processing a callback function.
WSAEINVAL	The level parameter is not valid, or the information in the buffer pointed to by the optval parameter is not valid.
WSAENETRESET	The connection has timed out when SO_KEEPALIVE is set.
WSAENOPROTOOPT	The option is unknown or unsupported for the specified provider or socket (see SO_GROUP_PRIORITY limitations).
WSAENOTCONN	The connection has been reset when SO_KEEPALIVE is set.
WSAENOTSOCK	The descriptor is not a socket.

Remarks

The setsockopt function sets the current value for a socket option associated with a socket of any type, in any state. Although options can exist at multiple protocol levels, they are always present at the uppermost socket level. Options affect socket operations, such as whether expedited data (OOB data for example) is received in the normal data stream, and whether broadcast messages can be sent on the socket.

Note If the setsockopt function is called before the bind function, TCP/IP options will not be checked by using TCP/IP until the bind occurs. In this case, the setsockopt function call will always succeed, but the bind function call can fail because of an early setsockopt failing.

Note If a socket is opened, a setsockopt call is made, and then a sendto call is made, Windows Sockets performs an implicit bind function call.

There are two types of socket options: Boolean options that enable or disable a feature or behavior, and options that require an integer value or structure. To enable a Boolean option, the optval parameter points to a nonzero integer. To disable the option optval points to an integer equal to zero. The optlen parameter should be equal to sizeof(int) for Boolean options. For other options, optval points to an integer or structure that contains the desired value for the option, and optlen is the length of the integer or structure.

The following options are supported for setsockopt. For default values of these options, see the description. The Type identifies the type of data addressed by optval.

For more information about socket options, see Socket Options.

level = SOL_SOCKET

Value	Type	Meaning
SO_BROADCAST	BOOL	Enables transmission and receipt of broadcast messages on the socket.
SO_CONDITIONAL_ACCEPT	BOOL	Enables sockets to delay the acknowledgment of a connection until after the WSAAccept condition function is called.
SO_DEBUG	BOOL	Records debugging information.
SO_DONTLINGER	BOOL	Does not block close waiting for unsent data to be sent. Setting this option is equivalent to setting SO_LINGER with l_onoff set to zero.
SO_DONTROUTE	BOOL	Disable routing: send directly to an interface. When this option is set, it succeeds but is ignored for both AF_INET and AF_INET6 sockets. This option is not supported on ATM sockets (results in an error).
SO_GROUP_PRIORITY	int	Reserved.
SO_KEEPALIVE	BOOL	Sends keep-alives. Not supported on ATM sockets (results in an error).
SO_LINGER	LINGER	Lingers on close if unsent data is present.
SO_OOBINLINE	BOOL	Receives OOB data in the normal data stream. For a discussion of this topic, see Protocol Independent Out-Of-band Data.
SO_RCVBUF	int	Specifies the total per-socket buffer space reserved for receives. This is unrelated to SO_MAX_MSG_SIZE and does not necessarily correspond to the size of the TCP receive window.
SO_REUSEADDR	BOOL	Allows the socket to be bound to an address that is already in use. For more information, see bind. Not applicable on ATM sockets.
SO_EXCLUSIVEADDRUSE	BOOL	Enables a socket to be bound for exclusive access. Does not require administrative privilege.
SO_SNDBUF	int	Specifies the total per-socket buffer space reserved for sends. This is unrelated to SO_MAX_MSG_SIZE and does not necessarily correspond to the size of a TCP send window..
SO_UPDATE_ACCEPT_CONTEXT	int	Updates the accepting socket with the context of the listening socket.
PVD_CONFIG	Service Provider Dependent	This object stores the configuration information for the service provider associated with socket s. The exact format of this data structure is service provider specific.

level = IPPROTO_TCP

Value	Type	Meaning
TCP_NODELAY	BOOL	Disables the Nagle algorithm for send coalescing. This socket option is included for backward compatibility with Windows Sockets 1.1

level = NSPROTO_IPX

Note Windows NT supports all IPX options. Windows Me, Windows 98, and Windows 95 support only the following options:

IPX_PTYPE

IPX_FILTERPTYPE

IPX_DSTYPE

IPX_RECVHDR

IPX_MAXSIZE (used with the getsockopt function)

IPX_ADDRESS (used with the getsockopt function)

Value	Type	Meaning
IPX_PTYPE	int	Sets the IPX packet type.
IPX_FILTERPTYPE	int	Sets the receive filter packet type
IPX_STOPFILTERPTYPE	int	Stops filtering the filter type set with IPX_FILTERTYPE
IPX_DSTYPE	int	Sets the value of the data stream field in the SPX header on every packet sent.
IPX_EXTENDED_ADDRESS	BOOL	Sets whether extended addressing is enabled.
IPX_RECVHDR	BOOL	Sets whether the protocol header is sent up on all receive headers.
IPX_RECEIVE_BROADCAST	BOOL	Indicates broadcast packets are likely on the socket. Set to TRUE by default. Applications that do not use broadcasts should set this to FALSE for better system performance.
IPX_IMMEDIATESPXACK	BOOL	Directs SPX connections not to delay before sending an ACK. Applications without back-and-forth traffic should set this to TRUE to increase performance.

BSD options not supported for setsockopt are shown in the following table.

Value	Type	Meaning
SO_ACCEPTCONN	BOOL	Socket is listening.
SO_RCVLOWAT	int	Receives low watermark.
SO_RCVTIMEO	int	Receives time-out in milliseconds (available in the Microsoft implementation of Windows Sockets 2).
SO_SNDLOWAT	int	Sends low watermark.
SO_SNDTIMEO	int	Sends time-out in milliseconds (available in the Microsoft implementation of Windows Sockets 2).
SO_TYPE	int	Type of the socket.

SO_CONDITIONAL_ACCEPT

Setting this socket option to TRUE delays the acknowledgment of a connection until after the WSAAccept condition function is called. If FALSE, the connection may be accepted before the condition function is called, but the connection will be disconnected if the condition function rejects the call. This option must be set before calling the listen function, otherwise WSAEINVAL is returned. SO_CONDITIONAL_ACCEPT is only supported for TCP and ATM.

TCP sets SO_CONDITIONAL_ACCEPT to FALSE by default, and therefore by default the connection will be accepted before the WSAAccept condition function is called. When set to TRUE, the conditional decision must be made within the TCP connection time-out. CF_DEFER connections are still subject to the time-out.

ATM sets SO_CONDITIONAL_ACCEPT to TRUE by default.

SO_DEBUG

Windows Sockets service providers are encouraged (but not required) to supply output debug information if the SO_DEBUG option is set by an application. The mechanism for generating the debug information and the form it takes are beyond the scope of this document.

SO_GROUP_PRIORITY

Reserved for future use with socket groups. Group priority indicates the relative priority of the specified socket relative to other sockets within the socket group. Values are nonnegative integers, with zero corresponding to the highest priority. Priority values represent a hint to the underlying service provider about how potentially scarce resources should be allocated. For example, whenever two or more sockets are both ready to transmit data, the highest priority socket (lowest value for SO_GROUP_PRIORITY) should be serviced first with the remainder serviced in turn according to their relative priorities.

SO_KEEPALIVE

An application can request that a TCP/IP provider enable the use of keep-alive packets on TCP connections by turning on the SO_KEEPALIVE socket option. A Windows Sockets provider need not support the use of keep-alives. If it does, the precise semantics are implementation-specific but should conform to section 4.2.3.6 on the Requirements for Internet Hosts—Communication Layers specified in RFC 1122 available at the IETF website.

If a connection is dropped as the result of keep-alives the error code WSAENETRESET is returned to any calls in progress on the socket, and any subsequent calls will fail with WSAENOTCONN.

If keep-alive is enabled for a TCP socket with SO_KEEPALIVE, then the default TCP settings are used for the keep-alive timeout and interval unless these values have been changed by calling the WSAIoctl function with the SIO_KEEPALIVE_VALS option.

SO_LINGER

The SO_LINGER option controls the action taken when unsent data is queued on a socket and a closesocket is performed. See closesocket for a description of the way in which the SO_LINGER settings affect the semantics of closesocket. The application sets the desired behavior by creating a LINGER structure (pointed to by the optval parameter) with these members l_onoff and l_linger set appropriately.

SO_REUSEADDR

By default, a socket cannot be bound (see bind) to a local address that is already in use. On occasion, however, it can be necessary to reuse an address in this way. Since every connection is uniquely identified by the combination of local and remote addresses, there is no problem with having two sockets bound to the same local address as long as the remote addresses are different. To inform the Windows Sockets provider that a bind on a socket should not be disallowed because the desired address is already in use by another socket, the application should set the SO_REUSEADDR socket option for the socket before issuing the bind. The option is interpreted only at the time of the bind. It is therefore unnecessary and harmless to set the option on a socket that is not to be bound to an existing address. Setting or resetting the option after the bind has no effect on this or any other socket.

SO_RCVBUF and SO_SNDBUF

When a Windows Sockets implementation supports the SO_RCVBUF and SO_SNDBUF options, an application can request different buffer sizes (larger or smaller). The call to setsockopt can succeed even when the implementation did not provide the whole amount requested. An application must call getsockopt with the same option to check the buffer size actually provided.

SO_RCVTIMEO and SO_SNDTIMEO

When using the recv function, if no data arrives during the period specified in SO_RCVTIMEO, the recv function completes. In Windows versions prior to Windows 2000, any data received subsequently fails with WSAETIMEDOUT. In Windows 2000 and later, if no data arrives within the period specified in SO_RCVTIMEO, the recv function returns WSAETIMEDOUT, and if data is received, recv returns SUCCESS.

If a send or receive operation times out on a socket, the socket state is indeterminate, and should not be used; TCP sockets in this state have a potential for data loss, since the operation could be canceled at the same moment the operation was to be completed.

PVD_CONFIG

This object stores the configuration information for the service provider associated with the socket specified in the s parameter. The exact format of this data structure is specific to each service provider.

TCP_NODELAY

The TCP_NODELAY option is specific to TCP/IP service providers. The Nagle algorithm is disabled if the TCP_NODELAY option is enabled (and vice versa). The process involves buffering send data when there is unacknowledged data already in flight or buffering send data until a full-size packet can be sent. It is highly recommended that TCP/IP service providers enable the Nagle Algorithm by default, and for the vast majority of application protocols the Nagle Algorithm can deliver significant performance enhancements. However, for some applications this algorithm can impede performance, and TCP_NODELAY can be used to turn it off. These are applications where many small messages are sent, and the time delays between the messages are maintained. Application writers should not set TCP_NODELAY unless the impact of doing so is well-understood and desired because setting TCP_NODELAY can have a significant negative impact on network and application performance.

Example Code

The following example demonstrates the setsockopt function.

#include <stdio.h>
#include "winsock2.h"
#include <windows.h>

void main() {

  //---------------------------------------
  // Declare variables
  WSADATA wsaData;
  SOCKET ListenSocket;
  sockaddr_in service;

  //---------------------------------------
  // Initialize Winsock
  int iResult = WSAStartup( MAKEWORD(2,2), &wsaData );
  if( iResult != NO_ERROR )
    printf("Error at WSAStartup\n");

  //---------------------------------------
  // Create a listening socket
  ListenSocket = socket( AF_INET, SOCK_STREAM, IPPROTO_TCP );
  if (ListenSocket == INVALID_SOCKET) {
    printf("Error at socket()\n");
    WSACleanup();
    return;
  }

  //---------------------------------------
  // Bind the socket to the local IP address
  // and port 27015
  hostent* thisHost;
  char* ip;
  u_short port;
  port = 27015;
  thisHost = gethostbyname("");
  ip = inet_ntoa (*(struct in_addr *)*thisHost->h_addr_list);

  service.sin_family = AF_INET;
  service.sin_addr.s_addr = inet_addr(ip);
  service.sin_port = htons(port);

  if ( bind( ListenSocket,(SOCKADDR*) &service, sizeof(service) )  == SOCKET_ERROR ) {
    printf("bind failed\n");
    closesocket(ListenSocket);
    return;
  }

  //---------------------------------------
  // Initialize variables and call setsockopt. 
  // The SO_KEEPALIVE parameter is a socket option 
  // that makes the socket send keepalive messages
  // on the session. The SO_KEEPALIVE socket option
  // requires a boolean value to be passed to the
  // setsockopt function. If TRUE, the socket is
  // configured to send keepalive messages, if FALSE
  // the socket configured to NOT send keepalive messages.
  // This section of code tests the setsockopt function
  // by checking the status of SO_KEEPALIVE on the socket
  // using the getsockopt function.
  BOOL bOptVal = TRUE;
  int bOptLen = sizeof(BOOL);
  int iOptVal;
  int iOptLen = sizeof(int);

  if (getsockopt(ListenSocket, SOL_SOCKET, SO_KEEPALIVE, (char*)&iOptVal, &iOptLen) != SOCKET_ERROR) {
    printf("SO_KEEPALIVE Value: %ld\n", iOptVal);
  }

  if (setsockopt(ListenSocket, SOL_SOCKET, SO_KEEPALIVE, (char*)&bOptVal, bOptLen) != SOCKET_ERROR) {
    printf("Set SO_KEEPALIVE: ON\n");
  }

  if (getsockopt(ListenSocket, SOL_SOCKET, SO_KEEPALIVE, (char*)&iOptVal, &iOptLen) != SOCKET_ERROR) {
    printf("SO_KEEPALIVE Value: %ld\n", iOptVal);
  }

  WSACleanup();
  return;

}

Notes for IrDA Sockets

Keep in mind the following:

The Af_irda.h header file must be explicitly included.
IrDA provides the following socket option:

Value Type Meaning

IRLMP_IAS_SET *IAS_SET Sets IAS attributes

Value	Type	Meaning
IRLMP_IAS_SET	*IAS_SET	Sets IAS attributes

The IRLMP_IAS_SET socket option enables the application to set a single attribute of a single class in the local IAS. The application specifies the class to set, the attribute, and attribute type. The application is expected to allocate a buffer of the necessary size for the passed parameters.

IrDA provides an IAS database that stores IrDA-based information. Limited access to the IAS database is available through the Windows Sockets 2 interface, but such access is not normally used by applications, and exists primarily to support connections to non-Windows devices that are not compliant with the Windows Sockets 2 IrDA conventions.

The following structure, IAS_SET, is used with the IRLMP_IAS_SET setsockopt option to manage the local IAS database:

#include <windows.h>

typedef struct _IAS_SET {
    char      irdaClassName[IAS_MAX_CLASSNAME];
    char      irdaAttribName[IAS_MAX_ATTRIBNAME];
    u_long    irdaAttribType;
    union
    {
              LONG irdaAttribInt;
              struct
              {
                   u_short   Len;
                   u_char    OctetSeq[IAS_MAX_OCTET_STRING];
              } irdaAttribOctetSeq;
              struct
              {
                   u_char    Len;
                   u_char    CharSet;
                   u_char    UsrStr[IAS_MAX_USER_STRING];
              } irdaAttribUsrStr;
    } irdaAttribute;
} IAS_SET, *PIAS_SET, FAR *LPIAS_SET;

The following structure, IAS_QUERY, is used with the IRLMP_IAS_QUERY setsockopt option to query a peer's IAS database:

#include <windows.h>

typedef struct _WINDOWS_IAS_QUERY {
        u_char   irdaDeviceID[4];
        char     irdaClassName[IAS_MAX_CLASSNAME];
        char     irdaAttribName[IAS_MAX_ATTRIBNAME];
        u_long   irdaAttribType;
        union
        {
                  LONG    irdaAttribInt;
                  struct
                  {
                          u_long  Len;
                          u_char  OctetSeq[IAS_MAX_OCTET_STRING];
                  } irdaAttribOctetSeq;
                  struct
                  {
                          u_long  Len;
                          u_long  CharSet;
                          u_char  UsrStr[IAS_MAX_USER_STRING];
                  } irdaAttribUsrStr;
        } irdaAttribute;
} IAS_QUERY, *PIAS_QUERY, FAR *LPIAS_QUERY;

Many SO_ level socket options are not meaningful to IrDA. Only SO_LINGER is specifically supported.

Note setsockopt must be called before bind on Windows NT 4.0, Windows 95, and Windows 98 platforms.

Requirements

Minimum supported client	Windows 2000 Professional
Minimum supported server	Windows 2000 Server
Header	Winsock2.h
Library	Ws2_32.lib
DLL	Ws2_32.dll