{****************************************************************************
$Id: pmwsock.pas,v 1.3 2003/10/05 20:03:58 hajny Exp $
This file is part of the Free Pascal run time library.
Copyrigth (c) 2003 by Yuri Prokushev (prokushev@freemail.ru)
This file corresponds to version 1.1 of the Windows Sockets
specification.
See the file COPYING.FPC, included in this distribution,
for details about the copyright.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
****************************************************************************}
{$ifndef winsock}
unit pmwsock;
{$endif}
{$PACKRECORDS 1}
{$MACRO ON}
Interface
Uses OS2Def;
// The new type to be used in all instances which refer to sockets.
type
TSocket=Cardinal;
type
PLongint=^Longint;
PCardinal=^Cardinal;
// Select uses arrays of TSockets. These macros manipulate such
// arrays. FD_SETSIZE may be defined by the user before including
// this file, but the default here should be >= 64.
//
// CAVEAT IMPLEMENTOR and USER: THESE MACROS AND TYPES MUST BE
// INCLUDED IN WINSOCK.H EXACTLY AS SHOWN HERE.
const
FD_SETSIZE = 64;
type
fdset=record
fd_count: Word; // how many are SET?
fd_array: Array[0..FD_SETSIZE-1] of TSocket; // an array of TSockets
end;
TFDSet = fdset;
PFDSet = ^fdset;
Function __WSAFDIsSet(a: TSocket;var b: fdset): Longint; cdecl;
external 'PMWSock' name '__WSAFDIsSet';
Function __WSAFDIsSet_(s:TSocket; var FDSet:TFDSet): Longint; cdecl;
external 'PMWSock' name '__WSAFDIsSet';
Function FD_ISSET(a: TSocket;var b: fdset): Longint; cdecl;
external 'PMWSock' name '__WSAFDIsSet';
Procedure FD_CLR(ASocket: TSocket; var aset: fdset);
Procedure FD_SET(Socket:TSocket; var FDSet:TFDSet);
// Structure used in select() call, taken from the BSD file sys/time.h.
type
timeval=record
tv_sec: LongInt; // seconds
tv_usec: LongInt; // and microseconds
end;
TTimeVal = timeval;
PTimeVal = ^TTimeVal;
{ found no reference to this type in c header files and here. AlexS }
{ minutes west of Greenwich }
{ type of dst correction }
timezone = record
tz_minuteswest : longint;
tz_dsttime : longint;
end;
TTimeZone = timezone;
PTimeZone = ^TTimeZone;
// Operations on timevals.
// timercmp does not work for >= or <=.
Function timerisset(tvp: timeval): Boolean;
//Function timercmp(tvp, uvp, cmp);
Procedure timerclear(var tvp: timeval);
// Commands for ioctlsocket(), taken from the BSD file fcntl.h.
//
// Ioctl's have the command encoded in the lower word,
// and the size of any in or out parameters in the upper
// word. The high 2 bits of the upper word are used
// to encode the in/out status of the parameter; for now
// we restrict parameters to at most 128 bytes.
const
IOCPARM_MASK = $7f; // parameters must be < 128 bytes
IOC_VOID = $20000000; // no parameters
IOC_OUT = $40000000; // copy out parameters
IOC_IN = $80000000; // copy in parameters
IOC_INOUT = IOC_IN or IOC_OUT; // 0x20000000 distinguishes new &
// old ioctl's
const
// get # bytes to read
FIONREAD=(IOC_OUT or ((Longint (sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('f') shl 8) or 127);
// set/clear non-blocking i/o
FIONBIO=(IOC_IN or ((Longint(sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('f') shl 8) or 126);
// set/clear async i/o
FIOASYNC=(IOC_IN or ((Longint(sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('f') shl 8) or 125);
// Socket I/O Controls
const
// set high watermark
SIOCSHIWAT=(IOC_IN or ((Longint(sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('s') shl 8) or 0);
// get high watermark
SIOCGHIWAT=(IOC_OUT or ((Longint (sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('s') shl 8) or 1);
// set low watermark
SIOCSLOWAT=(IOC_IN or ((Longint(sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('s') shl 8) or 2);
// get low watermark
SIOCGLOWAT=(IOC_OUT or ((Longint (sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('s') shl 8) or 3);
// at oob mark?
SIOCATMARK=(IOC_OUT or ((Longint (sizeof(Cardinal)) and IOCPARM_MASK) shl 16) or (Ord('s') shl 8) or 7);
// Structures returned by network data base library, taken from the
// BSD file netdb.h. All addresses are supplied in host order, and
// returned in network order (suitable for use in system calls).
type
hostent=record
h_name: PChar; // official name of host
h_aliases: PPChar; // alias list
h_addrtype: LongInt; // host address type
h_length: LongInt; // length of address
case byte of
0: (h_addr_list: ppchar); // list of addresses from name server
1: (h_addr: ppchar) // address, for backward compatiblity
end;
phostent=^hostent;
THostEnt = hostent;
// It is assumed here that a network number
// fits in 32 bits.
type
netent=record
n_name: PChar; // official name of net
n_aliases: PPChar; // alias list
n_addrtype: Longint; // net address type
n_net: Cardinal; // network #
End;
pnetent=^netent;
TNetEnt = netent;
type
servent=record
s_name: PChar; // official service name
s_aliases: PPChar; // alias list
s_port: LongInt; // port #
s_proto: PChar; // protocol to use
end;
TServEnt = servent;
pservent=^servent;
protoent=record
p_name: PChar; // official protocol name
p_aliases: PPChar; // alias list
p_proto: LongInt; // protocol #
end;
TProtoEnt = protoent;
pprotoent=^protoent;
// Constants and structures defined by the internet system,
// Per RFC 790, September 1981, taken from the BSD file netinet/in.h.
// Protocols
const
IPPROTO_IP =0; // dummy for IP
IPPROTO_ICMP =1; // control message protocol
IPPROTO_GGP =2; // gateway^2 (deprecated)
IPPROTO_TCP =6; // tcp
IPPROTO_PUP =12; // pup
IPPROTO_UDP =17; // user datagram protocol
IPPROTO_IDP =22; // xns idp
IPPROTO_ND =77; // UNOFFICIAL net disk proto
IPPROTO_RAW =255; // raw IP packet
IPPROTO_MAX =256;
// Port/socket numbers: network standard functions
IPPORT_ECHO =7;
IPPORT_DISCARD =9;
IPPORT_SYSTAT =11;
IPPORT_DAYTIME =13;
IPPORT_NETSTAT =15;
IPPORT_FTP =21;
IPPORT_TELNET =23;
IPPORT_SMTP =25;
IPPORT_TIMESERVER =37;
IPPORT_NAMESERVER =42;
IPPORT_WHOIS =43;
IPPORT_MTP =57;
// Port/socket numbers: host specific functions
IPPORT_TFTP =69;
IPPORT_RJE =77;
IPPORT_FINGER =79;
IPPORT_TTYLINK =87;
IPPORT_SUPDUP =95;
// UNIX TCP sockets
IPPORT_EXECSERVER =512;
IPPORT_LOGINSERVER =513;
IPPORT_CMDSERVER =514;
IPPORT_EFSSERVER =520;
// UNIX UDP sockets
IPPORT_BIFFUDP =512;
IPPORT_WHOSERVER =513;
IPPORT_ROUTESERVER =520;
// 520+1 also used
// Ports < IPPORT_RESERVED are reserved for
// privileged processes (e.g. root).
IPPORT_RESERVED =1024;
// Link numbers
IMPLINK_IP =155;
IMPLINK_LOWEXPER =156;
IMPLINK_HIGHEXPER =158;
// Internet address (old style... should be updated)
type
in_addr=record
case Integer of
1:(S_un_b:record s_b1,s_b2,s_b3,s_b4: Byte; end;);
2:(s_un_w:record s_w1,s_w2: Word; end;);
3:(s_addr: Cardinal);
end;
TInAddr = in_addr;
PInAddr = ^TInAddr;
{$define s_addr:=in_addr.S_addr} // can be used for most tcp & ip code
{$define s_host:=in_addr.S_un_b.s_b2} // host on imp
{$define s_net:=in_addr.S_un_b.s_b1} // network
{$define s_imp:=in_addr.S_un_w.s_w2} // imp
{$define s_impno:=in_addr.S_un_b.s_b4} // imp #
{$define s_lh:=in_addr.S_un_b.s_b3} // logical host
// Definitions of bits in internet address integers.
// On subnets, the decomposition of addresses to host and net parts
// is done according to subnet mask, not the masks here.
const
{$define IN_CLASSA(i):=((Longint(i) and $80000000) = 0)}
IN_CLASSA_NET =$ff000000;
IN_CLASSA_NSHIFT =24;
IN_CLASSA_HOST =$00ffffff;
IN_CLASSA_MAX =128;
{$define IN_CLASSB(i):=((Longint(i) and $c0000000) = $80000000)}
IN_CLASSB_NET =$ffff0000;
IN_CLASSB_NSHIFT =16;
IN_CLASSB_HOST =$0000ffff;
IN_CLASSB_MAX =65536;
{$define IN_CLASSC(i):=((Longint(i) and $e0000000) = $c0000000)}
IN_CLASSC_NET =$ffffff00;
IN_CLASSC_NSHIFT =8;
IN_CLASSC_HOST =$000000ff;
INADDR_ANY =$00000000;
INADDR_LOOPBACK =$7f000001;
INADDR_BROADCAST =$ffffffff;
INADDR_NONE =$ffffffff;
// Socket address, internet style.
Type
sockaddr_in=Record
case integer of
0 : ( (* equals to sockaddr_in, size is 16 byte *)
sin_family : SmallInt; (* 2 byte *)
sin_port : Word; (* 2 byte *)
sin_addr : TInAddr; (* 4 byte *)
sin_zero : array[0..8-1] of char; (* 8 byte *)
);
1 : ((* equals to sockaddr, size is 16 byte *)
sa_family : Smallint; (* 2 byte *)
sa_data : array[0..14-1] of char; (* 14 byte *)
);
end;
TSockAddrIn = sockaddr_in;
PSockAddrIn = ^TSockAddrIn;
TSockAddr = sockaddr_in;
PSockAddr = ^TSockAddr;
const
WSADESCRIPTION_LEN =256;
WSASYS_STATUS_LEN =128;
Type
WSAData=Record
wVersion:Word;
wHighVersion:Word;
szDescription: array[0..WSADESCRIPTION_LEN] of Char;
szSystemStatus: array[0..WSASYS_STATUS_LEN] of Char;
iMaxSockets:Word;
iMaxUdpDg:Word;
// in OS/2 no such entry
// pad1 : SmallInt; { 2 byte, ofs 394 } { ensure right packaging }
lpVendorInfo:PChar;
End;
PWSADATA=^WSAData;
LPWSADATA=^WSAData;
TWSAData = WSADATA;
// Options for use with [gs]etsockopt at the IP level.
Const
IP_OPTIONS =1; // set/get IP per-packet options
IP_MULTICAST_IF = 2;
IP_MULTICAST_TTL = 3;
IP_MULTICAST_LOOP = 4;
IP_ADD_MEMBERSHIP = 5;
IP_DROP_MEMBERSHIP = 6;
IP_DEFAULT_MULTICAST_TTL = 1;
IP_DEFAULT_MULTICAST_LOOP = 1;
IP_MAX_MEMBERSHIPS = 20;
type
ip_mreq = record
imr_multiaddr : in_addr;
imr_interface : in_addr;
end;
// Definitions related to sockets: types, address families, options,
// taken from the BSD file sys/socket.h.
// This is used instead of -1, since the
// TSocket type is unsigned.
Const
INVALID_SOCKET = -1;
SOCKET_ERROR = -1;
// Types
Const
SOCK_STREAM =1; // stream socket
SOCK_DGRAM =2; // datagram socket
SOCK_RAW =3; // raw-protocol interface
SOCK_RDM =4; // reliably-delivered message
SOCK_SEQPACKET =5; // sequenced packet stream
// Option flags per-socket.
Const
SO_DEBUG =$0001; // turn on debugging info recording
SO_ACCEPTCONN =$0002; // socket has had listen()
SO_REUSEADDR =$0004; // allow local address reuse
SO_KEEPALIVE =$0008; // keep connections alive
SO_DONTROUTE =$0010; // just use interface addresses
SO_BROADCAST =$0020; // permit sending of broadcast msgs
SO_USELOOPBACK =$0040; // bypass hardware when possible
SO_LINGER =$0080; // linger on close if data present
SO_OOBINLINE =$0100; // leave received OOB data in line
SO_DONTLINGER =NOT SO_LINGER; // dont linger
// Additional options.
SO_SNDBUF =$1001; // send buffer size
SO_RCVBUF =$1002; // receive buffer size
SO_SNDLOWAT =$1003; // send low-water mark
SO_RCVLOWAT =$1004; // receive low-water mark
SO_SNDTIMEO =$1005; // send timeout
SO_RCVTIMEO =$1006; // receive timeout
SO_ERROR =$1007; // get error status and clear
SO_TYPE =$1008; // get socket type
{
Options for connect and disconnect data and options. Used only by
non-TCP/IP transports such as DECNet, OSI TP4, etc.
}
SO_CONNDATA = $7000;
SO_CONNOPT = $7001;
SO_DISCDATA = $7002;
SO_DISCOPT = $7003;
SO_CONNDATALEN = $7004;
SO_CONNOPTLEN = $7005;
SO_DISCDATALEN = $7006;
SO_DISCOPTLEN = $7007;
{
Option for opening sockets for synchronous access.
}
SO_OPENTYPE = $7008;
SO_SYNCHRONOUS_ALERT = $10;
SO_SYNCHRONOUS_NONALERT = $20;
{
Other NT-specific options.
}
SO_MAXDG = $7009;
SO_MAXPATHDG = $700A;
SO_UPDATE_ACCEPT_CONTEXT = $700B;
SO_CONNECT_TIME = $700C;
// TCP options.
Const
TCP_NODELAY = $0001;
TCP_BSDURGENT = $7000;
// Address families.
Const
AF_UNSPEC =0; // unspecified
AF_UNIX =1; // local to host (pipes, portals)
AF_INET =2; // internetwork: UDP, TCP, etc.
AF_IMPLINK =3; // arpanet imp addresses
AF_PUP =4; // pup protocols: e.g. BSP
AF_CHAOS =5; // mit CHAOS protocols
AF_NS =6; // XEROX NS protocols
AF_ISO =7; // ISO protocols
AF_OSI =AF_ISO; // OSI is ISO
AF_ECMA =8; // european computer manufacturers
AF_DATAKIT =9; // datakit protocols
AF_CCITT =10; // CCITT protocols, X.25 etc
AF_SNA =11; // IBM SNA
AF_DECnet =12; // DECnet
AF_DLI =13; // Direct data link interface
AF_LAT =14; // LAT
AF_HYLINK =15; // NSC Hyperchannel
AF_APPLETALK =16; // AppleTalk
AF_NETBIOS =17; // NetBios-style addresses
{ FireFox }
AF_FIREFOX = 19;
{ Somebody is using this! }
AF_UNKNOWN1 = 20;
{ Banyan }
AF_BAN = 21;
AF_MAX =22;
// Structure used by kernel to store most
// addresses.
Type
sockaddr=Record
sa_family:Word; // address family
sa_data:Array[0..13] of char; // up to 14 bytes of direct address
End;
// Structure used by kernel to pass protocol
// information in raw sockets.
sockproto=Record
sp_family:Word; // address family
sp_protocol:Word; // protocol
End;
TSockProto = sockproto;
PSockProto = ^TSockProto;
// Protocol families, same as address families for now.
Const
PF_UNSPEC =AF_UNSPEC;
PF_UNIX =AF_UNIX;
PF_INET =AF_INET;
PF_IMPLINK =AF_IMPLINK;
PF_PUP =AF_PUP;
PF_CHAOS =AF_CHAOS;
PF_NS =AF_NS;
PF_ISO =AF_ISO;
PF_OSI =AF_OSI;
PF_ECMA =AF_ECMA;
PF_DATAKIT =AF_DATAKIT;
PF_CCITT =AF_CCITT;
PF_SNA =AF_SNA;
PF_DECnet =AF_DECnet;
PF_DLI =AF_DLI;
PF_LAT =AF_LAT;
PF_HYLINK =AF_HYLINK;
PF_APPLETALK =AF_APPLETALK;
PF_FIREFOX = AF_FIREFOX;
PF_UNKNOWN1 = AF_UNKNOWN1;
PF_BAN = AF_BAN;
PF_MAX = AF_MAX;
// Structure used for manipulating linger option.
Type
linger=Record
l_onoff:LongInt; // option on/off
l_linger:LongInt; // linger time
End;
TLinger = linger;
PLinger = ^TLinger;
// Level number for (get/set)sockopt() to apply to socket itself.
Const
SOL_SOCKET =$ffff; // options for socket level
// Maximum queue length specifiable by listen.
SOMAXCONN =5;
MSG_OOB =1; // process out-of-band data
MSG_PEEK =2; // peek at incoming message
MSG_DONTROUTE =4; // send without using routing tables
MSG_MAXIOVLEN =16;
// Define constant based on rfc883, used by gethostbyxxxx() calls.
MAXGETHOSTSTRUCT =1024;
MAXHOSTNAMELEN = MAXGETHOSTSTRUCT;
// Define flags to be used with the WSAAsyncSelect() call.
FD_READ =$01;
FD_WRITE =$02;
FD_OOB =$04;
FD_ACCEPT =$08;
FD_CONNECT =$10;
FD_CLOSE =$20;
// All Windows Sockets error constants are biased by WSABASEERR from
// the "normal"
WSABASEERR =10000;
// Windows Sockets definitions of regular Microsoft C error constants
WSAEINTR =(WSABASEERR+4);
WSAEBADF =(WSABASEERR+9);
WSAEACCES =(WSABASEERR+13);
WSAEFAULT =(WSABASEERR+14);
WSAEINVAL =(WSABASEERR+22);
WSAEMFILE =(WSABASEERR+24);
// Windows Sockets definitions of regular Berkeley error constants
WSAEWOULDBLOCK =(WSABASEERR+35);
WSAEINPROGRESS =(WSABASEERR+36);
WSAEALREADY =(WSABASEERR+37);
WSAENOTSOCK =(WSABASEERR+38);
WSAEDESTADDRREQ =(WSABASEERR+39);
WSAEMSGSIZE =(WSABASEERR+40);
WSAEPROTOTYPE =(WSABASEERR+41);
WSAENOPROTOOPT =(WSABASEERR+42);
WSAEPROTONOSUPPORT =(WSABASEERR+43);
WSAESOCKTNOSUPPORT =(WSABASEERR+44);
WSAEOPNOTSUPP =(WSABASEERR+45);
WSAEPFNOSUPPORT =(WSABASEERR+46);
WSAEAFNOSUPPORT =(WSABASEERR+47);
WSAEADDRINUSE =(WSABASEERR+48);
WSAEADDRNOTAVAIL =(WSABASEERR+49);
WSAENETDOWN =(WSABASEERR+50);
WSAENETUNREACH =(WSABASEERR+51);
WSAENETRESET =(WSABASEERR+52);
WSAECONNABORTED =(WSABASEERR+53);
WSAECONNRESET =(WSABASEERR+54);
WSAENOBUFS =(WSABASEERR+55);
WSAEISCONN =(WSABASEERR+56);
WSAENOTCONN =(WSABASEERR+57);
WSAESHUTDOWN =(WSABASEERR+58);
WSAETOOMANYREFS =(WSABASEERR+59);
WSAETIMEDOUT =(WSABASEERR+60);
WSAECONNREFUSED =(WSABASEERR+61);
WSAELOOP =(WSABASEERR+62);
WSAENAMETOOLONG =(WSABASEERR+63);
WSAEHOSTDOWN =(WSABASEERR+64);
WSAEHOSTUNREACH =(WSABASEERR+65);
WSAENOTEMPTY =(WSABASEERR+66);
WSAEPROCLIM =(WSABASEERR+67);
WSAEUSERS =(WSABASEERR+68);
WSAEDQUOT =(WSABASEERR+69);
WSAESTALE =(WSABASEERR+70);
WSAEREMOTE =(WSABASEERR+71);
WSAEDISCON = WSABASEERR + 101;
// Extended Windows Sockets error constant definitions
WSASYSNOTREADY =(WSABASEERR+91);
WSAVERNOTSUPPORTED =(WSABASEERR+92);
WSANOTINITIALISED =(WSABASEERR+93);
// Error return codes from gethostbyname() and gethostbyaddr()
// (when using the resolver). Note that these errors are
// retrieved via WSAGetLastError() and must therefore follow
// the rules for avoiding clashes with error numbers from
// specific implementations or language run-time systems.
// For this reason the codes are based at WSABASEERR+1001.
// Note also that [WSA]NO_ADDRESS is defined only for
// compatibility purposes.
{$define h_errno:=WSAGetLastError()}
// Authoritative Answer: Host not found
WSAHOST_NOT_FOUND =(WSABASEERR+1001);
HOST_NOT_FOUND =WSAHOST_NOT_FOUND;
// Non-Authoritative: Host not found, or SERVERFAIL
WSATRY_AGAIN =(WSABASEERR+1002);
TRY_AGAIN =WSATRY_AGAIN;
// Non recoverable errors, FORMERR, REFUSED, NOTIMP
WSANO_RECOVERY =(WSABASEERR+1003);
NO_RECOVERY =WSANO_RECOVERY;
// Valid name, no data record of requested type
WSANO_DATA =(WSABASEERR+1004);
NO_DATA =WSANO_DATA;
// no address, look for MX record
WSANO_ADDRESS =WSANO_DATA;
NO_ADDRESS =WSANO_ADDRESS;
// Windows Sockets errors redefined as regular Berkeley error constants
Const
EWOULDBLOCK =WSAEWOULDBLOCK;
EINPROGRESS =WSAEINPROGRESS;
EALREADY =WSAEALREADY;
ENOTSOCK =WSAENOTSOCK;
EDESTADDRREQ =WSAEDESTADDRREQ;
EMSGSIZE =WSAEMSGSIZE;
EPROTOTYPE =WSAEPROTOTYPE;
ENOPROTOOPT =WSAENOPROTOOPT;
EPROTONOSUPPORT =WSAEPROTONOSUPPORT;
ESOCKTNOSUPPORT =WSAESOCKTNOSUPPORT;
EOPNOTSUPP =WSAEOPNOTSUPP;
EPFNOSUPPORT =WSAEPFNOSUPPORT;
EAFNOSUPPORT =WSAEAFNOSUPPORT;
EADDRINUSE =WSAEADDRINUSE;
EADDRNOTAVAIL =WSAEADDRNOTAVAIL;
ENETDOWN =WSAENETDOWN;
ENETUNREACH =WSAENETUNREACH;
ENETRESET =WSAENETRESET;
ECONNABORTED =WSAECONNABORTED;
ECONNRESET =WSAECONNRESET;
ENOBUFS =WSAENOBUFS;
EISCONN =WSAEISCONN;
ENOTCONN =WSAENOTCONN;
ESHUTDOWN =WSAESHUTDOWN;
ETOOMANYREFS =WSAETOOMANYREFS;
ETIMEDOUT =WSAETIMEDOUT;
ECONNREFUSED =WSAECONNREFUSED;
ELOOP =WSAELOOP;
ENAMETOOLONG =WSAENAMETOOLONG;
EHOSTDOWN =WSAEHOSTDOWN;
EHOSTUNREACH =WSAEHOSTUNREACH;
ENOTEMPTY =WSAENOTEMPTY;
EPROCLIM =WSAEPROCLIM;
EUSERS =WSAEUSERS;
EDQUOT =WSAEDQUOT;
ESTALE =WSAESTALE;
EREMOTE =WSAEREMOTE;
TF_DISCONNECT = $01;
TF_REUSE_SOCKET = $02;
TF_WRITE_BEHIND = $04;
{
Options for use with [gs]etsockopt at the IP level.
}
IP_TTL = 7;
IP_TOS = 8;
IP_DONTFRAGMENT = 9;
type
_TRANSMIT_FILE_BUFFERS = record
Head : Pointer;
HeadLength : Cardinal;
Tail : Pointer;
TailLength : Cardinal;
end;
TRANSMIT_FILE_BUFFERS = _TRANSMIT_FILE_BUFFERS;
TTransmitFileBuffers = _TRANSMIT_FILE_BUFFERS;
PTransmitFileBuffers = ^TTransmitFileBuffers;
// Socket function prototypes
Function accept(s: TSocket; Var addr; Var addrlen: LongInt): TSocket; cdecl;
external 'PMWSock' name 'accept';
Function accept(s:TSocket; addr: PSockAddr; addrlen : PLongint) : TSocket; cdecl;
external 'PMWSock' name 'accept';
Function accept(s:TSocket; addr: PSockAddr; var addrlen : Longint) : TSocket; cdecl;
external 'PMWSock' name 'accept';
Function bind(s: TSocket; Const addr; namelen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'bind';
Function bind(s:TSocket; addr: PSockaddr;namelen: Longint): Longint; cdecl;
external 'PMWSock' name 'bind';
Function closesocket(s: TSocket): LongInt; cdecl;
external 'PMWSock' name 'closesocket';
Function connect(s: TSocket; Const name: sockaddr; namelen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'connect';
Function connect(s:TSocket; addr:PSockAddr; namelen: Longint): Longint; cdecl;
external 'PMWSock' name 'connect';
Function ioctlsocket(s: TSocket; cmd: LongInt; Var argp: Cardinal): LongInt; cdecl;
external 'PMWSock' name 'ioctlsocket';
Function ioctlsocket(s: TSocket; cmd: longint; var arg:longint): Longint; cdecl;
external 'PMWSock' name 'ioctlsocket';
Function ioctlsocket(s: TSocket; cmd: longint; argp: PCardinal): Longint; cdecl;
external 'PMWSock' name 'ioctlsocket';
Function getpeername(s: TSocket; Var name: sockaddr; Var nameLen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'getpeername';
Function getsockname(s: TSocket;Var name: sockaddr; Var namelen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'getsockname';
Function getsockopt(s: TSocket; level, optname: LongInt;Var optval; Var optlen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'getsockopt';
Function getsockopt(s: TSocket; level: Longint; optname: Longint; optval:pchar;var optlen: Longint): Longint; cdecl;
external 'PMWSock' name 'getsockopt';
Function htonl(hostlong: Cardinal): Cardinal; cdecl;
external 'PMWSock' name 'htonl';
Function htons(hostshort: Word): Word; cdecl;
external 'PMWSock' name 'htons';
Function inet_addr(cp: pchar): Cardinal; cdecl;
external 'PMWSock' name 'inet_addr';
Function inet_ntoa(Var _in: in_addr): PChar; cdecl;
external 'PMWSock' name 'inet_ntoa';
Function inet_ntoa(i: PInAddr): pchar; cdecl;
external 'PMWSock' name 'inet_ntoa';
Function listen(s: TSocket; backlog: LongInt): LongInt; cdecl;
external 'PMWSock' name 'listen';
Function ntohl(netlong: Cardinal): Cardinal; cdecl;
external 'PMWSock' name 'ntohl';
Function ntohs(netshort: Word): Word; cdecl;
external 'PMWSock' name 'ntohs';
Function recv(s: TSocket;Var Buf; len, flags: LongInt): LongInt; cdecl;
external 'PMWSock' name 'recv';
Function recv(s: TSocket; buf:pchar; len: Longint; flags: Longint): Longint; cdecl;
external 'PMWSock' name 'recv';
Function recvfrom(s: TSocket; Var Buf: PChar; len, flags:LongInt;
Var from: sockaddr; Var fromLen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'recvfrom';
Function recvfrom(s: TSocket; buf:pchar; len: Longint; flags: Longint;
from: PSockAddr; fromlen: Longint): Longint; cdecl;
external 'PMWSock' name 'recvfrom';
Function recvfrom(s: TSocket; var buf; len: Longint; flags: Longint;
Const from: TSockAddr; var fromlen: Longint): Longint; cdecl;
external 'PMWSock' name 'recvfrom';
Function select(nfds: LongInt; Var readfds, writefds, exceptfds: fdset;
Const timeout: timeval): LongInt; cdecl;
external 'PMWSock' name 'select';
Function select(nfds: Longint; readfds, writefds, exceptfds : PFDSet;
timeout: PTimeVal): Longint; cdecl;
external 'PMWSock' name 'select';
Function send(s: TSocket; Const Buf: PChar; len, flags: LongInt): LongInt; cdecl;
external 'PMWSock' name 'send';
Function sendto(s: TSocket; Const Buf: PChar; len, flags: LongInt;
Const _to: sockaddr; tolen: LongInt): LongInt; cdecl;
external 'PMWSock' name 'sendto';
Function sendto(s: TSocket; buf: pchar; len: Longint; flags: Longint;
toaddr: PSockAddr; tolen: Longint): Longint; cdecl;
external 'PMWSock' name 'sendto';
Function setsockopt(s: TSocket; level: Longint; optname: Longint;
optval: pchar; optlen: Longint): Longint; cdecl;
external 'PMWSock' name 'setsockopt';
Function shutdown(s: TSocket; how: LongInt): LongInt; cdecl;
external 'PMWSock' name 'shutdown';
Function socket(af, typ, protocol: LongInt): TSocket; cdecl;
external 'PMWSock' name 'socket';
// Database function prototypes
Function gethostbyaddr(addr: pchar; len: Longint; t: Longint): PHostEnt; cdecl;
external 'PMWSock' name 'gethostbyaddr';
Function gethostbyname(name: pchar): PHostEnt; cdecl;
external 'PMWSock' name 'gethostbyname';
Function gethostname(name: pchar; namelen: Longint): Longint; cdecl;
external 'PMWSock' name 'gethostname';
Function getservbyport(port: Longint; proto: pchar): PServEnt; cdecl;
external 'PMWSock' name 'getservbyport';
Function getservbyname(name: pchar; proto: pchar): PServEnt; cdecl;
external 'PMWSock' name 'getservbyname';
Function getprotobynumber(proto: LongInt): pprotoent; cdecl;
external 'PMWSock' name 'getprotobynumber';
Function getprotobyname(name: pchar): PProtoEnt; cdecl;
external 'PMWSock' name 'getprotobyname';
// Microsoft Windows Extension function prototypes
Function WSAStartup(wVersionRequired: Word;Var aWSAData: WSAData): LongInt; cdecl;
external 'PMWSock' name 'WSAStartup';
Function WSACleanup: LongInt; cdecl;
external 'PMWSock' name 'WSACleanup';
Procedure WSASetLastError(iError: LongInt); cdecl;
external 'PMWSock' name 'WSASetLastError';
Function WSAGetLastError: LongInt; cdecl;
external 'PMWSock' name 'WSAGetLastError';
Function WSAIsBlocking: Longbool; cdecl;
external 'PMWSock' name 'WSAIsBlocking';
Function WSAUnhookBlockingHook: LongInt; cdecl;
external 'PMWSock' name 'WSAUnhookBlockingHook';
Function WSASetBlockingHook(lpBlockFunc: Pointer): Pointer; cdecl;
external 'PMWSock' name 'WSASetBlockingHook';
Function WSACancelBlockingCall: LongInt; cdecl;
external 'PMWSock' name 'WSACancelBlockingCall';
Function WSAAsyncGetServByName(hWnd: HWND; wMsg: Cardinal;
name: pchar; proto: pchar;
buf: pchar;
buflen: Longint): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncGetServByName';
Function WSAAsyncGetServByPort(hWnd: HWND; wMsg: Cardinal;
port: Longint;
proto: pchar; buf: pchar;
buflen: Longint): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncGetServByPort';
Function WSAAsyncGetProtoByName(hWnd: HWND; wMsg: Cardinal;
name: pchar; buf: pchar;
buflen: Longint): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncGetProtoByName';
Function WSAAsyncGetProtoByNumber(hWnd: HWND; wMsg: Cardinal;
number: Longint;
buf: pchar;
buflen: Longint): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncGetProtoByNumber';
Function WSAAsyncGetHostByName(hWnd: HWND; wMsg: Cardinal;
name: pchar; buf: pchar;
buflen: Longint): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncGetHostByName';
Function WSAAsyncGetHostByAddr(hWnd: HWND; wMsg: Cardinal;
addr: pchar; len: Longint; t: Longint;
buf: pchar; buflen: Longint): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncGetHostByAddr';
Function WSACancelAsyncRequest(hAsyncTaskHandle: Cardinal): LongInt; cdecl;
external 'PMWSock' name 'WSACancelAsyncRequest';
Function WSAAsyncSelect(s: TSocket; ahWnd: HWND; wMsg: Cardinal; lEvent: LongInt): Cardinal; cdecl;
external 'PMWSock' name 'WSAAsyncSelect';
// Windows message parameter composition and decomposition
// macros.
//
// WSAMAKEASYNCREPLY is intended for use by the Windows Sockets implementation
// when constructing the response to a WSAAsyncGetXByY() routine.
Function WSAMakeAsyncReply(Buflen,Error:Word):dword;
// Seems to be error in rtl\win32\winsock.pp
Function WSAMakeSyncReply(Buflen,Error:Word):dword;
// WSAMAKESELECTREPLY is intended for use by the Windows Sockets implementation
// when constructing the response to WSAAsyncSelect().
Function WSAMakeSelectReply(Event,Error:Word):dword;
// WSAGETASYNCBUFLEN is intended for use by the Windows Sockets application
// to extract the buffer length from the lParam in the response
// to a WSAGetXByY().
Function WSAGetAsyncBuflen(Param:dword):Word;
//
// WSAGETASYNCERROR is intended for use by the Windows Sockets application
// to extract the error code from the lParam in the response
// to a WSAGetXByY().
Function WSAGetAsyncError(Param:dword):Word;
// WSAGETSELECTEVENT is intended for use by the Windows Sockets application
// to extract the event code from the lParam in the response
// to a WSAAsyncSelect().
Function WSAGetSelectEvent(Param:dword):Word;
// WSAGETSELECTERROR is intended for use by the Windows Sockets application
// to extract the error code from the lParam in the response
// to a WSAAsyncSelect().
Function WSAGetSelectError(Param:dword):Word;
Procedure FD_ZERO(var aset: fdset);
// Following functions not found in PMWSock
{
function WSARecvEx(s:TSocket;var buf; len:tOS_INT; flags:ptOS_INT):tOS_INT;stdcall;
external winsockdll name 'WSARecvEx';
function TransmitFile(hSocket:TSocket; hFile:THandle; nNumberOfBytesToWrite:dword;
nNumberOfBytesPerSend:DWORD; lpOverlapped:POverlapped;
lpTransmitBuffers:PTransmitFileBuffers; dwReserved:dword):Bool;stdcall;
external winsockdll name 'TransmitFile';
function AcceptEx(sListenSocket,sAcceptSocket:TSocket;
lpOutputBuffer:Pointer; dwReceiveDataLength,dwLocalAddressLength,
dwRemoteAddressLength:dword; var lpdwBytesReceived:dword;
lpOverlapped:POverlapped):Bool;stdcall;
external winsockdll name 'AcceptEx';
procedure GetAcceptExSockaddrs(lpOutputBuffer:Pointer;
dwReceiveDataLength,dwLocalAddressLength,dwRemoteAddressLength:dword;
var LocalSockaddr:TSockAddr; var LocalSockaddrLength:tOS_INT;
var RemoteSockaddr:TSockAddr; var RemoteSockaddrLength:tOS_INT);stdcall;
external winsockdll name 'GetAcceptExSockaddrs';
}
Implementation
Procedure FD_CLR(ASocket: TSocket; var aset: fdset);
var
I: Cardinal;
begin
for I:=0 to aset.fd_count do
begin
if (aset.fd_array[i] = ASocket) then
begin
while (i < (aset.fd_count-1)) do
begin
aset.fd_array[I]:=aset.fd_array[i+1];
Inc(I);
end;
Dec(aset.fd_count);
break;
end;
end;
end;
Procedure FD_ZERO(var aset: fdset);
Begin
aset.fd_count:=0;
End;
procedure FD_SET(Socket: TSocket; var FDSet: tfdset);
begin
if FDSet.fd_count < FD_SETSIZE then
begin
FDSet.fd_array[FDSet.fd_count] := Socket;
Inc(FDSet.fd_count);
end;
end;
Function MAKELONG(a,b : longint) : LONGINT;
begin
MAKELONG:=LONGINT((WORD(a)) or ((CARDINAL(WORD(b))) shl 16));
end;
Function WSAMakeAsyncReply(Buflen,Error:Word):dword;
begin
WSAMakeAsyncReply:=MakeLong(Buflen, Error);
end;
Function WSAMakeSyncReply(Buflen,Error:Word):dword;
begin
WSAMakeSyncReply:=WSAMakeAsyncReply(Buflen,Error);
end;
Function WSAMakeSelectReply(Event,Error:Word):dword;
begin
WSAMakeSelectReply:=MakeLong(Event,Error);
end;
Function WSAGetAsyncBuflen(Param:dword):Word;
begin
WSAGetAsyncBuflen:=lo(Param);
end;
Function WSAGetAsyncError(Param:dword):Word;
begin
WSAGetAsyncError:=hi(Param);
end;
Function WSAGetSelectEvent(Param:dword):Word;
begin
WSAGetSelectEvent:=lo(Param);
end;
Function WSAGetSelectError(Param:dword):Word;
begin
WSAGetSelectError:=hi(Param);
end;
Function timerisset(tvp: timeval): Boolean;
Begin
TimerIsSet:=Boolean(tvp.tv_sec or tvp.tv_usec);
End;
(*
Function timercmp(tvp, uvp, cmp): Boolean;
Begin
((tvp)->tv_sec cmp (uvp)->tv_sec || \
(tvp)->tv_sec == (uvp)->tv_sec && (tvp)->tv_usec cmp (uvp)->tv_usec)
End;
*)
Procedure timerclear(var tvp: timeval);
begin
tvp.tv_sec:=0;
tvp.tv_usec:=0;
end;
end.
{
$Log: pmwsock.pas,v $
Revision 1.3 2003/10/05 20:03:58 hajny
* two calling conventions specified (stdcall and cdecl)
Revision 1.2 2003/08/15 10:53:43 yuri
+ Winsock unit added
* PMWSock unit updated (to be less or more compitilbe with win32 winsock)
Revision 1.1 2003/04/04 12:02:21 yuri
+ Initial import
}
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