/* $XConsortium: Xlibnet.h,v 1.18 91/07/23 19:01:27 rws Exp $ */ /* Copyright 1991 Massachusetts Institute of Technology Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of M.I.T. not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. M.I.T. makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. */ /* $XFree86: xc/lib/dps/Xlibnet.h,v 1.6 2001/06/30 22:41:44 tsi Exp $ */ /* * Xlibnet.h - Xlib networking include files for UNIX Systems. */ #ifndef X_UNIX_PATH #ifdef hpux #define X_UNIX_PATH "/usr/spool/sockets/X11/" #define OLD_UNIX_PATH "/tmp/.X11-unix/X" #else #define X_UNIX_PATH "/tmp/.X11-unix/X" #endif #endif /* X_UNIX_PATH */ #ifdef STREAMSCONN #ifdef SYSV /* * UNIX System V Release 3.2 */ #define BytesReadable(fd,ptr) (_XBytesReadable ((fd), (ptr))) #define MALLOC_0_RETURNS_NULL #include #endif /* SYSV */ #ifdef SVR4 /* * TLI (Streams-based) networking */ #define BytesReadable(fd,ptr) (_XBytesReadable ((fd), (ptr))) #include /* define struct iovec */ #endif /* SVR4 */ #else /* not STREAMSCONN */ /* * socket-based systems */ #include #include #include #include /* needed for XlibInt.c */ #ifdef SVR4 #include #endif #if defined(i386) && defined(SYSV) #if !defined(SCO) && !defined(SCO325) #include #endif #include #define BytesReadable(fd,ptr) ioctl((fd), I_NREAD, (ptr)) #else #define BytesReadable(fd, ptr) ioctl ((fd), FIONREAD, (ptr)) #endif #endif /* STREAMSCONN else */ /* * If your BytesReadable correctly detects broken connections, then * you should NOT define XCONN_CHECK_FREQ. */ #define XCONN_CHECK_FREQ 256 #ifndef X_NOT_POSIX #ifdef _POSIX_SOURCE #include #else #define _POSIX_SOURCE #include #undef _POSIX_SOURCE #endif #endif #ifndef OPEN_MAX #ifdef SVR4 #define OPEN_MAX 256 #else #include #ifndef OPEN_MAX #ifdef NOFILE #define OPEN_MAX NOFILE #else #if !defined(__EMX__) && !defined(__QNX__) #define OPEN_MAX NOFILES_MAX #else #define OPEN_MAX 256 #endif #endif #endif #endif #endif #if OPEN_MAX > 256 #undef OPEN_MAX #define OPEN_MAX 256 #endif /* Adobe additions */ #ifdef MSKCNT #undef MSKCNT #endif #ifdef BITMASK #undef BITMASK #endif #ifdef MASKIDX #undef MASKIDX #endif #define MSKCNT ((OPEN_MAX + 31) / 32) #if (MSKCNT==1) #define BITMASK(i) (1 << (i)) #define MASKIDX(i) 0 #endif #if (MSKCNT>1) #define BITMASK(i) (1 << ((i) & 31)) #define MASKIDX(i) ((i) >> 5) #endif #define MASKWORD(buf, i) buf[MASKIDX(i)] #define BITSET(buf, i) MASKWORD(buf, i) |= BITMASK(i) #define BITCLEAR(buf, i) MASKWORD(buf, i) &= ~BITMASK(i) #define GETBIT(buf, i) (MASKWORD(buf, i) & BITMASK(i)) /* Adobe additions */ #ifdef COPYBITS #undef COPYBITS #undef CLEARBITS #undef MASKANDSETBITS #undef ORBITS #undef UNSETBITS #endif #if (MSKCNT==1) #define COPYBITS(src, dst) dst[0] = src[0] #define CLEARBITS(buf) buf[0] = 0 #define MASKANDSETBITS(dst, b1, b2) dst[0] = (b1[0] & b2[0]) #define ORBITS(dst, b1, b2) dst[0] = (b1[0] | b2[0]) #define UNSETBITS(dst, b1) (dst[0] &= ~b1[0]) #define _XANYSET(src) (src[0]) #endif #if (MSKCNT==2) #define COPYBITS(src, dst) { dst[0] = src[0]; dst[1] = src[1]; } #define CLEARBITS(buf) { buf[0] = 0; buf[1] = 0; } #define MASKANDSETBITS(dst, b1, b2) {\ dst[0] = (b1[0] & b2[0]);\ dst[1] = (b1[1] & b2[1]); } #define ORBITS(dst, b1, b2) {\ dst[0] = (b1[0] | b2[0]);\ dst[1] = (b1[1] | b2[1]); } #define UNSETBITS(dst, b1) {\ dst[0] &= ~b1[0]; \ dst[1] &= ~b1[1]; } #define _XANYSET(src) (src[0] || src[1]) #endif #if (MSKCNT==3) #define COPYBITS(src, dst) { dst[0] = src[0]; dst[1] = src[1]; \ dst[2] = src[2]; } #define CLEARBITS(buf) { buf[0] = 0; buf[1] = 0; buf[2] = 0; } #define MASKANDSETBITS(dst, b1, b2) {\ dst[0] = (b1[0] & b2[0]);\ dst[1] = (b1[1] & b2[1]);\ dst[2] = (b1[2] & b2[2]); } #define ORBITS(dst, b1, b2) {\ dst[0] = (b1[0] | b2[0]);\ dst[1] = (b1[1] | b2[1]);\ dst[2] = (b1[2] | b2[2]); } #define UNSETBITS(dst, b1) {\ dst[0] &= ~b1[0]; \ dst[1] &= ~b1[1]; \ dst[2] &= ~b1[2]; } #define _XANYSET(src) (src[0] || src[1] || src[2]) #endif #if (MSKCNT==4) #define COPYBITS(src, dst) dst[0] = src[0]; dst[1] = src[1]; \ dst[2] = src[2]; dst[3] = src[3] #define CLEARBITS(buf) buf[0] = 0; buf[1] = 0; buf[2] = 0; buf[3] = 0 #define MASKANDSETBITS(dst, b1, b2) \ dst[0] = (b1[0] & b2[0]);\ dst[1] = (b1[1] & b2[1]);\ dst[2] = (b1[2] & b2[2]);\ dst[3] = (b1[3] & b2[3]) #define ORBITS(dst, b1, b2) \ dst[0] = (b1[0] | b2[0]);\ dst[1] = (b1[1] | b2[1]);\ dst[2] = (b1[2] | b2[2]);\ dst[3] = (b1[3] | b2[3]) #define UNSETBITS(dst, b1) \ dst[0] &= ~b1[0]; \ dst[1] &= ~b1[1]; \ dst[2] &= ~b1[2]; \ dst[3] &= ~b1[3] #define _XANYSET(src) (src[0] || src[1] || src[2] || src[3]) #endif #if (MSKCNT>4) #define COPYBITS(src, dst) bcopy((char *) src, (char *) dst,\ MSKCNT*sizeof(long)) #define CLEARBITS(buf) bzero((char *) buf, MSKCNT*sizeof(long)) #define MASKANDSETBITS(dst, b1, b2) \ { int cri; \ for (cri=MSKCNT; --cri>=0; ) \ dst[cri] = (b1[cri] & b2[cri]); } #define ORBITS(dst, b1, b2) \ { int cri; \ for (cri=MSKCNT; --cri>=0; ) \ dst[cri] = (b1[cri] | b2[cri]); } #define UNSETBITS(dst, b1) \ { int cri; \ for (cri=MSKCNT; --cri>=0; ) \ dst[cri] &= ~b1[cri]; } /* * If MSKCNT>4, then _XANYSET is a routine defined in XlibInt.c. * * #define _XANYSET(src) (src[0] || src[1] || src[2] || src[3] || src[4] ...) */ extern int N_XANYSET(unsigned long *); #endif /* * ReadvFromServer and WritevToSever use struct iovec, normally found * in Berkeley systems in . See the readv(2) and writev(2) * manual pages for details. * * struct iovec { * caddr_t iov_base; * int iov_len; * }; */ #if defined(USG) && !defined(CRAY) && !defined(umips) && !defined(MOTOROLA) struct iovec { caddr_t iov_base; int iov_len; }; #endif /* USG */ #ifdef STREAMSCONN #include "Xstreams.h" extern char _XsTypeOfStream[]; extern Xstream _XsStream[]; #define ReadFromServer(dpy, data, size) \ (*_XsStream[_XsTypeOfStream[dpy]].ReadFromStream)((dpy), (data), (size), \ BUFFERING) #define WriteToServer(dpy, bufind, size) \ (*_XsStream[_XsTypeOfStream[dpy]].WriteToStream)((dpy), (bufind), (size)) #else /* else not STREAMSCONN */ /* * bsd can read from sockets directly */ #define ReadFromServer(dpy, data, size) read((dpy), (data), (size)) #define WriteToServer(dpy, bufind, size) write((dpy), (bufind), (size)) #endif /* STREAMSCONN */ #ifndef USL_COMPAT #if !defined(USG) || defined(MOTOROLA) #if (defined(SCO) || defined(SCO325)) || (!(defined(SYSV) && defined(i386))) #define _XReadV readv #endif #define _XWriteV writev #endif #endif /* !USL_COMPAT */ #define ReadvFromServer(dpy, iov, iovcnt) _XReadV((dpy), (iov), (iovcnt)) #define WritevToServer(dpy, iov, iovcnt) _XWriteV((dpy), (iov), (iovcnt))