c%2B%2B/socket%2B%2B-1.10/sockstream.C

// sockstream.C -*- C++ -*- socket library
// Copyright (C) 1992,1993,1994 Gnanasekaran Swaminathan <gs4t@virginia.edu>
// 
// Permission is granted to use at your own risk and distribute this software
// in source and binary forms provided the above copyright
// notice and this paragraph are preserved on all copies.
// This software is provided "as is" with no express or implied warranty.
//
// Version: 17Oct95 1.10
//
// You can simultaneously read and write into
// a sockbuf just like you can listen and talk
// through a telephone. Hence, the read and the
// write buffers are different. That is, they do not
// share the same memory.
// 
// Read:
// gptr() points to the start of the get area.
// The unread chars are gptr() - egptr().
// base() points to the read buffer
// 
// eback() is set to base() so that pbackfail()
// is called only when there is no place to
// putback a char. And pbackfail() always returns EOF.
// 
// Write:
// pptr() points to the start of the put area
// The unflushed chars are pbase() - pptr()
// pbase() points to the write buffer.
// epptr() points to the end of the write buffer.
// 
// Output is flushed whenever one of the following conditions
// holds:
// (1) pptr() == epptr()
// (2) EOF is written
// (3) linebuffered and '\n' is written
// 
// Unbuffered:
// Input buffer size is assumed to be of size 1 and output
// buffer is of size 0. That is, egptr() <= base()+1 and
// epptr() == pbase().


#include <config.h>
#include <sockstream.h>

EXTERN_C_BEGIN
#include <sys/time.h>
#include <sys/socket.h>
#include <unistd.h>
#include <errno.h>
EXTERN_C_END

// MODIFED BY ASH - Force the buffer size to 8192 for the 
// moment. This is VERY BAD, but fixes the 1024 char limit
// on UDP packets. Will need to look further into the problem
// which exists in /usr/include/iso/stdio_iso.h 

// #ifndef BUFSIZ
#  define BUFSIZ 8192
// #endif

#ifdef FD_ZERO
#  undef FD_ZERO    // bzero causes so much trouble to us
#endif
#define FD_ZERO(p) (memset ((p), 0, sizeof *(p)))

void sock_error (const char* classname, const char* msg)
{
  if (errno)
    perror (msg);
  cerr << classname << ' ' << msg << endl;
  errno = 0;
}

void sockAddr::error (const char* msg) const
{
  sock_error ("class sockAddr ", msg);
}

sockbuf::sockbuf (int soc)
  : rep (new sockcnt (soc, 1)),
    stmo (-1), rtmo (-1)
{
#ifdef _S_NOLIBGXX
  xflags (0);
#endif
  xsetflags (_S_LINE_BUF);
}

sockbuf::sockbuf (int domain, sockbuf::type st, int proto)
  : rep (0), stmo (-1), rtmo (-1)
{
  int soc = ::socket (domain, st, proto);
  rep = new sockcnt (soc, 1);
#ifdef _S_NOLIBGXX
  xflags (0);
#endif
  if (rep->sock == -1) perror ("sockbuf::sockbuf");
  xsetflags (_S_LINE_BUF);
}

sockbuf::sockbuf (const sockbuf& sb)
  : rep (sb.rep), stmo (sb.stmo), rtmo (sb.rtmo)
{
#ifdef _S_NOLIBGXX
  xflags (0);
#endif
  rep->cnt++;
  xsetflags (_S_LINE_BUF);
}

sockbuf& sockbuf::operator = (const sockbuf& sb)
{
  if (this != &sb && rep != sb.rep && rep->sock != sb.rep->sock) {
    this->sockbuf::~sockbuf();
    rep  = sb.rep; stmo = sb.stmo; rtmo = sb.rtmo;
    rep->cnt++;
#ifdef _S_NOLIBGXX
    xflags (sb.xflags ());
#else
    // xflags () is a non-const member function in libg++.
    xflags (((sockbuf&)sb).xflags ());
#endif
  }
  return *this;
}

sockbuf::~sockbuf ()
{
  overflow (EOF);
  if (rep->cnt == 1 && !(xflags () & _S_DELETE_DONT_CLOSE)) close ();
  delete [] base ();
  if (--rep->cnt == 0) delete rep;
}

sockbuf* sockbuf::open (type, int)
{
  return 0;
}

sockbuf* sockbuf::close()
{
  if (rep->sock >= 0) {
    if (::close (rep->sock) == -1) return this;
    rep->sock = -1;
  }
  return 0;
}

_G_ssize_t sockbuf::sys_read (char* buf, _G_ssize_t len)
// return EOF on eof, 0 on timeout, and # of chars read on success
{
  return read (buf, len);
}

_G_ssize_t sockbuf::sys_write (const void* buf, long len)
// return written_length; < len indicates error
{
  return write (buf, (int) len);
}

int sockbuf::flush_output()
// return 0 when there is nothing to flush or when the flush is a success
// return EOF when it could not flush
{
  if (pptr () <= pbase ()) return 0;
  if (!(xflags () & _S_NO_WRITES)) {
    int wlen   = pptr () - pbase ();
    int wval   = sys_write (pbase (), wlen);
    int status = (wval == wlen)? 0: EOF;
    if (unbuffered()) setp (pbase (), pbase ());
    else setp (pbase (), pbase () + BUFSIZ);
    return status;
  }
  return EOF;
}

int sockbuf::sync ()
{
  return flush_output ();
}

int sockbuf::doallocate ()
// return 1 on allocation and 0 if there is no need
{
  if (!base ()) {
    char*       buf = new char[2*BUFSIZ];
    setb (buf, buf+BUFSIZ, 0);
    setg (buf, buf, buf);
    
    buf += BUFSIZ;
    setp (buf, buf+BUFSIZ);
    return 1;
  }
  return 0;
}

int sockbuf::underflow ()
{
  if (xflags () & _S_NO_READS) return EOF;
  
  if (gptr () < egptr ()) return *(unsigned char*)gptr ();
  
  if (base () == 0 && doallocate () == 0) return EOF;
  
  int bufsz = unbuffered () ? 1: BUFSIZ;
  int rval = sys_read (base (), bufsz);
  if (rval == EOF) {
    xsetflags (_S_EOF_SEEN);
    return EOF;
  }else if (rval == 0)
    return EOF;
  setg (eback (), base (), base () + rval);
  return *(unsigned char*)gptr ();
}

int sockbuf::overflow (int c)
// if c == EOF, return flush_output();
// if c == '\n' and linebuffered, insert c and
// return (flush_output()==EOF)? EOF: c;     
// otherwise insert c into the buffer and return c
{
  if (c == EOF) return flush_output ();
  
  if (xflags () & _S_NO_WRITES) return EOF;
  
  if (pbase () == 0 && doallocate () == 0) return EOF;
  
  if (pptr () >= epptr() && flush_output () == EOF)
    return EOF;

  xput_char (c);
  if ((unbuffered () || linebuffered () && c == '\n' || pptr () >= epptr ())
      && flush_output () == EOF)
    return EOF;
  
  return c;
}

int sockbuf::xsputn (const char* s, int n)
{
  if (n <= 0) return 0;
  const unsigned char* p = (const unsigned char*)s;
  
  for (int i=0; i<n; i++, p++) {
    if (*p == '\n') {
      if (overflow (*p) == EOF) return i;
    } else
      if (sputc (*p) == EOF) return i;
  }
  return n;
}

int sockbuf::bind (sockAddr& sa)
{
  if (::bind (rep->sock, sa.addr (), sa.size ()) == -1) {
    // error ("sockbuf::bind");
    return errno;
  }
  return 0;
}

int sockbuf::connect (sockAddr& sa)
{
  if (::connect(rep->sock, sa.addr (), sa.size()) == -1) {
    // error ("sockbuf::connect");
    return errno;
  }
  return 0;
}

void sockbuf::listen (int num)
{
  if (::listen (rep->sock, num) == -1)
    error ("sockbuf::listen");
}

sockbuf sockbuf::accept (sockAddr& sa)
{
  int len = sa.size ();
  int soc = -1;
  while ((soc = ::accept (rep->sock, sa.addr (), &len)) == -1
         && errno == EINTR)
    errno = 0;
  if (soc == -1)
    error ("sockbuf::accept");
  return soc;
}

sockbuf sockbuf::accept ()
{
  int soc = -1;
  while ((soc = ::accept (rep->sock, 0, 0)) == -1
         && errno == EINTR)
    errno = 0;
  if (soc == -1)
    error ("sockbuf::accept");
  return soc;
}

int sockbuf::read (void* buf, int len)
{
  if (rtmo != -1 && is_readready (rtmo)==0) return 0;
  
  int   rval;
  if ((rval = ::read (rep->sock, (char*) buf, len)) == -1)
    error("sockbuf::read");
  return (rval==0) ? EOF: rval;
}

int sockbuf::recv (void* buf, int len, int msgf)
{
  if (rtmo != -1 && is_readready (rtmo)==0) return 0;
  
  int   rval;
  if ((rval = ::recv (rep->sock, (char*) buf, len, msgf)) == -1)
    error ("sockbuf::recv");
  return (rval==0) ? EOF: rval;
}

int sockbuf::recvfrom (sockAddr& sa, void* buf, int len, int msgf)
{
  if (rtmo != -1 && is_readready (rtmo)==0) return 0;
  
  int   rval;
  int sa_len = sa.size ();
  
  if ((rval = ::recvfrom (rep->sock, (char*) buf, len,
                          msgf, sa.addr (), &sa_len)) == -1)
    error ("sockbuf::recvfrom");
  return (rval==0) ? EOF: rval;
}

int sockbuf::write(const void* buf, int len)
{
  if (stmo != -1 && is_writeready (stmo)==0) return 0;
  
  int   wlen=0;
  while(len>0) {
    int wval;
    if ((wval = ::write (rep->sock, (char*) buf, len)) == -1) {
      error ("sockbuf::write");
      return wval;
    }
    len -= wval;
    wlen += wval;
  }
  return wlen; // == len if every thing is all right
}

int sockbuf::send (const void* buf, int len, int msgf)
{
  if (stmo != -1 && is_writeready (stmo)==0) return 0;
  
  int   wlen=0;
  while(len>0) {
    int wval;
    if ((wval = ::send (rep->sock, (char*) buf, len, msgf)) == -1) {
      error ("sockbuf::send");
      return wval;
    }
    len -= wval;
    wlen += wval;
  }
  return wlen;
}

int sockbuf::sendto (sockAddr& sa, const void* buf, int len, int msgf)
{
  if (stmo != -1 && is_writeready (stmo)==0) return 0;
  
  int   wlen=0;
  while(len>0) {
    int wval;
    if ((wval = ::sendto (rep->sock, (char*) buf, len,
                          msgf, sa.addr (), sa.size())) == -1) {
      error ("sockbuf::sendto");
      return wval;
    }
    len -= wval;
    wlen += wval;
  }
  return wlen;
}

#ifndef __linux__
// linux does not have sendmsg or recvmsg

int sockbuf::recvmsg (msghdr* msg, int msgf)
{
  if (rtmo != -1 && is_readready (rtmo)==0) return 0;
  
  int   rval;
  if ((rval = ::recvmsg(rep->sock, msg, msgf)) == -1)
    error ("sockbuf::recvmsg");
  return (rval==0)? EOF: rval;
}

int sockbuf::sendmsg (msghdr* msg, int msgf)
{
  if (stmo != -1 && is_writeready (stmo)==0) return 0;
  
  int   wval;
  if ((wval = ::sendmsg (rep->sock, msg, msgf)) == -1)
    error("sockbuf::sendmsg");
  return wval;
}
#endif //!__linux__

int sockbuf::sendtimeout (int wp)
{
  int oldstmo = stmo;
  stmo = (wp < 0) ? -1: wp;
  return oldstmo;
}

int sockbuf::recvtimeout (int wp)
{
  int oldrtmo = rtmo;
  rtmo = (wp < 0) ? -1: wp;
  return oldrtmo;
}

int sockbuf::is_readready (int wp_sec, int wp_usec) const
{
  fd_set fds;
  FD_ZERO (&fds);
  FD_SET (rep->sock, &fds);
  
  timeval tv;
  tv.tv_sec  = wp_sec;
  tv.tv_usec = wp_usec;
  
  int ret = select (rep->sock+1, &fds, 0, 0, (wp_sec == -1) ? 0: &tv);
  if (ret == -1) {
    error ("sockbuf::readready");
    return 0;
  }
  return ret;
}

int sockbuf::is_writeready (int wp_sec, int wp_usec) const
{
  fd_set fds;
  FD_ZERO (&fds);
  FD_SET (rep->sock, &fds);
  
  timeval tv;
  tv.tv_sec  = wp_sec;
  tv.tv_usec = wp_usec;
  
  int ret = select (rep->sock+1, 0, &fds, 0, (wp_sec == -1) ? 0: &tv);
  if (ret == -1) {
    error ("Select::operator ()");
    return 0;
  }
  return ret;
}

int sockbuf::is_exceptionpending (int wp_sec, int wp_usec) const
{
  fd_set fds;
  FD_ZERO (&fds);
  FD_SET  (rep->sock, &fds);
  
  timeval tv;
  tv.tv_sec = wp_sec;
  tv.tv_usec = wp_usec;
  
  int ret = select (rep->sock+1, 0, 0, &fds, (wp_sec == -1) ? 0: &tv);
  if (ret == -1) {
    error ("Select::operator ()");
    return 0;
  }
  return ret;
}

void sockbuf::shutdown (shuthow sh)
{
  switch (sh) {
  case shut_read:
    xsetflags(_S_NO_READS);
    break;
  case shut_write:
    xsetflags(_S_NO_WRITES);
    break;
  case shut_readwrite:
    xsetflags(_S_NO_READS|_S_NO_WRITES);
    break;
  }
  if (::shutdown(rep->sock, sh) == -1)
    error("sockbuf::shutdown");
}

int sockbuf::getopt (option op, void* buf, int len, level l) const
{
  int   rlen = len;
  if (::getsockopt (rep->sock, l, op, (char*) buf, &rlen) == -1)
    perror ("sockbuf::getopt");
  return rlen;
}

void sockbuf::setopt (option op, void* buf, int len, level l) const
{
  if (::setsockopt (rep->sock, l, op, (char*) buf, len) == -1)
    perror ("sockbuf::setopt");
}

sockbuf::type sockbuf::gettype () const
{
  int   ty=0;
  getopt (so_type, &ty, sizeof (ty));
  return sockbuf::type(ty);
}

int sockbuf::clearerror () const
{
  int   err=0;
  getopt (so_error, &err, sizeof (err));
  return err;
}

int sockbuf::debug (int opt) const
{
  int old=0;
  getopt (so_debug, &old, sizeof (old));
  if (opt != -1)
    setopt (so_debug, &opt, sizeof (opt));
  return old;
}

int sockbuf::reuseaddr (int opt) const
{
  int old=0;
  getopt (so_reuseaddr, &old, sizeof (old));
  if (opt != -1)
    setopt (so_reuseaddr, &opt, sizeof (opt));
  return old;
}

int sockbuf::keepalive (int opt) const
{
  int old=0;
  getopt (so_keepalive, &old, sizeof (old));
  if (opt != -1)
    setopt (so_keepalive, &opt, sizeof (opt));
  return old;
}

int sockbuf::dontroute (int opt) const
{
  int old=0;
  getopt (so_dontroute, &old, sizeof (old));
  if (opt != -1)
    setopt (so_dontroute, &opt, sizeof (opt));
  return old;
}

int sockbuf::broadcast (int opt) const
{
  int old=0;
  getopt (so_broadcast, &old, sizeof (old));
  if (opt != -1)
    setopt (so_broadcast, &opt, sizeof (opt));
  return old;
}

int sockbuf::oobinline (int opt) const
{
  int old=0;
  getopt (so_oobinline, &old, sizeof (old));
  if (opt != -1)
    setopt (so_oobinline, &opt, sizeof (opt));
  return old;
}

int sockbuf::linger (int opt) const
{
  socklinger    old (0, 0);
  getopt (so_linger, &old, sizeof (old));
  if (opt > 0) {
    socklinger nw (1, opt);
    setopt (so_linger, &nw, sizeof (nw));
  }else if (opt == 0) {
    socklinger nw (0, old.l_linger);
    setopt (so_linger, &nw, sizeof (nw));
  }
  return old.l_onoff ? old.l_linger: -1;
}

int sockbuf::sendbufsz (int  sz) const
{
  int old=0;
  getopt (so_sndbuf, &old, sizeof (old));
  if (sz >= 0)
    setopt (so_sndbuf, &sz, sizeof (sz));
  return old;
}

int sockbuf::recvbufsz (int sz) const
{
  int old=0;
  getopt (so_rcvbuf, &old, sizeof (old));
  if (sz >= 0)
    setopt (so_rcvbuf, &sz, sizeof (sz));
  return old;
}

void sockbuf::error (const char* msg) const
{
  sock_error ("class sockbuf: ", msg);
}

isockstream::~isockstream ()
{
  delete ios::rdbuf ();
  init (0);
}

void isockstream::error (const char* msg) const
{
  sock_error ("class isockstream: ", msg);
}

osockstream::~osockstream ()
{
  delete ios::rdbuf ();
  init (0);
}

void osockstream::error (const char* msg) const
{
  sock_error ("class osockstream: ", msg);
}

iosockstream::~iosockstream ()
{
  delete ios::rdbuf ();
  init (0);
}

void iosockstream::error (const char* msg) const
{
  sock_error ("class iosockstream: ", msg);
}

Revision:	1.3
Committed:	Mon Jun 10 14:10:44 2002 UTC (23 years, 4 months ago) by tdb
Content type:	text/plain
Branch:	MAIN
CVS Tags:	HEAD
Changes since 1.2:	+0 -0 lines
State:	*FILE REMOVED*
Error occurred while calculating annotation data.
Log Message:	Tidy up of files. These are all old things that are not only no longer used but are also probably useless to anyone other than us. This saves checking them out all the time, and makes the "cms/source" tree contain only current stuff. They'll still exist in the attic's though :)
#	Content
1	// sockstream.C -- C++ -- socket library
2	// Copyright (C) 1992,1993,1994 Gnanasekaran Swaminathan <gs4t@virginia.edu>
3	//
4	// Permission is granted to use at your own risk and distribute this software
5	// in source and binary forms provided the above copyright
6	// notice and this paragraph are preserved on all copies.
7	// This software is provided "as is" with no express or implied warranty.
8	//
9	// Version: 17Oct95 1.10
10	//
11	// You can simultaneously read and write into
12	// a sockbuf just like you can listen and talk
13	// through a telephone. Hence, the read and the
14	// write buffers are different. That is, they do not
15	// share the same memory.
16	//
17	// Read:
18	// gptr() points to the start of the get area.
19	// The unread chars are gptr() - egptr().
20	// base() points to the read buffer
21	//
22	// eback() is set to base() so that pbackfail()
23	// is called only when there is no place to
24	// putback a char. And pbackfail() always returns EOF.
25	//
26	// Write:
27	// pptr() points to the start of the put area
28	// The unflushed chars are pbase() - pptr()
29	// pbase() points to the write buffer.
30	// epptr() points to the end of the write buffer.
31	//
32	// Output is flushed whenever one of the following conditions
33	// holds:
34	// (1) pptr() == epptr()
35	// (2) EOF is written
36	// (3) linebuffered and '\n' is written
37	//
38	// Unbuffered:
39	// Input buffer size is assumed to be of size 1 and output
40	// buffer is of size 0. That is, egptr() <= base()+1 and
41	// epptr() == pbase().
42
43
44	#include <config.h>
45	#include <sockstream.h>
46
47	EXTERN_C_BEGIN
48	#include <sys/time.h>
49	#include <sys/socket.h>
50	#include <unistd.h>
51	#include <errno.h>
52	EXTERN_C_END
53
54	// MODIFED BY ASH - Force the buffer size to 8192 for the
55	// moment. This is VERY BAD, but fixes the 1024 char limit
56	// on UDP packets. Will need to look further into the problem
57	// which exists in /usr/include/iso/stdio_iso.h
58
59	// #ifndef BUFSIZ
60	# define BUFSIZ 8192
61	// #endif
62
63	#ifdef FD_ZERO
64	# undef FD_ZERO // bzero causes so much trouble to us
65	#endif
66	#define FD_ZERO(p) (memset ((p), 0, sizeof *(p)))
67
68	void sock_error (const char* classname, const char* msg)
69	{
70	if (errno)
71	perror (msg);
72	cerr << classname << ' ' << msg << endl;
73	errno = 0;
74	}
75
76	void sockAddr::error (const char* msg) const
77	{
78	sock_error ("class sockAddr ", msg);
79	}
80
81	sockbuf::sockbuf (int soc)
82	: rep (new sockcnt (soc, 1)),
83	stmo (-1), rtmo (-1)
84	{
85	#ifdef _S_NOLIBGXX
86	xflags (0);
87	#endif
88	xsetflags (_S_LINE_BUF);
89	}
90
91	sockbuf::sockbuf (int domain, sockbuf::type st, int proto)
92	: rep (0), stmo (-1), rtmo (-1)
93	{
94	int soc = ::socket (domain, st, proto);
95	rep = new sockcnt (soc, 1);
96	#ifdef _S_NOLIBGXX
97	xflags (0);
98	#endif
99	if (rep->sock == -1) perror ("sockbuf::sockbuf");
100	xsetflags (_S_LINE_BUF);
101	}
102
103	sockbuf::sockbuf (const sockbuf& sb)
104	: rep (sb.rep), stmo (sb.stmo), rtmo (sb.rtmo)
105	{
106	#ifdef _S_NOLIBGXX
107	xflags (0);
108	#endif
109	rep->cnt++;
110	xsetflags (_S_LINE_BUF);
111	}
112
113	sockbuf& sockbuf::operator = (const sockbuf& sb)
114	{
115	if (this != &sb && rep != sb.rep && rep->sock != sb.rep->sock) {
116	this->sockbuf::~sockbuf();
117	rep = sb.rep; stmo = sb.stmo; rtmo = sb.rtmo;
118	rep->cnt++;
119	#ifdef _S_NOLIBGXX
120	xflags (sb.xflags ());
121	#else
122	// xflags () is a non-const member function in libg++.
123	xflags (((sockbuf&)sb).xflags ());
124	#endif
125	}
126	return *this;
127	}
128
129	sockbuf::~sockbuf ()
130	{
131	overflow (EOF);
132	if (rep->cnt == 1 && !(xflags () & _S_DELETE_DONT_CLOSE)) close ();
133	delete [] base ();
134	if (--rep->cnt == 0) delete rep;
135	}
136
137	sockbuf* sockbuf::open (type, int)
138	{
139	return 0;
140	}
141
142	sockbuf* sockbuf::close()
143	{
144	if (rep->sock >= 0) {
145	if (::close (rep->sock) == -1) return this;
146	rep->sock = -1;
147	}
148	return 0;
149	}
150
151	_G_ssize_t sockbuf::sys_read (char* buf, _G_ssize_t len)
152	// return EOF on eof, 0 on timeout, and # of chars read on success
153	{
154	return read (buf, len);
155	}
156
157	_G_ssize_t sockbuf::sys_write (const void* buf, long len)
158	// return written_length; < len indicates error
159	{
160	return write (buf, (int) len);
161	}
162
163	int sockbuf::flush_output()
164	// return 0 when there is nothing to flush or when the flush is a success
165	// return EOF when it could not flush
166	{
167	if (pptr () <= pbase ()) return 0;
168	if (!(xflags () & _S_NO_WRITES)) {
169	int wlen = pptr () - pbase ();
170	int wval = sys_write (pbase (), wlen);
171	int status = (wval == wlen)? 0: EOF;
172	if (unbuffered()) setp (pbase (), pbase ());
173	else setp (pbase (), pbase () + BUFSIZ);
174	return status;
175	}
176	return EOF;
177	}
178
179	int sockbuf::sync ()
180	{
181	return flush_output ();
182	}
183
184	int sockbuf::doallocate ()
185	// return 1 on allocation and 0 if there is no need
186	{
187	if (!base ()) {
188	char* buf = new char[2*BUFSIZ];
189	setb (buf, buf+BUFSIZ, 0);
190	setg (buf, buf, buf);
191
192	buf += BUFSIZ;
193	setp (buf, buf+BUFSIZ);
194	return 1;
195	}
196	return 0;
197	}
198
199	int sockbuf::underflow ()
200	{
201	if (xflags () & _S_NO_READS) return EOF;
202
203	if (gptr () < egptr ()) return (unsigned char)gptr ();
204
205	if (base () == 0 && doallocate () == 0) return EOF;
206
207	int bufsz = unbuffered () ? 1: BUFSIZ;
208	int rval = sys_read (base (), bufsz);
209	if (rval == EOF) {
210	xsetflags (_S_EOF_SEEN);
211	return EOF;
212	}else if (rval == 0)
213	return EOF;
214	setg (eback (), base (), base () + rval);
215	return (unsigned char)gptr ();
216	}
217
218	int sockbuf::overflow (int c)
219	// if c == EOF, return flush_output();
220	// if c == '\n' and linebuffered, insert c and
221	// return (flush_output()==EOF)? EOF: c;
222	// otherwise insert c into the buffer and return c
223	{
224	if (c == EOF) return flush_output ();
225
226	if (xflags () & _S_NO_WRITES) return EOF;
227
228	if (pbase () == 0 && doallocate () == 0) return EOF;
229
230	if (pptr () >= epptr() && flush_output () == EOF)
231	return EOF;
232
233	xput_char (c);
234	if ((unbuffered () \|\| linebuffered () && c == '\n' \|\| pptr () >= epptr ())
235	&& flush_output () == EOF)
236	return EOF;
237
238	return c;
239	}
240
241	int sockbuf::xsputn (const char* s, int n)
242	{
243	if (n <= 0) return 0;
244	const unsigned char* p = (const unsigned char*)s;
245
246	for (int i=0; i<n; i++, p++) {
247	if (*p == '\n') {
248	if (overflow (*p) == EOF) return i;
249	} else
250	if (sputc (*p) == EOF) return i;
251	}
252	return n;
253	}
254
255	int sockbuf::bind (sockAddr& sa)
256	{
257	if (::bind (rep->sock, sa.addr (), sa.size ()) == -1) {
258	// error ("sockbuf::bind");
259	return errno;
260	}
261	return 0;
262	}
263
264	int sockbuf::connect (sockAddr& sa)
265	{
266	if (::connect(rep->sock, sa.addr (), sa.size()) == -1) {
267	// error ("sockbuf::connect");
268	return errno;
269	}
270	return 0;
271	}
272
273	void sockbuf::listen (int num)
274	{
275	if (::listen (rep->sock, num) == -1)
276	error ("sockbuf::listen");
277	}
278
279	sockbuf sockbuf::accept (sockAddr& sa)
280	{
281	int len = sa.size ();
282	int soc = -1;
283	while ((soc = ::accept (rep->sock, sa.addr (), &len)) == -1
284	&& errno == EINTR)
285	errno = 0;
286	if (soc == -1)
287	error ("sockbuf::accept");
288	return soc;
289	}
290
291	sockbuf sockbuf::accept ()
292	{
293	int soc = -1;
294	while ((soc = ::accept (rep->sock, 0, 0)) == -1
295	&& errno == EINTR)
296	errno = 0;
297	if (soc == -1)
298	error ("sockbuf::accept");
299	return soc;
300	}
301
302	int sockbuf::read (void* buf, int len)
303	{
304	if (rtmo != -1 && is_readready (rtmo)==0) return 0;
305
306	int rval;
307	if ((rval = ::read (rep->sock, (char*) buf, len)) == -1)
308	error("sockbuf::read");
309	return (rval==0) ? EOF: rval;
310	}
311
312	int sockbuf::recv (void* buf, int len, int msgf)
313	{
314	if (rtmo != -1 && is_readready (rtmo)==0) return 0;
315
316	int rval;
317	if ((rval = ::recv (rep->sock, (char*) buf, len, msgf)) == -1)
318	error ("sockbuf::recv");
319	return (rval==0) ? EOF: rval;
320	}
321
322	int sockbuf::recvfrom (sockAddr& sa, void* buf, int len, int msgf)
323	{
324	if (rtmo != -1 && is_readready (rtmo)==0) return 0;
325
326	int rval;
327	int sa_len = sa.size ();
328
329	if ((rval = ::recvfrom (rep->sock, (char*) buf, len,
330	msgf, sa.addr (), &sa_len)) == -1)
331	error ("sockbuf::recvfrom");
332	return (rval==0) ? EOF: rval;
333	}
334
335	int sockbuf::write(const void* buf, int len)
336	{
337	if (stmo != -1 && is_writeready (stmo)==0) return 0;
338
339	int wlen=0;
340	while(len>0) {
341	int wval;
342	if ((wval = ::write (rep->sock, (char*) buf, len)) == -1) {
343	error ("sockbuf::write");
344	return wval;
345	}
346	len -= wval;
347	wlen += wval;
348	}
349	return wlen; // == len if every thing is all right
350	}
351
352	int sockbuf::send (const void* buf, int len, int msgf)
353	{
354	if (stmo != -1 && is_writeready (stmo)==0) return 0;
355
356	int wlen=0;
357	while(len>0) {
358	int wval;
359	if ((wval = ::send (rep->sock, (char*) buf, len, msgf)) == -1) {
360	error ("sockbuf::send");
361	return wval;
362	}
363	len -= wval;
364	wlen += wval;
365	}
366	return wlen;
367	}
368
369	int sockbuf::sendto (sockAddr& sa, const void* buf, int len, int msgf)
370	{
371	if (stmo != -1 && is_writeready (stmo)==0) return 0;
372
373	int wlen=0;
374	while(len>0) {
375	int wval;
376	if ((wval = ::sendto (rep->sock, (char*) buf, len,
377	msgf, sa.addr (), sa.size())) == -1) {
378	error ("sockbuf::sendto");
379	return wval;
380	}
381	len -= wval;
382	wlen += wval;
383	}
384	return wlen;
385	}
386
387	#ifndef __linux__
388	// linux does not have sendmsg or recvmsg
389
390	int sockbuf::recvmsg (msghdr* msg, int msgf)
391	{
392	if (rtmo != -1 && is_readready (rtmo)==0) return 0;
393
394	int rval;
395	if ((rval = ::recvmsg(rep->sock, msg, msgf)) == -1)
396	error ("sockbuf::recvmsg");
397	return (rval==0)? EOF: rval;
398	}
399
400	int sockbuf::sendmsg (msghdr* msg, int msgf)
401	{
402	if (stmo != -1 && is_writeready (stmo)==0) return 0;
403
404	int wval;
405	if ((wval = ::sendmsg (rep->sock, msg, msgf)) == -1)
406	error("sockbuf::sendmsg");
407	return wval;
408	}
409	#endif //!__linux__
410
411	int sockbuf::sendtimeout (int wp)
412	{
413	int oldstmo = stmo;
414	stmo = (wp < 0) ? -1: wp;
415	return oldstmo;
416	}
417
418	int sockbuf::recvtimeout (int wp)
419	{
420	int oldrtmo = rtmo;
421	rtmo = (wp < 0) ? -1: wp;
422	return oldrtmo;
423	}
424
425	int sockbuf::is_readready (int wp_sec, int wp_usec) const
426	{
427	fd_set fds;
428	FD_ZERO (&fds);
429	FD_SET (rep->sock, &fds);
430
431	timeval tv;
432	tv.tv_sec = wp_sec;
433	tv.tv_usec = wp_usec;
434
435	int ret = select (rep->sock+1, &fds, 0, 0, (wp_sec == -1) ? 0: &tv);
436	if (ret == -1) {
437	error ("sockbuf::readready");
438	return 0;
439	}
440	return ret;
441	}
442
443	int sockbuf::is_writeready (int wp_sec, int wp_usec) const
444	{
445	fd_set fds;
446	FD_ZERO (&fds);
447	FD_SET (rep->sock, &fds);
448
449	timeval tv;
450	tv.tv_sec = wp_sec;
451	tv.tv_usec = wp_usec;
452
453	int ret = select (rep->sock+1, 0, &fds, 0, (wp_sec == -1) ? 0: &tv);
454	if (ret == -1) {
455	error ("Select::operator ()");
456	return 0;
457	}
458	return ret;
459	}
460
461	int sockbuf::is_exceptionpending (int wp_sec, int wp_usec) const
462	{
463	fd_set fds;
464	FD_ZERO (&fds);
465	FD_SET (rep->sock, &fds);
466
467	timeval tv;
468	tv.tv_sec = wp_sec;
469	tv.tv_usec = wp_usec;
470
471	int ret = select (rep->sock+1, 0, 0, &fds, (wp_sec == -1) ? 0: &tv);
472	if (ret == -1) {
473	error ("Select::operator ()");
474	return 0;
475	}
476	return ret;
477	}
478
479	void sockbuf::shutdown (shuthow sh)
480	{
481	switch (sh) {
482	case shut_read:
483	xsetflags(_S_NO_READS);
484	break;
485	case shut_write:
486	xsetflags(_S_NO_WRITES);
487	break;
488	case shut_readwrite:
489	xsetflags(_S_NO_READS\|_S_NO_WRITES);
490	break;
491	}
492	if (::shutdown(rep->sock, sh) == -1)
493	error("sockbuf::shutdown");
494	}
495
496	int sockbuf::getopt (option op, void* buf, int len, level l) const
497	{
498	int rlen = len;
499	if (::getsockopt (rep->sock, l, op, (char*) buf, &rlen) == -1)
500	perror ("sockbuf::getopt");
501	return rlen;
502	}
503
504	void sockbuf::setopt (option op, void* buf, int len, level l) const
505	{
506	if (::setsockopt (rep->sock, l, op, (char*) buf, len) == -1)
507	perror ("sockbuf::setopt");
508	}
509
510	sockbuf::type sockbuf::gettype () const
511	{
512	int ty=0;
513	getopt (so_type, &ty, sizeof (ty));
514	return sockbuf::type(ty);
515	}
516
517	int sockbuf::clearerror () const
518	{
519	int err=0;
520	getopt (so_error, &err, sizeof (err));
521	return err;
522	}
523
524	int sockbuf::debug (int opt) const
525	{
526	int old=0;
527	getopt (so_debug, &old, sizeof (old));
528	if (opt != -1)
529	setopt (so_debug, &opt, sizeof (opt));
530	return old;
531	}
532
533	int sockbuf::reuseaddr (int opt) const
534	{
535	int old=0;
536	getopt (so_reuseaddr, &old, sizeof (old));
537	if (opt != -1)
538	setopt (so_reuseaddr, &opt, sizeof (opt));
539	return old;
540	}
541
542	int sockbuf::keepalive (int opt) const
543	{
544	int old=0;
545	getopt (so_keepalive, &old, sizeof (old));
546	if (opt != -1)
547	setopt (so_keepalive, &opt, sizeof (opt));
548	return old;
549	}
550
551	int sockbuf::dontroute (int opt) const
552	{
553	int old=0;
554	getopt (so_dontroute, &old, sizeof (old));
555	if (opt != -1)
556	setopt (so_dontroute, &opt, sizeof (opt));
557	return old;
558	}
559
560	int sockbuf::broadcast (int opt) const
561	{
562	int old=0;
563	getopt (so_broadcast, &old, sizeof (old));
564	if (opt != -1)
565	setopt (so_broadcast, &opt, sizeof (opt));
566	return old;
567	}
568
569	int sockbuf::oobinline (int opt) const
570	{
571	int old=0;
572	getopt (so_oobinline, &old, sizeof (old));
573	if (opt != -1)
574	setopt (so_oobinline, &opt, sizeof (opt));
575	return old;
576	}
577
578	int sockbuf::linger (int opt) const
579	{
580	socklinger old (0, 0);
581	getopt (so_linger, &old, sizeof (old));
582	if (opt > 0) {
583	socklinger nw (1, opt);
584	setopt (so_linger, &nw, sizeof (nw));
585	}else if (opt == 0) {
586	socklinger nw (0, old.l_linger);
587	setopt (so_linger, &nw, sizeof (nw));
588	}
589	return old.l_onoff ? old.l_linger: -1;
590	}
591
592	int sockbuf::sendbufsz (int sz) const
593	{
594	int old=0;
595	getopt (so_sndbuf, &old, sizeof (old));
596	if (sz >= 0)
597	setopt (so_sndbuf, &sz, sizeof (sz));
598	return old;
599	}
600
601	int sockbuf::recvbufsz (int sz) const
602	{
603	int old=0;
604	getopt (so_rcvbuf, &old, sizeof (old));
605	if (sz >= 0)
606	setopt (so_rcvbuf, &sz, sizeof (sz));
607	return old;
608	}
609
610	void sockbuf::error (const char* msg) const
611	{
612	sock_error ("class sockbuf: ", msg);
613	}
614
615	isockstream::~isockstream ()
616	{
617	delete ios::rdbuf ();
618	init (0);
619	}
620
621	void isockstream::error (const char* msg) const
622	{
623	sock_error ("class isockstream: ", msg);
624	}
625
626	osockstream::~osockstream ()
627	{
628	delete ios::rdbuf ();
629	init (0);
630	}
631
632	void osockstream::error (const char* msg) const
633	{
634	sock_error ("class osockstream: ", msg);
635	}
636
637	iosockstream::~iosockstream ()
638	{
639	delete ios::rdbuf ();
640	init (0);
641	}
642
643	void iosockstream::error (const char* msg) const
644	{
645	sock_error ("class iosockstream: ", msg);
646	}
647