RetroZilla/xpinstall/wizard/libxpnet/GUSI/include/GUSISocketMixins.h

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// %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
// % Project : GUSI - Grand Unified Socket Interface
// % File : GUSISocketMixins.nw - Useful building blocks
// % Author : Matthias Neeracher
// % Language : C++
// %
// % $Log: GUSISocketMixins.h,v $
// % Revision 1.1 2001/03/11 22:38:21 sgehani%netscape.com
// % First Checked In.
// %
// % Revision 1.11 2000/10/16 04:10:12 neeri
// % Add GUSISMProcess
// %
// % Revision 1.10 2000/05/23 07:24:58 neeri
// % Improve formatting
// %
// % Revision 1.9 1999/08/26 05:45:09 neeri
// % Fixes for literate edition of source code
// %
// % Revision 1.8 1999/08/02 07:02:46 neeri
// % Support for asynchronous errors and other socket options
// %
// % Revision 1.7 1999/05/29 06:26:45 neeri
// % Fixed header guards
// %
// % Revision 1.6 1999/04/29 05:33:18 neeri
// % Fix fcntl prototype
// %
// % Revision 1.5 1999/03/17 09:05:13 neeri
// % Added GUSITimer, expanded docs
// %
// % Revision 1.4 1998/10/11 16:45:24 neeri
// % Ready to release 2.0a2
// %
// % Revision 1.3 1998/01/25 20:53:59 neeri
// % Engine implemented, except for signals & scheduling
// %
// % Revision 1.2 1997/11/13 21:12:13 neeri
// % Fall 1997
// %
// % Revision 1.1 1996/12/16 02:12:42 neeri
// % TCP Sockets sort of work
// %
// %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
//
// \chapter{Mixin Classes for Sockets}
//
// This section contains some building block classes for sockets:
//
// \begin{itemize}
// \item [[GUSISMBlocking]] implements the blocking/nonblocking flag.
// \item [[GUSISMState]] implements a state variable.
// \item [[GUSISMInputBuffer]] provides a [[GUSIBuffer]] for input.
// \item [[GUSISMOutputBuffer]] provides a [[GUSIBuffer]] for output.
// \item [[GUSISMAsyncError]] provides storage for asynchronous errors.
// \item [[GUSISMProcess]] maintains a link to the process instance.
// \end{itemize}
//
//
// <GUSISocketMixins.h>=
#ifndef _GUSISocketMixins_
#define _GUSISocketMixins_
#ifdef GUSI_INTERNAL
#include "GUSISocket.h"
#include "GUSIBuffer.h"
#include <fcntl.h>
#include <sys/ioctl.h>
// \section{Definition of [[GUSISocketMixins]]}
//
// [[GUSISMBlocking]] implements the [[fBlocking]] flags and the [[DoIoctl]] and
// [[DoFcntl]] variants to manipulate it. These two functions work like their
// [[GUSISocket]] member function counterparts, but handle the return value
// differently: The POSIX function result is stored in [[*result]], while the
// return value indicates whether the request was handled.
//
// <Definition of class [[GUSISMBlocking]]>=
class GUSISMBlocking {
public:
GUSISMBlocking();
bool fBlocking;
bool DoFcntl(int * result, int cmd, va_list arg);
bool DoIoctl(int * result, unsigned int request, va_list arg);
};
// [[GUSISMState]] captures the state of a socket over its lifetime. It starts out
// as [[Unbound]]. [[bind]] will put it into [[Unconnected]] state, though few
// socket classes care about this distinction. [[listen]] will put it into
// [[Listening]] state. [[accept]] starts a [[Connected]] new socket.
// [[connect]] puts an [[Unconnected]] socket into [[Connecting]] state from
// where it emerges [[Connected]]. [[fReadShutdown]] and [[fWriteShutdown]] record
// shutdown promises.
//
// <Definition of class [[GUSISMState]]>=
class GUSISMState {
public:
enum State {
Unbound,
Unconnected,
Listening,
Connecting,
Connected,
Closing
};
GUSISMState();
State fState;
bool fReadShutdown;
bool fWriteShutdown;
void Shutdown(int how);
};
// [[GUSISMInputBuffer]] defines the input buffer and some socket options that go
// with it. [[DoGetSockOpt]] and [[DoSetSockOpt]] work the same way as
// [[DoFcntl]] and [[DoIoctl]] above.
//
// <Definition of class [[GUSISMInputBuffer]]>=
class GUSISMInputBuffer {
public:
GUSIRingBuffer fInputBuffer;
GUSISMInputBuffer();
bool DoGetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t * optlen);
bool DoSetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t optlen);
bool DoIoctl(int * result, unsigned int request, va_list arg);
};
// [[GUSISMOutputBuffer]] defines the output buffer and some socket options that go
// with it.
//
// <Definition of class [[GUSISMOutputBuffer]]>=
class GUSISMOutputBuffer {
public:
GUSIRingBuffer fOutputBuffer;
GUSISMOutputBuffer();
bool DoGetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t * optlen);
bool DoSetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t optlen);
};
// [[GUSISMAsyncError]] stores asynchronous errors and makes them available via
// [[getsockopt]]. [[GetAsyncError]] returns the error and resets the stored value.
//
// <Definition of class [[GUSISMAsyncError]]>=
class GUSISMAsyncError {
public:
GUSISMAsyncError();
int fAsyncError;
int SetAsyncPosixError(int error);
int SetAsyncMacError(OSErr error);
int GetAsyncError();
bool DoGetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t * optlen);
};
// [[GUSISMProcess]] stores a link to the global [[GUSIProcess]] instance, which is useful for completion routines.
//
// <Definition of class [[GUSISMProcess]]>=
class GUSISMProcess {
public:
GUSISMProcess();
GUSIProcess * Process();
private:
GUSIProcess * fProcess;
};
// \section{Implementation of [[GUSISocketMixins]]}
//
// Because all the member functions are simple and called in few places, it
// makes sense to inline them.
//
// All sockets start out blocking.
//
// <Inline member functions for class [[GUSISMBlocking]]>=
inline GUSISMBlocking::GUSISMBlocking() : fBlocking(true) {}
// For historical reasons, there is both an [[ioctl]] and a [[fcntl]] interface
// to the blocking flag.
//
// <Inline member functions for class [[GUSISMBlocking]]>=
inline bool GUSISMBlocking::DoFcntl(int * result, int cmd, va_list arg)
{
switch(cmd) {
case F_GETFL :
return (*result = fBlocking ? 0: FNDELAY), true;
case F_SETFL :
fBlocking = !(va_arg(arg, int) & FNDELAY);
return (*result = 0), true;
}
return false;
}
inline bool GUSISMBlocking::DoIoctl(int * result, unsigned int request, va_list arg)
{
if (request == FIONBIO) {
fBlocking = !*va_arg(arg, int *);
return (*result = 0), true;
}
return false;
}
// Sockets start out as unconnected.
//
// <Inline member functions for class [[GUSISMState]]>=
inline GUSISMState::GUSISMState() :
fState(Unbound), fReadShutdown(false), fWriteShutdown(false) {}
// <Inline member functions for class [[GUSISMState]]>=
inline void GUSISMState::Shutdown(int how)
{
if (!(how & 1))
fReadShutdown = true;
if (how > 0)
fWriteShutdown = true;
}
// Buffers initially are 8K.
//
// <Inline member functions for class [[GUSISMInputBuffer]]>=
inline GUSISMInputBuffer::GUSISMInputBuffer() : fInputBuffer(8192) {}
// [[getsockopt]] is used to obtain the buffer size.
//
// <Inline member functions for class [[GUSISMInputBuffer]]>=
inline bool GUSISMInputBuffer::DoGetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t *)
{
if (level == SOL_SOCKET && optname == SO_RCVBUF) {
*(int *)optval = (int)fInputBuffer.Size();
return (*result = 0), true;
}
return false;
}
// [[setsockopt]] modifies the buffer size.
//
// <Inline member functions for class [[GUSISMInputBuffer]]>=
inline bool GUSISMInputBuffer::DoSetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t)
{
if (level == SOL_SOCKET && optname == SO_RCVBUF) {
fInputBuffer.SwitchBuffer(*(int *)optval);
return (*result = 0), true;
}
return false;
}
// [[ioctl]] returns the number of available bytes.
//
// <Inline member functions for class [[GUSISMInputBuffer]]>=
inline bool GUSISMInputBuffer::DoIoctl(int * result, unsigned int request, va_list arg)
{
if (request == FIONREAD) {
*va_arg(arg, long *) = fInputBuffer.Valid();
return (*result = 0), true;
}
return false;
}
// [[GUSISMOutputBuffer]] works identically to the input buffer.
//
// <Inline member functions for class [[GUSISMOutputBuffer]]>=
inline GUSISMOutputBuffer::GUSISMOutputBuffer() : fOutputBuffer(8192) {}
// [[getsockopt]] is used to obtain the buffer size.
//
// <Inline member functions for class [[GUSISMOutputBuffer]]>=
inline bool GUSISMOutputBuffer::DoGetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t *)
{
if (level == SOL_SOCKET && optname == SO_SNDBUF) {
*(int *)optval = (int)fOutputBuffer.Size();
return (*result = 0), true;
}
return false;
}
// [[setsockopt]] is modifies the buffer size.
//
// <Inline member functions for class [[GUSISMOutputBuffer]]>=
inline bool GUSISMOutputBuffer::DoSetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t)
{
if (level == SOL_SOCKET && optname == SO_SNDBUF) {
fOutputBuffer.SwitchBuffer(*(int *)optval);
return (*result = 0), true;
}
return false;
}
// <Inline member functions for class [[GUSISMAsyncError]]>=
inline GUSISMAsyncError::GUSISMAsyncError()
: fAsyncError(0)
{
}
// The central member functions of [[GUSISMAsyncError]] are [[SetAsyncXXXError]] and
// [[GetAsyncError]].
//
// <Inline member functions for class [[GUSISMAsyncError]]>=
inline int GUSISMAsyncError::SetAsyncPosixError(int error)
{
if (error) {
fAsyncError = error;
GUSI_MESSAGE(("GUSISMAsyncError::SetAsyncPosixError %d\n", fAsyncError));
return -1;
}
return 0;
}
inline int GUSISMAsyncError::GetAsyncError()
{
int err = fAsyncError;
fAsyncError = 0;
return err;
}
// For some reason, the CW Pro 4 compilers generated bad code for this in some combination, so
// we make it out of line.
//
// <Inline member functions for class [[GUSISMAsyncError]]>=
inline int GUSISMAsyncError::SetAsyncMacError(OSErr error)
{
if (error) {
fAsyncError = GUSIMapMacError(error);
GUSI_MESSAGE(("GUSISMAsyncError::SetAsyncMacError %d -> %d\n", error, fAsyncError));
return -1;
}
return 0;
}
// [[DoGetSockOpt]] only handles [[SO_ERROR]] (hi Philippe!).
//
// <Inline member functions for class [[GUSISMAsyncError]]>=
inline bool GUSISMAsyncError::DoGetSockOpt(
int * result, int level, int optname,
void *optval, socklen_t * optlen)
{
if (level == SOL_SOCKET && optname == SO_ERROR) {
*(int *)optval = GetAsyncError();
*optlen = sizeof(int);
return (*result = 0), true;
}
return false;
}
// <Inline member functions for class [[GUSISMProcess]]>=
inline GUSISMProcess::GUSISMProcess()
: fProcess(GUSIProcess::Instance())
{
}
inline GUSIProcess * GUSISMProcess::Process()
{
return fProcess;
}
#endif /* GUSI_INTERNAL */
#endif /* _GUSISocketMixins_ */