drivers/win32/drivers_win32.cpp
author etisserant
Mon, 02 Jul 2007 18:22:58 +0200
changeset 236 905677ed00f3
parent 150 d2fc5d5f8a36
child 241 4ecc2f3690f4
permissions -rw-r--r--
Full preliminary implementation of TPDO transmit type:
- SYNC (N) (1-240)
- RTR only + SYNC (252)
- RTR only (253)
- EVENT, with timer and inhibit time (254 and 255)

User app have to call sendPDOevent(d) to eventually signal mapped data changes.
Callbacks added to 0x140N, TPDO comm parameters for on the fly timers values change.
TestMasterSlave updated.
/*
This file is part of CanFestival, a library implementing CanOpen Stack.

Copyright (C): Edouard TISSERANT and Francis DUPIN
Copyright (C) Win32 Port Leonid Tochinski

See COPYING file for copyrights details.

This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.

This library 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.  See the GNU
Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
*/

/*
 CAN driver interface.
*/

#include <windows.h>

extern "C"
   {
#define DLL_CALL(funcname) (*_##funcname)
#define FCT_PTR_INIT =NULL
#include "canfestival.h"
#include "timer.h"

#include "timers_driver.h"
   };

typedef UNS8 (*CANRECEIVE_DRIVER_PROC)(void* inst, Message *m);
typedef UNS8 (*CANSEND_DRIVER_PROC)(void* inst, const Message *m);
typedef void* (*CANOPEN_DRIVER_PROC)(s_BOARD *board);
typedef int (*CANCLOSE_DRIVER_PROC)(void* inst);


class driver_procs
   {
   public:
      driver_procs();
      ~driver_procs();

      HMODULE load_canfestival_driver(LPCTSTR driver_name);
      bool can_driver_valid() const;

   public:
      // can driver
      CANRECEIVE_DRIVER_PROC m_canReceive;
      CANSEND_DRIVER_PROC m_canSend;
      CANOPEN_DRIVER_PROC m_canOpen;
      CANCLOSE_DRIVER_PROC m_canClose;

      // driver module habndle
      HMODULE m_driver_handle;
   };

driver_procs::driver_procs() : m_canReceive(0),
      m_canSend(0),
      m_canOpen(0),
      m_canClose(0),
      m_driver_handle(0)
   {}

driver_procs::~driver_procs()
   {
   if (m_driver_handle)
      ::FreeLibrary(m_driver_handle);
   }

bool driver_procs::can_driver_valid() const
   {
   return ((m_canReceive != NULL) &&
           (m_canSend != NULL) &&
           (m_canOpen != NULL) &&
           (m_canClose != NULL));
   }

// GetProcAddress doesn't have an UNICODE version for NT
#ifdef UNDER_CE
  #define myTEXT(str) TEXT(str)
#else
  #define myTEXT(str) str
#endif

HMODULE driver_procs::load_canfestival_driver(LPCTSTR driver_name)
   {
   if (can_driver_valid())
      return m_driver_handle;
   m_driver_handle = ::LoadLibrary(driver_name);
   if (m_driver_handle == NULL)
      return NULL;

   m_canReceive = (CANRECEIVE_DRIVER_PROC)::GetProcAddress(m_driver_handle, myTEXT("canReceive_driver"));
   m_canSend = (CANSEND_DRIVER_PROC)::GetProcAddress(m_driver_handle, myTEXT("canSend_driver"));
   m_canOpen = (CANOPEN_DRIVER_PROC)::GetProcAddress(m_driver_handle, myTEXT("canOpen_driver"));
   m_canClose = (CANCLOSE_DRIVER_PROC)::GetProcAddress(m_driver_handle, myTEXT("canClose_driver"));
   return can_driver_valid()?m_driver_handle:NULL;
   }

struct driver_data
   {
   CO_Data * d;
   HANDLE receive_thread;
   void* inst;
   volatile bool continue_receive_thread;
   };

driver_procs s_driver_procs;

LIB_HANDLE LoadCanDriver(char* driver_name)
   {
		return s_driver_procs.load_canfestival_driver((LPCTSTR)driver_name);
   }

UNS8 canReceive(CAN_PORT fd0, Message *m)
   {
   if (fd0 != NULL && s_driver_procs.m_canReceive != NULL)
	   {
		  driver_data* data = (driver_data*)fd0;
		  return (*s_driver_procs.m_canReceive)(data->inst, m);
	   }
   return 1;
   }

void* canReceiveLoop(CAN_PORT fd0)
   {
   driver_data* data = (driver_data*)fd0;
   Message m;
   while (data->continue_receive_thread)
      {
      if (!canReceive(fd0, &m))
         {
         EnterMutex();
         canDispatch(data->d, &m);
         LeaveMutex();
         }
      else
         {
		 break;
         ::Sleep(1);
         }
      }
   return 0;
   }

/***************************************************************************/
UNS8 canSend(CAN_PORT fd0, Message *m)
   {
   if (fd0 != NULL && s_driver_procs.m_canSend != NULL)
      {
      UNS8 res;
      driver_data* data = (driver_data*)fd0;
      LeaveMutex();
      res = (*s_driver_procs.m_canSend)(data->inst, m);      
      EnterMutex();
      if (res)
         return 0;
      }
   return 1;
   }

/***************************************************************************/
CAN_HANDLE canOpen(s_BOARD *board, CO_Data * d)
   {
   if (board != NULL && s_driver_procs.m_canOpen != NULL)
      {
      void* inst = (*s_driver_procs.m_canOpen)(board);
      if (inst != NULL)
         {
         driver_data* data = new driver_data;
         data->d = d;
         data->inst = inst;
         data->continue_receive_thread = true;
         CreateReceiveTask(data, &data->receive_thread, &canReceiveLoop);
	 EnterMutex();
         d->canHandle = data;
         LeaveMutex();
         return data;
         }
      }
   return NULL;
   }

/***************************************************************************/
int canClose(CO_Data * d)
   {
   if (s_driver_procs.m_canClose != NULL)
      {
		  driver_data* data;
		  EnterMutex();
		  if(d->canHandle != NULL){
			data = (driver_data*)d->canHandle;
			d->canHandle = NULL;
			data->continue_receive_thread = false;}
		  LeaveMutex();
		  WaitReceiveTaskEnd(&data->receive_thread);
		  (*s_driver_procs.m_canClose)(data->inst);
		  delete data;
		  return 0;
      }
   return 0;
   }