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?? ser2410_hw.c

?? 三星2410 Windows CE 4.2 串口驅(qū)動(dòng)源碼。適合所有以S3C2410X為主芯片開發(fā)的平臺(tái)。
?? C
?? 第 1 頁(yè) / 共 5 頁(yè)
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//
// Copyright (c) Microsoft Corporation.  All rights reserved.
//
//
// Use of this source code is subject to the terms of the Microsoft end-user
// license agreement (EULA) under which you licensed this SOFTWARE PRODUCT.
// If you did not accept the terms of the EULA, you are not authorized to use
// this source code. For a copy of the EULA, please see the LICENSE.RTF on your
// install media.
//
/*++
THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF
ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
PARTICULAR PURPOSE.

Module Name:  

ser2410_hw.c

Abstract:  

    This file implements the standard device specific functions for a 16550
    based serial device.

--*/

#define USEVIRTUAL 1
#define DEBUGMODE 0

#include <windows.h>
#include <types.h>
#include <ceddk.h>
#include <memory.h>
#include <serhw.h>
#include <ser16550.h>
#include <hw16550.h>
#include <nkintr.h>
#include <devload.h>
#include <windev.h>
#include <notify.h>
#include <serdbg.h>

#include <excpt.h>

#include "S2410.h"
#include <ser2410.h>
#define PUBLIC		
#define PRIVATE							static

PRIVATE volatile IOPreg * v_pIOPregs;
PRIVATE volatile UART0reg * v_pUART0regs;
PRIVATE volatile UART1reg * v_pUART1regs;
PRIVATE volatile UART2reg * v_pUART2regs;
PRIVATE volatile INTreg * v_pINTregs;
PRIVATE volatile PWMreg * v_pPWMregs;

VOID	SER_VirtualFree(VOID);
BOOL	SER_VirtualAlloc(VOID);

VOID ReadLSR(
        PVOID   pHead
        );
VOID ReadMSR(
        PVOID   pHead
        );

BOOL SL_SetByteSize(PVOID pHead, ULONG ByteSize);
BOOL SL_SetStopBits(PVOID pHead, ULONG StopBits);
BOOL SL_SetParity(PVOID pHead, ULONG Parity);

#define EXCEPTION_ACCESS_VIOLATION STATUS_ACCESS_VIOLATION 

PRIVATE PVOID
SER_RegAlloc(PVOID addr, INT sz)
{
	PVOID reg;

	reg = (PVOID)VirtualAlloc(0, sz, MEM_RESERVE, PAGE_NOACCESS);

	if (reg)
	{
		if (!VirtualCopy(reg, addr, sz, PAGE_READWRITE | PAGE_NOCACHE )) 
		{
			VirtualFree(reg, sz, MEM_RELEASE);
			reg = NULL;
		}
	}

	return reg;
}


PRIVATE BOOL
SER_VirtualAlloc(VOID)
{
	BOOL r = FALSE;

    RETAILMSG(DEBUGMODE,(TEXT("::: SER_VirtualAlloc()\r\n")));

	do
	{
		v_pIOPregs = (volatile IOPreg *)SER_RegAlloc((PVOID)IOP_BASE, sizeof(IOPreg));
		if (v_pIOPregs == NULL) 
		{
			ERRORMSG(1,(TEXT("For IOPreg: VirtualAlloc failed!\r\n")));
			break;
		}
	
		v_pUART0regs = (volatile UART0reg *)SER_RegAlloc((PVOID)UART0_BASE, sizeof(UART0reg));
		if (v_pUART0regs == NULL) 
		{
	    	ERRORMSG(1,(TEXT("For UART0reg: VirtualAlloc failed!\r\n")));
		    break;
		}

		v_pUART1regs = (volatile UART1reg *)SER_RegAlloc((PVOID)UART1_BASE, sizeof(UART1reg));
		if (v_pUART1regs == NULL) 
		{
	    	ERRORMSG(1,(TEXT("For UART1reg: VirtualAlloc failed!\r\n")));
		    break;
		}

		v_pUART2regs = (volatile UART2reg *)SER_RegAlloc((PVOID)UART2_BASE, sizeof(UART2reg));
		if (v_pUART2regs == NULL) 
		{
	    	ERRORMSG(1,(TEXT("For UART2reg: VirtualAlloc failed!\r\n")));
		    break;
		}

		v_pINTregs = (volatile INTreg *)SER_RegAlloc((PVOID)INT_BASE, sizeof(INTreg));
		if (v_pINTregs == NULL) 
		{
	    	ERRORMSG(1,(TEXT("For INTregs: VirtualAlloc failed!\r\n")));
		    break;
		}

		v_pPWMregs = (volatile PWMreg *)SER_RegAlloc((PVOID)PWM_BASE, sizeof(PWMreg));
		if (v_pPWMregs == NULL) 
		{
	    	ERRORMSG(1,(TEXT("For PWMregs: VirtualAlloc failed!\r\n")));
		    break;
		}
		
		r = TRUE;
	} while (0);

	if (!r)
	{
		SER_VirtualFree();

		RETAILMSG(DEBUGMODE,(TEXT("::: SER_VirtualAlloc() - Fail\r\n")));
	}
	else
	{
		RETAILMSG(DEBUGMODE,(TEXT("::: SER_VirtualAlloc() - Success\r\n")));
	}


	return r;
}

PRIVATE void
SER_VirtualFree(VOID)
{
    RETAILMSG(DEBUGMODE,(TEXT("::: SER_VirtualFree()\r\n")));

	if (v_pIOPregs)
    {
        VirtualFree((PVOID)v_pIOPregs, sizeof(IOPreg), MEM_RELEASE);
        v_pIOPregs = NULL;
    }
    if (v_pUART0regs)
    {   
        VirtualFree((PVOID)v_pUART0regs, sizeof(UART0reg), MEM_RELEASE);
        v_pUART0regs = NULL;
    } 
    if (v_pUART1regs)
    {   
        VirtualFree((PVOID)v_pUART1regs, sizeof(UART1reg), MEM_RELEASE);
        v_pUART1regs = NULL;
    } 
    if (v_pUART2regs)
    {   
        VirtualFree((PVOID)v_pUART2regs, sizeof(UART2reg), MEM_RELEASE);
        v_pUART2regs = NULL;
    } 
    if (v_pINTregs)
    {   
        VirtualFree((PVOID)v_pINTregs, sizeof(INTreg), MEM_RELEASE);
        v_pINTregs = NULL;
    } 
    if (v_pPWMregs)
    {   
        VirtualFree((PVOID)v_pPWMregs, sizeof(INTreg), MEM_RELEASE);
        v_pPWMregs = NULL;
    } 
}

//
// Reading the LSR clears most of its bits.  So, we provide this wrapper,
// which reads the register, records any interesting values, and
// stores the current LSR contents in the shadow register.
//
//__inline
VOID
ReadLSR(
       PVOID   pHead 
       )
{
	PS2410_UART_INFO   pHWHead   = (PS2410_UART_INFO)pHead;
	ULONG LineEvents = 0;
	ULONG LineStatus = 0;
	UCHAR tmp;

	pHWHead->CommErrors = 0; // Clear old errors each time

	RETAILMSG(DEBUGMODE, (TEXT("ReadLSR \r\n")));
	try {
		LineStatus = INREG(pHWHead,rUERSTAT);
		RETAILMSG(DEBUGMODE,  (TEXT("Line Status Register : 0x%x\r\n"), LineStatus));
	}
	except (GetExceptionCode() == EXCEPTION_ACCESS_VIOLATION ?
		EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH) {
		// pHWHead->LSR = SERIAL_LSR_THRE;
	}

	if ( LineStatus & (COM2410_LSR_OE | COM2410_LSR_PE | COM2410_LSR_FE)) {
		// Note: Its not wise to do debug msgs in here since they will
		// pretty much guarantee that the FIFO gets overrun.
		if ( LineStatus & COM2410_LSR_OE ) {
			// When overrun error occurs, S2410 rURXH must be read.
			tmp = *(pHWHead->pUFRXH);
			pHWHead->DroppedBytes++;
			pHWHead->CommErrors |= CE_OVERRUN;
			LineEvents |= EV_ERR;
		}
		if ( LineStatus & COM2410_LSR_PE ) {
			pHWHead->CommErrors |= CE_RXPARITY;
			LineEvents |= EV_ERR;
		}
		if ( LineStatus & COM2410_LSR_FE ) {
			pHWHead->CommErrors |= CE_FRAME;
			LineEvents |= EV_ERR;
		}
	}

	if ( LineStatus & COM2410_LSR_BI )
		LineEvents |= EV_BREAK;

	// Let WaitCommEvent know about this error
	if ( LineEvents )
		pHWHead->EventCallback( pHWHead->pMddHead, LineEvents );
}

//
// Reading the MSR clears many of its bits.  So, we provide this wrapper,
// which reads the register, records any interesting values, and
// stores the current MSR contents in the shadow register.
// Note that we always have DDCD and DCTS enabled, so if someone
// wants to keep an eye on these lines, its OK to simply read the
// shadow register, since if the value changes, the interrupt
// will cause the shadow to be updated.
//
//__inline
VOID
ReadMSR(
       //PS2410_UART_INFO  pHWHead
       PVOID   pHead 
       )
{
	PS2410_UART_INFO   pHWHead   = (PS2410_UART_INFO)pHead;
	ULONG       Events = 0;
	ULONG       msr, msr_DSR;

	RETAILMSG(DEBUGMODE, (TEXT("ReadMSR \r\n")));
	try {
		msr = INREG(pHWHead,rUMSTAT);
		RETAILMSG(1,  (TEXT("Modem Status Register : 0x%x\r\n"), msr));
		if ( !pHWHead->UseIrDA )
		{
			if(*(pHWHead->rDSRport) & (1<<(pHWHead->DsrPortNum)))	// Low active
			    msr_DSR = 0;
			else
			    msr_DSR = 1;
		}
	}
	except (GetExceptionCode() == EXCEPTION_ACCESS_VIOLATION ?
		EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH) {
		msr = 0;
	}

	// For changes, we use callback to evaluate the event
	if (msr & COM2410_MSR_DCTS)  {// Delta CTS (SERIAL_MSR_DCTS)
		Events |= EV_CTS;
		pHWHead->vUMSTAT |= COM2410_MSR_DCTS;
	} 

	if(msr & COM2410_MSR_CTS) 
		pHWHead->vUMSTAT |= COM2410_MSR_CTS;
	else
		pHWHead->vUMSTAT &= ~COM2410_MSR_CTS;

	// S2410 does not support Delta DSR status by H/W,
	// so we have to check this by S/W.
	//
	// if(DSR : High->Low) - became active
	if (msr_DSR)  {    // S2410 Evaluation Board bidged these two pins.
		if(!(pHWHead->vUMSTAT & COM2410_MSR_DSR))  {           
			pHWHead->vUMSTAT |= COM2410_MSR_DDSR;
			Events |= EV_DSR;

			Events |= EV_RLSD;  // DCD
		}    // there is a change... H->L(became active)
		else
			pHWHead->vUMSTAT &= ~COM2410_MSR_DDSR;
		pHWHead->vUMSTAT |= COM2410_MSR_DSR;
	}  
	// if(DSR : Low->High) - became in-active
	else {
		if((pHWHead->vUMSTAT & COM2410_MSR_DSR))  {            
			pHWHead->vUMSTAT |= COM2410_MSR_DDSR;
			Events |= EV_DSR;
			Events |= EV_RLSD;  // DCD
		}   // there is a change... L->H (became inactive)
		else
			pHWHead->vUMSTAT &= ~COM2410_MSR_DDSR;
		pHWHead->vUMSTAT &= ~COM2410_MSR_DSR;
	}        

	RETAILMSG(DEBUGMODE,  (TEXT("ReadMSR Events:0x%x\r\n"), Events));
	RETAILMSG(DEBUGMODE,  (TEXT("ReadMSR MSR:0x%x\r\n"), msr));
	RETAILMSG(DEBUGMODE,  (TEXT("ReadMSR MSR_DSR:0x%x\r\n"), msr_DSR));   

	if ( Events )
		pHWHead->EventCallback( pHWHead->pMddHead, Events );
}

VOID
ShowSerialRegisters(
                   PVOID  pHead
                   )
{
	PS2410_UART_INFO   pHWHead   = (PS2410_UART_INFO)pHead;

	RETAILMSG(1, (TEXT("InterruptType : 0x%X, 0x%X, 0x%X, 0x%X\r\n"), 		
					*(pHWHead->UART_INTMASK), 		
					*(pHWHead->UART_INTSUBMASK),  		
					*(pHWHead->UART_INTSRCPND), 		
					*(pHWHead->UART_INTSUBSRCPND)));

	RETAILMSG(1,  (TEXT("rULCON: 0x%x "), pHWHead->s2410SerReg->rULCON));
	RETAILMSG(1,  (TEXT("rUCON: 0x%x "), pHWHead->s2410SerReg->rUCON));
	RETAILMSG(1,  (TEXT("rUFCON: 0x%x "), pHWHead->s2410SerReg->rUFCON));
	RETAILMSG(1,  (TEXT("rUMCON: 0x%x "), pHWHead->s2410SerReg->rUMCON));
	RETAILMSG(1,  (TEXT("rUERSTAT: 0x%x "), pHWHead->s2410SerReg->rUERSTAT));
	RETAILMSG(1,  (TEXT("rUFSTAT: 0x%x "), pHWHead->s2410SerReg->rUFSTAT));
	RETAILMSG(1,  (TEXT("rUMSTAT: 0x%x "), pHWHead->s2410SerReg->rUMSTAT));
	RETAILMSG(1,  (TEXT("rUTXH: 0x%x "), pHWHead->s2410SerReg->rUTXH));
	RETAILMSG(1,  (TEXT("rURXH: 0x%x "), pHWHead->s2410SerReg->rURXH));
	RETAILMSG(1,  (TEXT("rUBRDIV: 0x%x\r\n"), pHWHead->s2410SerReg->rUBRDIV));

	RETAILMSG(1,  (TEXT("pHWHead->vUMSTAT: 0x%x \r\n"), pHWHead->vUMSTAT));
	RETAILMSG(1,  (TEXT("pHWHead->CTSFlowOff: 0x%x \r\n\r\n"), pHWHead->CTSFlowOff));
}

#define BAUD_TABLE_SIZE 23
static const
PAIRS    LS_BaudPairs[BAUD_TABLE_SIZE] =    {
	{50,        2307},
	{75,        1538},
	{110,       1049},
	{135,        858},
	{150,        769},
	{300,        384},
	{600,        192},
	{1200,        96},
	{1800,        64},
	{2000,        58},
	{2400,        48},
	{3600,        32},
	{4800,        24},
	{7200,        16},
	{9600,        12},
	{12800,        9},
	{14400,        8},
	{19200,        6},
	{23040,        5},
	{28800,        4},
	{38400,        3},
	{57600,        2},
	{115200,       1}
};

static const
LOOKUP_TBL  LS_BaudTable = {BAUD_TABLE_SIZE, (PAIRS *) LS_BaudPairs};

// Routine to clear any pending interrupts.  Called from Init and PostInit
// to make sure we atart out in a known state.
VOID
ClearPendingInts(
       PVOID   pHead // @parm PVOID returned by HWinit.
       )
{
	PS2410_UART_INFO pHWHead = (PS2410_UART_INFO)pHead;
	UINT32 tmpReg;

	EnterCriticalSection(&(pHWHead->RegCritSec));

	RETAILMSG(DEBUGMODE,(TEXT("ClearPendingInts \r\n")));
	try {
		SETREG(pHWHead,rUFCON,0x6);    // tx, rx fifo reset
		ClearSubINTPnd(pHWHead, pHWHead->bTxINT | pHWHead->bRxINT | pHWHead->bErrINT);
		ClearINTPnd(pHWHead, pHWHead->bINT);
		tmpReg = INREG(pHWHead,rUERSTAT);
	}
	except (GetExceptionCode() == EXCEPTION_ACCESS_VIOLATION ?
		EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH) {
		RETAILMSG(1,(TEXT("SL_PostInit, 0x%X - ERROR\r\n"), pHWHead));
		// Just fall through & release CritSec
	}

	LeaveCriticalSection(&(pHWHead->RegCritSec));
}

// Routine to set some 2410 IO Ports.

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亚洲欧美第一页_禁久久精品乱码_粉嫩av一区二区三区免费野_久草精品视频
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