dsp2833x_ecan.c

TMS32028335 的一些例程

// TI File $Revision: /main/6 $
// Checkin $Date: May 7, 2007   16:26:05 $
//###########################################################################
//
// FILE:	DSP2833x_ECan.c
//
// TITLE:	DSP2833x Enhanced CAN Initialization & Support Functions.
//
//###########################################################################
// $TI Release: DSP2833x Header Files V1.01 $
// $Release Date: September 26, 2007 $
//###########################################################################

#include "DSP2833x_Device.h"     // DSP28 Headerfile Include File
#include "DSP2833x_Examples.h"   // DSP28 Examples Include File


//---------------------------------------------------------------------------
// InitECan:
//---------------------------------------------------------------------------
// This function initializes the eCAN module to a known state.
//
void InitECan(void)
{
   InitECana();
#if DSP28_ECANB
   InitECanb();
#endif // if DSP28_ECANB
}

void InitECana(void)		// Initialize eCAN-A module
{
/* Create a shadow register structure for the CAN control registers. This is
 needed, since only 32-bit access is allowed to these registers. 16-bit access
 to these registers could potentially corrupt the register contents or return 
 false data. This is especially true while writing to/reading from a bit 
 (or group of bits) among bits 16 - 31 */

struct ECAN_REGS ECanaShadow;

	EALLOW;		// EALLOW enables access to protected bits

/* Configure eCAN RX and TX pins for CAN operation using eCAN regs*/  

    ECanaShadow.CANTIOC.all = ECanaRegs.CANTIOC.all;
    ECanaShadow.CANTIOC.bit.TXFUNC = 1;
    ECanaRegs.CANTIOC.all = ECanaShadow.CANTIOC.all;

    ECanaShadow.CANRIOC.all = ECanaRegs.CANRIOC.all;
    ECanaShadow.CANRIOC.bit.RXFUNC = 1;
    ECanaRegs.CANRIOC.all = ECanaShadow.CANRIOC.all;

/* Configure eCAN for HECC mode - (reqd to access mailboxes 16 thru 31) */
									// HECC mode also enables time-stamping feature

	ECanaShadow.CANMC.all = ECanaRegs.CANMC.all;
	ECanaShadow.CANMC.bit.SCB = 1;
	ECanaRegs.CANMC.all = ECanaShadow.CANMC.all;

/* Initialize all bits of 'Master Control Field' to zero */
// Some bits of MSGCTRL register come up in an unknown state. For proper operation,
// all bits (including reserved bits) of MSGCTRL must be initialized to zero

    ECanaMboxes.MBOX0.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX1.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX2.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX3.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX4.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX5.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX6.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX7.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX8.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX9.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX10.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX11.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX12.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX13.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX14.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX15.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX16.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX17.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX18.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX19.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX20.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX21.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX22.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX23.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX24.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX25.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX26.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX27.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX28.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX29.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX30.MSGCTRL.all = 0x00000000;
    ECanaMboxes.MBOX31.MSGCTRL.all = 0x00000000;

// TAn, RMPn, GIFn bits are all zero upon reset and are cleared again
//	as a matter of precaution.

	ECanaRegs.CANTA.all	= 0xFFFFFFFF;	/* Clear all TAn bits */

	ECanaRegs.CANRMP.all = 0xFFFFFFFF;	/* Clear all RMPn bits */

	ECanaRegs.CANGIF0.all = 0xFFFFFFFF;	/* Clear all interrupt flag bits */
	ECanaRegs.CANGIF1.all = 0xFFFFFFFF;


/* Configure bit timing parameters for eCANA*/
	ECanaShadow.CANMC.all = ECanaRegs.CANMC.all;
	ECanaShadow.CANMC.bit.CCR = 1 ;            // Set CCR = 1
    ECanaRegs.CANMC.all = ECanaShadow.CANMC.all;

    ECanaShadow.CANES.all = ECanaRegs.CANES.all;

    do
	{
	    ECanaShadow.CANES.all = ECanaRegs.CANES.all;
    } while(ECanaShadow.CANES.bit.CCE != 1 );  		// Wait for CCE bit to be set..

    ECanaShadow.CANBTC.all = 0;

    #if (CPU_FRQ_150MHZ)                       // CPU_FRQ_150MHz is defined in DSP2833x_Examples.h
		/* The following block for all 150 MHz SYSCLKOUT - default. Bit rate = 1 Mbps */
			ECanaShadow.CANBTC.bit.BRPREG = 9;
			ECanaShadow.CANBTC.bit.TSEG2REG = 2;
			ECanaShadow.CANBTC.bit.TSEG1REG = 10;
    #endif
	#if (CPU_FRQ_100MHZ)                       // CPU_FRQ_100MHz is defined in DSP2833x_Examples.h
	/* The following block is only for 100 MHz SYSCLKOUT. Bit rate = 1 Mbps */
	    ECanaShadow.CANBTC.bit.BRPREG = 9;
		ECanaShadow.CANBTC.bit.TSEG2REG = 1;
		ECanaShadow.CANBTC.bit.TSEG1REG = 6;
	#endif


    ECanaShadow.CANBTC.bit.SAM = 1;
    ECanaRegs.CANBTC.all = ECanaShadow.CANBTC.all;

    ECanaShadow.CANMC.all = ECanaRegs.CANMC.all;
	ECanaShadow.CANMC.bit.CCR = 0 ;            // Set CCR = 0
    ECanaRegs.CANMC.all = ECanaShadow.CANMC.all;

    ECanaShadow.CANES.all = ECanaRegs.CANES.all;

    do
    {
       ECanaShadow.CANES.all = ECanaRegs.CANES.all;
    } while(ECanaShadow.CANES.bit.CCE != 0 ); 		// Wait for CCE bit to be  cleared..

/* Disable all Mailboxes  */
 	ECanaRegs.CANME.all = 0;		// Required before writing the MSGIDs

    EDIS;
}


#if (DSP28_ECANB)
void InitECanb(void)		// Initialize eCAN-B module
{
/* Create a shadow register structure for the CAN control registers. This is
 needed, since only 32-bit access is allowed to these registers. 16-bit access
 to these registers could potentially corrupt the register contents or return 
 false data. This is especially true while writing to/reading from a bit 
 (or group of bits) among bits 16 - 31 */

struct ECAN_REGS ECanbShadow;

   EALLOW;		// EALLOW enables access to protected bits

/* Configure eCAN RX and TX pins for CAN operation using eCAN regs*/  

    ECanbShadow.CANTIOC.all = ECanbRegs.CANTIOC.all;
    ECanbShadow.CANTIOC.bit.TXFUNC = 1;
    ECanbRegs.CANTIOC.all = ECanbShadow.CANTIOC.all;

    ECanbShadow.CANRIOC.all = ECanbRegs.CANRIOC.all;
    ECanbShadow.CANRIOC.bit.RXFUNC = 1;
    ECanbRegs.CANRIOC.all = ECanbShadow.CANRIOC.all;

/* Configure eCAN for HECC mode - (reqd to access mailboxes 16 thru 31) */

	ECanbShadow.CANMC.all = ECanbRegs.CANMC.all;
	ECanbShadow.CANMC.bit.SCB = 1;
	ECanbRegs.CANMC.all = ECanbShadow.CANMC.all;

/* Initialize all bits of 'Master Control Field' to zero */
// Some bits of MSGCTRL register come up in an unknown state. For proper operation,
// all bits (including reserved bits) of MSGCTRL must be initialized to zero

    ECanbMboxes.MBOX0.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX1.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX2.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX3.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX4.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX5.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX6.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX7.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX8.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX9.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX10.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX11.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX12.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX13.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX14.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX15.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX16.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX17.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX18.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX19.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX20.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX21.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX22.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX23.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX24.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX25.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX26.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX27.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX28.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX29.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX30.MSGCTRL.all = 0x00000000;
    ECanbMboxes.MBOX31.MSGCTRL.all = 0x00000000;

// TAn, RMPn, GIFn bits are all zero upon reset and are cleared again
//	as a matter of precaution.

	ECanbRegs.CANTA.all	= 0xFFFFFFFF;	/* Clear all TAn bits */

	ECanbRegs.CANRMP.all = 0xFFFFFFFF;	/* Clear all RMPn bits */

	ECanbRegs.CANGIF0.all = 0xFFFFFFFF;	/* Clear all interrupt flag bits */
	ECanbRegs.CANGIF1.all = 0xFFFFFFFF;


/* Configure bit timing parameters for eCANB*/

	ECanbShadow.CANMC.all = ECanbRegs.CANMC.all;
	ECanbShadow.CANMC.bit.CCR = 1 ;            // Set CCR = 1
    ECanbRegs.CANMC.all = ECanbShadow.CANMC.all;

    ECanbShadow.CANES.all = ECanbRegs.CANES.all;