edma_self_chaining.c

Dm6455 driver,magbe useful to you!

/*  ============================================================================
 *   Copyright (c) Texas Instruments Inc 2002, 2003, 2004, 2005, 2006
 *
 *   Use of this software is controlled by the terms and conditions found in the
 *   license agreement under which this software has been supplied.
 *   ===========================================================================
 */

/** ============================================================================
 *
 *   @file  edma_self_chaining.c
 *
 *   @path  $(CSLPATH)\example\edma\edma_self_chaining\src
 *
 *   @desc  Example of EDMA
 *
 *  ============================================================================
 *   @n Target Platform: EVM
 *  ============================================================================
 *   @n <b> Example Description </b>
 *   @n This example illustrates a  EDMA Self chaining. The following steps 
 *      shows the EDMA3 setup and illustration of the broken up smaller packet 
 *      transfers.      
 *        1. Initializes the CSL EDMA module
 *        2. Opens and Sets up Edma module to default values 
 *        3. Opens EDMA channel 0 in the region 5
 *        4. Sets up the EDMA PARAM entry 
             - Enables intermediate transfer chaining to break up a large 
               transfer into smaller transfers
             - Sets up the A-synchronized transfer to move a 16K bytes of memory
             - Sets up to transfer 16 arrays of 1 Kbyte elements, for a total 
               of 16K byte elements
             - Sets TCC value as the channel number (channel 0)
             - Sets TCINTEN to trigger interrupt 0 when the last 1 Kbyte array 
               is transferred
 *        5. Enable the channel 0 
 *        6. Manually triggers the channel 0
 *        7. Waits for EDMA transfer till it will complete the 16K byte transfer
 *        8. Does the data comparision to ensure the transffered data is proper  
 *           or not and 
 *        9. Displays the messages based on step 8
 *
 * =============================================================================
 *      
 *   <b> Procedure to run the example </b>
 *   @verbatim
 *      1. Configure the CCS setup to work with the emulator being used
 *      2. Please refer CCS manual for setup configuration and loading 
 *         proper GEL file
 *      3. Launch CCS window
 *      4. Open project Edma_self_chain.pjt
 *      5. Build the project and load the .out file of the project.
 *          
 *   @endverbatim
 *
 */

/* =============================================================================
 *  Revision History
 *  ===============
 *  8-Feb-2006 ds    File Created
 * =============================================================================
 */
 
#include <stdio.h>
#include <csl_edma3.h>
#include <soc.h>

/* Number of bytes to transfer */
#define NOF_BYTES_XFR   16384

/* Globals */
Uint8       srcBuff1[NOF_BYTES_XFR];
Uint8       dstBuff1[NOF_BYTES_XFR];
Uint32      passStatus = 1;   

/* Forward declaration */
void edma_self_chaining (void);

/*
 * =============================================================================
 *   @func   main
 *
 *   @desc
 *     This is the main routine for the file.
 *
 * =============================================================================
 */
void main(void)
{   
    
    /* Invoke example */
    edma_self_chaining ();
    
    return;   
}

/*
 * =============================================================================
 *   @func  edma_self_chaining
 *  
 *   @arg
 *      NONE
 *
 *   @desc
 *      This example illustrates a  EDMA Self chaining. The following steps 
 *      shows the EDMA3 setup and illustration of the broken up smaller packet 
 *      transfers.
 *        1. Initializes the CSL EDMA module
 *        2. Opens and Sets up Edma module to default values 
 *        3. Opens EDMA channel 0 in the region 5
 *        4. Sets up the EDMA PARAM entry 
          5. Enable the channel 0 
 *        6. Manually triggers the channel 0
 *        7. Waits for EDMA transfer till it will complete the 16K byte transfer
 *        8. Does the data comparision to ensure the transffered data is proper  
 *           or not and 
 *        9. Displays the messages based on step 8
 *          
 *   @return
 *      NONE
 *
 * =============================================================================
 */
void edma_self_chaining (void)
{
    CSL_Edma3Handle             hModule;
    CSL_Edma3HwSetup            hwSetup;
    CSL_Edma3Obj                edmaObj;
    CSL_Edma3ParamHandle        hParamBasic;
    CSL_Edma3ChannelObj         chObj;
    CSL_Edma3CmdIntr            regionIntr;
    CSL_Edma3CmdDrae            regionAccess;
    CSL_Edma3ChannelHandle      hChannel;
    CSL_Edma3ParamSetup         myParamSetup;
    CSL_Edma3Context            context;
    CSL_Edma3ChannelAttr        chAttr;
    CSL_Status                  status;
    CSL_Edma3HwDmaChannelSetup  dmahwSetup;
    volatile Uint32             loopIndex;
    Uint32                      numXfr;

    printf ("Running Edma Example\n");
    
    /* Module Initialization */
    status = CSL_edma3Init(&context);
    if (status != CSL_SOK) {
        printf ("Edma module initialization failed\n");   
        return;
    }
    
    /* Module level open */
    hModule = CSL_edma3Open(&edmaObj,CSL_EDMA3,NULL,&status);
    if ( (hModule == NULL) || (status != CSL_SOK)) {
        printf ("Edma module open failed\n");    
        return;
    }
    
    /* Module setup */
    dmahwSetup.paramNum = 0;
    dmahwSetup.que      = CSL_EDMA3_QUE_0;
    hwSetup.dmaChaSetup = &dmahwSetup;
    hwSetup.qdmaChaSetup = NULL;
    status = CSL_edma3HwSetup(hModule,&hwSetup);
    if (status != CSL_SOK) {
         printf ("Hardware setup failed\n");
         CSL_edma3Close (hModule);
         return;
    } 
      
    /* DRAE enable(Bits 0-15) for the shadow region 5 */
    regionAccess.region = CSL_EDMA3_REGION_5 ;
    regionAccess.drae =   0xFFFF ;   
    regionAccess.draeh =  0x0000 ;
    status = CSL_edma3HwControl(hModule,CSL_EDMA3_CMD_DMAREGION_ENABLE, \
                               &regionAccess); 
    if (status != CSL_SOK) {
        printf ("Edma region enable command failed\n");
        return;
    }

    /* Channel 0 open in context of shadow region 5 */
    chAttr.regionNum = CSL_EDMA3_REGION_5;
    chAttr.chaNum = CSL_EDMA3_CHA_DSP_EVT;
    hChannel = CSL_edma3ChannelOpen(&chObj, CSL_EDMA3, &chAttr, &status);   
    if ((hChannel == NULL) || (status != CSL_SOK)) {
        printf ("Edma channel open failed\n");
        return;
    }
    
    /* Obtain a handle to parameter set 0 */
    hParamBasic = CSL_edma3GetParamHandle(hChannel,0,&status);
    if (hParamBasic == NULL) {
        printf ("Edma get param handle for param entry 0 failed\n");    
        return;
    }
    
    /* ACNT value */
    numXfr = NOF_BYTES_XFR/16;

    /* Setup the first param set  */
    myParamSetup.option = CSL_EDMA3_OPT_MAKE (CSL_EDMA3_ITCCH_EN, \
                                              CSL_EDMA3_TCCH_DIS, \
                                              CSL_EDMA3_ITCINT_DIS, \
                                              CSL_EDMA3_TCINT_EN,\
                                              0, CSL_EDMA3_TCC_NORMAL,\
                                              CSL_EDMA3_FIFOWIDTH_NONE, \
                                              CSL_EDMA3_STATIC_DIS, \
                                              CSL_EDMA3_SYNC_A, \
                                              CSL_EDMA3_ADDRMODE_INCR, \
                                              CSL_EDMA3_ADDRMODE_INCR
                                             );           
    myParamSetup.srcAddr = (Uint32)srcBuff1;         
    myParamSetup.aCntbCnt = CSL_EDMA3_CNT_MAKE(numXfr,16);       
    myParamSetup.dstAddr = (Uint32)dstBuff1;        
    myParamSetup.srcDstBidx = CSL_EDMA3_BIDX_MAKE(numXfr, numXfr);     
    myParamSetup.linkBcntrld = CSL_EDMA3_LINKBCNTRLD_MAKE(CSL_EDMA3_LINK_NULL,0);     
    myParamSetup.srcDstCidx = CSL_EDMA3_CIDX_MAKE(1, 1);     
    myParamSetup.cCnt = 1;
    status = CSL_edma3ParamSetup(hParamBasic, &myParamSetup);
    if (status != CSL_SOK) {
        printf("Edma parameter entry setup is failed\n");
        return;
    }
    
    /* Enable channel */
    status = CSL_edma3HwChannelControl(hChannel,CSL_EDMA3_CMD_CHANNEL_ENABLE, \
                                       NULL);
    if (status != CSL_SOK) {
        printf("Edma channel enable command is failed\n");
        return;
    }
    
    /* Initialize data */
    for (loopIndex = 0; loopIndex < NOF_BYTES_XFR; loopIndex++) {
        srcBuff1[loopIndex] = loopIndex;
        dstBuff1[loopIndex] = 0;
        
    }
    
    /* Manually trigger the channel */
    status = CSL_edma3HwChannelControl(hChannel,CSL_EDMA3_CMD_CHANNEL_SET,NULL);
    if (status != CSL_SOK) {
        printf("Edma channel set command is failed\n");
        return;
    }
    
    regionIntr.region = CSL_EDMA3_REGION_5;
    regionIntr.intr = 0;
    regionIntr.intrh = 0;
    
    do {
        /* Poll on interrupt bit 0 */
        CSL_edma3GetHwStatus(hModule,CSL_EDMA3_QUERY_INTRPEND,&regionIntr);
    } while (!(regionIntr.intr & 0x1));

    /* Clear interrupt bit 0 */
    status = CSL_edma3HwControl(hModule,CSL_EDMA3_CMD_INTRPEND_CLEAR, \
                               &regionIntr);   
    if (status != CSL_SOK) {
        printf("Edma clear interrupt bit 0 command is failed\n");
        return;
    }
    
    /* Check transfer */
    if(Verify_Transfer(NOF_BYTES_XFR, 1, 1, 0, 0, 0, 0, srcBuff1, dstBuff1, \
                       TRUE) == FALSE) {
       passStatus = 0; 
    }
           
    if (passStatus == 1)    
        printf ("<<EXAMPLE PASSED>>: Edma Self Chaining Transfer Passed\n");
    else {
        printf ("<<EXAMPLE FAILED>>: Edma Self Chaining Transfer Failed\n");
        return;
    }    
    
    
    /* Close channel */
    status = CSL_edma3ChannelClose(hChannel);
    if (status != CSL_SOK) {
        printf("Edma channel close failed\n");
        return;
    }
    
    /* Close edma module */
    status = CSL_edma3Close(hModule);
    if (status != CSL_SOK) {
        printf("Edma module close failed\n");
        return;
    }
    
    printf ("=============================================================\n");
    
    return;
}