view src/cs/riviera/rvt/ti_profiler/ti_profiler.c @ 287:3dee79757ae4

UI fw: load handheld audio mode on boot We have now reached the point where use of audio mode config files should be considered mandatory. In ACI usage we can tell users that they need to perform an AT@AUL of some appropriate audio mode, but in UI-enabled fw we really need to have the firmware load audio modes on its own, so that correct audio config gets established when the handset or development board runs on its own, without a connected host computer. Once have FC Venus with both main and headset audio channels and headset plug insertion detection, our fw will need to automatically load the handheld mode or the headset mode depending on the plug insertion state. For now we load only the handheld mode, which has been tuned for FC-HDS4 on FC Luna.
author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 13 Nov 2021 03:20:57 +0000
parents 4e78acac3d88
children
line wrap: on
line source

/************************************************************************************
* ti_profiler.c :  contains ti profiling module function                            *
*																					*	
*																					*
*	Author: Philippe Martinez														*
*																					*
*	version: 1.0																	*
*																					*
*	Date: 07/16/2001																*
*   (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved		*		
************************************************************************************/

#include "config/debug.cfg"

#if (TI_PROFILER == 1) || (TI_NUC_MONITOR == 1)

  /*-------------------------------------------------------*/
  /* include files                                         */
  /*-------------------------------------------------------*/

  #include <string.h>

  #include "main/sys_types.h"

  #include "nucleus.h" 
  #if (TI_NUC_MONITOR == 1)
    #include "qu_defs.h" 
    #include "tc_defs.h" 
  #endif

  #include "rvf/rvf_api.h"
  #include "rvt/rvt_gen.h"
  #include "rvt/rvt_def_i.h"

  #include "mem.h"
  #include "iq.h"

  #include "rvt/ti_profiler/ti_profiler.h"

  #include "timer.h"       
  #include "inth.h"

  /*-------------------------------------------------------*/
  /* Global instances                                      */
  /*-------------------------------------------------------*/

  // task variable instance
  T_RVF_MB_ID   prof_mb_id;
  T_RVT_USER_ID prof_trace_id;
  T_RVF_ADDR_ID prof_addr_id;
  
  /*-------------------------------------------------------*/
  /* internal prototypes                                   */
  /*-------------------------------------------------------*/

  void     ti_prf_init( void );
  T_RV_RET ti_prf_core(void);
  void     ti_profiler_trace_rx_callback( T_RVT_BUFFER trace_msg, UINT16 trace_msg_size );
  #if (L1_TRACER == 1)
    extern void SendTraces(char *s);
  #endif
   
#endif


#if (TI_PROFILER == 1)

  /*-------------------------------------------------------*/
  /* Global instances                                      */
  /*-------------------------------------------------------*/

  // Internal state of profiling
  T_PROFILER_STATE profiler_state = PROFILER_STOPPED;


  // Buffer that contains the Profiling samples.
  //  Structure (SYS_UWORD32 buffer):
  //     C_OP_CODE_TDMA_BEGIN
  //     PC Samples ......
  //     C_OP_CODE_TDMA_END
  //     ......
  //     C_OP_CODE_TDMA_BEGIN
  //     PC Samples ......
  //     C_OP_CODE_TDMA_END

  SYS_UWORD32   pr_buffer[PR_BUFFER_SIZE];
  // pointer on pr_buffer
  SYS_UWORD32   pos_pr_buffer    = 0;
  SYS_UWORD32   pr_buffer_length = PR_BUFFER_SIZE;

  T_PROFILER_BUFFER_STATE ti_profiler_buffer_state = LOGGING;
  T_PROFILER_HANDLER      ti_profiler_active       = NOT_ACTIVE;
 
  // hisr variable instance
  NU_HISR       ti_profiler_cb;
  SYS_UWORD8    ti_profiler_hisr_stack[500];

   // Event variables
   // NO_SLEEP_EVENT
   SYS_UWORD32   ti_profiler_nb_sleep_call         = 0;
   SYS_UWORD32   ti_profiler_nb_sleep_counter_ref  = 0;
 
   T_PROFILER_EVENTS    ti_profiler_event_state = NO_EVENT;
  
  /*-------------------------------------------------------*/
  /* internal prototypes                                   */
  /*-------------------------------------------------------*/

  void ti_profiler_start( BOOL enable );
  void ti_profiler_handler( SYS_UWORD32 programCounter );
  void ti_profiler_freeze( void );
  void ti_profiler_unfreeze( void );
  void ti_profiler_tdma_action( void );
  void ti_profiler_init_profiler_module( void );
  void ti_profiler_hisr( void );

  void l1_profiler_open( void );
  void l1_profiler_close( void );
  void l1_profiler_flush( void );

  /*-------------------------------------------------------*/
  /* external prototypes                                   */
  /*-------------------------------------------------------*/
  
  SYS_UWORD32 l1_get_next_absolute_fn( void );
   
  /*-------------------------------------------------------*/
  /* ti_profiler_start()                                   */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description: Start or Stop the timer                  */
  /* ------------                                          */
  /* parameters                                            */
  /*  enable = 1 => Unmask + start the timer 1             */
  /*    Initialize buffer.								   */
  /*  enable = 0 => mask + stop the timer 1                */
  /*    Close Buffer.									   */
  /*-------------------------------------------------------*/
 
  void ti_profiler_start( BOOL enable )
  {
    if( enable ) 
    {   
      TM_EnableTimer( PR_TIMER_NUM );
      IQ_Unmask( IQ_TIM1 );
      IQ_InitLevel( IQ_TIM1, FIQ, 0, 1 );

      TM_ResetTimer( PR_TIMER_NUM, PR_TIMER_RESET_VALUE, 1, 0 );
      TM_StartTimer( PR_TIMER_NUM );
    }
    else
    {
      IQ_Mask( IQ_TIM1 );
      IQ_InitLevel( IQ_TIM1, 0, 0, 1 );
      TM_StopTimer( PR_TIMER_NUM );
    }
  } // ti_profiler_start


  /*-------------------------------------------------------*/
  /* ti_profiler_handler()                                 */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  Store the Program counter in a static buffer	       */
  /*  If buffer is full, deactivate the profiling and      */
  /*  activate the ti_profiler_hisr();                     */
  /*-------------------------------------------------------*/
 
  void ti_profiler_handler( SYS_UWORD32 programCounter )
  {
 
    // Store the program Counter in log buffer 
    pr_buffer[ pos_pr_buffer++ ] = programCounter; 
 
  } // ti_profiler_handler


  /*-------------------------------------------------------*/
  /* ti_profiler_freeze()  ti_profiler_unfreeze()          */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  Function to suspend/resume the profiling             */
  /*-------------------------------------------------------*/
 
  void ti_profiler_freeze()
  {
    TM_StopTimer( PR_TIMER_NUM );
  } // ti_profiler_freeze

  void ti_profiler_unfreeze()
  {
    TM_StartTimer( PR_TIMER_NUM );  
  } // ti_profiler_unfreeze

  /*-------------------------------------------------------*/
  /* ti_profiler_init_profiler_module()                    */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description: Initialize profiling task and hisr       */
  /* ------------                                          */
  /* Note : this init will changed                         */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_profiler_init_profiler_module( void )
  {
    // Fill the entire stack with the pattern 0xFE
    memset( ti_profiler_hisr_stack, 0xFE, sizeof( ti_profiler_hisr_stack ) );

    // Create the HISR which is called from power interrupts
    NU_Create_HISR( &ti_profiler_cb, 
                    "TI PROF", 
                    ti_profiler_hisr, 
                    2,
                    ti_profiler_hisr_stack, 
                    sizeof( ti_profiler_hisr_stack ) ); // lowest prty

  } // ti_profiler_init_profiler_module


  /*-------------------------------------------------------*/
  /* ti_profiler_hisr() High Interrupt service routine     */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  This hisr stands as relay for the profiler LISR.     */
  /*  It sends a message to the profiler task to start the */
  /*   buffer extraction.                                  */
  /*-------------------------------------------------------*/

  void ti_profiler_hisr( void )
  {	
    T_PROFILER_MSG * msg;
	 
    //send a message to the ti profiler task
	if( rvf_get_buf( prof_mb_id, sizeof( T_PROFILER_MSG ), ( T_RVF_BUFFER** ) &msg ) == RVF_GREEN )
	{
	  msg->msg_id = TI_PROFILER_OUTPUT_BUFFER;
	  rvf_send_msg( prof_addr_id, msg );
	}
  } // ti_profiler_hisr

  /*-------------------------------------------------------*/
  /* ti_profiler_tdma_action()                              */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*                                                       */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_profiler_tdma_action(void)
  {
 
    switch( profiler_state )
    {
      case PROFILER_RUNNING : 
      {
	    SYS_UWORD8  output_buffer_condition = 0;

        // suspend the profiler
        //ti_profiler_freeze();
		ti_profiler_start( FALSE );

        if( ti_profiler_event_state == NO_SLEEP_EVENT )
		{
		  // Need to reach the event to output the buffer
		  if( ti_profiler_nb_sleep_call++ >= ti_profiler_nb_sleep_counter_ref )
		  {
			  output_buffer_condition   = 1;
			  ti_profiler_nb_sleep_call = 0;
			 // ti_profiler_buffer_state = FLUSH;			  
		  } // End if
		}
		else
		{
		  output_buffer_condition = 1;  
		} // End if 
 

        // Check if buffer threshold reached
   	    if( pos_pr_buffer >= PR_BUFFER_THRESHOLD )
	    {
          // change the status of the buffer
		  ti_profiler_buffer_state = LOGGING;

	      // Insert the End of Buffer OP code
	      pr_buffer[ pos_pr_buffer++ ] = C_OP_CODE_END_BUFFER;
          
		  // Specifie used length of buffer in SYS_UWORD32
          pr_buffer_length = pos_pr_buffer;
           
          if( output_buffer_condition == 1 )
          { 
            // Change profiler state to freezed
	        profiler_state = PROFILER_FREEZED;

	        // Activate the hisr in order to start the buffer output
	        NU_Activate_HISR( &ti_profiler_cb );
          }
	      else
	      {
		    // insert TDMA begin OP Code
            pr_buffer[ 0 ] = C_OP_CODE_BEGIN_BUFFER;	           
            pr_buffer[ 1 ] = C_OP_CODE_TDMA_BEGIN;	           
		    // Insert current fn
	        pr_buffer[ 2 ] = l1_get_next_absolute_fn();

		    // initialize buffer pointer
	        pos_pr_buffer = 3;

			ti_profiler_start( TRUE );
		  } // End if

        }
	    else
	    {
	      // insert OP Code begining of TDMA
	      pr_buffer[pos_pr_buffer++] = C_OP_CODE_TDMA_BEGIN;
		  // Insert current fn
	      pr_buffer[pos_pr_buffer++] = l1_get_next_absolute_fn();

	      // resume profiler
	      //ti_profiler_unfreeze();
		  ti_profiler_start( TRUE );
        } // End if


        break;
      }	// PROFILER_RUNNING

      case PROFILER_TO_BE_RAN : 
      {
		// insert TDMA begin OP Code
        pr_buffer[ 0 ] = C_OP_CODE_BEGIN_BUFFER;	           
        pr_buffer[ 1 ] = C_OP_CODE_TDMA_BEGIN;	           
		// Insert current fn
	    pr_buffer[ 2 ] = l1_get_next_absolute_fn();

		// initialize buffer pointer
	    pos_pr_buffer = 3;
        // start the profiler
        profiler_state = PROFILER_RUNNING;

	    // start the profiler
	    ti_profiler_start( TRUE );

        break;
      }	// PROFILER_TO_BE_RAN

      case PROFILER_TO_BE_STOPPED : 
      {
	    // stop the profiler
	    ti_profiler_start( FALSE );

        // Insert End Buffer Op Code.
        pr_buffer[pos_pr_buffer++] = C_OP_CODE_END_BUFFER; 
        profiler_state             = PROFILER_STOPPED;

	    // Activate the hisr in order to start the buffer output
	    NU_Activate_HISR( &ti_profiler_cb );

        // Returns to inactive
		ti_profiler_active = NOT_ACTIVE;

        break;
      } // PROFILER_TO_BE_STOPPED

      case PROFILER_TO_BE_UNFREEZED : 
      {
		// Init profiling buffer
		// insert TDMA begin OP Code
        pr_buffer[ 0 ] = C_OP_CODE_BEGIN_BUFFER;	           
        pr_buffer[ 1 ] = C_OP_CODE_TDMA_BEGIN;	           
		// Insert current fn
	    pr_buffer[ 2 ] = l1_get_next_absolute_fn();

		// initialize buffer pointer
	    pos_pr_buffer = 3;
        // Insert the TDMA Start Op Code
        profiler_state = PROFILER_RUNNING;

	    // resume profiler
	    //ti_profiler_unfreeze();
		ti_profiler_start( TRUE );

        break;
      }	// PROFILER_TO_BE_UNFREEZED

      default :
      {
        // nothing to do
        break;
      }	// default

    } // End switch
  
  } // ti_profiler_tdma_action

  /*-------------------------------------------------------*/
  /* ti_profiler_open()                                    */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  Start the profiling on the next TDMA occurence       */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_profiler_open( void )
  {
    if( ti_profiler_active == NOT_ACTIVE )
	{

	} // End if
  } // ti_profiler_open

  /*-------------------------------------------------------*/
  /* ti_profiler_close()                                   */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  Stop the profiling on the next TDMA occurence        */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_profiler_close( void )  
  {
    if( ti_profiler_active == NOT_ACTIVE )
	{
	   l1_profiler_close();
	} // End if
  } // ti_profiler_close

  /*-------------------------------------------------------*/
  /* l1_profiler_flush()                                   */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  freeze the profiling and flush the current profiling */
  /*   buffer. Profiling will restart after output of the  */
  /*   buffer.                                             */ 
  /*-------------------------------------------------------*/

  void ti_profiler_flush( void )
  {
    if( ti_profiler_active == NOT_ACTIVE )
	{
	  l1_profiler_flush();
	} // End if
  } // ti_profiler_flush

  // To be used only TI internal modules

  /*-------------------------------------------------------*/
  /* ti_profiler_open()                                    */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  Start the profiling on the next TDMA occurence       */
  /*                                                       */
  /*-------------------------------------------------------*/

  void l1_profiler_open( void )
  {

     if( ti_profiler_active != NOT_ACTIVE )
	 {
	   // stop profiler timer 
	   ti_profiler_start( FALSE );
       // go to idle
	   profiler_state = PROFILER_STOPPED;
     } // Endif

   	 // insert TDMA begin OP Code
     pr_buffer[ 0 ] = C_OP_CODE_BEGIN_BUFFER;	           
     pr_buffer[ 1 ] = C_OP_CODE_TDMA_BEGIN;	           

	 // Insert current fn
	 pr_buffer[ 2 ] = l1_get_next_absolute_fn();
								
	 // initialize buffer pointer
	 pos_pr_buffer = 3;

     // change state of profiler
     profiler_state = PROFILER_TO_BE_RAN; 

  } // ti_profiler_open

  /*-------------------------------------------------------*/
  /* ti_profiler_close()                                   */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  Stop the profiling on the next TDMA occurence        */
  /*                                                       */
  /*-------------------------------------------------------*/

  void l1_profiler_close( void )  
  {
	// stop the profiler
	ti_profiler_start( FALSE );

    // Insert TDMA_BOUNDARY Op Code.
    pr_buffer[pos_pr_buffer++] = C_OP_CODE_END_BUFFER; 
    profiler_state             = PROFILER_STOPPED;

	// Activate the hisr in order to start the buffer output
	NU_Activate_HISR( &ti_profiler_cb );

  } // ti_profiler_close

  /*-------------------------------------------------------*/
  /* l1_profiler_flush()                                   */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  freeze the profiling and flush the current profiling */
  /*   buffer. Profiling will restart after output of the  */
  /*   buffer.                                             */ 
  /*-------------------------------------------------------*/

  void l1_profiler_flush( void )
  {
    ti_profiler_buffer_state = FLUSH;
  } // ti_profiler_flush

#endif // PROFILER

#if (TI_NUC_MONITOR == 1)

  /*-------------------------------------------------------*/
  /* Global instances                                      */
  /*-------------------------------------------------------*/
  // management of monitoring buffer
   
  //    Internal state of nucleus monitoring
   
  T_NUC_MONITOR_STATE ti_nuc_monitor_state       = NUC_MONITOR_STOPPED;

  // pointers on current buffer
  SYS_UWORD8*    ti_nuc_monitor_current_buffer   = NULL;
  SYS_UWORD8     ti_nuc_monitor_current_position = 0;

  // Create static doubled bufferised LISR buffers (max 10 LISR by TDMA)
  SYS_UWORD8     ti_nuc_monitor_LISR_Buffer[C_NUC_LISR_BUF_PG_NB][C_NUC_MAX_LISR];
  SYS_UWORD8     ti_nuc_monitor_LISR_current_page = 0;
  SYS_UWORD8     ti_nuc_monitor_LISR_current_pos  = 0;
  SYS_UWORD8     ti_nuc_monitor_LISR_next_page    = 0;
  SYS_UWORD8     ti_nuc_monitor_LISR_next_pos     = 0;

  // Create static doubled bufferised LISR buffers (max 10 LISR by TDMA)
  SYS_UWORD8     ti_nuc_monitor_Thread_Buffer[C_NUC_THREAD_BUF_PG_NB][C_NUC_MAX_THREAD];
  SYS_UWORD8     ti_nuc_monitor_Thread_current_page = 0;
  SYS_UWORD8     ti_nuc_monitor_Thread_current_pos  = 0;
  SYS_UWORD8     ti_nuc_monitor_Thread_next_page    = 0;
  SYS_UWORD8     ti_nuc_monitor_Thread_next_pos     = 0;

  // hisr variable instance
  NU_HISR        ti_nuc_monitor_cb;
  SYS_UWORD8     ti_nuc_monitor_hisr_stack[ 500 ];

  // Array that store the ID <-> pointer of the Nucleus Components
  //SYS_UWORD32*   ti_nuc_monitor_thread_id[ NUC_MONITOR_MAX_ID ];
  SYS_UWORD32    ti_nuc_monitor_thread_id[ NUC_MONITOR_MAX_ID ];
  SYS_UWORD8     ti_nuc_monitor_thread_pos      = 0;

  //SYS_UWORD32*   ti_nuc_monitor_queue_id[ NUC_MONITOR_MAX_ID ];
  SYS_UWORD32    ti_nuc_monitor_queue_id[ NUC_MONITOR_MAX_ID ];
  SYS_UWORD8     ti_nuc_monitor_queue_pos       = 0;

  // LISR IRQ value
  SYS_UWORD8     IRQ_value;

  // Indicates the nucleus monitor part to switch Thread buffer page
  SYS_UWORD8     ti_nuc_monitor_change_thread_page = 0;

  // Indicates that the IDLE mode has been reached
  // (to be reset in LISR or Thread monitor function)
  SYS_UWORD8     ti_nuc_monitor_idle_reached  = 0;

  // debug
  SYS_UWORD32    ti_nuc_monitor_lost_messages = 0;

  /*-------------------------------------------------------*/
  /* internal prototypes                                   */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_tdma_action( void );
  void ti_nuc_monitor_init_module( void );
  void ti_nuc_monitor_hisr( void );
  void ti_nuc_monitor_check_ID_buffer( void );
  void ti_nuc_monitor_LISR_log( void );
  void ti_nuc_monitor_LISR_log_end( void );
  void ti_nuc_monitor_Thread_log( void );
  void ti_nuc_monitor_Queue_log( SYS_UWORD32* queue_pointer, SYS_UWORD8 status, SYS_UWORD8 Direction );
  void ti_nuc_monitor_sleep( void );

  T_RVT_RET ti_nuc_monitor_mem_alloc(T_RVT_USER_ID user_id, 
                                     T_RVT_MSG_LG buffer_lenght, 
                                     T_RVT_BUFFER * buff);

  /*-------------------------------------------------------*/
  /* external prototypes                                   */
  /*-------------------------------------------------------*/
  
  extern SYS_UWORD16  l1_get_actual_fn_mod42432( void );
  extern SYS_UWORD32* TCD_Current_Thread;

  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_init_module()                          */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description: Initialize hisr                          */
  /* ------------                                          */
  /* Create hisr and initialize thread/queue structures.   */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_init_module( void )
  {
    SYS_UWORD8	i;

    // Fill the entire stack with the pattern 0xFE
    memset( ti_nuc_monitor_hisr_stack, 0xFE, sizeof( ti_nuc_monitor_hisr_stack ) );

    // Create the HISR 
        NU_Create_HISR( &ti_nuc_monitor_cb, 
                    "TI MON", 
                    ti_nuc_monitor_hisr, 
                    2,
                    ti_nuc_monitor_hisr_stack, 
                    sizeof( ti_nuc_monitor_hisr_stack ) ); // lowest prty

  } // ti_nuc_monitor_init_module


  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_hisr() High Interrupt service routine  */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  It sends a message to the profiler task to start the */
  /*   buffer extraction.                                  */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_hisr( void )
  {	
    SYS_UWORD8     remaining_bytes; 
	SYS_UWORD16    fn;
    T_PROFILER_MSG *msg;
	SYS_UWORD8     i;

    // Allocate a buffer first time
    if(( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_RUN ) || 
	   ( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_STARTED ))
	{
	  if((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                     NUC_MONITOR_BUFFER_SIZE, 
			             (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
		            == RVT_OK)
	  {
	    
		ti_nuc_monitor_current_position = 0;

		// Insert the interrupt OP Code (0x00 0x00 0x00) 
		if( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_RUN )
		{
		  for( i=0; i < 3; i++)
		  {
		    ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] = 0x00;			     
		  } // End for
	    } // Endif

        // Reset intermediate buffer pointers
		ti_nuc_monitor_Thread_current_pos  = 0;
		ti_nuc_monitor_LISR_current_pos    = 0;
	  }
	  else
	  {
	    return;
	  } // End if
	  
	  // Write FN OP CODE  : (0x00 | xx)

	  ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =
	    (SYS_UWORD8) ( C_OP_CODE_FN_LOG );

      // Insert the fn%42432 
      fn = l1_get_actual_fn_mod42432();

      // insert LSB
	  ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =
	    (SYS_UWORD8) (fn & 0x00ff);
	 
	  // insert MSB 
	  ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =
	    (SYS_UWORD8) ((fn & 0xff00) >> 8);

      ti_nuc_monitor_state            = NUC_MONITOR_RUNNING;
      	  
	  return; 
	} // End if
	
	// Copy the LISR and Thread buffer into current buffer.

    //   - LISR array

    // Check the number of byte remaining in the current 
    // log buffer vs LISR buffer.

    remaining_bytes =  NUC_MONITOR_BUFFER_SIZE - ti_nuc_monitor_current_position;

	if( remaining_bytes > ti_nuc_monitor_LISR_next_pos )
	{
	  // Copy ti_nuc_monitor_LISR_next_pos bytes to Nucleus log buffer

      memcpy( &ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position ], 
              &ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_next_page ][ 0 ],
              ti_nuc_monitor_LISR_next_pos);

	  ti_nuc_monitor_current_position += ti_nuc_monitor_LISR_next_pos;

	}
	else
	{

	  // Copy remaining_bytes bytes to Nucleus log buffer

      memcpy( &ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position ], 
              &ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_next_page ][ 0 ],
              remaining_bytes);

      ti_nuc_monitor_current_position += remaining_bytes;

      // Send current buffer

      // send a message to the ti profiler task

	  if( rvf_get_buf( prof_mb_id, sizeof( T_PROFILER_MSG ), ( T_RVF_BUFFER** ) &msg ) == RVF_GREEN )
	  {
	    msg->msg_id                     = TI_NUC_MONITOR_OUTPUT_BUFFER;
	    msg->p_buffer                   = ti_nuc_monitor_current_buffer;
	    msg->buffer_size                = ti_nuc_monitor_current_position;

	    ti_nuc_monitor_current_position = 0;

	    if( rvf_send_msg( prof_addr_id, msg ) != RV_OK )
		{
          ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	      return;		  
		} // End if
	  }
	  else
	  {
	    ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	    return; 
	  } // End if

      // Change Nucleus log buffer

	  if((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                     NUC_MONITOR_BUFFER_SIZE, 
			             (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
		            != RVT_OK)
	  {
	    ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	    return;
	  } // End if 

	  // Copy remaining_bytes bytes to Nucleus log buffer
      memcpy( &ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position ], 
              &ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_next_page ][ remaining_bytes ],
              ( ti_nuc_monitor_LISR_next_pos - remaining_bytes ));

	  ti_nuc_monitor_current_position += ( ti_nuc_monitor_LISR_next_pos - remaining_bytes );

	} // End if
         
    //   - Thread Array

    // Check the number of byte remaining in the current 
    // log buffer vs Thread buffer.

    remaining_bytes =  NUC_MONITOR_BUFFER_SIZE - ti_nuc_monitor_current_position;

	if( remaining_bytes > ti_nuc_monitor_Thread_next_pos )
	{
	  // Copy ti_nuc_monitor_Thread_next_pos bytes to Nucleus log buffer

      memcpy( &ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position ], 
              &ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_next_page ][ 0 ],
              ti_nuc_monitor_Thread_next_pos);

	  ti_nuc_monitor_current_position += ti_nuc_monitor_Thread_next_pos;

	}
	else
	{

	  // Copy remaining_bytes bytes to Nucleus log buffer

      memcpy( &ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position ], 
              &ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_next_page ][ 0 ],
              remaining_bytes);

      ti_nuc_monitor_current_position += remaining_bytes;

      // Send current buffer

      // send a message to the ti profiler task

	  if( rvf_get_buf( prof_mb_id, sizeof( T_PROFILER_MSG ), ( T_RVF_BUFFER** ) &msg ) == RVF_GREEN )
	  {
	    msg->msg_id                     = TI_NUC_MONITOR_OUTPUT_BUFFER;
	    msg->p_buffer                   = ti_nuc_monitor_current_buffer;
	    msg->buffer_size                = ti_nuc_monitor_current_position;

	    ti_nuc_monitor_current_position = 0;

	    if( rvf_send_msg( prof_addr_id, msg ) != RV_OK )
		{
          ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	      return;		  
		} // End if
	  }
	  else
	  {
	    ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	    return; 
	  } // End if

      // Change Nucleus log buffer

	  if((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                     NUC_MONITOR_BUFFER_SIZE, 
			             (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
		            != RVT_OK)
	  {
	    ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	    return;
	  } // End if 

	  // Copy remaining_bytes bytes to Nucleus log buffer
      memcpy( &ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position ], 
              &ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_next_page ][ remaining_bytes ],
              ( ti_nuc_monitor_Thread_next_pos - remaining_bytes ));

	  ti_nuc_monitor_current_position += ( ti_nuc_monitor_Thread_next_pos - remaining_bytes );

	} // End if
    
	// Exit if monitoring must be stopped

    if( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_STOP )
	{
	  ti_nuc_monitor_state = NUC_MONITOR_STOPPED;
	  return;
	} // End if

    // Insert actual Frame number 

    // Check if enough space in current buffer
	if( ti_nuc_monitor_current_position >= (NUC_MONITOR_BUFFER_SIZE - 3) )
	{
      // send a message to the ti profiler task

	  if( rvf_get_buf( prof_mb_id, sizeof( T_PROFILER_MSG ), ( T_RVF_BUFFER** ) &msg ) == RVF_GREEN )
	  {
	    msg->msg_id                     = TI_NUC_MONITOR_OUTPUT_BUFFER;
	    msg->p_buffer                   = ti_nuc_monitor_current_buffer;
	    msg->buffer_size                = ti_nuc_monitor_current_position;

	    ti_nuc_monitor_current_position = 0;

	    if( rvf_send_msg( prof_addr_id, msg ) != RV_OK )
		{
          ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	      return;		  
		} // End if
	  }
	  else
	  {
	    ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	    return; 
	  } // End if

      // Change Nucleus log buffer

	  if((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                     NUC_MONITOR_BUFFER_SIZE, 
			             (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
		            != RVT_OK)
	  {
	    ti_nuc_monitor_state = NUC_MONITOR_TO_BE_RUN;
	    return;
	  } // End if 
	} // End if

	// Write FN OP CODE  : (0x00 | xx)

	ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =
	  (SYS_UWORD8) ( C_OP_CODE_FN_LOG );

    // Insert the fn%42432 
    fn = l1_get_actual_fn_mod42432();

    // insert LSB
	ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =
	  (SYS_UWORD8) (fn & 0x00ff);
	 
	// insert MSB 
	ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =
	  (SYS_UWORD8) ((fn & 0xff00) >> 8);

  } // ti_nuc_monitor_hisr

  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_check_ID_buffer()                      */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  During the Thread/Queue ID -> names buffer           */
  /*  transmission, change current buffer.                 */
  /*  Send the full buffer and allocate a new one.         */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_check_ID_buffer( void )
  {
    // Reset pointer
	ti_nuc_monitor_current_position = 0; 

	// Send a message to the Riviera Tracer to Output the current buffer.
    if( rvt_send_trace_no_cpy( ( T_RVT_BUFFER ) ti_nuc_monitor_current_buffer, 
                               prof_trace_id,
                               NUC_MONITOR_BUFFER_SIZE,   // Length in bytes  
                               RVT_BINARY_FORMAT ) != RVT_OK )
    {
	  // code to insert a breakpoint if failed. 
      ti_nuc_monitor_state = NUC_MONITOR_STOPPED; 		     
    } // End if


    // Allocate one buffer.
     do
     {
	   ti_nuc_monitor_state = NUC_MONITOR_STOPPED;
			  
	   if ((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                       NUC_MONITOR_BUFFER_SIZE, 
		   	             (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
		     	!= RVT_OK)
  	   {
	     ti_nuc_monitor_state = NUC_MONITOR_WAITING;			  
	   } // End if
      } while (ti_nuc_monitor_state == NUC_MONITOR_WAITING);
         	
  } // ti_nuc_monitor_check_ID_buffer

  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_tdma_action()                          */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  this function activate the HISR monitor              */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_tdma_action( void )
  {

    if(( ti_nuc_monitor_state == NUC_MONITOR_RUNNING )   ||
	   ( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_RUN ) ||
	   ( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_STOP ) ||
	   ( ti_nuc_monitor_state == NUC_MONITOR_TO_BE_STARTED ))
	{

      // Activate the hisr in order to start the buffer	fill
	  NU_Activate_HISR( &ti_nuc_monitor_cb );
       	  
	} // End if

  } // ti_nuc_monitor_tdma_action

  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_LISR_log()                             */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  This function permits to include the LISR IRQ and    */
  /*   timer value in the LISR log buffer                  */
  /* Warning : To save cpu, no overflow check is done	   */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_LISR_log( void )
  {
  	SYS_UWORD16 timer_value;

    if( ti_nuc_monitor_state == NUC_MONITOR_RUNNING )
	{ 

      // Exit Idle mode if reached

	  ti_nuc_monitor_idle_reached  = 0;

	  IRQ_value = (SYS_UWORD8) ((* (volatile SYS_UWORD16 *) INTH_B_IRQ_REG) & 0x001f);

	  // Write LISR OP CODE and IRQ : (0xC0 | IRQ)

	  ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_current_page ]
	                            [ ti_nuc_monitor_LISR_current_pos ] =
	    (SYS_UWORD8) (C_OP_CODE_LISR_FLAG | IRQ_value);
	  
	  // Write the timer value

	  timer_value = TM_ReadTimer(2); // (* (SYS_UWORD16 *) TIMER2_READ_TIM)

	  // insert LSB
	   
	  ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_current_page ]
	                            [ ti_nuc_monitor_LISR_current_pos + 1 ] =
	    (SYS_UWORD8) (timer_value & 0x00ff);
	  
	  // insert MSB

	  ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_current_page ]
	                            [ ti_nuc_monitor_LISR_current_pos + 2 ] =
	    (SYS_UWORD8) ((timer_value & 0xff00) >> 8);

      ti_nuc_monitor_LISR_current_pos += 3;

	} // End if

  } // ti_nuc_monitor_LISR_log

  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_LISR_log_end()                         */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  This function permits to include the LISR end        */
  /*   timer value in the LISR log buffer                  */
  /* Warning : To save cpu, no overflow check is done	   */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_LISR_log_end( void )
  {
	SYS_UWORD16 timer_value;

    if( ti_nuc_monitor_state == NUC_MONITOR_RUNNING )
	{ 	  
	  // Write the timer value

	  timer_value = TM_ReadTimer(2);

	  // insert LSB
	   
	  ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_current_page ]
	                            [ ti_nuc_monitor_LISR_current_pos ] =
	    (SYS_UWORD8) (timer_value & 0x00ff);
	  
	  // insert MSB

	  ti_nuc_monitor_LISR_Buffer[ ti_nuc_monitor_LISR_current_page ]
	                            [ ti_nuc_monitor_LISR_current_pos + 1 ] =
	    (SYS_UWORD8) ((timer_value & 0xff00) >> 8);

      ti_nuc_monitor_LISR_current_pos += 2;

      // Switch LISR & thread buffer page if IRQ4 (TDMA)
	  if( IRQ_value == 4 )
	  {
        // copy current to next 
        ti_nuc_monitor_LISR_next_pos    = ti_nuc_monitor_LISR_current_pos;
	    ti_nuc_monitor_LISR_next_page   = ti_nuc_monitor_LISR_current_page;

        // instead of changing the Thread page here, set a boolean
		ti_nuc_monitor_change_thread_page = 1;

        //ti_nuc_monitor_Thread_next_pos  = ti_nuc_monitor_Thread_current_pos;
	    //ti_nuc_monitor_Thread_next_page = ti_nuc_monitor_Thread_current_page;

        // Reset current pointer
        ti_nuc_monitor_LISR_current_pos   = 0;
        //ti_nuc_monitor_Thread_current_pos = 0;
      
        // Change page
        if( ti_nuc_monitor_LISR_current_page == 0 )
        {
	       ti_nuc_monitor_LISR_current_page   = 1;
	    //   ti_nuc_monitor_Thread_current_page = 1;
	    }
        else
        {
	       ti_nuc_monitor_LISR_current_page   = 0;
		//   ti_nuc_monitor_Thread_current_page = 0;
        } // End if

		// reset IRQ_value
		IRQ_value = 0;

        // reset timer 
        TM_ResetTimer (2, 0xFFFF, 1, 0);
        TM_StartTimer (2);

        // Doesn't work
	    // * (volatile SYS_UWORD16 *) TIMER2_LOAD_TIM = 0xFFFF;
		// * (volatile SYS_UWORD16 *) TIMER2_CNTL     = 0x0003;

	  } // End if  
  	  
	} // End if
    
  } // ti_nuc_monitor_LISR_log_end
   
  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_Thread_log()                           */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  This function permits to include the Thread and      */
  /*   timer value in the log buffer                       */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_Thread_log( void )
  {
	SYS_UWORD16	timer_value;
	SYS_UWORD8  i;

    if( ti_nuc_monitor_state == NUC_MONITOR_RUNNING )
	{ 

      // Exit Idle mode if reached

	  ti_nuc_monitor_idle_reached  = 0;

      // Check if page must be changed 
	  if( ti_nuc_monitor_change_thread_page == 1 )
	  {

	    ti_nuc_monitor_change_thread_page = 0;

        // copy current to next 
        ti_nuc_monitor_Thread_next_pos  = ti_nuc_monitor_Thread_current_pos;
	    ti_nuc_monitor_Thread_next_page = ti_nuc_monitor_Thread_current_page;

        // Reset current pointer
        ti_nuc_monitor_Thread_current_pos = 0;
      
        // Change page
        if( ti_nuc_monitor_Thread_current_page == 0 )
        {
	       ti_nuc_monitor_Thread_current_page = 1;
	    }
        else
        {
		   ti_nuc_monitor_Thread_current_page = 0;
        } // End if
        
	  } // End if

	  // Search the ID considering the Nucleus_Current_thread Pointer

      for( i = 0; i < ti_nuc_monitor_thread_pos ; i++ )
	  {
		if( ti_nuc_monitor_thread_id[ i ] == (SYS_UWORD32) TCD_Current_Thread )
		{
		  // insert the OP Code Thread | ID
	      ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                                  [ ti_nuc_monitor_Thread_current_pos ] =
	                       (SYS_UWORD8) (C_OP_CODE_THREAD_FLAG | i);
          // exit loop
	      break;	      		  
		} // End if
      } // End for
	  
	  // Write the timer value

	  timer_value = TM_ReadTimer(2); // (* (SYS_UWORD16 *) TIMER2_READ_TIM)

	  // insert LSB
	   
	  ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                            [ ti_nuc_monitor_Thread_current_pos + 1 ] =
	    (SYS_UWORD8) (timer_value & 0x00ff);
	  
	  // insert MSB

	  ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                            [ ti_nuc_monitor_Thread_current_pos + 2 ] =
	    (SYS_UWORD8) ((timer_value & 0xff00) >> 8);

      ti_nuc_monitor_Thread_current_pos += 3;

	} // End if

  } // ti_nuc_monitor_Thread_log

  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_Queue_log()                            */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  This function permits to include the Queue ID and    */
  /*   status value in the log buffer                      */
  /*  Direction = 0 => Send message						   */
  /*  Direction = 1 => Receive message					   */
  /*  status    = 0 => OK       						   */
  /*  status    = 1 => Queue full  					       */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_Queue_log( SYS_UWORD32* queue_pointer, SYS_UWORD8 status, SYS_UWORD8 Direction )
  {
	SYS_UWORD8	status_word;
	SYS_UWORD8  i;



    if( ti_nuc_monitor_state == NUC_MONITOR_RUNNING )
	{ 

      // Exit Idle mode if reached

	  ti_nuc_monitor_idle_reached  = 0;

      // Check if page must be changed 
	  if( ti_nuc_monitor_change_thread_page == 1 )
	  {

	    ti_nuc_monitor_change_thread_page = 0;

        // copy current to next 
        ti_nuc_monitor_Thread_next_pos  = ti_nuc_monitor_Thread_current_pos;
	    ti_nuc_monitor_Thread_next_page = ti_nuc_monitor_Thread_current_page;

        // Reset current pointer
        ti_nuc_monitor_Thread_current_pos = 0;
      
        // Change page
        if( ti_nuc_monitor_Thread_current_page == 0 )
        {
	       ti_nuc_monitor_Thread_current_page = 1;
	    }
        else
        {
		   ti_nuc_monitor_Thread_current_page = 0;
        } // End if
        
	  } // End if

	  // Search the ID considering the Nucleus_Current_thread Pointer
      for( i = 0; i < ti_nuc_monitor_queue_pos ; i++ )
	  {
		if( ti_nuc_monitor_queue_id[ i ] == (SYS_UWORD32) queue_pointer)
		{
		  // insert the OP Code Thread | ID
	      ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                                  [ ti_nuc_monitor_Thread_current_pos ] =
	                       (SYS_UWORD8) (C_OP_CODE_QUEUE_FLAG | i);
	      
		  // exit loop
	      break;	      		  
	      		  
		} // End if
      } // End for

	  // Write the status value and Receive/send flag
	  
      status_word =  (Direction << 8) | (status << 7) | i; // Direction | Status | ID

	  ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                            [ ti_nuc_monitor_Thread_current_pos + 1 ] =
	    (SYS_UWORD8) (status_word);
	  
	  ti_nuc_monitor_Thread_current_pos += 2;
	  	  	  
	} // End if

  } // ti_nuc_monitor_Queue_log



  /*-------------------------------------------------------*/
  /* ti_nuc_monitor_sleep()                                */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  This function permits to include the sleep and      */
  /*   timer value in the log buffer                       */
  /*-------------------------------------------------------*/

  void ti_nuc_monitor_sleep( void )
  {

	SYS_UWORD16	timer_value;
	SYS_UWORD8  i;

    if(( ti_nuc_monitor_state        == NUC_MONITOR_RUNNING ) &&
	   ( ti_nuc_monitor_idle_reached == 0 ))
	{ 

      ti_nuc_monitor_idle_reached = 1;

      // insert the OP Code Thread | ID
	  ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                              [ ti_nuc_monitor_Thread_current_pos ] =
	                    (SYS_UWORD8) (0xBF);
	  
	  // Write the timer value

	  timer_value = TM_ReadTimer(2); // (* (SYS_UWORD16 *) TIMER2_READ_TIM)

	  // insert LSB
	   
	  ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                            [ ti_nuc_monitor_Thread_current_pos + 1 ] =
	    (SYS_UWORD8) (timer_value & 0x00ff);
	  
	  // insert MSB

	  ti_nuc_monitor_Thread_Buffer[ ti_nuc_monitor_Thread_current_page ]
	                            [ ti_nuc_monitor_Thread_current_pos + 2 ] =
	    (SYS_UWORD8) ((timer_value & 0xff00) >> 8);

      ti_nuc_monitor_Thread_current_pos += 3;
	} // End if

  } // ti_nuc_monitor_sleep

// -------------- RVT Copied function --------------------------------
//    --- Modified Memory Bank ----

/********************************************************************************/
/*                                                                              */
/*    Function Name:   ti_nuc_monitor_mem_alloc									*/
/*                                                                              */
/*    Purpose:         this function creates a memory bank for the profiler task*/
/*																				*/
/*    Input Parameters:                                                         */
/*        refer to t_rvt_type.h													*/
/*																				*/
/*    Output Parameters:                                                        */
/*        refer to t_rvt_type.h													*/
/*                                                                              */
/*    Global Parameters:                                                        */
/*        None.                                                                 */
/*                                                                              */
/*    Note:                                                                     */
/*        None.                                                                 */
/*                                                                              */
/********************************************************************************/


T_RVT_RET ti_nuc_monitor_mem_alloc(T_RVT_USER_ID user_id, T_RVT_MSG_LG buffer_lenght, T_RVT_BUFFER * buff)
{
	T_RVF_MB_STATUS return_value;	

	return_value = rvf_get_buf (prof_mb_id, (UINT32) buffer_lenght + RVT_HEADER_SIZE, (T_RVF_BUFFER**) buff);

	if (return_value == RVF_RED)
	{
		*buff = NULL;
		return RVT_MEMORY_ERR;
	}
	else
	{
		*buff = *buff + RVT_HEADER_SIZE;
		return RVT_OK;
	}
}  // ti_nuc_monitor_mem_alloc

// -------------------------------------------------------------------

#endif // TI_NUC_MONITOR

#if (TI_PROFILER == 1) || (TI_NUC_MONITOR == 1)

  /*-------------------------------------------------------*/
  /* ti_prf_init()                                         */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description: Initialize profiling hisrs               */
  /* ------------                                          */
  /*  Register the profiling to rvt                        */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_prf_init( void )
  {
    #if (TI_PROFILER == 1)
      ti_profiler_init_profiler_module();
	#endif
    #if (TI_NUC_MONITOR == 1)
      ti_nuc_monitor_init_module();
	#endif
    // Register to Trace task module
	rvt_register_id( "PROF", &prof_trace_id, ti_profiler_trace_rx_callback );

  } // ti_prf_init

  /*-------------------------------------------------------*/
  /* ti_prf_core()                                         */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------                                          */
  /*  this function :                                      */
  /*    - start the profiler on PC side message reception  */
  /*    - stop the profiler on PC side message reception   */
  /*    - cut the profiler buffer less than 256 bytes      */
  /*      messages to rvt                                  */
  /*													   */
  /*-------------------------------------------------------*/

  T_RV_RET ti_prf_core(void)
  {

    SYS_UWORD16      i = 0;

    SYS_UWORD16      event;
	SYS_UWORD16      message_length;
    T_PROFILER_MSG   *msg;

    while( INFINITE_LOOP )
    {	

	  // Suspend the task on empty queue
	  event = rvf_wait( RVF_TASK_MBOX_0_EVT_MASK, 0 );
	  msg   = ( T_PROFILER_MSG* ) rvf_read_mbox( RVF_TASK_MBOX_0 );
      
      // Check the msg ID code 
      switch( msg->msg_id )
	   {

       #if (TI_PROFILER == 1)
	     case TI_PROFILER_OUTPUT_BUFFER : 
	     // Cut the buffer in small element to be sent to 
		 // PC by the RVT.
		 {
		   message_length = TRACE_MESSAGE_SIZE;
		   pos_pr_buffer  = 0;

		   // loop until end of buffer
		   while( pos_pr_buffer < pr_buffer_length )
		   {
              // Update message length for next loop turn
			  if ( pos_pr_buffer <= ( pr_buffer_length - TRACE_MESSAGE_SIZE ) )
			  {
			    message_length = TRACE_MESSAGE_SIZE;
			  }
			  else
			  {
				message_length = pr_buffer_length - pos_pr_buffer;
			  }

              if( rvt_send_trace_cpy( ( T_RVT_BUFFER ) &pr_buffer[ pos_pr_buffer ], 
                                      prof_trace_id,
                                      message_length * 4,   // Length in bytes  
                                      RVT_BINARY_FORMAT ) == RVT_OK )
              {		     
				// Update pr_buffer pointer
                pos_pr_buffer += message_length;  
                 
			  } // End if 

		   } // End while

           // Restart the profiling at vitam aeternam unless stop command received.
		   if( profiler_state == PROFILER_FREEZED )
		   {
		     profiler_state = PROFILER_TO_BE_UNFREEZED;
		   } // End if 

		   break;
		 } // TI_PROFILER_OUTPUT_BUFFER

		 case TI_PROFILER_START_PROFILING :
		 { 
		   #if (L1_TRACER == 1)
		     SendTraces("TI_PROF: msg TI_PROFILER_START\n\r");
		   #endif

 		   ti_profiler_event_state     = (T_PROFILER_EVENTS) (msg->event_number);
 
 		   if( ti_profiler_event_state == NO_SLEEP_EVENT )
 		   {
 			 ti_profiler_nb_sleep_counter_ref = msg->arg1;	// nb_tdma 
 		   } // End if

           // Source of Activation
 		   ti_profiler_active = ACTIVE_BY_HOST;

           // change state of profiler
           profiler_state = PROFILER_TO_BE_RAN; 

		   break;
		 } // TI_PROFILER_START_PROFILING

		 case TI_PROFILER_END_PROFILING :
		 {
		   #if (L1_TRACER == 1)
		     SendTraces("TI_PROF: msg TI_PROFILER_STOP\n\r");
		   #endif

           profiler_state = PROFILER_TO_BE_STOPPED; 
		   break;
		 } // TI_PROFILER_END_PROFILING

	   #endif

       #if (TI_NUC_MONITOR == 1)

		 case TI_NUC_MONITOR_START :
		 {
		   SYS_UWORD8   i = 0;
		   SYS_UWORD8   j = 0;
		   #if (L1_TRACER == 1)
		     SendTraces("TI_PROF: msg TI_NUC_MONITOR_START\n\r");
		   #endif

		   if( ti_nuc_monitor_state == NUC_MONITOR_STOPPED )
		   {

             // Output the task and queues create info.
			 // buffer format is following : 
			 //   C_OP_CODE_NUC_MON_THREAD_IDS | (1 byte)
			 //   < Thread ID0 > 			   | (1 byte)
             //   < Thread name >              | (8 bytes)
             //   < Thread ID1 >			   | (1 byte)
			 //   < Thread name >              | (8 bytes)
			 //    ..............
			 //   C_OP_CODE_NUC_MON_THREAD_IDS | (1 byte)
			 //   < Queue ID0 > 			   | (1 byte)
             //   < Queue name >               | (8 bytes)
             //   < Queue ID1 >			       | (1 byte)
			 //   < Queue name >               | (8 bytes)
			 //    ..............
			 //   C_OP_CODE_NUC_MON_THREAD_IDS | (1 byte)
			       
			 // Allocate one buffer.

	         while ((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                                 NUC_MONITOR_BUFFER_SIZE, 
			                         (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
			          != RVT_OK);


             // Output the ID (thread and Queue array)

			 ti_nuc_monitor_current_buffer[ti_nuc_monitor_current_position++] = C_OP_CODE_NUC_MON_THREAD_IDS;

             // Output the Thread IDs and corresponding Thread name.

             for( i = 0 ; i < ti_nuc_monitor_thread_pos ; i++ )
			 {
			   // distinghuish Task and HISR
			   if( (( TC_TCB * ) ( ti_nuc_monitor_thread_id[ i ]))->tc_id == TC_HISR_ID)
			   {
			     ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] = (0x80 | i); // ID
			   }
			   else
			   {
			     ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] = i;  // ID
			   } // End if

			   if( ti_nuc_monitor_current_position >= NUC_MONITOR_BUFFER_SIZE )
			   {
			     ti_nuc_monitor_check_ID_buffer();
			   } // End if

               // Write task priority
			   ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] =  
				   (SYS_UWORD8) ((( TC_TCB * ) ( ti_nuc_monitor_thread_id[ i ]))->tc_priority);

			   if( ti_nuc_monitor_current_position >= NUC_MONITOR_BUFFER_SIZE )
			   {
			     ti_nuc_monitor_check_ID_buffer();
			   } // End if
  
               // Write name in the Log buffer.
			   for( j = 0 ; j < NU_MAX_NAME ; j++ )
			   {
			     ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] = 
			       (SYS_UWORD8) ((( TC_TCB * ) ( ti_nuc_monitor_thread_id[ i ]))->tc_name[ j ]);	// Thread_name
			     if( ti_nuc_monitor_current_position >= NUC_MONITOR_BUFFER_SIZE )
			     {
			       ti_nuc_monitor_check_ID_buffer();
			     } // End if
			   } // End for

			 } // End for 

             // Output the ID (thread and Queue array)
			 if( ti_nuc_monitor_queue_pos != 0 )
			 {
			   ti_nuc_monitor_current_buffer[ti_nuc_monitor_current_position++] = C_OP_CODE_NUC_MON_THREAD_IDS;

               // Output the Queue IDs and corresponding Queue name.

		       if( ti_nuc_monitor_current_position >= NUC_MONITOR_BUFFER_SIZE )
			   {
			     ti_nuc_monitor_check_ID_buffer();
			   } // End if

               for( i = 0 ; i < ti_nuc_monitor_queue_pos ; i++ )
			   {
			     ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] = i;  // ID

			     if( ti_nuc_monitor_current_position >= NUC_MONITOR_BUFFER_SIZE )
			     {
			       ti_nuc_monitor_check_ID_buffer();
			     } // End if

			     // Write name in the Log buffer.	   
			     for( j = 0 ; j < NU_MAX_NAME ; j++ )
			     {
			       ti_nuc_monitor_current_buffer[ ti_nuc_monitor_current_position++ ] = 
			         (SYS_UWORD8) ((( QU_QCB * ) ( ti_nuc_monitor_queue_id[ i ] ))->qu_name[ j ]);	// Thread_name
			       if( ti_nuc_monitor_current_position >= NUC_MONITOR_BUFFER_SIZE )
			       {
			         ti_nuc_monitor_check_ID_buffer();
			       } // End if
			     } // End for

			   } // End for 
			 } // End if

			 // Insert end op code (same as begin op code)

			 ti_nuc_monitor_current_buffer[ti_nuc_monitor_current_position++] = C_OP_CODE_NUC_MON_THREAD_IDS;
              
			 // flush the last buffer.

		     // Send a message to the Riviera Tracer to Output the current buffer.
             if( rvt_send_trace_no_cpy( ( T_RVT_BUFFER ) ti_nuc_monitor_current_buffer, 
                                        prof_trace_id,
                                        ti_nuc_monitor_current_position,   // Length in bytes  
                                        RVT_BINARY_FORMAT ) != RVT_OK )
             {
			   // Code to insert break point.
               ti_nuc_monitor_state = NUC_MONITOR_STOPPED;		     
             } // End if

             // Configuration buffer has been logged out.

	         /*
	          ** Allocate a buffer for Nucleus profiling
	          */

	         while ((ti_nuc_monitor_mem_alloc (prof_trace_id, 
	                                 NUC_MONITOR_BUFFER_SIZE, 
			                        (T_RVT_BUFFER*) &ti_nuc_monitor_current_buffer)) 
			        != RVT_OK);

             // reset the current pointer.
		     ti_nuc_monitor_current_position = 0;

			 // Set the new Monitoring state.
             ti_nuc_monitor_state            = NUC_MONITOR_TO_BE_STARTED;
		   } // End if

		  break;

		 } // TI_NUC_MONITOR_START

		 case TI_NUC_MONITOR_OUTPUT_BUFFER :
		 {
		   // The buffer is output only if it is full.

		   // Send a message to the Riviera Tracer to Output the current buffer.
           if( rvt_send_trace_no_cpy( ( T_RVT_BUFFER ) msg->p_buffer, 
                                      prof_trace_id,
                                      msg->buffer_size,   // Length in bytes  
                                      RVT_BINARY_FORMAT ) != RVT_OK )
           {
             // increment lost messages variable
			 ti_nuc_monitor_lost_messages++; 	     
           } // End if

		   break;

		 } // TI_NUC_MONITOR_OUTPUT_BUFFER

		 case TI_NUC_MONITOR_STOP :
		 {
		   #if (L1_TRACER == 1)
		     SendTraces("TI_PROF: msg TI_NUC_MONITOR_STOP\n\r");
		   #endif

		   ti_nuc_monitor_state = NUC_MONITOR_TO_BE_STOP; 

		   break;

		 } // TI_NUC_MONITOR_STOP

       #endif

         default :
		 {
		   #if (L1_TRACER == 1)		   
		     SendTraces("TI_PROF: msg default\n\r");
		   #endif

		   break;
		 } // default

	   } // End switch

      
      // Free the msg alloc 
	  rvf_free_buf( msg );

	} // End while ( INFINITE_LOOP )

  } // ti_profiler_task


  /*-------------------------------------------------------*/
  /* ti_profiler_trace_rx_callback()                       */
  /*-------------------------------------------------------*/
  /*                                                       */
  /* Description:                                          */
  /* ------------ 										   */
  /* callback function called when the trace               */
  /* module receives a msg for the profiler                */
  /*  or the nucleus monitor.                              */
  /*                                                       */
  /*-------------------------------------------------------*/

  void ti_profiler_trace_rx_callback(T_RVT_BUFFER trace_msg, UINT16 trace_msg_size)
  {	 
    T_PROFILER_MSG * msg;

    // send a message to the ti profiler received from Rvt
	if( rvf_get_buf( prof_mb_id, sizeof( T_PROFILER_MSG ), ( T_RVF_BUFFER** ) &msg ) == RVF_GREEN )
	{
	/*
	  if( trace_msg[0] == 1 )
	    msg->msg_id = TI_PROFILER_START_PROFILING;
	  else if ( trace_msg[0] == 0 )
	    msg->msg_id = TI_PROFILER_END_PROFILING;
	  else if ( trace_msg[0] == 2 )
	    msg->msg_id = TI_NUC_MONITOR_START;
	  else if ( trace_msg[0] == 3 )
	    msg->msg_id = TI_NUC_MONITOR_STOP;
	 */
 	  msg->msg_id        = ((T_PROFILER_MSG_UART*) trace_msg)->msg_id;
 	  msg->event_number  = ((T_PROFILER_MSG_UART*) trace_msg)->event_number;
 	  msg->arg1          = ((T_PROFILER_MSG_UART*) trace_msg)->arg1;

	  rvf_send_msg( prof_addr_id, msg );
	}

  } // ti_profiler_trace_rx_callback

#endif // NUC_MONITOR || PROFILER