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view src/cs/riviera/support/exception.c @ 221:5bf097aeaad7

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LLS: when turning off all LEDs on boot, skip LED-C Having LLS turn off LED-A and LED-B on boot is normally unnecessary (they should already be off in Iota), but it is harmless, hence this logic is kept for robustness. However, having LLS read-modify-write the BCICTL2 register (to turn off LED-C) creates a potential race condition with FCHG writes to this register, especially in the case when baseband switch-on is caused by VCHG and charging is expected to start right away. Furthermore, control of the charging LED itself (on those hw targets that have it) is the responsibility of the FCHG SWE, hence LLS should leave it alone.
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 26 Apr 2021 21:55:13 +0000
parents 4e78acac3d88
children
line wrap: on
line source

/*
 ******************************
 * 
 *
 * Initialial version: Laurent Deniau, Laurent.Deniau@cern.ch
 *
 * For more information, please see the paper:
 * http://cern.ch/Laurent.Deniau/html/oopc/exception.html
 * 
 * -----------------------------------------------------------
 *
 * Strong rework and adaption to riviera by Christophe Favergeon
 *
 ******************************
 */

// Authorization to use this source code communicated to Christophe Favergeon
// by email

#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include "support/exception.h"

#ifndef _WINDOWS
  #include "config/swconfig.cfg"
#endif


/* global stack of exception context */
struct _exceptionContext_ *const _returnExceptionContext_[MAX_RVF_TASKS]=
#if (!GSMLITE)
  {NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,
  NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL};
#else
  {NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL};
#endif

struct _exceptionContext_ *_currentExceptionContext_ [MAX_RVF_TASKS]= 
#if (!GSMLITE)
  {NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,
  NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL};
#else
  {NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL};
#endif

/* delete protected pointers and throw exception */
void
_exceptionThrow_(int exception)
{
  struct _protectedPtr_ *p;
  struct _protectedPtr_ *oldp;

  /* no exception context saved, exit program */
  if (!_currentExceptionContext_[rvf_get_taskid()]) exit(exception); 

  /* free pointers stored on the current exception context pointers stack */
  p=_currentExceptionContext_[rvf_get_taskid()]->stack;

  while(p)
  {
	  oldp=p->previous;
	  p->func(p->ptr);
	  rvf_free_buf(p);
	  p=oldp;
  }

  _currentExceptionContext_[rvf_get_taskid()]->stack=NULL;

  /* jump to previous exception context */
  rvf_restore_context_buffer_(_currentExceptionContext_[rvf_get_taskid()]->context, exception); 
} 


// Protect a pointer when there is a try/ctahc block active
void rvf_protect_pointer(T_RVF_MB_ID mb_id,void *p,T_RVF_RELEASE_PROTECTED_POINTER func)
{

	struct _protectedPtr_ *ptr;
	struct _exceptionContext_ *context;
	T_RVF_MB_STATUS err;



	if (_currentExceptionContext_[rvf_get_taskid()])
	{

	if (p==NULL)
		throw(E_not_enough_memory);

	context=_currentExceptionContext_[rvf_get_taskid()];
	err=rvf_get_buf(mb_id,sizeof(struct _protectedPtr_),(void*)&ptr);
	

	if (err==RVF_GREEN)
	{
		ptr->next=NULL;
	    ptr->previous=NULL;
	    ptr->ptr=p;
	    ptr->func=func;

         if (context->stack==NULL)
		 {
			  context->stack=ptr;
		 }
		 else
		 {
			  ptr->previous=context->stack;
			  context->stack->next=ptr;
			  context->stack=ptr;
		 }
	 }
	 else
	 {
		 if (p!=NULL)
		   rvf_free_buf(p);
		 throw(E_not_enough_memory);
	 }
	}
}

void rvf_forget_protected_ptr()
{
   struct _protectedPtr_ *p;
   struct _protectedPtr_ *oldp;

   p=_currentExceptionContext_[rvf_get_taskid()]->stack;

   while(p)
   {
	   oldp=p->previous;
	   rvf_free_buf(p);
	   p=oldp;
   }

   _currentExceptionContext_[rvf_get_taskid()]->stack=NULL;
}