FreeCalypso > hg > fc-magnetite

view src/cs/services/cst/cst_stack.c @ 639:026c98f757a6

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
tpudrv12.h & targets/gtm900.h: our current support is for MGC2GSMT version only As it turns out, there exist two different Huawei-made hw platforms both bearing the marketing name GTM900-B: one is MG01GSMT, the other is MGC2GSMT. The two are NOT fw-compatible: aside from flash chip differences which should be handled by autodetection, the two hw platforms are already known to have different RFFEs with different control signals, and there may be other differences not yet known. Our current gtm900 build target is for MGC2GSMT only; we do not yet have a specimen of MG01GSMT on hand, hence no support for that version will be possible until and unless someone provides one.
author Mychaela Falconia <falcon@freecalypso.org>
date Thu, 30 Jan 2020 18:19:01 +0000
parents 945cf7f506b2
children
line wrap: on
line source

/*******************************************************************************
 *
 * CST_STACK.C
 *
 * Tasks and HISRs stacks monitoring.
 *
 * (C) Texas Instruments 2000
 *
 ******************************************************************************/

#include <stdio.h>
#include <string.h>

#include "nucleus.h"
#include "cs_defs.h"
#include "tc_defs.h"

// The following stack sizes are defined in int.s
#define IRQ_STACK_SIZE  128                // Number of bytes in IRQ stack
#define FIQ_STACK_SIZE  512                // Number of bytes in FIQ stack.
#define SYSTEM_SIZE     1024               // Define the system stack size

int vsi_o_trace (char * caller, unsigned long tclass, char * text);
int vsi_t_sleep (char * caller,	unsigned long tvalue);

void CST_stack_trace()
{
  int jndex, count, char_count;
  TC_TCB *head, *ptr;
  extern CS_NODE *TCD_Created_Tasks_List;
  extern CS_NODE *TCD_Created_HISRs_List;
  unsigned untouched;
  char *top_stack, *top, *bottom;
  extern char *TCT_System_Limit;
  char result[80];
  char name[9];

  vsi_o_trace("CST", 0x08, "Stack Info ...");
  vsi_o_trace("CST", 0x08, "    Name  top       bottom    current   untouched");
  vsi_o_trace("CST", 0x08, "-------------------------------------------------");

  for (jndex=0; jndex<2; jndex++)
  {
     // make use of TCB and HCB having same structure from beginning to past stack info
     if (jndex == 0)
         ptr = head = (TC_TCB *)TCD_Created_Tasks_List;
     else {
         ptr = head = (TC_TCB *)TCD_Created_HISRs_List;
         vsi_o_trace("CST", 0x08, "-------------------------------------------------");
     }

     count = 0;
     do
     {
       untouched = 0;
       top_stack = (char *)ptr->tc_stack_start;
       while (*top_stack == 0xFE && top_stack <= (char *)ptr->tc_stack_end)
       {
         untouched++;
         top_stack++;
       }

       // Avoid to get a spurious character when tasks names are 8 characters long
       memcpy (name, ptr->tc_name, 8);
       name[8] = 0;

       sprintf(result, "%8s: %08x  %08x  %08x  0x%x", 
                              name, 
                              ptr->tc_stack_start,
                              ptr->tc_stack_end,
                              ptr->tc_stack_pointer,
                              untouched);
       vsi_o_trace("CST", 0x08, result);
       vsi_t_sleep("",30);

       ptr = (TC_TCB*) ptr->tc_created.cs_next;
    } while (ptr != head && count++ < 50);  //count is protection from infinite loops
  } // end of  for (jndex=0; jndex<2; jndex++)

  // stack allocation algorithm from the int.s function INT_Initialize()
  //
  //   \          \
  //   \----------\
  //   \          \
  //   \          \
  //   \          \
  //   \ SYSSTACK \
  //   \          \
  //   \          \
  //   \          \
  //   \----------\
  //   \          \
  //   \ IRQSTACK \
  //   \          \
  //   \----------\
  //   \          \
  //   \          \
  //   \ FIQSTACK \
  //   \          \
  //   \          \
  //   \----------\
  //   \          \

  untouched = 0;
  top_stack = top = (char *)TCT_System_Limit;
  bottom = (char *) ((unsigned)TCT_System_Limit + SYSTEM_SIZE);
  while (*top_stack == 0xFE && top_stack <= bottom)
  {
     untouched++;
     top_stack++;
  }

  // "CST" being the current active task with its related CST_Stack,
  // the System Stack is unused (current sp_svc = System Stack Bottom)
  sprintf(result, "SYSSTACK: %08x  %08x  %08x  0x%x", 
                          top,
                          bottom,
						  bottom, // current sp_svc = System Stack Bottom
                          untouched);
  vsi_o_trace("CST", 0x08, "-------------------------------------------------");
  vsi_o_trace("CST", 0x08, result);
  vsi_t_sleep("",30);

  untouched = 0;
  top_stack = top = bottom + 4;
  bottom = (char *) ((unsigned)bottom + IRQ_STACK_SIZE);
  while (*top_stack == 0xFE && top_stack <= bottom)
  {
    untouched++;
    top_stack++;
  }

  // Since the processor is in supervisor mode (no IRQ & no FIQ),
  // current sp_irq = IRQ Stack bottom
  sprintf(result, "IRQSTACK: %08x  %08x  %08x  0x%x", 
                          top,
                          bottom,
						  bottom, // current sp_irq = IRQ Stack bottom
                          untouched);
  vsi_o_trace("CST", 0x08, result);
  vsi_t_sleep("",30);

  untouched = 0;
  top_stack = top = bottom + 4;
  bottom = (char *) ((unsigned)bottom + FIQ_STACK_SIZE);
  while (*top_stack == 0xFE && top_stack <= bottom)
  {
    untouched++;
    top_stack++;
  }

  // Since the processor is in supervisor mode (no IRQ & no FIQ),
  // current sp_fiq = FIQ Stack bottom
  sprintf(result, "FIQSTACK: %08x  %08x  %08x  0x%x", 
                          top,
                          bottom,
						  bottom, // current sp_fiq = FIQ Stack bottom
                          untouched);
  vsi_o_trace("CST", 0x08, result);
  vsi_o_trace("CST", 0x08, "-------------------------------------------------");
  vsi_t_sleep("",30);
}