/*
* DEBUGGER code
*
* On "publish", when buffer is free, debugger stores arbitrary variables
* content into, and mark this buffer as filled
*
*
* Buffer content is read asynchronously, (from non real time part),
* and then buffer marked free again.
*
*
* */
#include "iec_types_all.h"
#include "POUS.h"
/*for memcpy*/
#include <string.h>
#include <stdio.h>
#define BUFFER_SIZE %(buffer_size)d
/* Atomically accessed variable for buffer state */
#define BUFFER_FREE 0
#define BUFFER_BUSY 1
static long buffer_state = BUFFER_FREE;
/* The buffer itself */
char debug_buffer[BUFFER_SIZE];
/* Buffer's cursor*/
static char* buffer_cursor = debug_buffer;
static unsigned int retain_offset = 0;
/***
* Declare programs
**/
%(programs_declarations)s
/***
* Declare global variables from resources and conf
**/
%(extern_variables_declarations)s
typedef const struct {
void *ptr;
__IEC_types_enum type;
} dbgvardsc_t;
static dbgvardsc_t dbgvardsc[] = {
%(variable_decl_array)s
};
typedef void(*__for_each_variable_do_fp)(dbgvardsc_t*);
void __for_each_variable_do(__for_each_variable_do_fp fp)
{
int i;
for(i = 0; i < sizeof(dbgvardsc)/sizeof(dbgvardsc_t); i++){
dbgvardsc_t *dsc = &dbgvardsc[i];
if(dsc->type != UNKNOWN_ENUM)
(*fp)(dsc);
}
}
#define __Unpack_case_t(TYPENAME) \
case TYPENAME##_ENUM :\
*flags = ((__IEC_##TYPENAME##_t *)varp)->flags;\
forced_value_p = *real_value_p = &((__IEC_##TYPENAME##_t *)varp)->value;\
break;
#define __Unpack_case_p(TYPENAME)\
case TYPENAME##_O_ENUM :\
*flags = __IEC_OUTPUT_FLAG;\
case TYPENAME##_P_ENUM :\
*flags |= ((__IEC_##TYPENAME##_p *)varp)->flags;\
*real_value_p = ((__IEC_##TYPENAME##_p *)varp)->value;\
forced_value_p = &((__IEC_##TYPENAME##_p *)varp)->fvalue;\
break;
void* UnpackVar(dbgvardsc_t *dsc, void **real_value_p, char *flags)
{
void *varp = dsc->ptr;
void *forced_value_p = NULL;
*flags = 0;
/* find data to copy*/
switch(dsc->type){
__ANY(__Unpack_case_t)
__ANY(__Unpack_case_p)
default:
break;
}
if (*flags & __IEC_FORCE_FLAG)
return forced_value_p;
return *real_value_p;
}
void Remind(unsigned int offset, unsigned int count, void * p);
void RemindIterator(dbgvardsc_t *dsc)
{
void *real_value_p = NULL;
char flags = 0;
UnpackVar(dsc, &real_value_p, &flags);
if(flags & __IEC_RETAIN_FLAG){
USINT size = __get_type_enum_size(dsc->type);
/* compute next cursor positon*/
unsigned int next_retain_offset = retain_offset + size;
/* if buffer not full */
Remind(retain_offset, size, real_value_p);
/* increment cursor according size*/
retain_offset = next_retain_offset;
}
}
extern int CheckRetainBuffer(void);
extern void InitRetain(void);
void __init_debug(void)
{
/* init local static vars */
buffer_cursor = debug_buffer;
retain_offset = 0;
buffer_state = BUFFER_FREE;
InitRetain();
/* Iterate over all variables to fill debug buffer */
if(CheckRetainBuffer()){
__for_each_variable_do(RemindIterator);
}else{
char mstr[] = "RETAIN memory invalid - defaults used";
LogMessage(LOG_WARNING, mstr, sizeof(mstr));
}
retain_offset = 0;
}
extern void InitiateDebugTransfer(void);
extern void CleanupRetain(void);
extern unsigned long __tick;
void __cleanup_debug(void)
{
buffer_cursor = debug_buffer;
InitiateDebugTransfer();
CleanupRetain();
}
void __retrieve_debug(void)
{
}
void Retain(unsigned int offset, unsigned int count, void * p);
static inline void BufferIterator(dbgvardsc_t *dsc, int do_debug)
{
void *real_value_p = NULL;
void *visible_value_p = NULL;
char flags = 0;
visible_value_p = UnpackVar(dsc, &real_value_p, &flags);
if(flags & ( __IEC_DEBUG_FLAG | __IEC_RETAIN_FLAG)){
USINT size = __get_type_enum_size(dsc->type);
if(flags & __IEC_DEBUG_FLAG){
/* copy visible variable to buffer */;
if(do_debug){
/* compute next cursor positon.
No need to check overflow, as BUFFER_SIZE
is computed large enough */
if(dsc->type == STRING_ENUM){
/* optimization for strings */
size = ((STRING*)visible_value_p)->len + 1;
}
char* next_cursor = buffer_cursor + size;
/* copy data to the buffer */
memcpy(buffer_cursor, visible_value_p, size);
/* increment cursor according size*/
buffer_cursor = next_cursor;
}
/* re-force real value of outputs (M and Q)*/
if((flags & __IEC_FORCE_FLAG) && (flags & __IEC_OUTPUT_FLAG)){
memcpy(real_value_p, visible_value_p, size);
}
}
if(flags & __IEC_RETAIN_FLAG){
/* compute next cursor positon*/
unsigned int next_retain_offset = retain_offset + size;
/* if buffer not full */
Retain(retain_offset, size, real_value_p);
/* increment cursor according size*/
retain_offset = next_retain_offset;
}
}
}
void DebugIterator(dbgvardsc_t *dsc){
BufferIterator(dsc, 1);
}
void RetainIterator(dbgvardsc_t *dsc){
BufferIterator(dsc, 0);
}
extern void PLC_GetTime(IEC_TIME*);
extern int TryEnterDebugSection(void);
extern long AtomicCompareExchange(long*, long, long);
extern long long AtomicCompareExchange64(long long* , long long , long long);
extern void LeaveDebugSection(void);
extern void ValidateRetainBuffer(void);
extern void InValidateRetainBuffer(void);
void __publish_debug(void)
{
retain_offset = 0;
InValidateRetainBuffer();
/* Check there is no running debugger re-configuration */
if(TryEnterDebugSection()){
/* Lock buffer */
long latest_state = AtomicCompareExchange(
&buffer_state,
BUFFER_FREE,
BUFFER_BUSY);
/* If buffer was free */
if(latest_state == BUFFER_FREE)
{
/* Reset buffer cursor */
buffer_cursor = debug_buffer;
/* Iterate over all variables to fill debug buffer */
__for_each_variable_do(DebugIterator);
/* Leave debug section,
* Trigger asynchronous transmission
* (returns immediately) */
InitiateDebugTransfer(); /* size */
}else{
/* when not debugging, do only retain */
__for_each_variable_do(RetainIterator);
}
LeaveDebugSection();
}else{
/* when not debugging, do only retain */
__for_each_variable_do(RetainIterator);
}
ValidateRetainBuffer();
}
#define __RegisterDebugVariable_case_t(TYPENAME) \
case TYPENAME##_ENUM :\
((__IEC_##TYPENAME##_t *)varp)->flags |= flags;\
if(force)\
((__IEC_##TYPENAME##_t *)varp)->value = *((TYPENAME *)force);\
break;
#define __RegisterDebugVariable_case_p(TYPENAME)\
case TYPENAME##_P_ENUM :\
((__IEC_##TYPENAME##_p *)varp)->flags |= flags;\
if(force)\
((__IEC_##TYPENAME##_p *)varp)->fvalue = *((TYPENAME *)force);\
break;\
case TYPENAME##_O_ENUM :\
((__IEC_##TYPENAME##_p *)varp)->flags |= flags;\
if(force){\
((__IEC_##TYPENAME##_p *)varp)->fvalue = *((TYPENAME *)force);\
*(((__IEC_##TYPENAME##_p *)varp)->value) = *((TYPENAME *)force);\
}\
break;
void RegisterDebugVariable(int idx, void* force)
{
if(idx < sizeof(dbgvardsc)/sizeof(dbgvardsc_t)){
unsigned char flags = force ?
__IEC_DEBUG_FLAG | __IEC_FORCE_FLAG :
__IEC_DEBUG_FLAG;
dbgvardsc_t *dsc = &dbgvardsc[idx];
void *varp = dsc->ptr;
switch(dsc->type){
__ANY(__RegisterDebugVariable_case_t)
__ANY(__RegisterDebugVariable_case_p)
default:
break;
}
}
}
#define __ResetDebugVariablesIterator_case_t(TYPENAME) \
case TYPENAME##_ENUM :\
((__IEC_##TYPENAME##_t *)varp)->flags &= ~(__IEC_DEBUG_FLAG|__IEC_FORCE_FLAG);\
break;
#define __ResetDebugVariablesIterator_case_p(TYPENAME)\
case TYPENAME##_P_ENUM :\
case TYPENAME##_O_ENUM :\
((__IEC_##TYPENAME##_p *)varp)->flags &= ~(__IEC_DEBUG_FLAG|__IEC_FORCE_FLAG);\
break;
void ResetDebugVariablesIterator(dbgvardsc_t *dsc)
{
/* force debug flag to 0*/
void *varp = dsc->ptr;
switch(dsc->type){
__ANY(__ResetDebugVariablesIterator_case_t)
__ANY(__ResetDebugVariablesIterator_case_p)
default:
break;
}
}
void ResetDebugVariables(void)
{
__for_each_variable_do(ResetDebugVariablesIterator);
}
void FreeDebugData(void)
{
/* atomically mark buffer as free */
AtomicCompareExchange(
&buffer_state,
BUFFER_BUSY,
BUFFER_FREE);
}
int WaitDebugData(unsigned long *tick);
/* Wait until debug data ready and return pointer to it */
int GetDebugData(unsigned long *tick, unsigned long *size, void **buffer){
int wait_error = WaitDebugData(tick);
if(!wait_error){
*size = buffer_cursor - debug_buffer;
*buffer = debug_buffer;
}
return wait_error;
}