targets/plc_debug.c
author Andrey Skvortsov <andrej.skvortzov@gmail.com>
Thu, 16 Aug 2018 13:42:18 +0300
changeset 2289 cf0934b42d66
parent 2190 b7d803fc44db
child 2501 eba2bbb2dd9a
permissions -rw-r--r--
Update README for WAMP example to use crossbar with python3

crossbar python2 support is broken in v18.7.2.
I've submitted with fixes for that.
https://github.com/crossbario/crossbar/pull/1376

But they don't test crossbar with python2 in CI, so it's going to be
broken again in the future.
And there is no much reason to use crossbar with python2.
/*
 * 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.
 *  
 * 
 * */

#ifdef TARGET_DEBUG_DISABLE

void __init_debug    (void){}
void __cleanup_debug (void){}
void __retrieve_debug(void){}
void __publish_debug (void){}

#else

#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)
{
    unsigned 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)   ||
		   (dsc->type == STRING_P_ENUM) ||
		   (dsc->type == STRING_O_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);
}


unsigned int retain_size = 0;

/* GetRetainSizeIterator */
void GetRetainSizeIterator(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);
        /* Calc retain buffer size */
        retain_size += size;
    }
}

/* Return size of all retain variables */
unsigned int GetRetainSize(void)
{
    __for_each_variable_do(GetRetainSizeIterator);
    return retain_size;
}


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(unsigned 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;
}

#endif