Removed dependency in requirements.txt.
/**
* Win32 specific code
**/
#include <stdio.h>
#include <sys/timeb.h>
#include <time.h>
#include <windows.h>
#include <locale.h>
long AtomicCompareExchange(long* atomicvar, long compared, long exchange)
{
return InterlockedCompareExchange(atomicvar, exchange, compared);
}
CRITICAL_SECTION Atomic64CS;
long long AtomicCompareExchange64(long long* atomicvar, long long compared, long long exchange)
{
long long res;
EnterCriticalSection(&Atomic64CS);
res=*atomicvar;
if(*atomicvar == compared){
*atomicvar = exchange;
}
LeaveCriticalSection(&Atomic64CS);
return res;
}
struct timeb timetmp;
void PLC_GetTime(IEC_TIME *CURRENT_TIME)
{
ftime(&timetmp);
(*CURRENT_TIME).tv_sec = timetmp.time;
(*CURRENT_TIME).tv_nsec = timetmp.millitm * 1000000;
}
HANDLE PLC_timer = NULL;
void PLC_SetTimer(unsigned long long next, unsigned long long period)
{
LARGE_INTEGER liDueTime;
/* arg 2 of SetWaitableTimer take 100 ns interval*/
liDueTime.QuadPart = next / (-100);
if (!SetWaitableTimer(PLC_timer, &liDueTime, period<1000000?1:period/1000000, NULL, NULL, 0))
{
printf("SetWaitableTimer failed (%d)\n", GetLastError());
}
}
int PLC_shutdown;
int ForceSaveRetainReq(void) {
return PLC_shutdown;
}
/* Variable used to stop plcloop thread */
void PlcLoop()
{
PLC_shutdown = 0;
while(!PLC_shutdown) {
if (WaitForSingleObject(PLC_timer, INFINITE) != WAIT_OBJECT_0){
PLC_shutdown = 1;
break;
}
PLC_GetTime(&__CURRENT_TIME);
__run();
}
}
HANDLE PLC_thread;
HANDLE debug_sem;
HANDLE debug_wait_sem;
HANDLE python_sem;
HANDLE python_wait_sem;
#define maxval(a,b) ((a>b)?a:b)
int startPLC(int argc,char **argv)
{
unsigned long thread_id = 0;
BOOL tmp;
debug_sem = CreateSemaphore(
NULL, // default security attributes
1, // initial count
1, // maximum count
NULL); // unnamed semaphore
if (debug_sem == NULL)
{
printf("startPLC CreateSemaphore debug_sem error: %d\n", GetLastError());
return 1;
}
debug_wait_sem = CreateSemaphore(
NULL, // default security attributes
0, // initial count
1, // maximum count
NULL); // unnamed semaphore
if (debug_wait_sem == NULL)
{
printf("startPLC CreateSemaphore debug_wait_sem error: %d\n", GetLastError());
return 1;
}
python_sem = CreateSemaphore(
NULL, // default security attributes
1, // initial count
1, // maximum count
NULL); // unnamed semaphore
if (python_sem == NULL)
{
printf("startPLC CreateSemaphore python_sem error: %d\n", GetLastError());
return 1;
}
python_wait_sem = CreateSemaphore(
NULL, // default security attributes
0, // initial count
1, // maximum count
NULL); // unnamed semaphore
if (python_wait_sem == NULL)
{
printf("startPLC CreateSemaphore python_wait_sem error: %d\n", GetLastError());
return 1;
}
/* Create a waitable timer */
timeBeginPeriod(1);
PLC_timer = CreateWaitableTimer(NULL, FALSE, "WaitableTimer");
if(NULL == PLC_timer)
{
printf("CreateWaitableTimer failed (%d)\n", GetLastError());
return 1;
}
if( __init(argc,argv) == 0 )
{
PLC_SetTimer(common_ticktime__,common_ticktime__);
PLC_thread = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)PlcLoop, NULL, 0, &thread_id);
}
else{
return 1;
}
return 0;
}
static unsigned int __debug_tick;
int TryEnterDebugSection(void)
{
//printf("TryEnterDebugSection\n");
if(WaitForSingleObject(debug_sem, 0) == WAIT_OBJECT_0){
/* Only enter if debug active */
if(__DEBUG){
return 1;
}
ReleaseSemaphore(debug_sem, 1, NULL);
}
return 0;
}
void LeaveDebugSection(void)
{
ReleaseSemaphore(debug_sem, 1, NULL);
//printf("LeaveDebugSection\n");
}
int stopPLC()
{
PLC_shutdown = 1;
// force last wakeup of PLC thread
SetWaitableTimer(PLC_timer, 0, 0, NULL, NULL, 0);
// wait end of PLC thread
WaitForSingleObject(PLC_thread, INFINITE);
__cleanup();
CloseHandle(PLC_timer);
CloseHandle(debug_wait_sem);
CloseHandle(debug_sem);
CloseHandle(python_wait_sem);
CloseHandle(python_sem);
CloseHandle(PLC_thread);
}
/* from plc_debugger.c */
int WaitDebugData(unsigned int *tick)
{
DWORD res;
res = WaitForSingleObject(debug_wait_sem, INFINITE);
*tick = __debug_tick;
/* Wait signal from PLC thread */
return res != WAIT_OBJECT_0;
}
/* Called by PLC thread when debug_publish finished
* This is supposed to unlock debugger thread in WaitDebugData*/
void InitiateDebugTransfer()
{
/* remember tick */
__debug_tick = __tick;
/* signal debugger thread it can read data */
ReleaseSemaphore(debug_wait_sem, 1, NULL);
}
int suspendDebug(int disable)
{
/* Prevent PLC to enter debug code */
WaitForSingleObject(debug_sem, INFINITE);
__DEBUG = !disable;
if(disable)
ReleaseSemaphore(debug_sem, 1, NULL);
return 0;
}
void resumeDebug()
{
__DEBUG = 1;
/* Let PLC enter debug code */
ReleaseSemaphore(debug_sem, 1, NULL);
}
/* from plc_python.c */
int WaitPythonCommands(void)
{
/* Wait signal from PLC thread */
return WaitForSingleObject(python_wait_sem, INFINITE);
}
/* Called by PLC thread on each new python command*/
void UnBlockPythonCommands(void)
{
/* signal debugger thread it can read data */
ReleaseSemaphore(python_wait_sem, 1, NULL);
}
int TryLockPython(void)
{
return WaitForSingleObject(python_sem, 0) == WAIT_OBJECT_0;
}
void UnLockPython(void)
{
ReleaseSemaphore(python_sem, 1, NULL);
}
void LockPython(void)
{
WaitForSingleObject(python_sem, INFINITE);
}
static void __attribute__((constructor))
beremiz_dll_init(void)
{
InitializeCriticalSection(&Atomic64CS);
}
static void __attribute__((destructor))
beremiz_dll_destroy(void)
{
DeleteCriticalSection(&Atomic64CS);
}
struct RT_to_nRT_signal_s {
HANDLE sem;
};
typedef struct RT_to_nRT_signal_s RT_to_nRT_signal_t;
#define _LogAndReturnNull(text) \
{\
char mstr[256] = text " for ";\
strncat(mstr, name, 255);\
LogMessage(LOG_CRITICAL, mstr, strlen(mstr));\
return NULL;\
}
void *create_RT_to_nRT_signal(char* name){
RT_to_nRT_signal_t *sig = (RT_to_nRT_signal_t*)malloc(sizeof(RT_to_nRT_signal_t));
if(!sig)
_LogAndReturnNull("Failed allocating memory for RT_to_nRT signal");
sig->sem = CreateSemaphore(
NULL, // default security attributes
1, // initial count
1, // maximum count
NULL); // unnamed semaphore
if(sig->sem == NULL)
{
char mstr[256];
snprintf(mstr, 255, "startPLC CreateSemaphore %s error: %d\n", name, GetLastError());
LogMessage(LOG_CRITICAL, mstr, strlen(mstr));
return NULL;
}
return (void*)sig;
}
void delete_RT_to_nRT_signal(void* handle){
RT_to_nRT_signal_t *sig = (RT_to_nRT_signal_t*)handle;
CloseHandle(python_sem);
free(sig);
}
int wait_RT_to_nRT_signal(void* handle){
int ret;
RT_to_nRT_signal_t *sig = (RT_to_nRT_signal_t*)handle;
return WaitForSingleObject(sig->sem, INFINITE);
}
int unblock_RT_to_nRT_signal(void* handle){
RT_to_nRT_signal_t *sig = (RT_to_nRT_signal_t*)handle;
return ReleaseSemaphore(sig->sem, 1, NULL);
}
void nRT_reschedule(void){
SwitchToThread();
}