WebSVN - f9daq - Blame - Rev 299 - /cvi/apps/l2d2

Rev	Author	Line No.	Line
291	f9daq	1	#include "easiroc.h"
		2
		3	static const int SiTCP_PORT = 24;
		4	SOCKET sock;
		5
		6	unsigned int slowdata[sizeByte_SC];
		7	unsigned int ReadSCdata[sizeByte_RSC];
		8	unsigned int Pindata[sizeByte_PIN];
		9
299	f9daq	10	unsigned int iniData[sizeByte_PIN + 2sizeByte_SC + 2sizeByte_RSC];
		11
291	f9daq	12	unsigned int Probedata[sizeByte_PSC];
		13
		14	int ForceStop = 0;
		15	int EndADC = 0;
		16
		17	#include <windows.h>
		18
		19	void usleep(__int64 usec)
		20	{
		21	HANDLE timer;
		22	LARGE_INTEGER ft;
		23
		24	ft.QuadPart = -(10*usec); // Convert to 100 nanosecond interval, negative value indicates relative time
		25
		26	timer = CreateWaitableTimer(NULL, TRUE, NULL);
		27	SetWaitableTimer(timer, &ft, 0, NULL, NULL, 0);
		28	WaitForSingleObject(timer, INFINITE);
		29	CloseHandle(timer);
		30	}
		31
		32	//------------------------------------------------------------------------------------------------------
		33	int easiroc_Init(const char* SiTCP_MASTER_IP, unsigned int daq_mode)
		34	{
		35	// Start WinSock
		36	printf("easiroc_Init --> Start.\n");
		37	WORD wVersionRequested;
		38	WSADATA wsaData;
		39	if (WSAStartup(MAKEWORD(2, 2), &wsaData) != 0) {
		40	printf("WSAStartup failed with error!\n");
		41	}
		42
		43	//Initialize -------------------------------------------------------------
		44
		45	sock = INVALID_SOCKET;
		46	struct sockaddr_in SiTCP_ADDR;
		47	const char* IP;
		48	unsigned int port;
		49
		50	sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
		51	if(sock == INVALID_SOCKET) {
		52	printf("Error: easiroc_Init::sock = %d\n", sock);
		53	return -1;
		54	}
		55	IP = SiTCP_MASTER_IP;
		56	port = SiTCP_PORT;
		57	SiTCP_ADDR.sin_family = AF_INET;
299	f9daq	58	SiTCP_ADDR.sin_port = htons((unsigned short)port);
291	f9daq	59	SiTCP_ADDR.sin_addr.s_addr = inet_addr(IP);
		60
		61	struct timeval tv;
		62	tv.tv_sec = 3;
		63	tv.tv_usec = 0;
		64	setsockopt(sock, SOL_SOCKET, SO_RCVTIMEO, (char*)&tv, sizeof(tv));
		65
		66	int flag = 1;
		67	setsockopt(sock, IPPROTO_TCP, TCP_NODELAY, (char*)&flag, sizeof(flag));
		68
		69	//Connection -------------------------------------------------------------
		70	int con = connect(sock, (struct sockaddr*)&SiTCP_ADDR, sizeof(SiTCP_ADDR));
		71	printf("easiroc_Init::connect = %d\n", con);
		72	if(0 > con){
		73	printf("SiTCP Master :: Connection fail\n");
		74	closesocket(sock);
		75	return -1;
		76	}
		77
		78	printf("SiTCP Master :: Connection Done\n\n");
		79
		80	// Auto Initialize -------------------------------------------------------
		81	PrepareFPGA();
		82	DebugFPGA(sock);
		83	printf("\nASIS Initialize : Done\n\n");
		84	//Sleep(1000);
		85
		86	WriteData(sock, 37888);
		87	PrepareSC(1);
		88	TransmitSC(sock);
		89	printf("\nSlow Control chip1 : Done\n\n");
		90	PrepareReadSC(1);
		91	TransmitReadSC(sock);
		92	printf("\nRead Slow Control chip1 : Done\n\n");
		93
		94	WriteData(sock, 21504);
		95	PrepareSC(2);
		96	TransmitSC(sock);
		97	printf("\nSlow Control chip2 : Done\n\n");
		98	PrepareReadSC(2);
		99	TransmitReadSC(sock);
		100	printf("\nRead Slow Control chip2: Done\n\n");
		101
		102	WriteData(sock, 5120);
		103	{
		104	unsigned int signal = 31;
		105	signal = signal << 16;
		106	unsigned int data = daq_mode;
		107	data = data << 8;
		108	signal += data;
		109	if(-1 == WriteData(sock, signal)){
		110	return -1;
		111	}
		112	printf("\n#D : DAQ mode is %d \n", daq_mode);
		113	}
		114
		115
		116	return 0;
		117	}
		118	//------------------------------------------------------------------------------------------------------
		119	void easiroc_Close()
		120	{
		121	closesocket(sock);
		122	WSACleanup();
		123	printf("easiroc_Close -> Done.\n");
		124	}
		125	//------------------------------------------------------------------------------------------------------
		126	int WriteData(SOCKET sock, unsigned int data)
		127	{
		128	int esrcdbg = 0;
		129
		130	data += 128 << 24;;
		131
		132	if(esrcdbg) printf("0x%X\n", data);
		133	send(sock, (char*)&data, sizeof(int), 0);
		134	// this sleep is needed!
		135	Sleep(WRITEDATA_DELAY);
		136
		137	unsigned int buf = 0;
		138	unsigned int length = 4;
		139	int ret = recv(sock, (char*)&buf, length, 0);
		140
		141	if ( ret > 0 ) {
		142	if(esrcdbg) printf("Bytes received: %d\n", ret);
		143	else printf(".");
		144	} else if ( ret == 0 ) {
		145	printf("Connection closed\n");
		146	return -1;
		147	} else {
		148	printf("recv failed: %d\n", WSAGetLastError());
		149	return -1;
		150	}
		151
		152	return 0;
		153	}
		154	//------------------------------------------------------------------------------------------------------
299	f9daq	155	int easiroc_LoadIni(const char *iniFile)
		156	{
		157	FILE *fp=fopen(iniFile, "rt");
		158	if(!fp) {
		159	printf("easiroc::LoadIni() cannot open file %s !!!\n", iniFile);
		160	return 0;
		161	}
		162
		163	char lbuff[256];
		164	int counter = 0;
		165	while(1) {
		166	int c = fgetc(fp);
		167	if(feof(fp)) break;
		168	if( '#' == (char)c ) {
		169	fgets(lbuff,256,fp);
		170	//printf("Found Comment line: %s", lbuff);
		171	} else {
		172	ungetc(c, fp);
		173	fscanf(fp, "%u\n", &iniData[counter] );
		174	//printf("Found value [%d] %u\n", counter, iniData[counter]);
		175	counter++;
		176	}
		177	}
		178	fclose(fp);
		179
		180	return 1;
		181	}
		182	//------------------------------------------------------------------------------------------------------
291	f9daq	183	void PrepareFPGA()
		184	{
299	f9daq	185	Pindata[0] = iniData[0];
		186	Pindata[1] = iniData[1];
291	f9daq	187	}
		188	//------------------------------------------------------------------------------------------------------
		189	void PrepareSC(int chipNo)
		190	{
		191	if(chipNo == 1) {
299	f9daq	192	slowdata[ 0] = iniData[sizeByte_PIN + 0];
		193	slowdata[ 1] = iniData[sizeByte_PIN + 1];
		194	slowdata[ 2] = iniData[sizeByte_PIN + 2];
		195	slowdata[ 3] = iniData[sizeByte_PIN + 3];
		196	slowdata[ 4] = iniData[sizeByte_PIN + 4];
		197	slowdata[ 5] = iniData[sizeByte_PIN + 5];
		198	slowdata[ 6] = iniData[sizeByte_PIN + 6];
		199	slowdata[ 7] = iniData[sizeByte_PIN + 7];
		200	slowdata[ 8] = iniData[sizeByte_PIN + 8];
		201	slowdata[ 9] = iniData[sizeByte_PIN + 9];
		202	slowdata[10] = iniData[sizeByte_PIN + 0];
		203	slowdata[11] = iniData[sizeByte_PIN + 11];
		204	slowdata[12] = iniData[sizeByte_PIN + 12];
		205	slowdata[13] = iniData[sizeByte_PIN + 13];
		206	slowdata[14] = iniData[sizeByte_PIN + 14];
291	f9daq	207	} else {
299	f9daq	208	slowdata[ 0] = iniData[sizeByte_PIN + 1*sizeByte_SC + 0];
		209	slowdata[ 1] = iniData[sizeByte_PIN + 1*sizeByte_SC + 1];
		210	slowdata[ 2] = iniData[sizeByte_PIN + 1*sizeByte_SC + 2];
		211	slowdata[ 3] = iniData[sizeByte_PIN + 1*sizeByte_SC + 3];
		212	slowdata[ 4] = iniData[sizeByte_PIN + 1*sizeByte_SC + 4];
		213	slowdata[ 5] = iniData[sizeByte_PIN + 1*sizeByte_SC + 5];
		214	slowdata[ 6] = iniData[sizeByte_PIN + 1*sizeByte_SC + 6];
		215	slowdata[ 7] = iniData[sizeByte_PIN + 1*sizeByte_SC + 7];
		216	slowdata[ 8] = iniData[sizeByte_PIN + 1*sizeByte_SC + 8];
		217	slowdata[ 9] = iniData[sizeByte_PIN + 1*sizeByte_SC + 9];
		218	slowdata[10] = iniData[sizeByte_PIN + 1*sizeByte_SC + 10];
		219	slowdata[11] = iniData[sizeByte_PIN + 1*sizeByte_SC + 11];
		220	slowdata[12] = iniData[sizeByte_PIN + 1*sizeByte_SC + 12];
		221	slowdata[13] = iniData[sizeByte_PIN + 1*sizeByte_SC + 13];
		222	slowdata[14] = iniData[sizeByte_PIN + 1*sizeByte_SC + 14];
291	f9daq	223	}
		224	}
		225	//------------------------------------------------------------------------------------------------------
		226	void PrepareReadSC(int chipNo)
		227	{
		228	if(chipNo == 1) {
299	f9daq	229	ReadSCdata[0] = iniData[sizeByte_PIN + 2*sizeByte_SC + 0];
291	f9daq	230	} else {
299	f9daq	231	ReadSCdata[0] = iniData[sizeByte_PIN + 2*sizeByte_SC + 1];
291	f9daq	232	}
		233	}
		234	//------------------------------------------------------------------------------------------------------
299	f9daq	235	void easiroc_PrintData()
		236	{
		237	printf(">>> Pindata\n");
		238	for(int i=0; i<sizeByte_PIN; i++) printf("%u\n", Pindata[i]);
		239
		240
		241	printf(">>> slowdata (1)\n");
		242	for(int i=0; i<sizeByte_SC; i++) printf("%u\n", slowdata[i]);
		243
		244
		245	printf(">>> slowdata (2)\n");
		246	for(int i=0; i<sizeByte_SC; i++) printf("%u\n", slowdata[i]);
		247
		248
		249	printf(">>> ReadSCdata (1)\n");
		250	for(int i=0; i<sizeByte_RSC; i++) printf("%u\n", ReadSCdata[i]);
		251
		252
		253	printf(">>> ReadSCdata (2)\n");
		254	for(int i=0; i<sizeByte_RSC; i++) printf("%u\n", ReadSCdata[i]);
		255
		256	}
		257	//------------------------------------------------------------------------------------------------------
291	f9daq	258	int DebugFPGA(SOCKET socket)
		259	{
299	f9daq	260	printf(">>> DebugFPGA Pindata:\n");
		261	for(int i=0; i<sizeByte_PIN; i++) printf("%u\n", Pindata[i]);
		262
291	f9daq	263	unsigned int buffer = 0;
		264	buffer += 0 << 16;
		265	buffer += (Pindata[0] & 255) << 8;
		266	if(-1 == WriteData(socket, buffer)){
		267	return -1;
		268	}
		269
		270	for(int i = 1 ; i<5; ++i){
		271	buffer = 0;
		272	if(i == 4){
		273	buffer += 5 << 16;
		274	}else{
		275	buffer += i << 16;
		276	}
		277	buffer += ((Pindata[1] >> (i-1)*8) & 255) << 8;
		278
		279	if(-1 == WriteData(socket, buffer)){
		280	return -1;
		281	}
		282	Sleep(1);
		283	}
		284
		285	return 0;
		286	}
		287	//------------------------------------------------------------------------------------------------------
		288	int TransmitSC(SOCKET socket)
		289	{
299	f9daq	290	printf(">>> TransmitSC slowdata:\n");
		291	for(int i=0; i<sizeByte_SC; i++) printf("%u\n", slowdata[i]);
		292
291	f9daq	293	unsigned int data = 0;
		294	//Set SC mode -----------------------------------------------------------
		295	data = 0;
		296	data += 1 << 16;
		297	data += 240 << 8;
		298	if(-1 == WriteData(socket, data)){
		299	return -1;
		300	}
		301
		302	//SC start -------------------------------------------------------------
		303	data = 0;
		304	data += 10 << 16;
		305	data += (slowdata[0] & 255) << 8;
		306	if(-1 == WriteData(socket, data)){
		307	return -1;
		308	}
		309
		310	for(int i = 1; i<15; ++i){
		311	for(int shift = 0; shift<4; ++shift){
		312	data = 0;
		313	data += 10 << 16;
		314	data += ((slowdata[i] >> 8*shift) & 255) << 8;
		315	if(-1 == WriteData(socket, data)){
		316	return -1;
		317	}
		318	//std::cout<<"test"<<std::endl;
		319	Sleep(1);
		320	}
		321	}
		322
		323	// Sleep(50000);
		324
		325	//StartCycle -----------------------------------------------------------
		326	data = 0;
		327	data += 1 << 16;
		328	data += 242 << 8;
		329	if(-1 == WriteData(socket, data)){
		330	return -1;
		331	}
		332
		333	data = 0;
		334	data += 1 << 16;
		335	data += 240 << 8;
		336	if(-1 == WriteData(socket, data)){
		337	return -1;
		338	}
		339
		340	// Sleep(50000);
		341
		342	//Load SC --------------------------------------------------------------
		343	data = 0;
		344	data += 1 << 16;
		345	data += 241 << 8;
		346	if(-1 == WriteData(socket, data)){
		347	return -1;
		348	}
		349
		350	data = 0;
		351	data += 1 << 16;
		352	data += 240 << 8;
		353	if(-1 == WriteData(socket, data)){
		354	return -1;
		355	}
		356
		357	return 0;
		358	}
		359	//------------------------------------------------------------------------------------------------------
		360	int TransmitReadSC(SOCKET socket)
		361	{
299	f9daq	362
		363	printf(">>> TransmitReadSC ReadSCdata:\n");
		364	for(int i=0; i<sizeByte_RSC; i++) printf("%u\n", ReadSCdata[i]);
		365
		366	//SCA read ---------------------------------------------------------------
291	f9daq	367	unsigned int data = 0;
		368
		369	for(int i = 0; i<4; ++i){
		370	data = 0;
		371	data += 12 << 16;
		372	data += ((ReadSCdata[0] >> i*8) & 255) << 8;
		373	if(-1 == WriteData(socket, data)){
		374	return -1;
		375	}
		376	Sleep(1);
		377	}
		378
		379	//StartCycle ------------------------------------------------------------
		380	data = 0;
		381	data += 1 << 16;
		382	data += 242 << 8;
		383	if(-1 == WriteData(socket, data)){
		384	return -1;
		385	}
		386
		387	data = 0;
		388	data += 1 << 16;
		389	data += 240 << 8;
		390	if(-1 == WriteData(socket, data)){
		391	return -1;
		392	}
		393
		394	return 0;
		395	}
		396	//------------------------------------------------------------------------------------------------------
		397	int PreparePSC(int CurrentCh, int CurrentProbeType)
		398	{
		399	enum Asign{fs_all, ssh_16, ssh_0, pa_16, pa_0, sizeAsign};
		400	enum DataName{fs, ssh_hg, ssh_lg, pa_hg, pa_lg, sizeDataName};
		401	enum DataName CurrentProbe;
		402	CurrentProbe = fs;
		403
		404	static unsigned int ProbeBuffer = 0;
		405	int flag_rst = 0;
		406	int flag_input = 1;
		407	for(int i = 0; i<sizeByte_PSC; ++i){
		408	Probedata[i] = 0;
		409	}
		410
		411	switch(CurrentProbeType){
299	f9daq	412	case 1:
291	f9daq	413	CurrentProbe = pa_hg;
		414	break;
		415
299	f9daq	416	case 2:
291	f9daq	417	CurrentProbe = pa_lg;
		418	break;
		419
299	f9daq	420	case 3:
291	f9daq	421	CurrentProbe = ssh_hg;
		422	break;
		423
299	f9daq	424	case 4:
291	f9daq	425	CurrentProbe = ssh_lg;
		426	break;
		427
299	f9daq	428	case 5:
291	f9daq	429	CurrentProbe = fs;
		430	break;
		431
299	f9daq	432	case 6:
291	f9daq	433
		434	break;
		435
299	f9daq	436	case 7:
291	f9daq	437
		438	break;
		439
299	f9daq	440	case 8:
291	f9daq	441	flag_rst = 1;
		442	CurrentCh = 0;
		443	ProbeBuffer = 0;
		444	CurrentProbe = fs;
		445	break;
		446
		447	default:
		448	break;
		449	};
299	f9daq	450
		451	//printf("CurrentProbeType = %d \| CurrentProbe = %d\n", CurrentProbeType, CurrentProbe);
291	f9daq	452
		453	if(flag_rst) {
		454	return 0;
		455	}
		456
		457	if(flag_input) {
		458	ProbeBuffer = 1 << (31 - CurrentCh);
		459	}
		460
		461	unsigned int buffer_16 = ProbeBuffer*ProbeBuffer;
		462	unsigned int buffer_0 = (ProbeBuffer >> 16)*(ProbeBuffer >> 16);
		463	if(CurrentProbe == ssh_hg \|\| CurrentProbe == pa_hg) {
299	f9daq	464	//printf("CurrentProbe == ssh_hg \|\| CurrentProbe == pa_hg\n");
291	f9daq	465	buffer_16 = buffer_16 << 1;
		466	buffer_0 = buffer_0 << 1;
		467	}
		468	if(CurrentProbe == fs) {
299	f9daq	469	//printf("CurrentProbe == fs\n");
291	f9daq	470	Probedata[fs_all] = ProbeBuffer;
		471	} else if(CurrentProbe == ssh_hg \|\| CurrentProbe == ssh_lg) {
		472	if(CurrentCh > 15) {
		473	Probedata[ssh_16] = buffer_16;
		474	} else {
		475	Probedata[ssh_0] = buffer_0;
		476	}
		477	} else if(CurrentProbe == pa_hg \|\| CurrentProbe == pa_lg) {
		478	if(CurrentCh > 15){
		479	Probedata[pa_16] = buffer_16;
		480	}else{
		481	Probedata[pa_0] = buffer_0;
		482	}
		483	} else {
		484	printf("bug desu\n");
		485	}
		486
		487	for(int shift = 0; shift<32; ++shift) {
		488	if(((Probedata[fs_all]) >> shift) & 1) {
		489	printf("!");
		490	}else{
		491	printf(".");
		492	}
		493	}
		494	printf("\n");
		495
		496	for(int index = ssh_16; index <= ssh_0; ++index) {
		497	for(int shift = 0; shift<32; ++shift) {
		498	if(((Probedata[index]) >> shift) & 1) {
		499	printf("!");
		500	} else {
		501	printf(".");
		502	}
		503	}
		504	}
		505	printf("\n");
		506
		507	for(int index = pa_16; index <= pa_0; ++index) {
		508	for(int shift = 0; shift<32; ++shift) {
		509	if(((Probedata[index]) >> shift) & 1) {
		510	printf("!");
		511	}else{
		512	printf(".");
		513	}
		514	}
		515	}
		516	printf("\n");
		517
		518	return 0;
		519	}
		520	//------------------------------------------------------------------------------------------------------
		521	int TransmitProbe(SOCKET socket)
		522	{
		523	unsigned int data = 0;
		524	//Set Probe mode --------------------------------------------------------
		525	data += 1 << 16;
		526	data += 208 << 8;
		527	if(-1 == WriteData(socket, data)) {
		528	return -1;
		529	}
		530
		531	//Probe start ----------------------------------------------------------
		532	for(int i = 0; i<sizeByte_PSC; ++i) {
		533	for(int shift = 0; shift<4; ++shift) {
		534	data = 0;
		535	data += 10 << 16;
		536	data += ((Probedata[i] >> 8*shift) & 255) << 8;
		537	if(-1 == WriteData(socket, data)) {
		538	return -1;
		539	}
		540	}
		541	}
		542
		543	//StartCycle ------------------------------------------------------------
		544	data = 0;
		545	data += 1 << 16;
		546	data += 210 << 8;
		547	if(-1 == WriteData(socket, data)) {
		548	return -1;
		549	}
		550
		551	data = 0;
		552	data += 1 << 16;
		553	data += 208 << 8;
		554	if(-1 == WriteData(socket, data)) {
		555	return -1;
		556	}
		557
		558	return 0;
		559	}
		560	//------------------------------------------------------------------------------------------------------
		561	int easiroc_fTransmitSC()
		562	{
		563	if(WriteData(sock, 37888) != 0) return -1;
		564	PrepareSC(1);
		565	if(TransmitSC(sock) != 0) return -1;
		566	printf("\nSlow Control chip1 : Done\n\n");
		567
		568	if(WriteData(sock, 21504) != 0) return -1;
		569	PrepareSC(2);
		570	if(TransmitSC(sock) != 0) return -1;
		571	printf("\nSlow Control chip2 : Done\n\n");
		572
		573	if(WriteData(sock, 5120) != 0) return -1;
		574
		575	return 0;
		576	}
		577	//------------------------------------------------------------------------------------------------------
		578	int easiroc_fTransmitReadSC()
		579	{
		580	if(WriteData(sock, 37888) != 0) return -1;
		581	PrepareReadSC(1);
		582	if(TransmitReadSC(sock) != 0) return -1;
		583	printf("\nRead Slow Control chip1 : Done\n\n");
		584
		585	if(WriteData(sock, 21504) != 0) return -1;
		586	PrepareReadSC(2);
		587	if(TransmitReadSC(sock) != 0) return -1;
		588	printf("\nRead Slow Control chip2 : Done\n\n");
		589
		590	if(WriteData(sock, 5120) != 0) return -1;
		591
		592	return 0;
		593	}
		594	//------------------------------------------------------------------------------------------------------
		595	int easiroc_fAsicInitialize()
		596	{
		597	PrepareFPGA();
		598	DebugFPGA(sock);
		599	printf("\nASIS Initialize : Done\n\n");
		600
		601	return 0;
		602	}
		603	//------------------------------------------------------------------------------------------------------
		604	int easiroc_fTransmitProbe(int CurrentCh, int CurrentProbe)
		605	{
		606	//printf("\neasiroc_fTransmitProbe: CurrentCh : %d \| CurrentProbe: %d\n\n", CurrentCh, CurrentProbe);
		607
		608	if(CurrentCh < 32) {
		609	if(WriteData(sock, 37888)!= 0) return -1;
		610	} else if(CurrentCh > 31) {
		611	if(WriteData(sock, 21504)!= 0) return -1;
		612	CurrentCh = CurrentCh - 32;
		613	}
		614
		615	//printf("\neasiroc_fTransmitProbe: Preparing PSC\n\n");
		616	if(PreparePSC(CurrentCh, CurrentProbe)!= 0) {
		617	printf("\neasiroc_fTransmitProbe: PreparingPSC ERROR !!!!!!!!!!!!!!!!!!!\n\n");
		618	return -1;
		619	}
		620	//printf("\neasiroc_fTransmitProbe: TransmitProbe\n\n");
		621	if(TransmitProbe(sock)!= 0) {
		622	printf("\neasiroc_fTransmitProbe: TransmitProbe ERROR !!!!!!!!!!!!!!!!!!!\n\n");
		623	return -1;
		624	}
		625	//WriteData(3, 5120);
		626	//printf("\nTransmitProbe: Success!\n\n");
		627
		628	return 0;
		629	}
		630	//------------------------------------------------------------------------------------------------------
299	f9daq	631	int ADCOneCycle_wHeader_ver2(SOCKET socket, FILE* file, int stopping)
291	f9daq	632	{
		633	static const int NofHeader = 3;
		634
		635	unsigned int DataBuffer[1000];
		636	memset(DataBuffer, 0, sizeof(DataBuffer));
		637	unsigned int *ptr_DataBuf = DataBuffer;
		638	unsigned int TotalRecvByte = 0;
		639	unsigned int TotalRecvEvent = 0;
		640
		641	unsigned int sizeHeader = NofHeader*sizeof(int);
		642
		643	unsigned int Header[] = {1, 1, 1};
		644	int ret = 0;
		645
		646	ret = recv(sock, (char*)Header, sizeHeader, 0);
299	f9daq	647	//if(ret <= 0) printf("Fatal ADC ERROR : recv\n");
		648	if(ret <= 0 && EndADC == 1) return -1;
291	f9daq	649
		650	// sleep necessary! ERRORS happen if trigger rate lower than ~ sleep frequency!
		651	usleep(200);
		652	//Sleep(1);
		653
		654	//printf("Header1 (0xFFFFEA0C) : 0x%x \| Header2 (0x00000100) : 0x%x\n", Header[0], Header[1]);
		655	if(Header[0] != 0xFFFFEA0C) {
		656	printf("Fatal ADC ERROR : HEADER\n");
		657	printf("Header1 : 0x%x \| Header2 : 0x%x \| Header3 : 0x%x\n", Header[0], Header[1], Header[2]);
		658	return -1;
		659	} else {
		660	unsigned int sizeData = (sizeof(int)*Header[1] & 0xffff);
		661	unsigned int NofWord = (Header[1] & 0xffff);
		662	unsigned int OneData[NofWord];
		663
		664	recv(socket, (char*)OneData, sizeData, 0);
299	f9daq	665	if(!stopping) {
		666	for(int i = 0; i<NofWord; ++i) printf("[%d] 0x%x ", i, OneData[i]);
		667	printf("\n");
		668	}
291	f9daq	669	memcpy(ptr_DataBuf, Header, sizeHeader);
		670	ptr_DataBuf += NofHeader;
		671
		672	memcpy(ptr_DataBuf, OneData, sizeData);
		673	ptr_DataBuf += sizeData/sizeof(int);
		674
		675	TotalRecvByte += sizeHeader + sizeData;
		676	++TotalRecvEvent;
		677	}
		678
299	f9daq	679	if(EndADC != 1 && file!=NULL){
291	f9daq	680	for(unsigned int i = 0; i<TotalRecvByte/sizeof(int); ++i) {
		681	unsigned int buffer = DataBuffer[i];
		682	fwrite((char*)&buffer, sizeof(int), 1, file);
		683	}
		684	}
		685
		686	return 0;
		687	}
		688	//------------------------------------------------------------------------------------------------------
		689	void ADCStop(SOCKET socket)
		690	{
		691	unsigned int signal = 0;
		692	printf("ADC exit process\n");
		693	signal += 16 << 24;
		694	signal += 100 << 16;
		695	send(socket, (char*)&signal, sizeof(int), 0);
		696	Sleep(1);
		697
		698	signal = 0;
		699	signal += 100 << 16;
		700	send(socket, (char*)&signal, sizeof(int), 0);
		701
		702	Sleep(10);
		703
		704	return;
		705	}
		706	//------------------------------------------------------------------------------------------------------
		707	int ContinuousADC_ver2(SOCKET socket, char *file_name, int MaxCycleNum)
		708	{
		709
		710	unsigned int signal = 0;
		711	int EventNum = 0;
		712
		713	FILE *file = NULL;
		714	file = fopen(file_name, "wb");
		715	if(file==NULL) {
		716	printf("ContinuousADC_ver2: ERROR opneing file %s\n", file_name);
		717	return -1;
		718	}
		719
		720	signal += 32 << 24;
		721	signal += 100 << 16;
		722	send(socket, (char*)&signal, sizeof(int), 0);
		723	Sleep(100);
		724
		725	while(EventNum < MaxCycleNum){
		726	//Sleep(10);
299	f9daq	727	ADCOneCycle_wHeader_ver2(socket, file, 0);
291	f9daq	728	++EventNum;
		729	if(0 == EventNum%1000){
		730	printf("Event # %d\n", EventNum);
		731	}
		732
		733	if(0 \|\| EventNum == MaxCycleNum\|\| ForceStop == 1) {
		734	ADCStop(socket);
		735
		736	EndADC = 1;
		737	int abort = 0;
299	f9daq	738	while(0 == ADCOneCycle_wHeader_ver2(socket, file, 1)) {
291	f9daq	739	Sleep(1);
		740	if(abort == 50) {
		741	ADCStop(socket);
		742	abort = 0;
		743	}
		744	//printf("dummy data\n");
		745	printf(".");
		746	++abort;
		747	}
		748
		749	EndADC = 0;
		750	ForceStop = 0;
		751	break;
		752	}
		753	}
		754
		755	printf("\nEnd ADC\n");
		756	fclose(file);
		757
		758	return 0;
		759	}
		760	//------------------------------------------------------------------------------------------------------
		761	int easiroc_fDAQ(char *file_name, int MaxCycleNum)
		762	{
		763	printf("easiroc_fDAQ: Starting DAQ with file_name = %s \| MaxCycleNum = %d\n", file_name, MaxCycleNum);
		764	if(ContinuousADC_ver2(sock, file_name, MaxCycleNum) != 0) return -1;
		765
		766	return 0;
299	f9daq	767	}
		768	//------------------------------------------------------------------------------------------------------
		769	int easiroc_singleADCstart() {
		770	unsigned int signal = 0;
291	f9daq	771
299	f9daq	772	signal += 32 << 24;
		773	signal += 100 << 16;
		774	send(sock, (char*)&signal, sizeof(int), 0);
		775	Sleep(100);
		776
		777	printf("\nStart ADC\n");
		778
		779	return 0;
		780	}
		781	//------------------------------------------------------------------------------------------------------
		782	int easiroc_singleADCevent(unsigned int *retData) {
		783	static const int NofHeader = 3;
291	f9daq	784
299	f9daq	785	unsigned int DataBuffer[1000];
		786	memset(DataBuffer, 0, sizeof(DataBuffer));
291	f9daq	787
299	f9daq	788	unsigned int sizeHeader = NofHeader*sizeof(int);
		789
		790	unsigned int Header[] = {1, 1, 1};
		791	int ret = 0;
		792
		793	ret = recv(sock, (char*)Header, sizeHeader, 0);
		794	//if(ret <= 0) printf("Fatal ADC ERROR : recv\n");
		795	if(ret <= 0 && EndADC == 1) return -1;
		796
		797	//usleep(200);
		798	//Sleep(1);
		799
		800	//printf("Header1 (0xFFFFEA0C) : 0x%x \| Header2 (0x00000100) : 0x%x\n", Header[0], Header[1]);
		801	if(Header[0] != 0xFFFFEA0C) {
		802	printf("Fatal ADC ERROR : HEADER\n");
		803	printf("Header1 : 0x%x \| Header2 : 0x%x \| Header3 : 0x%x\n", Header[0], Header[1], Header[2]);
		804	return -2;
		805	} else {
		806	unsigned int sizeData = (sizeof(int)*Header[1] & 0xffff);
		807	unsigned int NofWord = (Header[1] & 0xffff);
		808	unsigned int OneData[NofWord];
		809
		810	recv(sock, (char*)OneData, sizeData, 0);
		811
		812	//for(int i = 0; i<NofWord; ++i) printf("[%d] 0x%x ", i, OneData[i]);
		813	//printf("\n");
		814
		815	if(NofWord < EASIROC_MAX_READ_N_WORDS) memcpy(retData, OneData, sizeData);
		816
		817	return NofWord;
		818	}
		819	}
		820	//------------------------------------------------------------------------------------------------------
		821	int easiroc_singleADCstop() {
		822	ADCStop(sock);
		823
		824	EndADC = 1;
		825	int abort = 0;
		826	while(0 == ADCOneCycle_wHeader_ver2(sock, NULL, 1)) {
		827	Sleep(1);
		828	if(abort == 50) {
		829	ADCStop(sock);
		830	abort = 0;
		831	}
		832	//printf("dummy data\n");
		833	printf(".");
		834	++abort;
		835	}
		836
		837	EndADC = 0;
		838	ForceStop = 0;
		839
		840	printf("\nEnd ADC\n");
		841
		842	return 0;
		843	}
		844	//------------------------------------------------------------------------------------------------------
		845
		846
		847

Subversion Repositories f9daq

(root)/cvi/apps/l2d2_easyroc/easiroc.c - Rev 299