WebSVN - f9daq - Blame - Rev 198 - /cvi/instr/DRS/drscl.cpp

Rev	Author	Line No.	Line
195	f9daq	1	/********************************************************************\
		2
		3	Name: drscl.cpp
		4	Created by: Stefan Ritt
		5
		6	Contents: Command line interface to DRS chip via USB and VME
		7
		8	$Id: drscl.cpp 21435 2014-07-30 13:02:31Z ritt $
		9
		10	\********************************************************************/
		11
		12	#include <math.h>
		13
		14	#ifdef _MSC_VER
		15
		16	#include <windows.h>
		17	#include <conio.h>
		18	#include <io.h>
		19	#include <direct.h>
		20
		21	#define DIR_SEPARATOR '\\'
		22
		23	#elif defined(OS_LINUX) \|\| defined(OS_DARWIN)
		24
		25	#define O_BINARY 0
		26
		27	#include <unistd.h>
		28	#include <ctype.h>
		29	#include <sys/ioctl.h>
		30	#include <errno.h>
		31
		32	#define DIR_SEPARATOR '/'
		33
		34	#endif
		35
		36	#include <stdio.h>
		37	#include <string.h>
		38	#include <stdlib.h>
		39	#include <fcntl.h>
		40	#include <time.h>
		41	#include <sys/stat.h>
		42	#include <assert.h>
		43
		44	#include "strlcpy.h"
		45	#include "DRS.h"
		46	#ifdef HAVE_VME
		47	#include "ace.h"
		48	#endif
		49
		50	const char *drscl_svn_revision = "$Id: drscl.cpp 21435 2014-07-30 13:02:31Z ritt $";
		51
		52	void print_help();
		53	void clear_screen();
		54	int match(const char str, const char cmd);
		55	void cmd_loop();
		56
		57	#if defined(OS_LINUX) \|\| defined(OS_DARWIN)
		58	#define getch() getchar()
		59	#define Sleep(x) usleep(x*1000)
		60	#endif
		61
		62	#ifdef _MSC_VER
		63	#include <conio.h>
		64	#define drs_kbhit() kbhit()
		65	#endif
		66
		67	void print_help()
		68	{
		69	puts("Available commands:\n");
		70	puts("active <0\|1> Set domino active mode on (1) or off (0)");
		71	puts("board <i>\|<i1> <i2>\|all Address individual board/range/all boards");
		72	puts("calib [dir] Response Calibration. Use dir=\"area\" for MEG");
		73	puts("chn [n] Set number of channels: 8, 4, 2, 1");
		74	puts("ct Chip Test");
		75	puts("del <0\|1> Switch delayed start on/off");
		76	puts("dir Show CF directory");
		77	puts("dmode <0\|1> Set Domino mode 0=single, 1=cont.");
		78	puts("et EEPROM test");
		79	puts("exit Exit program");
		80	puts("freq <ghz> [0\|1] Set frequency of board [without/with] regulation");
		81	puts("info Show information about board");
		82	puts("init Initialize board");
		83	puts("led <0\|1> Turn LED on (1) or off (0)");
		84	puts("lock [0\|1] Display lock status [without/with] restart");
		85	puts("multi [0\|1] Turn multi-buffer mode on/off");
		86	puts("offset <voltage> Set offset voltage");
		87	puts("phase <value> [0\|1] Set ADC clock phase and inversion");
		88	puts("quit Exit program");
		89	puts("ram Test speed to FPGA RAM");
		90	puts("range <center> Change input range to <center>+=0.5V");
		91	puts("read <chn> [0\|1] [file] Read waveform to [file], chn=0..19 [with] calibration");
		92	puts("refclk [0\|1] Use FPGA ref. clk (0) or ext. P2 ref. clk (1)");
		93	puts("reg Register test");
		94	puts("serial <number> Set serial number of board");
		95	puts("scan Scan for boards");
		96	puts("standby <0\|1> Turn standby mode on (1) or off (0)");
		97	puts("start Start domino wave");
		98	puts("stop Issue soft trigger");
		99	puts("tcout [file] [idx_offset] Print time calibration of DRS4, or write it onto [file]");
		100	puts("tcs <0\|1> Timing calibration signal on (1) or off (0)");
		101	puts("tcalib [freq] Timing Calibration");
		102	puts("tlevel <voltage> Set trigger level in Volts");
		103	puts("trans <0\|1> Set transparent mode on (1) or off (0)");
		104	puts("trig <0\|1> Hardware trigger on (1) or off (0)");
		105	puts("upload <file> Upload ACE file to CF");
		106	puts("volt off\|<voltage> Turn calibration voltage on/off");
		107
		108	puts("");
		109	}
		110
		111	/------------------------------------------------------------------/
		112
		113	void clear_screen()
		114	{
		115	#ifdef _MSC_VER
		116
		117	HANDLE hConsole;
		118	COORD coordScreen = { 0, 0 }; /* here's where we'll home the cursor */
		119	BOOL bSuccess;
		120	DWORD cCharsWritten;
		121	CONSOLE_SCREEN_BUFFER_INFO csbi; /* to get buffer info */
		122	DWORD dwConSize; /* number of character cells in the current buffer */
		123
		124	hConsole = GetStdHandle(STD_OUTPUT_HANDLE);
		125
		126	/* get the number of character cells in the current buffer */
		127	bSuccess = GetConsoleScreenBufferInfo(hConsole, &csbi);
		128	dwConSize = csbi.dwSize.X * csbi.dwSize.Y;
		129
		130	/* fill the entire screen with blanks */
		131	bSuccess = FillConsoleOutputCharacter(hConsole, (TCHAR) ' ', dwConSize, coordScreen, &cCharsWritten);
		132
		133	/* put the cursor at (0, 0) */
		134	bSuccess = SetConsoleCursorPosition(hConsole, coordScreen);
		135	return;
		136
		137	#else
		138	printf("\033[2J");
		139	#endif
		140	}
		141
		142	/------------------------------------------------------------------/
		143
		144	int match(const char str, const char cmd)
		145	{
		146	int i;
		147
		148	if (str[0] == '\r' \|\| str[0] == '\n')
		149	return 0;
		150
		151	for (i = 0; i < (int) strlen(str); i++) {
		152	if (toupper(str[i]) != toupper(cmd[i]) && str[i] != '\r' && str[i] != '\n')
		153	return 0;
		154	}
		155
		156	return 1;
		157	}
		158
		159	/------------------------------------------------------------------/
		160
		161	class ProgressBar : public DRSCallback
		162	{
		163	public:
		164	void Progress(int prog);
		165	};
		166
		167	void ProgressBar::Progress(int prog)
		168	{
		169	if (prog == 0)
		170	printf("[--------------------------------------------------]\r");
		171	printf("[");
		172	for (int i=0 ; i<prog/2 ; i++)
		173	printf("=");
		174	printf("\r");
		175	fflush(stdout);
		176	}
		177
		178	/------------------------------------------------------------------/
		179
		180	void cmd_loop()
		181	{
		182	int i, j, idx, i_start, i_end, nparam, calib, status, debug, cascading,
		183	ext_refclk;
		184	char str[256], dir[256], line[256], file_name[256], param[10][100], *pc;
		185	double freq, triggerfreq, range;
		186	FILE *f = NULL;
		187	DRS *drs;
		188	DRSBoard *b;
		189	#ifdef HAVE_VME
		190	ACE ace;
		191	#endif
		192	static char bar[] = {'\\', '\|', '/', '-'};
		193
		194	/* do initial scan */
		195	drs = new DRS();
		196	if (drs->GetError(str, sizeof(str)))
		197	printf("%s", str);
		198
		199	for (i=0 ; i<drs->GetNumberOfBoards() ; i++) {
		200	b = drs->GetBoard(i);
		201	#ifdef HAVE_VME
		202	if (b->GetTransport() != 1)
		203	printf("Found DRS%d board %2d on USB, serial #%04d, firmware revision %5d\n",
		204	b->GetDRSType(), i, b->GetBoardSerialNumber(), b->GetFirmwareVersion());
		205	#else
		206	printf("Found DRS%d board %2d on USB, serial #%04d, firmware revision %5d\n",
		207	b->GetDRSType(), i, b->GetBoardSerialNumber(), b->GetFirmwareVersion());
		208	#endif
		209	}
		210
		211	if (drs->GetNumberOfBoards()) {
		212	i_start = 0;
		213	i_end = 1;
		214	b = drs->GetBoard(0);
		215	}
		216	else {
		217	printf("No DRS Boards found\n");
		218	i_start = i_end = 0;
		219	b = NULL;
		220	}
		221
		222	puts("");
		223
		224	do {
		225	/* print prompt */
		226	if (i_start == i_end-1)
		227	printf("B%d> ", i_start);
		228	else if (i_start == 0 && i_end == 0)
		229	printf("> ");
		230	else
		231	printf("B%d-%d> ", i_start, i_end-1);
		232	memset(line, 0, sizeof(line));
		233	fgets(line, sizeof(line), stdin);
		234	/* strip \r\n */
		235	while (strpbrk(line,"\n\r"))
		236	*strpbrk(line,"\n\r") = 0;
		237
		238	/* analyze line */
		239	nparam = 0;
		240	pc = line;
		241	while (*pc == ' ')
		242	pc++;
		243
		244	memset(param, 0, sizeof(param));
		245	do {
		246	if (*pc == '"') {
		247	pc++;
		248	for (i = 0; pc && pc != '"'; i++)
		249	param[nparam][i] = *pc++;
		250	if (*pc)
		251	pc++;
		252	} else if (*pc == '\'') {
		253	pc++;
		254	for (i = 0; pc && pc != '\''; i++)
		255	param[nparam][i] = *pc++;
		256	if (*pc)
		257	pc++;
		258	} else if (*pc == '`') {
		259	pc++;
		260	for (i = 0; pc && pc != '`'; i++)
		261	param[nparam][i] = *pc++;
		262	if (*pc)
		263	pc++;
		264	} else
		265	for (i = 0; pc && pc != ' '; i++)
		266	param[nparam][i] = *pc++;
		267	param[nparam][i] = 0;
		268	while (pc == ' ' \|\| pc == '\r' \|\| *pc == '\n')
		269	pc++;
		270	nparam++;
		271	} while (*pc);
		272
		273	if (param[0][0] == 0) {
		274	}
		275
		276	/* help ---------- */
		277	else if ((param[0][0] == 'h' && param[0][1] == 'e') \|\| param[0][0] == '?')
		278	print_help();
		279
		280	/* scan ---------- */
		281	else if (match(param[0], "scan")) {
		282	j = 0;
		283
		284	do {
		285	delete drs;
		286	drs = new DRS();
		287
		288	for (i=0 ; i<drs->GetNumberOfBoards() ; i++) {
		289	b = drs->GetBoard(i);
		290	#ifdef HAVE_VME
		291	if (b->GetTransport() != 1)
		292	printf("Found DRS%d board %2d on USB, serial #%04d, firmware revision %5d\n",
		293	b->GetDRSType(), i, b->GetBoardSerialNumber(), b->GetFirmwareVersion());
		294	#else
		295	printf("Found DRS%d board %2d on USB, serial #%04d, firmware revision %5d\n",
		296	b->GetDRSType(), i, b->GetBoardSerialNumber(), b->GetFirmwareVersion());
		297	#endif
		298	}
		299
		300	if (drs_kbhit())
		301	break;
		302
		303	if (param[1][0] == 'r') {
		304	printf("%c\r", bar[j]);
		305	fflush(stdout);
		306	j = (j+1) % 4;
		307	Sleep(1000);
		308	}
		309
		310	} while (param[1][0] == 'r');
		311
		312	while (drs_kbhit())
		313	getch();
		314
		315	if (drs->GetNumberOfBoards()) {
		316	i_start = 0;
		317	i_end = 1;
		318	b = drs->GetBoard(0);
		319	} else {
		320	printf("No DRS Boards found\n");
		321	i_start = i_end = 0;
		322	b = NULL;
		323	}
		324	}
		325
		326	/* address board ---------- */
		327	else if (match(param[0], "board")) {
		328	if (param[1][0] == 'a') {
		329	i_start = 0;
		330	i_end = drs->GetNumberOfBoards();
		331	b = drs->GetBoard(0);
		332	} else if (param[2][0] && atoi(param[2]) > 0 && atoi(param[2]) < drs->GetNumberOfBoards()) {
		333	i_start = atoi(param[1]);
		334	i_end = atoi(param[2]) + 1;
		335	b = drs->GetBoard(i_start);
		336	} else if (atoi(param[1]) >= 0 && atoi(param[1]) < drs->GetNumberOfBoards()) {
		337	i_start = atoi(param[1]);
		338	i_end = i_start + 1;
		339	b = drs->GetBoard(i_start);
		340	} else
		341	printf("Board #%d does not exist\n", atoi(param[1]));
		342	}
		343
		344	/* info ---------- */
		345	else if (match(param[0], "info")) {
		346	for (idx=i_start ; idx<i_end ; idx++) {
		347	b = drs->GetBoard(idx);
		348	printf("==============================\n");
		349	printf("Mezz. Board index: %d\n", idx);
		350	#ifdef HAVE_VME
		351	if (b->GetTransport() == TR_VME) {
		352	printf("Slot: %d", (b->GetSlotNumber() >> 1)+2);
		353	if ((b->GetSlotNumber() & 1) == 0)
		354	printf(" upper\n");
		355	else
		356	printf(" lower\n");
		357	}
		358	#endif
		359	printf("DRS type: DRS%d\n", b->GetDRSType());
		360	printf("Board type: %d\n", b->GetBoardType());
		361	printf("Serial number: %04d\n", b->GetBoardSerialNumber());
		362	printf("Firmware revision: %d\n", b->GetFirmwareVersion());
		363	printf("Temperature: %1.1lf C\n", b->GetTemperature());
		364	if (b->GetDRSType() == 4) {
		365	printf("Input range: %1.2lgV...%1.2lgV\n",
		366	b->GetInputRange()-0.5, b->GetInputRange()+0.5);
		367	printf("Calibrated range: %1.2lgV...%1.2lgV\n", b->GetCalibratedInputRange()-0.5,
		368	b->GetCalibratedInputRange()+0.5);
		369	printf("Calibrated frequency: %1.3lf GHz\n", b->GetCalibratedFrequency());
		370
		371	if (b->GetTransport() == TR_VME) {
		372	printf("Multi Buffer WP: %d\n", b->GetMultiBufferWP());
		373	printf("Multi Buffer RP: %d\n", b->GetMultiBufferRP());
		374	}
		375	}
		376
		377	printf("Status reg.: %08X\n", b->GetStatusReg());
		378	if (b->GetStatusReg() & BIT_RUNNING)
		379	puts(" Domino wave running");
		380	if (b->GetDRSType() == 4) {
		381	if (b->GetBoardType() == 5) {
		382	if (b->GetStatusReg() & BIT_PLL_LOCKED0)
		383	puts(" PLL locked");
		384	} else if (b->GetBoardType() == 6) {
		385	i = 0;
		386	if (b->GetStatusReg() & BIT_PLL_LOCKED0) i++;
		387	if (b->GetStatusReg() & BIT_PLL_LOCKED1) i++;
		388	if (b->GetStatusReg() & BIT_PLL_LOCKED2) i++;
		389	if (b->GetStatusReg() & BIT_PLL_LOCKED3) i++;
		390	if (i == 4)
		391	puts(" All PLLs locked");
		392	else if (i == 0)
		393	puts(" No PLL locked");
		394	else
		395	printf(" %d PLLs locked\n", i);
		396	if (b->GetStatusReg() & BIT_LMK_LOCKED)
		397	puts(" LMK PLL locked");
		398	}
		399	} else {
		400	if (b->GetStatusReg() & BIT_NEW_FREQ1)
		401	puts(" New Freq1 ready");
		402	if (b->GetStatusReg() & BIT_NEW_FREQ2)
		403	puts(" New Freq2 ready");
		404	}
		405
		406	printf("Control reg.: %08X\n", b->GetCtrlReg());
		407	if (b->GetCtrlReg() & BIT_MULTI_BUFFER)
		408	puts(" Multi-buffering enabled");
		409	if (b->GetDRSType() == 4) {
		410	if (b->GetConfigReg() & BIT_CONFIG_DMODE)
		411	puts(" DMODE circular");
		412	else
		413	puts(" DMODE single shot");
		414	} else {
		415	if (b->GetCtrlReg() & BIT_DMODE)
		416	puts(" DMODE circular");
		417	else
		418	puts(" DMODE single shot");
		419	}
		420	if (b->GetCtrlReg() & BIT_LED)
		421	puts(" LED");
		422	if (b->GetCtrlReg() & BIT_TCAL_EN)
		423	puts(" TCAL enabled");
		424	if (b->GetDRSType() == 4) {
		425	if (b->GetCtrlReg() & BIT_TRANSP_MODE)
		426	puts(" TRANSP_MODE enabled");
		427	} else {
		428	if (b->GetCtrlReg() & BIT_FREQ_AUTO_ADJ)
		429	puts(" FREQ_AUTO_ADJ enabled");
		430	}
		431	if (b->GetCtrlReg() & BIT_ENABLE_TRIGGER1)
		432	puts(" Hardware trigger enabled");
		433	if (b->GetDRSType() == 4) {
		434	if (b->GetCtrlReg() & BIT_READOUT_MODE)
		435	puts(" Readout from stop");
		436	if (b->GetCtrlReg() & BIT_ENABLE_TRIGGER2)
		437	puts(" Internal trigger enabled");
		438	} else {
		439	if (b->GetCtrlReg() & BIT_LONG_START_PULSE)
		440	puts(" LONG_START_PULSE");
		441	}
		442	if (b->GetCtrlReg() & BIT_DELAYED_START)
		443	puts(" DELAYED_START");
		444	if (b->GetCtrlReg() & BIT_ACAL_EN)
		445	puts(" ACAL enabled");
		446	if (b->GetDRSType() < 4)
		447	if (b->GetCtrlReg() & BIT_TRIGGER_DELAYED)
		448	puts(" DELAYED_TRIGGER selected");
		449	if (b->GetBoardType() != 5)
		450	printf("Trigger bus: %08X\n", b->GetTriggerBus());
		451	if (b->GetDRSType() == 4) {
		452	if (b->GetRefclk() == 1) {
		453	if (b->IsPLLLocked() && b->IsLMKLocked()) {
		454	b->ReadFrequency(0, &freq);
		455	printf("Frequency: %1.3lf GHz\n", freq);
		456	} else {
		457	if (!b->IsPLLLocked())
		458	printf("Frequency: PLL not locked\n");
		459	else
		460	printf("Frequency: LMK chip not locked\n");
		461	}
		462	} else {
		463	if (b->IsPLLLocked()) {
		464	b->ReadFrequency(0, &freq);
		465	printf("Frequency: %1.3lf GHz\n", freq);
		466	} else {
		467	printf("Frequency: PLL not locked\n");
		468	}
		469	}
		470	} else {
		471	if (b->IsBusy()) {
		472	b->ReadFrequency(0, &freq);
		473	printf("Frequency0: %1.4lf GHz\n", freq);
		474	b->ReadFrequency(1, &freq);
		475	printf("Frequency1: %1.4lf GHz\n", freq);
		476	} else
		477	puts("Domino wave stopped");
		478	}
		479	}
		480	}
		481
		482	/* init ---------- */
		483	else if (match(param[0], "init")) {
		484	for (i=i_start ; i<i_end ; i++) {
		485	b = drs->GetBoard(i);
		486	b->Init();
		487	}
		488	}
		489
		490	/* set led ---------- */
		491	else if (match(param[0], "led")) {
		492	for (i=i_start ; i<i_end ; i++) {
		493	b = drs->GetBoard(i);
		494	if (atoi(param[1]))
		495	b->SetLED(1);
		496	else
		497	b->SetLED(0);
		498	}
		499	}
		500
		501	/* set multi buffer mode ---------- */
		502	else if (match(param[0], "multi")) {
		503	for (i=i_start ; i<i_end ; i++) {
		504	b = drs->GetBoard(i);
		505	if (atoi(param[1]))
		506	b->SetMultiBuffer(1);
		507	else
		508	b->SetMultiBuffer(0);
		509	}
		510	}
		511
		512	/* lock status ---------- */
		513	else if (match(param[0], "lock")) {
		514	int slot, found, restart;
		515
		516	restart = atoi(param[1]);
		517
		518	// select external reference clock
		519	for (i=0 ; i<drs->GetNumberOfBoards() ; i++) {
		520	b = drs->GetBoard(i);
		521	b->SetRefclk(1);
		522	b->SetFrequency(b->GetNominalFrequency(), true);
		523	}
		524
		525	// loop until keyboard hit
		526	do {
		527	clear_screen();
		528	printf(" 1 1 1 1 1 1 1 1 1 1 2 2\n");
		529	printf("2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1\n\n");
		530
		531	// upper slots
		532	for (slot = 2 ; slot<22 ; slot++) {
		533	found = 0;
		534	for (i=0 ; i<drs->GetNumberOfBoards() ; i++) {
		535	b = drs->GetBoard(i);
		536	if ((b->GetSlotNumber() & 1) == 0 && (b->GetSlotNumber() >> 1)+2 == slot) {
		537	found = 1;
		538	if (b->IsLMKLocked())
		539	printf("O ");
		540	else
		541	printf("- ");
		542	}
		543	}
		544	if (!found)
		545	printf(" ");
		546	}
		547	printf("\n");
		548
		549	// lower slots
		550	for (slot = 2 ; slot<22 ; slot++) {
		551	found = 0;
		552	for (i=0 ; i<drs->GetNumberOfBoards() ; i++) {
		553	b = drs->GetBoard(i);
		554	if ((b->GetSlotNumber() & 1) == 1 && (b->GetSlotNumber() >> 1)+2 == slot) {
		555	found = 1;
		556	if (b->IsLMKLocked())
		557	printf("O ");
		558	else
		559	printf("- ");
		560	}
		561	}
		562	if (!found)
		563	printf(" ");
		564	}
		565	printf("\n");
		566
		567	if (restart) {
		568	for (i=0 ; i<drs->GetNumberOfBoards() ; i++) {
		569	b = drs->GetBoard(i);
		570	b->SetFrequency(b->GetNominalFrequency(), true);
		571	}
		572	}
		573
		574	Sleep(300);
		575
		576	} while (!drs_kbhit());
		577	puts("");
		578	while (drs_kbhit())
		579	getch();
		580	}
		581
		582	/* start domino wave ---------- */
		583	else if (match(param[0], "start")) {
		584	for (i=i_start ; i<i_end ; i++) {
		585	b = drs->GetBoard(i);
		586	b->StartDomino();
		587	b->ReadFrequency(0, &freq);
		588	for (j=0 ; j<10 ; j++)
		589	if (b->GetDRSType() != 4 \|\| b->IsPLLLocked())
		590	break;
		591	if (j == 10)
		592	printf("Domino wave started but PLL did not lock!\n");
		593	else
		594	printf("Domino wave started at %1.3lf GHz\n", freq);
		595	}
		596	}
		597
		598	/* issue soft trigger ---------- */
		599	else if (match(param[0], "stop")) {
		600	for (i=i_start ; i<i_end ; i++) {
		601	b = drs->GetBoard(i);
		602	b->SoftTrigger();
		603	}
		604	}
		605
		606	/* set serial ---------- */
		607	else if (match(param[0], "serial")) {
		608	for (i=i_start ; i<i_end ; i++) {
		609	b = drs->GetBoard(i);
		610	if (param[1][0] == 0) {
		611	printf("Serial number: ");
		612	fgets(str, sizeof(str), stdin);
		613	} else
		614	strlcpy(str, param[1], sizeof(str));
		615
		616	if (!b->SetBoardSerialNumber(atoi(str)))
		617	printf("Board EEPROM is write protected\n");
		618	else
		619	printf("Serial number successfully changed\n");
		620	}
		621	}
		622
		623	/* eeprom test ---------- */
		624	else if (match(param[0], "et")) {
		625	unsigned short buf[16384];
		626	unsigned short rbuf[16384];
		627	int n_error;
		628
		629	do {
		630	for (i=0 ; i<16384 ; i++)
		631	buf[i] = rand();
		632	b->WriteEEPROM(1, buf, sizeof(buf));
		633	memset(rbuf, 0, sizeof(rbuf));
		634	b->Write(T_RAM, 0, rbuf, sizeof(rbuf));
		635	b->ReadEEPROM(1, rbuf, sizeof(rbuf));
		636	for (i=n_error=0 ; i<16384 ; i++)
		637	if (buf[i] != rbuf[i]) {
		638	printf("%04X %04X - %04X\n", i, buf[i], rbuf[i]);
		639	n_error++;
		640	}
		641
		642	printf("32 kb written, %d errors\n", n_error);
		643	} while (!drs_kbhit());
		644
		645	while (drs_kbhit())
		646	getch();
		647	}
		648
		649	/* set frequency ---------- */
		650	else if (match(param[0], "freq")) {
		651	for (i=i_start ; i<i_end ; i++) {
		652	b = drs->GetBoard(i);
		653	if (param[1][0] == 0) {
		654	printf("Frequency: ");
		655	fgets(str, sizeof(str), stdin);
		656	} else
		657	strlcpy(str, param[1], sizeof(str));
		658
		659	b->SetDebug(1);
		660
		661	if (param[2][0] && atoi(param[2]))
		662	b->RegulateFrequency(atof(str));
		663	else
		664	b->SetFrequency(atof(str), true);
		665	}
		666	}
		667
		668	/* set calibration voltage ---------- */
		669	else if (match(param[0], "volt")) {
		670	for (i=i_start ; i<i_end ; i++) {
		671	b = drs->GetBoard(i);
		672	if (param[1][0] == 0) {
		673	printf("Voltage or \"off\": ");
		674	fgets(str, sizeof(str), stdin);
		675	} else
		676	strlcpy(str, param[1], sizeof(str));
		677
		678	if (str[0] == 'o') {
		679	b->EnableAcal(0, 0);
		680	puts("Calibration voltage turned off");
		681	} else {
		682	b->EnableAcal(1, atof(str));
		683	printf("Voltage set to %1.3lf Volt\n", atof(str));
		684	}
		685	}
		686	}
		687
		688	/* set channel configuration ---------- */
		689	else if (match(param[0], "chn")) {
		690	for (i=i_start ; i<i_end ; i++) {
		691	b = drs->GetBoard(i);
		692	if (param[1][0] == 0) {
		693	printf("Number of channels (8,4,2,1): ");
		694	fgets(str, sizeof(str), stdin);
		695	} else
		696	strlcpy(str, param[1], sizeof(str));
		697
		698	if (b->SetChannelConfig(0, 8, atoi(str)))
		699	printf("DRS4 configured for %d channels\n", atoi(str));
		700	}
		701	}
		702
		703	/* set trigger level ---------- */
		704	else if (match(param[0], "tlevel")) {
		705	for (i=i_start ; i<i_end ; i++) {
		706	b = drs->GetBoard(i);
		707	if (param[1][0] == 0) {
		708	printf("Voltage: ");
		709	fgets(str, sizeof(str), stdin);
		710	} else
		711	strlcpy(str, param[1], sizeof(str));
		712
		713	b->SetTriggerLevel(atof(str));
		714	printf("Trigger level set to %1.3lf Volt\n", atof(str));
		715	}
		716	}
		717
		718	/* trigger on/off ---------- */
		719	else if (match(param[0], "trig")) {
		720	for (i=i_start ; i<i_end ; i++) {
		721	b = drs->GetBoard(i);
		722	b->EnableTrigger(atoi(param[1]), 0);
		723	if (atoi(param[1]) == 1) {
		724	puts("Hardware fast trigger is on");
		725	} else if (atoi(param[1]) == 2) {
		726	puts("Hardware slow trigger is on");
		727	} else {
		728	puts("Hardware trigger is off");
		729	}
		730	}
		731	}
		732
		733	/* timing calibration signal on/off ---------- */
		734	else if (match(param[0], "tcs")) {
		735	for (i=i_start ; i<i_end ; i++) {
		736	b = drs->GetBoard(i);
		737	b->EnableTcal(atoi(param[1]), 0, 0);
		738	b->SelectClockSource(0);
		739	if (atoi(param[1]))
		740	puts("Timing calibration signal is on");
		741	else
		742	puts("Timing calibration signal is off");
		743	}
		744	}
		745
		746	/* timing calibration signal on/off ---------- */
		747	else if (match(param[0], "refclk")) {
		748	for (i=i_start ; i<i_end ; i++) {
		749	b = drs->GetBoard(i);
		750	b->SetRefclk(atoi(param[1]));
		751	// re-set frequency since LMK configuration needs to be changed
		752	b->SetFrequency(b->GetNominalFrequency(), true);
		753	if (atoi(param[1]))
		754	puts("Refclock set to external through P2");
		755	else
		756	puts("Refclock set to internal (FPGA)");
		757	}
		758	}
		759
		760	/* domino mode 0/1 ---------- */
		761	else if (match(param[0], "dmode")) {
		762	for (i=i_start ; i<i_end ; i++) {
		763	b = drs->GetBoard(i);
		764	if (atoi(param[1]) == 1) {
		765	b->SetDominoMode(1);
		766	puts("Domino mode switched to cyclic");
		767	} else {
		768	b->SetDominoMode(0);
		769	puts("Domino mode switched to single shot");
		770	}
		771	}
		772	}
		773
		774	/* active mode 0/1 ---------- */
		775	else if (match(param[0], "active")) {
		776	for (i=i_start ; i<i_end ; i++) {
		777	b = drs->GetBoard(i);
		778	if (atoi(param[1]) == 1) {
		779	b->SetDominoActive(1);
		780	puts("Domino wave active during readout");
		781	} else {
		782	b->SetDominoMode(0);
		783	puts("Domino wave stopped during readout");
		784	}
		785	}
		786	}
		787
		788	/* delayed start on/off ---------- */
		789	else if (match(param[0], "del")) {
		790	for (i=i_start ; i<i_end ; i++) {
		791	b = drs->GetBoard(i);
		792	if (b->GetDRSType() == 4)
		793	puts("Delayed start not possible for DRS4");
		794	else {
		795	if (atoi(param[1]) == 1) {
		796	b->SetDelayedStart(1);
		797	puts("Delayed start is on");
		798	} else {
		799	b->SetDelayedStart(0);
		800	puts("Delayed start is off");
		801	}
		802	}
		803	}
		804	}
		805
		806	/* transparent mode on/off ---------- */
		807	else if (match(param[0], "trans")) {
		808	for (i=i_start ; i<i_end ; i++) {
		809	b = drs->GetBoard(i);
		810	if (b->GetDRSType() != 4)
		811	puts("Transparen mode only possible for DRS4");
		812	else {
		813	if (atoi(param[1]) == 1) {
		814	b->SetTranspMode(1);
		815	puts("Transparent mode is on");
		816	} else {
		817	b->SetTranspMode(0);
		818	puts("Transparent mode is off");
		819	}
		820	}
		821	}
		822	}
		823
		824	/* standby mode on/off ---------- */
		825	else if (match(param[0], "standby")) {
		826	for (i=i_start ; i<i_end ; i++) {
		827	b = drs->GetBoard(i);
		828	if (b->GetDRSType() != 4)
		829	puts("Standby mode only possible for DRS4");
		830	else {
		831	if (atoi(param[1]) == 1) {
		832	b->SetStandbyMode(1);
		833	puts("Standby mode is on");
		834	} else {
		835	b->SetStandbyMode(0);
		836	puts("Standby mode is off");
		837	}
		838	}
		839	}
		840	}
		841
		842	/* offset ---------- */
		843	else if (match(param[0], "offset")) {
		844	for (i=i_start ; i<i_end ; i++) {
		845	b = drs->GetBoard(i);
		846	b->SetVoltageOffset(atof(param[1]), atof(param[2]));
		847	}
		848	}
		849
		850	/* phase ---------- */
		851	else if (match(param[0], "phase")) {
		852	for (i=i_start ; i<i_end ; i++) {
		853	b = drs->GetBoard(i);
		854	b->SetADCClkPhase(atoi(param[1]), atoi(param[2]) > 0);
		855	}
		856	}
		857
		858	/* directory ---------- */
		859	else if (match(param[0], "dir")) {
		860
		861	#ifdef HAVE_VME
		862	#ifdef CF_VIA_USB
		863	{
		864	if (param[2][0])
		865	i = atoi(param[2]);
		866	else
		867	i = 1;
		868	printf("Physical drive %d:\n", i);
		869
		870	if (ace_init(NULL, i, &ace) != ACE_SUCCESS) {
		871	printf("Cannot access ACE on physical drive %d\n", i);
		872	} else {
		873	#else
		874	for (i=i_start ; i<i_end ; i++) {
		875
		876	/* do only once per VME board */
		877	if (i_end - i_start > 1 && (i % 2) == 1)
		878	continue;
		879
		880	b = drs->GetBoard(i);
		881
		882	printf("VME slot %2d: ", (b->GetSlotNumber() >> 1) + 2);
		883
		884	if (ace_init(b->GetVMEInterface(), (b->GetSlotNumber() >> 1)+2, &ace) != ACE_SUCCESS) {
		885	printf("Cannot access ACE in slot %d\n", (b->GetSlotNumber() >> 1)+2);
		886	} else {
		887	#endif
		888	ace_dir(&ace);
		889	}
		890	}
		891	#else
		892	printf("No VME support compiled into drscl\n");
		893	#endif // HAVE_VME
		894	}
		895
		896	/* upload ---------- */
		897	else if (match(param[0], "upload")) {
		898
		899	#ifdef HAVE_VME
		900	#ifdef CF_VIA_USB
		901	{
		902	if (param[2][0])
		903	i = atoi(param[2]);
		904	else
		905	i = 1;
		906	printf("Physical drive %d:\n", i);
		907
		908	if (ace_init(NULL, i, &ace) != ACE_SUCCESS) {
		909	printf("Cannot access ACE on physical drive %d\n", i);
		910	} else {
		911	#else
		912
		913	/* use SVN file as default */
		914	if (param[1][0] == 0) {
		915	#ifdef _MSC_VER
		916	if (b->GetDRSType() == 4)
		917	strcpy(str, "c:\\meg\\online\\VPC\\drs4\\2vp30\\cflash\\drs4\\rev0\\rev0.ace");
		918	else if (b->GetDRSType() == 3)
		919	strcpy(str, "c:\\meg\\online\\VPC\\drs3\\2vp30\\cflash\\drs3\\rev0\\rev0.ace");
		920	else
		921	strcpy(str, "c:\\meg\\online\\VPC\\drs2\\2vp30\\cflash\\drs2\\rev0\\rev0.ace");
		922	#else
		923	if (b->GetDRSType() == 4)
		924	strcpy(str, "/home/meg/meg/online/VPC/drs4/2vp30/cflash/drs4/rev0/rev0.ace");
		925	else if (b->GetDRSType() == 3)
		926	strcpy(str, "/home/meg/meg/online/VPC/drs3/2vp30/cflash/drs3/rev0/rev0.ace");
		927	else
		928	strcpy(str, "/home/meg/meg/online/VPC/drs2/2vp30/cflash/drs2/rev0/rev0.ace");
		929	#endif
		930	printf("Enter filename or hit return for \n%s\n", str);
		931	fgets(line, sizeof(line), stdin);
		932	if (line[0] == '\r' \|\| line[0] == '\n')
		933	strcpy(file_name, str);
		934	else
		935	strcpy(file_name, line);
		936	strcpy(param[1], str);
		937	} else
		938	strcpy(file_name, param[1]);
		939
		940	for (i=i_start ; i<i_end ; i++) {
		941
		942	/* do only once per VME board */
		943	if (i_end - i_start > 1 && (i % 2) == 1)
		944	continue;
		945
		946	b = drs->GetBoard(i);
		947
		948	if (b->GetTransport() == TR_USB) {
		949	printf("Cannot upload to USB board.\n");
		950	} else {
		951	printf("VME slot %d:\n", (b->GetSlotNumber() >> 1)+2);
		952	if (ace_init(b->GetVMEInterface(), (b->GetSlotNumber() >> 1)+2, &ace) != ACE_SUCCESS) {
		953	printf("Cannot access ACE in slot %d\n", (b->GetSlotNumber() >> 1)+2);
		954	} else {
		955	#endif
		956	status = ace_upload(&ace, file_name);
		957	}
		958	}
		959	}
		960	printf("\nPlease issue a power cycle to activate new firmware\n");
		961	#else
		962	printf("No VME support compiled into drscl\n");
		963	#endif // HAVE_VME
		964	}
		965
		966	/* download ---------- */
		967	else if (match(param[0], "download")) {
		968
		969	#ifdef HAVE_VME
		970	b = drs->GetBoard(i_start);
		971
		972	if (b->GetTransport() == TR_USB) {
		973	printf("Cannot upload to USB board.\n");
		974	} else {
		975	printf("VME slot %d:\n", (b->GetSlotNumber() >> 1)+2);
		976	if (ace_init(b->GetVMEInterface(), (b->GetSlotNumber() >> 1)+2, &ace) != ACE_SUCCESS) {
		977	printf("Cannot access ACE in slot %d\n", (b->GetSlotNumber() >> 1)+2);
		978	} else {
		979	strcpy(str, "rev0.ace");
		980	if (param[1][0] == 0) {
		981	printf("Enter filename or hit return for \n%s\n", str);
		982	fgets(line, sizeof(line), stdin);
		983	if (line[0] == '\r' \|\| line[0] == '\n')
		984	strcpy(file_name, str);
		985	else
		986	strcpy(file_name, line);
		987	strcpy(param[1], str);
		988	} else
		989	strcpy(file_name, param[1]);
		990
		991	if (strchr(file_name, '\r'))
		992	*strchr(file_name, '\r') = 0;
		993	if (strchr(file_name, '\n'))
		994	*strchr(file_name, '\n') = 0;
		995
		996	status = ace_download(&ace, file_name);
		997	}
		998	}
		999	#else
		1000	printf("No VME support compiled into drscl\n");
		1001	#endif // HAVE_VME
		1002	}
		1003
		1004	/* calibration ---------- */
		1005	else if (match(param[0], "calib")) {
		1006	debug = strcmp(param[1], "debug") == 0 \|\| strcmp(param[2], "debug") == 0 \|\| strcmp(param[3], "debug") == 0;
		1007	if (param[1][0]) {
		1008	strlcpy(dir, param[1], sizeof(str));
		1009	} else
		1010	getcwd(dir, sizeof(dir));
		1011
		1012	while (dir[strlen(dir)-1] == '\n' \|\| dir[strlen(dir)-1] == '\r')
		1013	dir[strlen(dir)-1] = 0;
		1014
		1015	b = drs->GetBoard(i_start);
		1016
		1017	printf("\n Enter calibration frequency [GHz]: ");
		1018	fgets(line, sizeof(line), stdin);
		1019	freq = atof(line);
		1020
		1021	if (b->GetDRSType() == 2) {
		1022	printf(" Enter the expected trigger frequency [Hz]: ");
		1023	fgets(line, sizeof(line), stdin);
		1024	triggerfreq = atof(line);
		1025	} else
		1026	triggerfreq = 0;
		1027
		1028	ext_refclk = 0;
		1029	if (b->GetBoardType() == 6) {
		1030	printf("Use [e]xternal or [i]nternal reference clock: ");
		1031	fgets(line, sizeof(line), stdin);
		1032	ext_refclk = line[0] == 'e';
		1033	}
		1034
		1035	if (b->GetDRSType() == 4) {
		1036	printf(" Enter range [V]: ");
		1037	fgets(line, sizeof(line), stdin);
		1038	range = atof(line);
		1039
		1040	printf(" Enter mode [1]024 or [2]048 bin mode: ");
		1041	fgets(line, sizeof(line), stdin);
		1042	cascading = atoi(line);
		1043	} else {
		1044	range = 0;
		1045	cascading = 0;
		1046	}
		1047
		1048	if (b->GetDRSType() == 4) {
		1049	printf("\nPlease make sure that no input signal are present then hit any key\r");
		1050	fflush(stdout);
		1051	while (!drs_kbhit());
		1052	printf(" \r");
		1053	while (drs_kbhit())
		1054	getchar();
		1055	}
		1056
		1057	for (i=i_start ; i<i_end ; i++) {
		1058	b = drs->GetBoard(i);
		1059	if (b->GetTransport() == TR_VME)
		1060	printf("Creating Calibration of Board in VME slot %2d %s, serial #%04d\n",
		1061	(b->GetSlotNumber() >> 1)+2, ((b->GetSlotNumber() & 1) == 0) ? "upper" : "lower",
		1062	b->GetBoardSerialNumber());
		1063	else
		1064	printf("Creating Calibration of Board on USB, serial #%04d\n",
		1065	b->GetBoardSerialNumber());
		1066	if (b->GetDRSType() == 4) {
		1067	ProgressBar p;
		1068	if (b->GetTransport() == TR_VME) {
		1069	if (cascading == 2)
		1070	b->SetChannelConfig(7, 8, 4); // 7 means read all 9 channels per chip
		1071	else
		1072	b->SetChannelConfig(7, 8, 8);
		1073	} else {
		1074	if (cascading == 2)
		1075	b->SetChannelConfig(0, 8, 4);
		1076	else
		1077	b->SetChannelConfig(0, 8, 8);
		1078	}
		1079
		1080	b->SetRefclk(ext_refclk);
		1081	b->SetFrequency(freq, true);
		1082	b->SetInputRange(range);
		1083	b->CalibrateVolt(&p);
		1084	} else {
		1085	b->SetDebug(debug);
		1086	b->Init();
		1087	b->SetFrequency(freq, true);
		1088	b->SoftTrigger();
		1089
		1090	if (b->GetDRSType() == 3)
		1091	b->GetResponseCalibration()->SetCalibrationParameters(1,11,0,20,0,0,0,0,0);
		1092	else
		1093	b->GetResponseCalibration()->SetCalibrationParameters(1,36,110,20,19,40,15,triggerfreq,0);
		1094	if (!strcmp(dir,"lab"))
		1095	b->SetCalibrationDirectory("C:/experiment/calibrations");
		1096	else if (!strcmp(dir,"area"))
		1097	b->SetCalibrationDirectory("/home/meg/meg/online/calibrations");
		1098	else
		1099	b->SetCalibrationDirectory(dir);
		1100	for (j=0;j<2;j++) {
		1101	b->GetResponseCalibration()->ResetCalibration();
		1102	while (!b->GetResponseCalibration()->RecordCalibrationPoints(j)) {}
		1103	while (!b->GetResponseCalibration()->FitCalibrationPoints(j)) {}
		1104	while (!b->GetResponseCalibration()->OffsetCalibration(j)) {}
		1105	if (!b->GetResponseCalibration()->WriteCalibration(j))
		1106	break;
		1107	}
		1108	}
		1109	}
		1110	}
		1111
		1112	/* timing calibration ---------- */
		1113	else if (match(param[0], "tcalib")) {
		1114
		1115	freq = 0;
		1116	if (param[1][0])
		1117	freq = atof(param[1]);
		1118
		1119	if (freq == 0) {
		1120	printf("Enter calibration frequency [GHz]: ");
		1121	fgets(line, sizeof(line), stdin);
		1122	freq = atof(line);
		1123	}
		1124
		1125	for (i=i_start ; i<i_end ; i++) {
		1126	b = drs->GetBoard(i);
		1127	if (b->GetDRSType() < 4)
		1128	printf("Timing calibration not possivle for DRS2 or DRS3\n");
		1129	else if (b->GetFirmwareVersion() < 13279)
		1130	printf("Firmware revision 13279 or later required for timing calibration\n");
		1131	else if (b->GetDRSType() == 4) {
		1132	printf("Creating Timing Calibration of Board #%d\n", b->GetBoardSerialNumber());
		1133	ProgressBar p;
		1134	b->SetFrequency(freq, true);
		1135	status = b->CalibrateTiming(&p);
		1136	if (!status)
		1137	printf("Error performing timing calibration, please check waveforms\n");
		1138	printf("\n");
		1139	}
		1140	}
		1141	}
		1142
		1143	/* tcout ---------- */
		1144	else if (match(param[0], "tcout")) {
		1145	float time[1024];
		1146	int chip;
		1147	int k;
		1148	int idx = 0;
		1149	int first_board = i_start;
		1150	int last_board = i_end;
		1151
		1152	file_name[0] = 0;
		1153	strcpy(file_name, param[1]);
		1154	if (file_name[0]) {
		1155	f = fopen(file_name, "wt");
		1156	if (f == NULL) {
		1157	printf("Cannot open file \"%s\"\n", file_name);
		1158	} else {
		1159	first_board = 0;
		1160	last_board = drs->GetNumberOfBoards();
		1161	}
		1162	idx += atoi(param[2]);
		1163	} else
		1164	f = NULL;
		1165
		1166	if (f) {
		1167	fprintf(f, "-- Replace %%%% with correct id\n");
		1168	}
		1169	for (i=first_board ; i<last_board ; i++) {
		1170	b = drs->GetBoard(i);
		1171	if (b->GetDRSType() >= 4) {
		1172	for (chip = 0; chip < b->GetNumberOfChips(); chip++) {
		1173	b->GetTime(chip, 0, b->GetTriggerCell(0), time, true, false);
		1174	if (f) {
		1175	fprintf(f, "INSERT INTO MEGDRSTimeCalibration VALUES(%%%%,%d,%d", idx,
		1176	static_cast<int>(b->GetNominalFrequency() * 10 + 0.5) * 100);
		1177	for (j=0 ; j<1024 ; j++)
		1178	fprintf(f, ",%g", time[j] * 1e-9);
		1179	fprintf(f, ",%d,%d", b->GetBoardSerialNumber(), chip);
		1180	fprintf(f, ",%g);\n", 1 / (b->GetNominalFrequency() * 1e9) * 1024);
		1181	idx++;
		1182	} else {
		1183	printf("Board %d\n", b->GetBoardSerialNumber());
		1184	for (j=0 ; j<128 ; j++) {
		1185	printf("%4d: ", j*8);
		1186	for (k=0 ; k<7 ; k++)
		1187	printf("%6.1lf ", time[j*8+k]);
		1188	printf("%6.1lf\n", time[j*8+k]);
		1189	}
		1190	printf("n");
		1191	}
		1192	}
		1193	} else {
		1194	// DRS2 or DRS3
		1195	idx += 2;
		1196	}
		1197	}
		1198	if (f) {
		1199	fclose(f);
		1200	printf("Data successfully written to \"%s\"\n", file_name);
		1201	}
		1202	}
		1203
		1204	/* read */
		1205	else if (match(param[0], "read")) {
		1206	float waveform[2048];
		1207	short swaveform[2048];
		1208	calib = 0;
		1209
		1210	file_name[0] = 0;
		1211	if (param[1][0]) {
		1212	idx = atoi(param[1]);
		1213	calib = atoi(param[2]);
		1214	if (strlen(param[2]) > 2)
		1215	strcpy(file_name, param[2]);
		1216	else
		1217	strcpy(file_name, param[3]);
		1218	} else {
		1219	printf("Enter channel number (0..19): ");
		1220	fgets(line, sizeof(line), stdin);
		1221	idx = atoi(line);
		1222	}
		1223
		1224	if (idx<0 \|\| idx>19)
		1225	printf("Channel number must be between 0 and 19\n");
		1226	else {
		1227	b = drs->GetBoard(i_start);
		1228	if (!b->IsEventAvailable())
		1229	printf("Error: Domino wave is running, please issue a \"stop\" first\n");
		1230	else {
		1231	if (calib == 1) {
		1232	if (b->GetDRSType() == 4) {
		1233	if (!b->IsVoltageCalibrationValid()) {
		1234	printf("Calibration not valid for board #%d\n", b->GetBoardSerialNumber());
		1235	calib = 0;
		1236	}
		1237
		1238	} else {
		1239	#ifdef _MSC_VER
		1240	b->SetCalibrationDirectory("C:/experiment/calibrations");
		1241	#else
		1242	b->SetCalibrationDirectory("/home/meg/meg/online/calibrations");
		1243	#endif
		1244	if (!b->GetResponseCalibration()->IsRead(0))
		1245	if (!b->GetResponseCalibration()->ReadCalibration(0))
		1246	calib = 0;
		1247	if (!b->GetResponseCalibration()->IsRead(1))
		1248	if (!b->GetResponseCalibration()->ReadCalibration(1))
		1249	calib = 0;
		1250	}
		1251	}
		1252
		1253	status = b->TransferWaves(idx, idx);
		1254	if (file_name[0]) {
		1255	f = fopen(file_name, "wt");
		1256	if (f == NULL)
		1257	printf("Cannot open file \"%s\"\n", file_name);
		1258	} else
		1259	f = NULL;
		1260
		1261	if (calib) {
		1262	status = b->GetWave(idx/b->GetNumberOfChannels(), idx%b->GetNumberOfChannels(), waveform,
		1263	true, b->GetTriggerCell(idx/b->GetNumberOfChannels()), b->GetStopWSR(idx/b->GetNumberOfChannels()));
		1264	if (status == 0) {
		1265	if (f)
		1266	for (i=0 ; i<b->GetChannelDepth() ; i++)
		1267	fprintf(f, "%6.1lf\n", waveform[i]);
		1268	else {
		1269	for (i=0 ; i<b->GetChannelDepth()/8 ; i++) {
		1270	printf("%4d: ", i*8);
		1271	for (j=0 ; j<7 ; j++)
		1272	printf("%6.1lf ", waveform[i*8+j]);
		1273	printf("%6.1lf\n", waveform[i*8+j]);
		1274	}
		1275	}
		1276	}
		1277	} else {
		1278	status = b->GetWave(idx/b->GetNumberOfChannels(), idx%b->GetNumberOfChannels(), swaveform, 0, 0);
		1279	if (status == 0) {
		1280	if (f)
		1281	for (i=0 ; i<b->GetChannelDepth() ; i++)
		1282	fprintf(f, "%4d\n", swaveform[i]);
		1283	else {
		1284	for (i=0 ; i<b->GetChannelDepth()/16 ; i++) {
		1285	for (j=0 ; j<15 ; j++)
		1286	printf("%4d ", swaveform[i*16+j] >> 4);
		1287	printf("%4d\n", swaveform[i*16+j] >> 4);
		1288	}
		1289	}
		1290	}
		1291	}
		1292	}
		1293	}
		1294
		1295	if (f) {
		1296	fclose(f);
		1297	printf("Data successfully written to \"%s\"\n", file_name);
		1298	}
		1299	}
		1300
		1301	/* register test ---------- */
		1302	else if (match(param[0], "reg")) {
		1303	b->RegisterTest();
		1304	}
		1305
		1306	/* RAM test */
		1307	else if (match(param[0], "ram")) {
		1308	if (param[1][0] == 0)
		1309	b->RAMTest(3);
		1310	else
		1311	b->RAMTest(atoi(param[1]));
		1312	}
		1313
		1314	/* Change input range */
		1315	else if (match(param[0], "range")) {
		1316	for (i=i_start ; i<i_end ; i++) {
		1317	b = drs->GetBoard(i);
		1318	if (param[1][0] == 0) {
		1319	printf("Input range: ");
		1320	fgets(str, sizeof(str), stdin);
		1321	} else
		1322	strlcpy(str, param[1], sizeof(str));
		1323
		1324	b->SetInputRange(atof(str));
		1325	printf("Range set to %1.2lg V ... %1.2lg V\n", atof(str)-0.5, atof(str)+0.5);
		1326	}
		1327	}
		1328
		1329	/* Chip Test */
		1330	else if (match(param[0], "ct")) {
		1331	if (drs->GetNumberOfBoards() == 0)
		1332	puts("No DRS board found");
		1333	else {
		1334	puts("Press 'q' to quit, any other key to repeat test.\n");
		1335	do {
		1336	if (b->ChipTest())
		1337	puts("Chip test successfully finished");
		1338	else
		1339	puts("\007Chip Error!");
		1340
		1341	b->SetStandbyMode(1);
		1342	for (i=0 ; i<8 ; i++)
		1343	b->SetDAC(i, 0);
		1344	i = getch();
		1345	b->SetStandbyMode(0);
		1346	} while (i != 'q');
		1347	}
		1348	}
		1349
		1350	/* calib0 for speed vs. temperature calibration */
		1351	else if (match(param[0], "c0")) {
		1352
		1353	double volt, freq;
		1354
		1355	b->Init();
		1356	b->SetFrequency(5, true);
		1357	b->EnableAcal(0, 0);
		1358	b->SetDominoMode(1);
		1359
		1360	for (volt=2.5 ; volt > 0 ; volt -= 0.05) {
		1361	printf("%4.1lf - %5.3lf ", b->GetTemperature(), volt);
		1362	b->SetDAC(1, volt);
		1363	b->SetDAC(2, volt);
		1364	Sleep(100);
		1365	b->ReadFrequency(0, &freq);
		1366
		1367	printf("%5.3lf\n", freq);
		1368
		1369	if (drs_kbhit())
		1370	break;
		1371	}
		1372
		1373	while (drs_kbhit())
		1374	getch();
		1375
		1376	b->Init(); // reset voltage offset
		1377	}
		1378
		1379	/* calib1 */
		1380	else if (match(param[0], "c1")) {
		1381
		1382	short swaveform[1024];
		1383	double volt;
		1384	double av[1024];
		1385	int k;
		1386
		1387	b->Init();
		1388	b->SetFrequency(5, true);
		1389	b->SetDominoMode(1);
		1390	b->SetDominoActive(1);
		1391	b->SetReadoutMode(1);
		1392
		1393	for (volt=-0.5 ; volt <= 0.5001 ; volt += 0.02) {
		1394	printf("%4.1lf - %6.0lf ", b->GetTemperature(), 1000*volt);
		1395	b->EnableAcal(1, volt);
		1396	b->StartDomino();
		1397	Sleep(100);
		1398
		1399	memset(av, 0, sizeof(av));
		1400
		1401	for (j=0 ; j<100 ; j++) {
		1402	for (i=0 ; i<10 ; i++)
		1403	b->IsBusy();
		1404	b->SoftTrigger();
		1405	while (b->IsBusy());
		1406	b->StartDomino();
		1407	b->TransferWaves(b->GetNumberOfChannels()*b->GetNumberOfChips());
		1408	i = b->GetTriggerCell(0);
		1409	b->GetWave(0, 0, swaveform, false, i, 1);
		1410
		1411	for (k=0 ; k<1024 ; k++)
		1412	av[k] += swaveform[k];
		1413
		1414	if (drs_kbhit())
		1415	break;
		1416	}
		1417
		1418	for (k=0 ; k<1024 ; k++)
		1419	av[k] /= j;
		1420
		1421	for (k=0 ; k<5 ; k++)
		1422	printf("%10.2lf ", 1000*(av[k]/65536-0.5));
		1423	printf("\n");
		1424
		1425	if (drs_kbhit())
		1426	break;
		1427	}
		1428	// keep chip "warm"
		1429	b->StartDomino();
		1430	}
		1431
		1432	/* test0 */
		1433	else if (match(param[0], "t0")) {
		1434	b->Init();
		1435	b->SetDominoMode(1);
		1436	b->SetDominoActive(1);
		1437	b->SetReadoutMode(1);
		1438	b->SetFrequency(0.8, true);
		1439	b->EnableTrigger(1, 0);
		1440	b->SetTriggerLevel(1);
		1441	b->SetChannelConfig(0, 8, 4);
		1442
		1443	do {
		1444	b->StartDomino();
		1445	while (b->IsBusy())
		1446	if (drs_kbhit())
		1447	break;
		1448
		1449	b->TransferWaves();
		1450
		1451	if (b->GetBoardType() == 5) {
		1452	printf("%04d(0x%03X) - %3d\n", b->GetTriggerCell(0), b->GetTriggerCell(0),
		1453	b->GetStopWSR(0));
		1454	} else {
		1455	printf("%04d %04d %04d %04d - %3d %3d %3d\n",
		1456	b->GetTriggerCell(0),
		1457	b->GetTriggerCell(1),
		1458	b->GetTriggerCell(2),
		1459	b->GetTriggerCell(3),
		1460	b->GetTriggerCell(1)-b->GetTriggerCell(0),
		1461	b->GetTriggerCell(2)-b->GetTriggerCell(0),
		1462	b->GetTriggerCell(3)-b->GetTriggerCell(0));
		1463	}
		1464	Sleep(300);
		1465	} while (!drs_kbhit());
		1466
		1467	while (drs_kbhit())
		1468	getch();
		1469	}
		1470
		1471	/* test1 simple start/stop loop */
		1472	else if (match(param[0], "t1")) {
		1473	time_t t1, t2;
		1474
		1475	b->SetDebug(1);
		1476	b->Init();
		1477	b->SetFrequency(5, true);
		1478	b->SetDominoMode(1);
		1479	b->SetReadoutMode(0);
		1480	b->SetTranspMode(0);
		1481	b->SetDominoActive(1);
		1482	b->EnableAcal(1, 0.5);
		1483	b->EnableTcal(1);
		1484	time(&t1);
		1485	do {
		1486	time(&t2);
		1487	} while (t1 == t2);
		1488	i=0;
		1489	t1 = t2;
		1490	do {
		1491	b->StartDomino();
		1492	b->SoftTrigger();
		1493	b->TransferWaves();
		1494	i++;
		1495	time(&t2);
		1496	if (t2 > t1) {
		1497	printf("%d events/sec\n", i);
		1498	i = 0;
		1499	t1 = t2;
		1500	}
		1501	} while (!drs_kbhit());
		1502
		1503	while (drs_kbhit())
		1504	getch();
		1505	}
		1506
		1507	/* test2 readout from stop position */
		1508	else if (match(param[0], "t2")) {
		1509	short sw[1024];
		1510	double volt = 0.5;
		1511
		1512	b->Init();
		1513	b->SetNumberOfChannels(10);
		1514	b->SetChannelConfig(0, 9, 12);
		1515	b->SetFrequency(2, true);
		1516	b->EnableTcal(1);
		1517	b->SetReadoutMode(0);
		1518	b->SetDominoActive(0);
		1519	b->SetDominoMode(1);
		1520	b->SetCalibTiming(0, 0);
		1521	b->StartDomino();
		1522	b->EnableAcal(1, 0.5);
		1523	if (!b->GetResponseCalibration()->IsRead(0))
		1524	if (!b->GetResponseCalibration()->ReadCalibration(0))
		1525	printf("cannot read calibration\n");
		1526
		1527	do {
		1528	//volt += 0.25;
		1529	if (volt > 1)
		1530	volt = 0;
		1531	b->SoftTrigger();
		1532	while (b->IsBusy());
		1533	b->StartDomino();
		1534	b->EnableAcal(1, volt);
		1535	b->TransferWaves();
		1536
		1537	b->GetWave(0, 1, sw, 0, 0);
		1538	printf("%d ", sw[100]);
		1539	b->GetWave(0, 1, sw, 1, 0);
		1540	printf("%1.4lf\n", sw[100]/4096.0);
		1541	} while (!drs_kbhit());
		1542	while (drs_kbhit()) getch();
		1543	}
		1544
		1545	/* DAC Loop */
		1546	else if (match(param[0], "t3")) {
		1547	double volt;
		1548	do {
		1549	for (volt=2.5 ; volt > 0 ; volt -= 0.05) {
		1550
		1551	printf("%4.1lf - %5.3lf\n", b->GetTemperature(), volt);
		1552	b->SetDAC(0, volt);
		1553	b->SetDAC(1, 2.5-volt);
		1554	Sleep(100);
		1555	if (drs_kbhit())
		1556	break;
		1557	}
		1558	} while (!drs_kbhit());
		1559
		1560	while (drs_kbhit())
		1561	getch();
		1562	}
		1563
		1564	/* noise measurement */
		1565	else if (match(param[0], "t4")) {
		1566	int i, n;
		1567	short sw[1024];
		1568	double ofs[1024], sx, sxx, avg, stdev, enob;
		1569
		1570	b->Init();
		1571	b->SetFrequency(2, true);
		1572	b->EnableTcal(0);
		1573	b->SetDominoMode(1);
		1574	b->StartDomino();
		1575	b->EnableAcal(1, 0.5);
		1576	Sleep(100);
		1577	b->SoftTrigger();
		1578	while (b->IsBusy());
		1579	b->StartDomino();
		1580	Sleep(100);
		1581	memset(ofs, 0, sizeof(ofs));
		1582
		1583	for (i=0 ; i<10 ; i++) {
		1584	b->SoftTrigger();
		1585	while (b->IsBusy());
		1586	b->StartDomino();
		1587	b->TransferWaves(1);
		1588	b->GetWave(0, 0, sw, 0, 0);
		1589	sx = sxx = 0;
		1590	for (n=0 ; n<1024 ; n++) {
		1591	ofs[n] += sw[n];
		1592	}
		1593	}
		1594
		1595	for (n=0 ; n<1024 ; n++)
		1596	ofs[n] /= i;
		1597
		1598	for (i=0 ; i<10 ; i++) {
		1599	b->SoftTrigger();
		1600	while (b->IsBusy());
		1601	b->StartDomino();
		1602	b->TransferWaves(1);
		1603	b->GetWave(0, 0, sw, 0, 0);
		1604
		1605	sx = sxx = 0;
		1606	for (n=10 ; n<1014 ; n++) {
		1607	sx += (sw[n]-ofs[n])/4096.0;
		1608	sxx += (sw[n]-ofs[n])/4096.0*(sw[n]-ofs[n])/4096.0;
		1609	}
		1610
		1611	if (i>5)
		1612	Sleep(5000);
		1613
		1614	avg = sx / n;
		1615	stdev = sqrt((sxx-sx*sx/n)/(n-1));
		1616	enob = log(1/stdev)/log(2.);
		1617	printf("avg=%1.4lf sd=%1.4lf ENOB=%1.1lf\n", avg, stdev, enob);
		1618	};
		1619	}
		1620
		1621	/* exit/quit ---------- */
		1622	else if (match(param[0], "exit") \|\| match(param[0], "quit"))
		1623	break;
		1624
		1625	else {
		1626	if (strchr(param[0], '\r'))
		1627	*strchr(param[0], '\r') = 0;
		1628	if (strchr(param[0], '\n'))
		1629	*strchr(param[0], '\n') = 0;
		1630	printf("Unknon command \"%s\"\n", param[0]);
		1631	}
		1632
		1633	} while (1);
		1634
		1635	delete drs;
		1636	}
		1637
		1638	/------------------------------------------------------------------/
		1639
		1640	int main()
		1641	{
		1642	printf("DRS command line tool, Revision %d\n", atoi(drscl_svn_revision+15));
		1643	printf("Type 'help' for a list of available commands.\n\n");
		1644
		1645	cmd_loop();
		1646	return 1;
		1647	}

Subversion Repositories f9daq

(root)/cvi/instr/DRS/drscl.cpp @ 261 - Rev 198