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source: trunk/FACT++/src/HeadersFAD.h@ 16056

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Last change on this file since 16056 was 16056, checked in by tbretz, 11 years ago
Added the night to the FadConfiguration.
File size: 12.7 KB

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1	#ifndef FACT_HeadersFAD
2	#define FACT_HeadersFAD
3
4	#ifdef __cplusplus
5	#include <ostream>
6
7	// For debugging
8	#include <iostream>
9
10	#include "ByteOrder.h"
11
12	// ====================================================================
13
14	namespace FAD
15	{
16	#endif
17	enum Enable
18	{
19	kCmdDrsEnable = 0x0600, // CMD_DENABLE/CMD_DISABLE
20	kCmdDwrite = 0x0800, // CMD_DWRITE_RUN/CMD_DWRITE_STOP
21	kCmdSclk = 0x1000, // CMD_SCLK_ON/OFF
22	kCmdSrclk = 0x1500, // CMD_SRCLK_ON/OFF
23	kCmdTriggerLine = 0x1800, // CMD_TRIGGERS_ON/CMD_TRIGGERS_OFF
24	kCmdContTrigger = 0x1f00,
25	kCmdRun = 0x2200, // CMD_Start/Stop
26	kCmdBusyOff = 0x2400, //
27	kCmdBusyOn = 0x3200, //
28	kCmdResetEventCounter = 0x2A00, //
29	kCmdSocket = 0x3000, // CMD_mode_command/CMD_mode_all_sockets
30	kCmdSingleTrigger = 0xA000, // CMD_Trigger
31	};
32
33	enum Commands
34	{
35	kCmdWriteExecute = 0x0400, // Configure FAD with the current config ram
36
37	kCmdWrite = 0x0500, // write to Config-RAM
38	kCmdWriteRoi = kCmdWrite\|0x00, // Baseaddress ROI-Values
39	kCmdWriteDac = kCmdWrite\|0x24, // Baseaddress DAC-Values
40
41	kCmdWriteRate = kCmdWrite\|0x2c, // Continous trigger rate
42	kCmdWriteRunNumberMSW = kCmdWrite\|0x2d, // Run Number most significant word
43	kCmdWriteRunNumberLSW = kCmdWrite\|0x2e, // Run Number least significant word
44
45	/*
46	kCmdRead = 0x0a00, // read from Config-RAM
47	kCmdReadRoi = kCmdRead\|0x00, // Baseaddress ROI-Values
48	kCmdReadDac = kCmdRead\|0x24, // Baseaddress DAC-Values
49	*/
50
51	kCmdPhaseIncrease = 0x1200, // CMD_PS_DIRINC
52	kCmdPhaseDecrease = 0x1300, // CMD_PS_DIRDEC
53	kCmdPhaseApply = 0x1400, // CMD_PS_DO
54	kCmdPhaseReset = 0x1700, // CMD_PS_RESET
55	};
56
57	namespace State
58	{
59	enum States
60	{
61	// State Machine states
62	kOffline = 1, // StateMachineImp::kSM_UserMode
63	kDisconnected,
64	kConnecting,
65	kConnected,
66	kConfiguring1,
67	kConfiguring2,
68	kConfigured,
69	kWritingData
70	};
71	}
72
73	enum FileFormat_t
74	{
75	kNone = 0, // Nothing is written just some little output in the log-stream
76	kDebug, // The contents of the headers are output to the console
77	kFits, // FITS file written with streamer class ofits
78	kRaw, // Raw binary streams are written
79	kCalib, // DRS calibration in progress
80	kCfitsio, // FITS file written with cfitsio
81	};
82
83	enum
84	{
85	kMaxBins = 1024,
86	kNumTemp = 4,
87	kNumDac = 8,
88	kNumChips = 4,
89	kNumChannelsPerChip = 9,
90	kNumChannels = kNumChips*kNumChannelsPerChip,
91	};
92
93	enum
94	{
95	kMaxRegAddr = 0xff, // Highest address in config-ram
96	kMaxRegValue = 0xffff,
97	kMaxDacAddr = kNumDac-1,
98	kMaxDacValue = 0xffff,
99	kMaxRoiAddr = kNumChannels-1,
100	kMaxRoiValue = kMaxBins,
101	kMaxRunNumber = 0xffffffff,
102	};
103
104	enum
105	{
106	kDelimiterStart = 0xfb01,
107	kDelimiterEnd = 0x04fe,
108	};
109
110	// --------------------------------------------------------
111
112	struct EventHeader
113	{
114	#ifdef __cplusplus
115	enum Bits
116	{
117	kDenable = 1<<11,
118	kDwrite = 1<<10,
119	//kRefClkTooHigh = 1<< 9,
120	kRefClkTooLow = 1<< 8,
121	kDcmLocked = 1<< 7,
122	kDcmReady = 1<< 6,
123	kSpiSclk = 1<< 5,
124	kBusyOff = 1<< 4, // Busy continously off
125	kTriggerLine = 1<< 3, // Trigger line enabled
126	kContTrigger = 1<< 2, // Cont trigger enabled
127	kSock17 = 1<< 1, // Socket 1-7 for data transfer
128	kBusyOn = 1<< 0, // Busy continously on
129	};
130
131	enum TriggerType
132	{
133	kLPext = 0x0100,
134	kLPint = 0x0200,
135	kPedestal = 0x0400,
136	kLPset = 0x7800,
137	kTIM = 0x8000,
138
139	kExt1 = 0x0001,
140	kExt2 = 0x0002,
141	kAll = kLPext\|kLPint\|kTIM\|kPedestal\|kExt1\|kExt2
142	};
143	#endif
144	// Einmalig: (new header changes entry in array --> send only if array changed)
145	// ----------------------------------
146	// Event builder stores an array with all available values.
147	// Disconnected boards are removed (replaced by def values)
148	// Any received header information is immediately put in the array.
149	// The array is transmitted whenever it changes.
150	// This will usually happen only very rarely when a new connection
151	// is opened.
152	//
153	// Array[40] of BoardId
154	// Array[40] of Version
155	// Array[40] of DNA
156
157	// Slow changes: (new header changes entry in array --> send only if arra changed)
158	// -------------------------------------------
159	// Event builder stores an array with all available values.
160	// Disconnected boards can be kept in the arrays.
161	// Any received header information is immediately put in the array.
162	// The array is transmitted whenever it changes.
163	//
164	// Connection status (disconnected, connecting, connected) / Array[40]
165	// Consistency of PLLLCK / Array[ 40] of PLLLCK
166	// Consistency of Trigger type / Array[ 40] of trigger type
167	// Consistency of ROI / Array[1440] of ROI
168	// Consistency of RefClock / Array[ 40] of ref clock
169	// Consistency of DAC values / Array[ 400] of DAC values
170	// Consistency of run number / Array[ 40] of Run numbers
171
172	// Fast changes (new header changes value --> send only if something changed)
173	// -------------------
174	// Event builder stores an internal array of all boards and
175	// transmits the min/max values determined from the array
176	// only if they have changed. Disconnected boards are not considered.
177	//
178	// Maximum/minimum Event counter of all boards in memory + board id
179	// Maximum/minimum time stamp of all boards in memory + board id
180	// Maximum/minimum temp of all boards in memory + board id
181
182	// Unknown:
183	// ------------------
184	// Trigger Id ?
185	// TriggerGeneratorPrescaler ?
186	// Number of Triggers to generate ?
187
188
189	// ------------------------------------------------------------
190
191	uint16_t fStartDelimiter; // 0x04FE
192	uint16_t fPackageLength;
193	uint16_t fVersion;
194	uint16_t fStatus;
195	//
196	uint16_t fTriggerCrc; // Receiver timeout / CRC ; 1 byte each
197	uint16_t fTriggerType;
198	uint32_t fTriggerCounter;
199	//
200	uint32_t fEventCounter;
201	uint32_t fFreqRefClock;
202	//
203	uint16_t fBoardId;
204	uint16_t fAdcClockPhaseShift;
205	uint16_t fNumTriggersToGenerate;
206	uint16_t fTriggerGeneratorPrescaler;
207	//
208	uint64_t fDNA; // Xilinx DNA
209	//
210	uint32_t fTimeStamp;
211	uint32_t fRunNumber;
212	//
213	int16_t fTempDrs[kNumTemp]; // In units of 1/16 deg(?)
214	//
215	uint16_t fDac[kNumDac];
216	//
217	#ifdef __cplusplus
218	EventHeader() { init(*this); }
219	EventHeader(const uint16_t *ptr)
220	{
221	*this = std::vector<uint16_t>(ptr, ptr+sizeof(EventHeader)/2);
222	}
223
224	void operator=(const std::vector<uint16_t> &vec)
225	{
226	ntohcpy(vec, *this);
227
228	Reverse(&fEventCounter);
229	Reverse(&fTriggerCounter);
230	Reverse(&fFreqRefClock);
231	Reverse(&fTimeStamp);
232	Reverse(&fRunNumber);
233
234	for (int i=0; i<8; i+=2)
235	std::swap(reinterpret_cast<uint8_t*>(&fDNA)[i],
236	reinterpret_cast<uint8_t*>(&fDNA)[i+1]);
237	}
238
239	std::vector<uint16_t> HtoN() const
240	{
241	EventHeader h(*this);
242
243	Reverse(&h.fEventCounter);
244	Reverse(&h.fFreqRefClock);
245	Reverse(&h.fTimeStamp);
246	Reverse(&h.fRunNumber);
247
248	for (int i=0; i<8; i+=2)
249	std::swap(reinterpret_cast<uint8_t*>(&h.fDNA)[i],
250	reinterpret_cast<uint8_t*>(&h.fDNA)[i+1]);
251
252	return htoncpy(h);
253	}
254
255	bool operator==(const EventHeader &h) const
256	{
257	return
258	(fStatus&~(kSock17\|kBusyOn)) == (h.fStatus&~(kSock17\|kBusyOn)) &&
259	fRunNumber == h.fRunNumber &&
260	fEventCounter == h.fEventCounter &&
261	fAdcClockPhaseShift == h.fAdcClockPhaseShift &&
262	fTriggerGeneratorPrescaler == h.fTriggerGeneratorPrescaler &&
263	memcmp(fDac, h.fDac, sizeof(fDac))==0;
264	}
265	bool operator!=(const EventHeader &h) const { return !operator==(h); }
266
267	float GetTemp(int i) const { return fTempDrs[i]/16.; }
268
269	uint8_t PLLLCK() const { return fStatus>>12; }
270
271	bool HasDenable() const { return fStatus&kDenable; }
272	bool HasDwrite() const { return fStatus&kDwrite; }
273	// bool IsRefClockTooHigh() const { return fStatus&kRefClkTooHigh; }
274	bool IsRefClockTooLow() const { return fStatus&kRefClkTooLow; }
275	bool IsDcmLocked() const { return fStatus&kDcmLocked; }
276	bool IsDcmReady() const { return fStatus&kDcmReady; }
277	bool HasSpiSclk() const { return fStatus&kSpiSclk; }
278	bool HasBusyOn() const { return fStatus&kBusyOn; }
279	bool HasBusyOff() const { return fStatus&kBusyOff; }
280	bool HasTriggerEnabled() const { return fStatus&kTriggerLine; }
281	bool HasContTriggerEnabled() const { return fStatus&kContTrigger; }
282	bool IsInSock17Mode() const { return fStatus&kSock17; }
283
284	int GetTriggerLogic() const { return (fTriggerType>>2)&0x3f; }
285	bool HasTriggerExt1() const { return fTriggerType&kExt1; }
286	bool HasTriggerExt2() const { return fTriggerType&kExt2; }
287	bool HasTIMsource() const { return fTriggerType&kTIM; }
288	bool HasTriggerLPext() const { return fTriggerType&kLPext; }
289	bool HasTriggerLPint() const { return fTriggerType&kLPint; }
290	bool HasTriggerPed() const { return fTriggerType&kPedestal; }
291	bool IsTriggerPhys() const { return !(fTriggerType&kAll); }
292	int GetTriggerLPset() const { return (fTriggerType&kLPset)>>11; }
293
294	uint16_t Crate() const { return fBoardId>>8; }
295	uint16_t Board() const { return fBoardId&0xff; }
296
297	uint16_t Id() const { return Crate()*10+Board(); }
298
299	void Enable(Bits pos, bool enable=true)
300	{
301	if (enable)
302	fStatus \|= pos;
303	else
304	fStatus &= ~pos;
305	}
306
307	void clear() { reset(*this); }
308	void print(std::ostream &out) const;
309	#endif
310
311	} __attribute__((__packed__));
312
313	struct ChannelHeader
314	{
315	uint16_t fId;
316	uint16_t fStartCell;
317	uint16_t fRegionOfInterest;
318	uint16_t fDummy;
319	// uint16_t fData[];
320
321	#ifdef __cplusplus
322	ChannelHeader() { init(*this); }
323
324	void operator=(const std::vector<uint16_t> &vec)
325	{
326	ntohcpy(vec, *this);
327	}
328
329	std::vector<uint16_t> HtoN() const
330	{
331	ChannelHeader h(*this);
332	return htoncpy(h);
333	}
334
335	void clear() { reset(*this); }
336	void print(std::ostream &out) const;
337
338	uint16_t Chip() const { return fId>>4; }
339	uint16_t Channel() const { return fId&0xf; }
340	#endif
341	} __attribute__((__packed__));
342
343	// Package ends with:
344	// 0x4242
345	// 0x04fe
346
347	struct Configuration
348	{
349	bool fDwrite;
350	bool fDenable;
351	bool fContinousTrigger;
352	uint16_t fTriggerRate;
353	uint16_t fRoi[FAD::kNumChannelsPerChip];
354	uint16_t fDac[FAD::kNumDac];
355
356	#ifdef __cplusplus
357	Configuration() { init(*this); }
358	#endif
359	};
360
361	struct RunDescription
362	{
363	uint32_t maxtime;
364	uint32_t maxevt;
365	uint32_t night;
366
367	std::string name;
368
369	Configuration reference;
370	};
371
372	// --------------------------------------------------------------------
373	#ifdef __cplusplus
374	inline std::ostream &operator<<(std::ostream &out, const EventHeader &h)
375	{
376	h.print(out);
377	return out;
378	}
379
380	inline std::ostream &operator<<(std::ostream &out, const ChannelHeader &h)
381	{
382	h.print(out);
383	return out;
384	}
385	#endif
386
387	#ifdef __cplusplus
388	};
389	#endif
390
391	#endif

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