AutonomousDAQ - Arianna autonomous DAQ firmware

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S K UCI / Mbed 2 deprecated AutonomousDAQ

Arianna autonomous DAQ firmware

Dependencies: mbed SDFileSystemFilinfo AriSnProtocol NetServicesMin AriSnComm MODSERIAL PowerControlClkPatch DS1820OW

SnConfigFrame.cpp@105:bc5d12d38509, 2015-11-22 (annotated)

Committer:: uci1
Date:: Sun Nov 22 04:36:46 2015 +0000
Revision:: 105:bc5d12d38509
Parent:: 104:b055a7f39dc0
Child:: 106:4c1c39562b6f

S14 with conf name. Fix SD card stall. No interface chip. Safety nets.

Who changed what in which revision?

User	Revision	Line number	New contents of line
uci1	0:664899e0b988	1	#include "SnConfigFrame.h"
uci1	0:664899e0b988	2
uci1	0:664899e0b988	3	#include "mbed.h"
uci1	0:664899e0b988	4
uci1	59:21128cc24b04	5	//#define DEBUG
uci1	59:21128cc24b04	6
uci1	0:664899e0b988	7	#include "SnBitUtils.h"
uci1	16:744ce85aede2	8	#include "SnHeaderFrame.h"
uci1	22:f957c4f840ad	9	#include "Watchdog.h"
uci1	76:f8383f0292c2	10	#include "SnSDUtils.h"
uci1	0:664899e0b988	11
uci1	0:664899e0b988	12	extern "C" void mbed_mac_address(char *);
uci1	0:664899e0b988	13
uci1	31:b5bd3b189150	14	bool SnConfigFrame::fgApplySafetyNets = true;
uci1	56:0bba0ef15697	15	#if CHIPBOARD==ATWD4CH
uci1	84:80b15993944e	16	const uint8_t SnConfigFrame::kIOVers = 11;
uci1	56:0bba0ef15697	17	#else // SST
uci1	84:80b15993944e	18	const uint8_t SnConfigFrame::kIOVers = 12;
uci1	56:0bba0ef15697	19	#endif
uci1	67:ec999336fcd1	20
uci1	67:ec999336fcd1	21	#ifdef USE_INTERFACE_CHIP
uci1	3:24c5f0f50bf1	22	const char* const SnConfigFrame::kDefConfFile = "/local/DEFCONF.DAT";
uci1	59:21128cc24b04	23	const char* const SnConfigFrame::kDefRemIpFilen = "/local/REMOTIP.TXT";
uci1	59:21128cc24b04	24	const char* const SnConfigFrame::kDefRemPortFilen = "/local/REMOTPRT.TXT";
uci1	59:21128cc24b04	25	const char* const SnConfigFrame::kDefMbedIPFilen = "/local/MBEDIP.TXT";
uci1	59:21128cc24b04	26	const char* const SnConfigFrame::kDefMbedMaskFilen = "/local/MBEDMASK.TXT";
uci1	59:21128cc24b04	27	const char* const SnConfigFrame::kDefMbedGateFilen = "/local/MBEDGATE.TXT";
uci1	67:ec999336fcd1	28	#endif
uci1	67:ec999336fcd1	29
uci1	28:484943132bb0	30	const char* const SnConfigFrame::kDefIPflag = "DEF";
uci1	84:80b15993944e	31	const uint32_t SnConfigFrame::kDefIPvalue = 0;
uci1	1:e392595b4b76	32	const uint32_t SnConfigFrame::kMinCommWinPrdLowPwr = 14400; // exclusive min low power comm win period (s)
uci1	1:e392595b4b76	33	const uint32_t SnConfigFrame::kMaxCommWinPrdLowPwr = 259200; // exclusive max low power comm win period (s)
uci1	1:e392595b4b76	34	const uint32_t SnConfigFrame::kMinCommWinDurLowPwr = 300; // exclusive min low power comm win duration (s)
uci1	1:e392595b4b76	35	const uint32_t SnConfigFrame::kMaxCommWinDurLowPwr = 3600; // exclusive max low power comm win duration (s)
uci1	1:e392595b4b76	36	const uint8_t SnConfigFrame::kConfLblLen;
uci1	0:664899e0b988	37
uci1	0:664899e0b988	38	uint64_t SnConfigFrame::fgMacAdr = 0;
uci1	0:664899e0b988	39
uci1	0:664899e0b988	40	void SnConfigFrame::SetMacAddress() {
uci1	0:664899e0b988	41	static const uint8_t b64 = sizeof(uint64_t);
uci1	0:664899e0b988	42	static char c[b64];
uci1	67:ec999336fcd1	43	// NOTE: the function below may not be the one provided by MBED!
uci1	67:ec999336fcd1	44	// see main.cpp
uci1	0:664899e0b988	45	mbed_mac_address(&(c[0]));
uci1	0:664899e0b988	46	// like a big endian union
uci1	0:664899e0b988	47	fgMacAdr = 0;
uci1	0:664899e0b988	48	const char* a = c+(b64-1);
uci1	0:664899e0b988	49	for (uint8_t i=0; i<b64; i++, a--) {
uci1	0:664899e0b988	50	fgMacAdr \|= static_cast<uint64_t>(*a) << (i<<3);
uci1	0:664899e0b988	51	}
uci1	67:ec999336fcd1	52	#ifdef DEBUG
uci1	67:ec999336fcd1	53	printf("MAC=%012llX\r\n", fgMacAdr>>16); // 64 -> 48 bits
uci1	67:ec999336fcd1	54	#endif
uci1	0:664899e0b988	55	}
uci1	0:664899e0b988	56
uci1	0:664899e0b988	57	void SnConfigFrame::SetHardDefaults() {
uci1	105:bc5d12d38509	58	sprintf(fLabel,"Stn14DefaultR105");
uci1	0:664899e0b988	59	fConfTime = 1338854400u; // Tue, 05 Jun 2012 00:00:00 GMT
uci1	0:664899e0b988	60	fRun = 0;
uci1	40:1324da35afd4	61	fFirstSeq = 0;
uci1	54:ea1234a44fe8	62	fEvtsPerSeq = 300;
uci1	56:0bba0ef15697	63	#if CHIPBOARD==ATWD4CH
uci1	67:ec999336fcd1	64	fRunMode = kRSListOneCW;
uci1	1:e392595b4b76	65	fStreamHiLoPlas = 0;
uci1	67:ec999336fcd1	66	#else // not ATWD4CH
uci1	67:ec999336fcd1	67	fRunMode = kDualThreshBit \| kDiffTrigBit \| kRSListOneCW;
uci1	56:0bba0ef15697	68	#endif
uci1	0:664899e0b988	69	fWvLoseLSB = 0;
uci1	1:e392595b4b76	70	fWvLoseMSB = 4;
uci1	0:664899e0b988	71	fWvBaseline = 0;
uci1	84:80b15993944e	72	fDatPackType = kSDcard \| kIrid \| kAfar \| kUSB; // starting with io vers 11+, this is no longer changeable
uci1	0:664899e0b988	73	uint16_t* dc = &(fDAC[0][0]);
uci1	0:664899e0b988	74	for (uint16_t i=0; i<kTotDacs; i++, dc++) {
uci1	0:664899e0b988	75	*dc = 3072u;
uci1	0:664899e0b988	76	}
uci1	56:0bba0ef15697	77	#if CHIPBOARD==ATWD4CH
uci1	0:664899e0b988	78	fNumPlas = 1;
uci1	0:664899e0b988	79	uint16_t* pl = &(fPLA[0]);
uci1	0:664899e0b988	80	for (uint8_t j=0; j<kNplas; j++, pl++) {
uci1	0:664899e0b988	81	*pl = 0x7FFFu;
uci1	0:664899e0b988	82	}
uci1	56:0bba0ef15697	83	#endif
uci1	28:484943132bb0	84	fNumCardsMajLog = 2;
uci1	54:ea1234a44fe8	85	fEnableThermTrig = 0;
uci1	67:ec999336fcd1	86	fForceTrigPeriod = 0;
uci1	0:664899e0b988	87	fHeartBeatPeriod = 0;
uci1	84:80b15993944e	88	//fAmpsOn = 0x0Fu; removed vers 11+
uci1	67:ec999336fcd1	89	fEvtThrtlPeriodMs = 0;
uci1	76:f8383f0292c2	90	fPowerMode = kIridComWin \| kAfarComWin;
uci1	39:2f17131d22a5	91	fBatVoltToLowPwr = 0;
uci1	39:2f17131d22a5	92	fBatVoltFromLowPwr = 0;
uci1	67:ec999336fcd1	93	fVoltCheckPeriod = 127u;
uci1	54:ea1234a44fe8	94	fCommWinPeriod = 600u;
uci1	1:e392595b4b76	95	fCommWinDuration = 600u;
uci1	28:484943132bb0	96	fCommSendData = static_cast<int16_t>(kUseBits);
uci1	0:664899e0b988	97	fCommWinPrdLowPwr = 86100u;
uci1	0:664899e0b988	98	fCommWinDurLowPwr = 300u;
uci1	84:80b15993944e	99	for (uint8_t i=0; i<kNumDatStreams; ++i) {
uci1	85:3ced48ef94c5	100	fCommWinConnTOMins[i] = GetDefaultConnTOMinOf(GetDataStreamForIndex(i));
uci1	85:3ced48ef94c5	101	fCommWinListTOMins[i] = GetDefaultListTOMinOf(GetDataStreamForIndex(i));
uci1	84:80b15993944e	102	}
uci1	22:f957c4f840ad	103	fWatchDogPeriod = WDFAILSAFE;
uci1	67:ec999336fcd1	104	#if CHIPBOARD==ATWD4CH
uci1	84:80b15993944e	105	// fTempCheckPeriod = 0;
uci1	70:1cee873a35b6	106	#else // not ATWD4CH
uci1	70:1cee873a35b6	107	fTempCheckPeriod = -8;
uci1	67:ec999336fcd1	108	#endif
uci1	28:484943132bb0	109	SetDefaultIPs();
uci1	8:95a325df1f6b	110	fIsLowPower = false;
uci1	8:95a325df1f6b	111	memcpy(fNormLabel, fLabel, kConfLblLen);
uci1	8:95a325df1f6b	112	fNormPowerMode = fPowerMode;
uci1	8:95a325df1f6b	113
uci1	54:ea1234a44fe8	114	ApplyConnectListenSafetyNets();
uci1	8:95a325df1f6b	115	}
uci1	8:95a325df1f6b	116
uci1	28:484943132bb0	117	void SnConfigFrame::SetDefaultRemoteServ() {
uci1	59:21128cc24b04	118	if (false==ReadDefaultRemoteServer()) {
uci1	59:21128cc24b04	119	sprintf(fRemoteServer,"%s","128.195.204.151");
uci1	59:21128cc24b04	120	}
uci1	28:484943132bb0	121	}
uci1	28:484943132bb0	122
uci1	28:484943132bb0	123	void SnConfigFrame::SetDefaultRemotePort() {
uci1	59:21128cc24b04	124	if (false==ReadDefaultRemotePort()) {
uci1	59:21128cc24b04	125	fRemotePort = 6655;
uci1	59:21128cc24b04	126	}
uci1	28:484943132bb0	127	}
uci1	28:484943132bb0	128
uci1	28:484943132bb0	129	void SnConfigFrame::SetDefaultMbedIP() {
uci1	59:21128cc24b04	130	// see ReadDefaultIPFile
uci1	59:21128cc24b04	131	//
uci1	59:21128cc24b04	132	// these hardcoded defaults are only here
uci1	59:21128cc24b04	133	// "in case". they make it difficult/impossible
uci1	59:21128cc24b04	134	// to swap boards in the field without internet
uci1	59:21128cc24b04	135	// access to change the mbed program
uci1	28:484943132bb0	136	const uint64_t ip = GetMacAddress();
uci1	59:21128cc24b04	137	if (false==ReadDefaultMbedIP()) {
uci1	59:21128cc24b04	138	switch (ip) {
uci1	67:ec999336fcd1	139	case 0x0002F7F0AEE00000: // stn 20, atwd mb 1
uci1	67:ec999336fcd1	140	sprintf(fMbedIP,"%s","157.132.94.30");
uci1	67:ec999336fcd1	141	break;
uci1	59:21128cc24b04	142	case 0x0002F7F2244B0000: // stn 13, board 102
uci1	59:21128cc24b04	143	sprintf(fMbedIP,"%s","157.132.94.31");
uci1	59:21128cc24b04	144	break;
uci1	59:21128cc24b04	145	case 0x0002F7F20A9C0000: // stn 14, board 104
uci1	59:21128cc24b04	146	sprintf(fMbedIP,"%s","157.132.94.33");
uci1	59:21128cc24b04	147	break;
uci1	67:ec999336fcd1	148	case 0x0002F7F21A8A0000: // board 111
uci1	67:ec999336fcd1	149	sprintf(fMbedIP,"%s","157.132.94.34");
uci1	67:ec999336fcd1	150	break;
uci1	67:ec999336fcd1	151	case 0x0002F7F0C3B60000: // station 3, atwd mb 5
uci1	59:21128cc24b04	152	sprintf(fMbedIP,"%s","157.132.94.35");
uci1	59:21128cc24b04	153	break;
uci1	59:21128cc24b04	154	case 0x0002F7F0C41C0000: // station 4
uci1	67:ec999336fcd1	155	case 0x0002F7F1F7A80000: // stn 15, board 110
uci1	59:21128cc24b04	156	sprintf(fMbedIP,"%s","157.132.94.37");
uci1	59:21128cc24b04	157	break;
uci1	67:ec999336fcd1	158	case 0x0002F7F0C61A0000: // station 10, atwd mb 8
uci1	59:21128cc24b04	159	sprintf(fMbedIP,"%s","157.132.94.39");
uci1	59:21128cc24b04	160	break;
uci1	59:21128cc24b04	161	case 0x0002F7F0C4450000: // station 6
uci1	59:21128cc24b04	162	case 0x0002F7F1E9ED0000: // board 108
uci1	67:ec999336fcd1	163	case 0x0002F7F224440000: // stn 19, board 105
uci1	59:21128cc24b04	164	sprintf(fMbedIP,"%s","157.132.94.41");
uci1	59:21128cc24b04	165	break;
uci1	59:21128cc24b04	166	case 0x0002F7F175B70000: // station 11
uci1	67:ec999336fcd1	167	case 0x0002F7F202C10000: // stn 17, board 109
uci1	59:21128cc24b04	168	sprintf(fMbedIP,"%s","157.132.94.43");
uci1	59:21128cc24b04	169	break;
uci1	86:051a09841ca3	170	case 0x0002F7F1F6340000: // stn 31, board 107
uci1	86:051a09841ca3	171	sprintf(fMbedIP,"%s","157.132.94.47");
uci1	86:051a09841ca3	172	break;
uci1	86:051a09841ca3	173	case 0x0002F7F1F21A0000: // stn 32, board 112
uci1	86:051a09841ca3	174	sprintf(fMbedIP,"%s","157.132.94.48");
uci1	86:051a09841ca3	175	break;
uci1	86:051a09841ca3	176	case 0x0002F7F1F2120000: // stn 30, board 113
uci1	86:051a09841ca3	177	sprintf(fMbedIP,"%s","157.132.94.49");
uci1	86:051a09841ca3	178	break;
uci1	59:21128cc24b04	179	default: // what??
uci1	86:051a09841ca3	180	sprintf(fMbedIP,"%s","157.132.94.46"); // usually for tent
uci1	59:21128cc24b04	181	break;
uci1	59:21128cc24b04	182	};
uci1	59:21128cc24b04	183	}
uci1	28:484943132bb0	184	}
uci1	28:484943132bb0	185	// brian dornick 3107
uci1	28:484943132bb0	186	void SnConfigFrame::SetDefaultMaskIP() {
uci1	59:21128cc24b04	187	if (false==ReadDefaultMbedMask()) {
uci1	59:21128cc24b04	188	sprintf(fMbedMask,"%s","255.255.255.0");
uci1	59:21128cc24b04	189	}
uci1	28:484943132bb0	190	}
uci1	28:484943132bb0	191
uci1	28:484943132bb0	192	void SnConfigFrame::SetDefaultGateIP() {
uci1	59:21128cc24b04	193	if (false==ReadDefaultMbedGate()) {
uci1	59:21128cc24b04	194	sprintf(fMbedGate,"%s","157.132.94.1");
uci1	59:21128cc24b04	195	}
uci1	59:21128cc24b04	196	}
uci1	59:21128cc24b04	197
uci1	67:ec999336fcd1	198	#ifdef USE_INTERFACE_CHIP
uci1	59:21128cc24b04	199	bool SnConfigFrame::ReadOneIPFrom(const char* ipfname,
uci1	59:21128cc24b04	200	char* ipstr) {
uci1	59:21128cc24b04	201	bool ok = false;
uci1	59:21128cc24b04	202	FILE* ipf = fopen(ipfname, "r");
uci1	59:21128cc24b04	203	if (ipf!=0) {
uci1	59:21128cc24b04	204	uint8_t ipbytes[4] = {0,0,0,0};
uci1	59:21128cc24b04	205	const int nr = fscanf(ipf,"%hhu.%hhu.%hhu.%hhu\n",
uci1	59:21128cc24b04	206	&(ipbytes[0]), &(ipbytes[1]),
uci1	59:21128cc24b04	207	&(ipbytes[2]), &(ipbytes[3]));
uci1	59:21128cc24b04	208	if (4==nr) {
uci1	59:21128cc24b04	209	const int nc =
uci1	59:21128cc24b04	210	sprintf(ipstr,"%hhu.%hhu.%hhu.%hhu",
uci1	59:21128cc24b04	211	ipbytes[0], ipbytes[1],
uci1	59:21128cc24b04	212	ipbytes[2], ipbytes[3]);
uci1	59:21128cc24b04	213	ok = nc>0;
uci1	59:21128cc24b04	214	}
uci1	76:f8383f0292c2	215	fclose(ipf);
uci1	59:21128cc24b04	216	}
uci1	59:21128cc24b04	217	#ifdef DEBUG
uci1	59:21128cc24b04	218	printf("ReadOneIPInto : ipstr=[%s], ok=%d\r\n",
uci1	59:21128cc24b04	219	ipstr, (int)ok);
uci1	59:21128cc24b04	220	#endif
uci1	59:21128cc24b04	221	return ok;
uci1	59:21128cc24b04	222	}
uci1	67:ec999336fcd1	223	#endif
uci1	59:21128cc24b04	224
uci1	59:21128cc24b04	225	bool SnConfigFrame::ReadDefaultRemoteServer() {
uci1	67:ec999336fcd1	226	#ifdef USE_INTERFACE_CHIP
uci1	59:21128cc24b04	227	const bool ok = ReadOneIPFrom(kDefRemIpFilen, fRemoteServer);
uci1	59:21128cc24b04	228	#ifdef DEBUG
uci1	59:21128cc24b04	229	printf("remote = %s\r\n", fRemoteServer);
uci1	59:21128cc24b04	230	#endif
uci1	59:21128cc24b04	231	return ok;
uci1	67:ec999336fcd1	232	#else // do not USE_INTERFACE_CHIP
uci1	67:ec999336fcd1	233	return false;
uci1	67:ec999336fcd1	234	#endif // USE_INTERFACE_CHIP
uci1	59:21128cc24b04	235	}
uci1	59:21128cc24b04	236
uci1	59:21128cc24b04	237	bool SnConfigFrame::ReadDefaultRemotePort() {
uci1	67:ec999336fcd1	238	#ifdef USE_INTERFACE_CHIP
uci1	59:21128cc24b04	239	bool ok = false;
uci1	59:21128cc24b04	240	FILE* pf = fopen(kDefRemPortFilen, "r");
uci1	59:21128cc24b04	241	if (pf!=0) {
uci1	59:21128cc24b04	242	ok = (1==fscanf(pf, "%hu\n", &fRemotePort));
uci1	76:f8383f0292c2	243	fclose(pf);
uci1	59:21128cc24b04	244	}
uci1	59:21128cc24b04	245	#ifdef DEBUG
uci1	59:21128cc24b04	246	printf("port = %hu\r\n", fRemotePort);
uci1	59:21128cc24b04	247	#endif
uci1	59:21128cc24b04	248	return ok;
uci1	67:ec999336fcd1	249	#else // do not USE_INTERFACE_CHIP
uci1	67:ec999336fcd1	250	return false;
uci1	67:ec999336fcd1	251	#endif // USE_INTERFACE_CHIP
uci1	59:21128cc24b04	252	}
uci1	59:21128cc24b04	253
uci1	59:21128cc24b04	254	bool SnConfigFrame::ReadDefaultMbedIP() {
uci1	67:ec999336fcd1	255	#ifdef USE_INTERFACE_CHIP
uci1	59:21128cc24b04	256	const bool ok = ReadOneIPFrom(kDefMbedIPFilen, fMbedIP);
uci1	59:21128cc24b04	257	#ifdef DEBUG
uci1	59:21128cc24b04	258	printf("mbed = %s\r\n", fMbedIP);
uci1	59:21128cc24b04	259	#endif
uci1	59:21128cc24b04	260	return ok;
uci1	67:ec999336fcd1	261	#else // do not USE_INTERFACE_CHIP
uci1	67:ec999336fcd1	262	return false;
uci1	67:ec999336fcd1	263	#endif // USE_INTERFACE_CHIP
uci1	59:21128cc24b04	264	}
uci1	59:21128cc24b04	265
uci1	59:21128cc24b04	266	bool SnConfigFrame::ReadDefaultMbedMask() {
uci1	67:ec999336fcd1	267	#ifdef USE_INTERFACE_CHIP
uci1	59:21128cc24b04	268	const bool ok = ReadOneIPFrom(kDefMbedMaskFilen, fMbedMask);
uci1	59:21128cc24b04	269	#ifdef DEBUG
uci1	59:21128cc24b04	270	printf("mask = %s\r\n", fMbedMask);
uci1	59:21128cc24b04	271	#endif
uci1	59:21128cc24b04	272	return ok;
uci1	67:ec999336fcd1	273	#else // do not USE_INTERFACE_CHIP
uci1	67:ec999336fcd1	274	return false;
uci1	67:ec999336fcd1	275	#endif // USE_INTERFACE_CHIP
uci1	59:21128cc24b04	276	}
uci1	59:21128cc24b04	277
uci1	59:21128cc24b04	278	bool SnConfigFrame::ReadDefaultMbedGate() {
uci1	67:ec999336fcd1	279	#ifdef USE_INTERFACE_CHIP
uci1	59:21128cc24b04	280	const bool ok = ReadOneIPFrom(kDefMbedGateFilen, fMbedGate);
uci1	59:21128cc24b04	281	#ifdef DEBUG
uci1	59:21128cc24b04	282	printf("gate = %s\r\n", fMbedGate);
uci1	59:21128cc24b04	283	#endif
uci1	59:21128cc24b04	284	return ok;
uci1	67:ec999336fcd1	285	#else // do not USE_INTERFACE_CHIP
uci1	67:ec999336fcd1	286	return false;
uci1	67:ec999336fcd1	287	#endif // USE_INTERFACE_CHIP
uci1	59:21128cc24b04	288	}
uci1	59:21128cc24b04	289
uci1	28:484943132bb0	290
uci1	28:484943132bb0	291	void SnConfigFrame::SetDefaultIPs() {
uci1	59:21128cc24b04	292	GetMacAddress(); // just to make sure it gets read
uci1	67:ec999336fcd1	293	SetDefaultRemoteServ();
uci1	67:ec999336fcd1	294	SetDefaultRemotePort();
uci1	67:ec999336fcd1	295	SetDefaultMbedIP();
uci1	67:ec999336fcd1	296	SetDefaultMaskIP();
uci1	67:ec999336fcd1	297	SetDefaultGateIP();
uci1	28:484943132bb0	298	}
uci1	28:484943132bb0	299
uci1	84:80b15993944e	300	void SnConfigFrame::ApplyConnectListenSafetyNets(const uint8_t dataStreamIdx) {
uci1	84:80b15993944e	301	const float maxto_f = (fCommWinDuration/(60.*static_cast<float>(kNcomms)));
uci1	84:80b15993944e	302	const uint8_t maxto = (maxto_f < kDefTimeoutMin) ? kDefTimeoutMin :
uci1	84:80b15993944e	303	(maxto_f > 255.0) ? kDefTimeoutSafe : static_cast<uint8_t>(maxto_f);
uci1	84:80b15993944e	304	if (fCommWinConnTOMins[dataStreamIdx] < kDefTimeoutMin) {
uci1	84:80b15993944e	305	fCommWinConnTOMins[dataStreamIdx] = kDefTimeoutMin;
uci1	84:80b15993944e	306	}
uci1	84:80b15993944e	307	if (fCommWinConnTOMins[dataStreamIdx] > maxto) {
uci1	84:80b15993944e	308	fCommWinConnTOMins[dataStreamIdx] = maxto;
uci1	40:1324da35afd4	309	}
uci1	84:80b15993944e	310	if (fCommWinListTOMins[dataStreamIdx] < kDefTimeoutMin) {
uci1	84:80b15993944e	311	fCommWinListTOMins[dataStreamIdx] = kDefTimeoutMin;
uci1	84:80b15993944e	312	}
uci1	84:80b15993944e	313	if (fCommWinListTOMins[dataStreamIdx] > maxto) {
uci1	84:80b15993944e	314	fCommWinListTOMins[dataStreamIdx] = maxto;
uci1	40:1324da35afd4	315	}
uci1	84:80b15993944e	316	}
uci1	84:80b15993944e	317
uci1	84:80b15993944e	318	void SnConfigFrame::ApplyConnectListenSafetyNets() {
uci1	84:80b15993944e	319	for (uint8_t i=0; i<kNumDatStreams; ++i) {
uci1	84:80b15993944e	320	ApplyConnectListenSafetyNets(i);
uci1	40:1324da35afd4	321	}
uci1	40:1324da35afd4	322	}
uci1	40:1324da35afd4	323
uci1	28:484943132bb0	324	void SnConfigFrame::ApplySafetyNets() {
uci1	40:1324da35afd4	325	if (fFirstSeq>kMaxFirstSeq) {
uci1	40:1324da35afd4	326	fFirstSeq=kMaxFirstSeq;
uci1	40:1324da35afd4	327	}
uci1	56:0bba0ef15697	328	#if CHIPBOARD==ATWD4CH
uci1	28:484943132bb0	329	if (fNumPlas>kNplas) {
uci1	28:484943132bb0	330	fNumPlas=kNplas;
uci1	28:484943132bb0	331	}
uci1	56:0bba0ef15697	332	#endif
uci1	28:484943132bb0	333	if (fNumCardsMajLog>kNchans) {
uci1	28:484943132bb0	334	fNumCardsMajLog=kNchans;
uci1	28:484943132bb0	335	}
uci1	28:484943132bb0	336	if (fNumCardsMajLog<1u) {
uci1	28:484943132bb0	337	fNumCardsMajLog=1u;
uci1	28:484943132bb0	338	}
uci1	28:484943132bb0	339	if ( (fForceTrigPeriod>0) &&
uci1	28:484943132bb0	340	(fForceTrigPeriod<kMinForcePer) ) {
uci1	28:484943132bb0	341	fForceTrigPeriod = kMinForcePer;
uci1	28:484943132bb0	342	}
uci1	28:484943132bb0	343	if (fEvtThrtlPeriodMs>kMaxThrottlePerMs) {
uci1	28:484943132bb0	344	fEvtThrtlPeriodMs=kMaxThrottlePerMs;
uci1	28:484943132bb0	345	}
uci1	28:484943132bb0	346	if ( (IsPoweredFor(kIridComWin)==false) &&
uci1	28:484943132bb0	347	(IsPoweredFor(kAfarComWin)==false) ) {
uci1	28:484943132bb0	348	EnablePowerFor(kIridComWin);
uci1	28:484943132bb0	349	EnablePowerFor(kAfarComWin);
uci1	28:484943132bb0	350	}
uci1	39:2f17131d22a5	351	if (fBatVoltToLowPwr>kMaxBatVoltLowPwr) {
uci1	39:2f17131d22a5	352	fBatVoltToLowPwr=kMaxBatVoltLowPwr;
uci1	39:2f17131d22a5	353	}
uci1	39:2f17131d22a5	354	if (fBatVoltFromLowPwr>kMaxBatVoltLowPwr) {
uci1	39:2f17131d22a5	355	fBatVoltFromLowPwr=kMaxBatVoltLowPwr;
uci1	39:2f17131d22a5	356	}
uci1	39:2f17131d22a5	357	if (fBatVoltFromLowPwr<fBatVoltToLowPwr) {
uci1	39:2f17131d22a5	358	fBatVoltFromLowPwr=fBatVoltToLowPwr;
uci1	28:484943132bb0	359	}
uci1	28:484943132bb0	360	if (fCommWinPeriod>kMaxCommWinPeriod) {
uci1	28:484943132bb0	361	fCommWinPeriod=kMaxCommWinPeriod;
uci1	28:484943132bb0	362	}
uci1	40:1324da35afd4	363	if (fCommWinPeriod<kMinCommWinPeriod) {
uci1	40:1324da35afd4	364	fCommWinPeriod=kMinCommWinPeriod;
uci1	40:1324da35afd4	365	}
uci1	28:484943132bb0	366	if (fCommWinDuration<kMinCommWinDur) {
uci1	28:484943132bb0	367	fCommWinDuration=kMinCommWinDur;
uci1	28:484943132bb0	368	}
uci1	28:484943132bb0	369	if (fCommWinPrdLowPwr>kMaxCommWinPeriod) {
uci1	28:484943132bb0	370	fCommWinPrdLowPwr=kMaxCommWinPeriod;
uci1	28:484943132bb0	371	}
uci1	28:484943132bb0	372	if (fCommWinDurLowPwr<kMinCommWinDur) {
uci1	28:484943132bb0	373	fCommWinDurLowPwr=kMinCommWinDur;
uci1	28:484943132bb0	374	}
uci1	40:1324da35afd4	375	ApplyConnectListenSafetyNets();
uci1	28:484943132bb0	376	if (fWatchDogPeriod>kMaxWatchDogPer) {
uci1	28:484943132bb0	377	fWatchDogPeriod=kMaxWatchDogPer;
uci1	28:484943132bb0	378	}
uci1	28:484943132bb0	379	if (fWatchDogPeriod<kMinWatchDogPer) {
uci1	28:484943132bb0	380	fWatchDogPeriod=kMinWatchDogPer;
uci1	28:484943132bb0	381	}
uci1	28:484943132bb0	382	}
uci1	28:484943132bb0	383
uci1	21:ce51bb0ba4a5	384	uint32_t SnConfigFrame::GetTimeoutTime(const uint32_t startTime,
uci1	21:ce51bb0ba4a5	385	const uint32_t delta) const {
uci1	40:1324da35afd4	386	// --.-----lst------.--delta--.--
uci1	40:1324da35afd4	387	// . . .
uci1	40:1324da35afd4	388	// start current returnVal
uci1	40:1324da35afd4	389	//
uci1	40:1324da35afd4	390	// lio=lst+delta bound by comm wind dur
uci1	40:1324da35afd4	391	// returns start + lio
uci1	40:1324da35afd4	392
uci1	21:ce51bb0ba4a5	393	const uint32_t ct = time(0);
uci1	40:1324da35afd4	394	uint32_t lst = ct-startTime;
uci1	21:ce51bb0ba4a5	395	if ( (ct<startTime) \|\| (ct==0) \|\|
uci1	21:ce51bb0ba4a5	396	(lst>kSecsPerDay) ) {
uci1	21:ce51bb0ba4a5	397	// possible clock problems
uci1	84:80b15993944e	398	lst = static_cast<uint32_t>(kDefTimeoutSafe)*60u;
uci1	21:ce51bb0ba4a5	399	}
uci1	21:ce51bb0ba4a5	400	const uint32_t lio =
uci1	21:ce51bb0ba4a5	401	((lst+delta) < GetCommWinDuration()) ?
uci1	21:ce51bb0ba4a5	402	lst+delta : GetCommWinDuration();
uci1	21:ce51bb0ba4a5	403	return lio+startTime;
uci1	21:ce51bb0ba4a5	404	}
uci1	21:ce51bb0ba4a5	405
uci1	8:95a325df1f6b	406	void SnConfigFrame::ChangeToLowPower() {
uci1	8:95a325df1f6b	407
uci1	8:95a325df1f6b	408	// save old label
uci1	8:95a325df1f6b	409	memcpy(fNormLabel, fLabel, kConfLblLen);
uci1	8:95a325df1f6b	410
uci1	8:95a325df1f6b	411	// append label
uci1	8:95a325df1f6b	412	// this will allow the new config to be put in the DB
uci1	8:95a325df1f6b	413	int slen = strlen(fLabel);
uci1	8:95a325df1f6b	414	static const char* tag = "_LOWPOW";
uci1	8:95a325df1f6b	415	const int ml = strlen(tag)+1;
uci1	8:95a325df1f6b	416	if (slen > (kConfLblLen-ml) ) {
uci1	8:95a325df1f6b	417	memset(fLabel+kConfLblLen-ml, '\0', ml);
uci1	8:95a325df1f6b	418	}
uci1	8:95a325df1f6b	419	strncat(fLabel, tag, ml-1);
uci1	8:95a325df1f6b	420
uci1	8:95a325df1f6b	421	// save power settings
uci1	8:95a325df1f6b	422	fNormPowerMode = fPowerMode;
uci1	8:95a325df1f6b	423
uci1	8:95a325df1f6b	424	// change power settings
uci1	8:95a325df1f6b	425	DisablePowerFor(kAmpsDatTak);
uci1	8:95a325df1f6b	426	DisablePowerFor(kCardDatTak);
uci1	8:95a325df1f6b	427	DisablePowerFor(kIridDatTak);
uci1	8:95a325df1f6b	428	DisablePowerFor(kAfarDatTak);
uci1	8:95a325df1f6b	429	DisablePowerFor(kAmpsComWin);
uci1	8:95a325df1f6b	430	DisablePowerFor(kCardComWin);
uci1	56:0bba0ef15697	431	if ( IsSBDonlyLowPwrMode() ) {
uci1	56:0bba0ef15697	432	EnablePowerFor(kIridComWin);
uci1	56:0bba0ef15697	433	DisablePowerFor(kAfarComWin);
uci1	56:0bba0ef15697	434	} else if ( (IsPoweredFor(kIridComWin)==false) &&
uci1	56:0bba0ef15697	435	(IsPoweredFor(kAfarComWin)==false) ) {
uci1	8:95a325df1f6b	436	// TODO: turn on only iridum maybe?
uci1	8:95a325df1f6b	437	EnablePowerFor(kIridComWin);
uci1	8:95a325df1f6b	438	EnablePowerFor(kAfarComWin);
uci1	56:0bba0ef15697	439	} // else same as normal for Irid and Afar Com Win
uci1	56:0bba0ef15697	440
uci1	8:95a325df1f6b	441	// set mode to low power
uci1	8:95a325df1f6b	442	fIsLowPower = true;
uci1	84:80b15993944e	443
uci1	84:80b15993944e	444	if (fgApplySafetyNets) {
uci1	84:80b15993944e	445	ApplySafetyNets();
uci1	84:80b15993944e	446	}
uci1	8:95a325df1f6b	447	}
uci1	8:95a325df1f6b	448
uci1	8:95a325df1f6b	449	void SnConfigFrame::ChangeToNormPower() {
uci1	8:95a325df1f6b	450	// put label back
uci1	8:95a325df1f6b	451	memcpy(fLabel, fNormLabel, kConfLblLen);
uci1	8:95a325df1f6b	452	// put power settings back
uci1	8:95a325df1f6b	453	fPowerMode = fNormPowerMode;
uci1	8:95a325df1f6b	454	// set mode to normal
uci1	8:95a325df1f6b	455	fIsLowPower = false;
uci1	84:80b15993944e	456
uci1	84:80b15993944e	457	if (fgApplySafetyNets) {
uci1	84:80b15993944e	458	ApplySafetyNets();
uci1	84:80b15993944e	459	}
uci1	0:664899e0b988	460	}
uci1	0:664899e0b988	461
uci1	0:664899e0b988	462	void SnConfigFrame::GetPackParsFor(const EDatPackBit d,
uci1	0:664899e0b988	463	uint8_t& loseLSB, uint8_t& loseMSB,
uci1	0:664899e0b988	464	uint16_t& wvBase) const {
uci1	0:664899e0b988	465	const bool pack = IsDatPackedFor(d);
uci1	0:664899e0b988	466	loseLSB = pack ? GetWvLoseLSB() : 0u;
uci1	0:664899e0b988	467	loseMSB = pack ? GetWvLoseMSB() : 0u;
uci1	0:664899e0b988	468	wvBase = pack ? GetWvBaseline() : 0u;
uci1	0:664899e0b988	469	}
uci1	0:664899e0b988	470
uci1	0:664899e0b988	471	void SnConfigFrame::GetHiLoPlas(const uint16_t pla,
uci1	0:664899e0b988	472	uint16_t& hiPla,
uci1	0:664899e0b988	473	uint16_t& loPla,
uci1	0:664899e0b988	474	const bool r2l) {
uci1	0:664899e0b988	475	// split the PLA bitword into 2: one for the high threshold
uci1	0:664899e0b988	476	// and one for the low threshold. "lows" in the string will become
uci1	0:664899e0b988	477	// "highs" in the low threshold PLA.
uci1	0:664899e0b988	478	//
uci1	0:664899e0b988	479	// example 1)
uci1	0:664899e0b988	480	// PLA string = HLHL....
uci1	0:664899e0b988	481	// hi thresh = H.H.....
uci1	0:664899e0b988	482	// lo thresh = .H.H....
uci1	0:664899e0b988	483	//
uci1	0:664899e0b988	484	// example 2)
uci1	0:664899e0b988	485	// PLA string = HBL.....
uci1	0:664899e0b988	486	// hi thresh = HL......
uci1	0:664899e0b988	487	// lo thresh = .LH.....
uci1	0:664899e0b988	488	//
uci1	0:664899e0b988	489	// (with . = A here, to make the example more readable)
uci1	0:664899e0b988	490	//
uci1	0:664899e0b988	491	// A = 11, B = 00
uci1	0:664899e0b988	492	// H = 01 or 10, alternating
uci1	0:664899e0b988	493	// L = 10 or 01, alternating
uci1	0:664899e0b988	494	// 01 at leftmost bits is H
uci1	0:664899e0b988	495	// for example:
uci1	0:664899e0b988	496	// 0x7FFF = 01 11 11 11 11 11 11 11
uci1	0:664899e0b988	497	// => HAAAAAAA for LEFT TO RIGHT
uci1	0:664899e0b988	498	// => AAAAAAAH for RIGHT TO LEFT
uci1	0:664899e0b988	499	// 0x56FF = 01 01 01 10 11 11 11 11
uci1	0:664899e0b988	500	// => HLHHAAAA for LEFT TO RIGHT
uci1	0:664899e0b988	501	// => AAAAHHLH for RIGHT TO LEFT
uci1	0:664899e0b988	502	//
uci1	0:664899e0b988	503	// so HHHHHHHH is
uci1	0:664899e0b988	504	// 01 10 01 10 01 10 01 10 always (r2l or l2r)
uci1	0:664899e0b988	505	//
uci1	0:664899e0b988	506	// r2l = whether to read bits right to left (true) or not (false)
uci1	0:664899e0b988	507	// Mahshid liked right to left
uci1	0:664899e0b988	508	// Liang liked left to right
uci1	0:664899e0b988	509	// so we allow for either
uci1	0:664899e0b988	510
uci1	0:664899e0b988	511	const int8_t start = (r2l) ? 0 : BITS_IN_SHORT-2;
uci1	0:664899e0b988	512	const int8_t end = (r2l) ? BITS_IN_SHORT : -2;
uci1	39:2f17131d22a5	513	const int8_t step = (r2l) ? 2 : -2;
uci1	0:664899e0b988	514
uci1	0:664899e0b988	515	uint8_t hi= (r2l) ? 0x2 : 0x1;
uci1	0:664899e0b988	516	uint8_t lo= (r2l) ? 0x1 : 0x2;
uci1	0:664899e0b988	517
uci1	0:664899e0b988	518	// set all bits to 0
uci1	0:664899e0b988	519	hiPla = 0;
uci1	0:664899e0b988	520	loPla = 0;
uci1	0:664899e0b988	521
uci1	0:664899e0b988	522	for (int8_t i=start; i!=end; i+=step, hi^=0x3, lo^=0x3) {
uci1	0:664899e0b988	523	const uint8_t b = (pla & (0x3<<i)) >> i;
uci1	0:664899e0b988	524	if (b==hi) {
uci1	0:664899e0b988	525	hiPla \|= hi << i;
uci1	0:664899e0b988	526	loPla \|= 0x3 << i;
uci1	0:664899e0b988	527	} else if (b==lo) {
uci1	0:664899e0b988	528	hiPla \|= 0x3 << i;
uci1	0:664899e0b988	529	loPla \|= hi << i;
uci1	0:664899e0b988	530	} else if (b==0x3) {
uci1	0:664899e0b988	531	// any
uci1	0:664899e0b988	532	hiPla \|= 0x3 << i;
uci1	0:664899e0b988	533	loPla \|= 0x3 << i;
uci1	0:664899e0b988	534	} else {
uci1	0:664899e0b988	535	// no check that b is something else.. should be impossible.
uci1	0:664899e0b988	536	// between
uci1	0:664899e0b988	537	hiPla \|= lo << i;
uci1	0:664899e0b988	538	loPla \|= lo << i;
uci1	0:664899e0b988	539	}
uci1	0:664899e0b988	540	}
uci1	0:664899e0b988	541
uci1	0:664899e0b988	542	}
uci1	0:664899e0b988	543
uci1	0:664899e0b988	544	bool SnConfigFrame::ReadFromFile(const char* cfile) {
uci1	0:664899e0b988	545	// intended only for reading default config file
uci1	0:664899e0b988	546
uci1	3:24c5f0f50bf1	547	/*
uci1	3:24c5f0f50bf1	548	DIR* d;
uci1	3:24c5f0f50bf1	549	struct dirent* dent;
uci1	3:24c5f0f50bf1	550	printf("files in /local:\r\n");
uci1	3:24c5f0f50bf1	551	if ( (d = opendir( "/local" ))!=NULL ) {
uci1	3:24c5f0f50bf1	552	while ( (dent = readdir(d))!=NULL ) {
uci1	3:24c5f0f50bf1	553	printf("%s\r\n",dent->d_name);
uci1	3:24c5f0f50bf1	554	}
uci1	3:24c5f0f50bf1	555	closedir(d);
uci1	3:24c5f0f50bf1	556	}
uci1	3:24c5f0f50bf1	557	*/
uci1	56:0bba0ef15697	558	#ifdef DEBUG
uci1	56:0bba0ef15697	559	printf("trying to read config [%s]\r\n",cfile);
uci1	56:0bba0ef15697	560	#endif
uci1	0:664899e0b988	561	bool ret = false;
uci1	0:664899e0b988	562	FILE* cf = fopen(cfile,"rb");
uci1	0:664899e0b988	563	if (cf!=0) {
uci1	56:0bba0ef15697	564	#ifdef DEBUG
uci1	56:0bba0ef15697	565	printf("opened file\r\n");
uci1	56:0bba0ef15697	566	#endif
uci1	16:744ce85aede2	567	// check the header and file size to be
uci1	16:744ce85aede2	568	// protect a bit against corruption
uci1	16:744ce85aede2	569	uint8_t hc; uint32_t hl;
uci1	16:744ce85aede2	570	SnHeaderFrame::ReadFrom(cf, hc, hl);
uci1	56:0bba0ef15697	571	#ifdef DEBUG
uci1	56:0bba0ef15697	572	printf("hc=%hhu, hl=%u\r\n",hc,hl);
uci1	56:0bba0ef15697	573	#endif
uci1	16:744ce85aede2	574	if (hc==SnHeaderFrame::kConfigCode) {
uci1	16:744ce85aede2	575	const int fpos = ftell(cf);
uci1	16:744ce85aede2	576	// how many bytes?
uci1	16:744ce85aede2	577	fseek(cf, 0, SEEK_END); // go to end
uci1	16:744ce85aede2	578	const int fend = ftell(cf);
uci1	16:744ce85aede2	579	fseek(cf, fpos, SEEK_SET); // go back
uci1	56:0bba0ef15697	580
uci1	56:0bba0ef15697	581	#ifdef DEBUG
uci1	56:0bba0ef15697	582	printf("fend-fpos=%d-%d=%d\r\n",fend,fpos,fend-fpos);
uci1	56:0bba0ef15697	583	#endif
uci1	16:744ce85aede2	584	if (hl == fend-fpos) {
uci1	16:744ce85aede2	585	ReadFrom(cf);
uci1	16:744ce85aede2	586	ret = (ferror(cf)==0);
uci1	56:0bba0ef15697	587	#ifdef DEBUG
uci1	56:0bba0ef15697	588	printf("ret = %d\r\n",(int)ret);
uci1	56:0bba0ef15697	589	#endif
uci1	16:744ce85aede2	590	}
uci1	16:744ce85aede2	591	}
uci1	0:664899e0b988	592	fclose(cf);
uci1	0:664899e0b988	593	}
uci1	0:664899e0b988	594	return ret;
uci1	0:664899e0b988	595	}
uci1	0:664899e0b988	596
uci1	0:664899e0b988	597	bool SnConfigFrame::WriteToFile(const char* cfile) const {
uci1	0:664899e0b988	598	// intended only for writing default config file
uci1	0:664899e0b988	599
uci1	0:664899e0b988	600	bool ret = false;
uci1	0:664899e0b988	601	FILE* cf = fopen(cfile,"wb");
uci1	0:664899e0b988	602	if (cf!=0) {
uci1	0:664899e0b988	603	WriteTo(cf);
uci1	0:664899e0b988	604	ret = (ferror(cf)==0);
uci1	0:664899e0b988	605	fclose(cf);
uci1	0:664899e0b988	606	}
uci1	0:664899e0b988	607	return ret;
uci1	76:f8383f0292c2	608	}
uci1	76:f8383f0292c2	609
uci1	76:f8383f0292c2	610	void SnConfigFrame::SetSDNeedToInitFlag() {
uci1	76:f8383f0292c2	611	// reset the SD card init cache, in case the SD ignore run mode changed
uci1	76:f8383f0292c2	612	SnSDUtils::SetDoNeedToInit();
uci1	76:f8383f0292c2	613	}
uci1	84:80b15993944e	614
uci1	84:80b15993944e	615	void SnConfigFrame::GetIpStrFromVal(const uint32_t ip,
uci1	84:80b15993944e	616	char(& str)[SnConfigFrame::kIPLen]) {
uci1	84:80b15993944e	617	if (ip==kDefIPvalue) {
uci1	84:80b15993944e	618	snprintf(str, kIPLen, kDefIPflag);
uci1	84:80b15993944e	619	} else {
uci1	84:80b15993944e	620	// little endian, but same method is used in ipToVal so the
uci1	84:80b15993944e	621	// conversions will be consistent on this machine, but of course,
uci1	84:80b15993944e	622	// the remote machine better send the right integer...
uci1	84:80b15993944e	623	union {
uci1	84:80b15993944e	624	uint8_t c[4];
uci1	84:80b15993944e	625	uint32_t u;
uci1	84:80b15993944e	626	} x;
uci1	84:80b15993944e	627	x.u = ip;
uci1	84:80b15993944e	628	snprintf(str, kIPLen, "%hhu.%hhu.%hhu.%hhu",
uci1	84:80b15993944e	629	x.c[3], x.c[2], x.c[1], x.c[0]);
uci1	84:80b15993944e	630	}
uci1	84:80b15993944e	631	}
uci1	84:80b15993944e	632
uci1	84:80b15993944e	633	uint32_t SnConfigFrame::GetIpValFromStr(const char(& str)[SnConfigFrame::kIPLen]) {
uci1	84:80b15993944e	634	if (strncmp(str, kDefIPflag, kIPLen)==0) {
uci1	84:80b15993944e	635	return kDefIPvalue;
uci1	84:80b15993944e	636	} else {
uci1	84:80b15993944e	637	union {
uci1	84:80b15993944e	638	uint8_t c[4];
uci1	84:80b15993944e	639	uint32_t u;
uci1	84:80b15993944e	640	} x;
uci1	84:80b15993944e	641	// 17 = space for terminating null
uci1	84:80b15993944e	642	// little endian, but same method is used in ipToVal so the
uci1	84:80b15993944e	643	// conversions will be consistent on this machine, but of course,
uci1	84:80b15993944e	644	// the remote machine better send the right integer...
uci1	84:80b15993944e	645	sscanf(str, "%hhu.%hhu.%hhu.%hhu",
uci1	84:80b15993944e	646	x.c+3, x.c+2, x.c+1, x.c);
uci1	84:80b15993944e	647	return x.u;
uci1	84:80b15993944e	648	}
uci1	84:80b15993944e	649	}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	30 Oct 2014
Imports:	5
Forks:	0
Commits:	126
Dependents:	0
Dependencies:	8
Followers:	3

SnConfigFrame.cpp@105:bc5d12d38509, 2015-11-22 (annotated)

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