Ejemplo n.º 1
0
bool ADVBConfig::ExtractLogData(const ADateTime& start, const ADateTime& end, const AString& filename) const
{
	AStdFile dst;
	bool success = false;

	if (dst.open(filename, "w")) {
		ADateTime dt;
		uint32_t day1 = start.GetDays();
		uint32_t day2 = end.GetDays();
		uint32_t day;
		bool     valid = false;

		for (day = day1; day <= day2; day++) {
			AStdFile src;

			if (src.open(GetLogFile(day))) {
				AString line;

				while (line.ReadLn(src) >= 0) {
					valid |= dt.FromTimeStamp(line.Words(0, 2));

					if (valid) {
						if ((dt >= start) && (dt <= end)) dst.printf("%s\n", line.str());
						if (dt >= end) break;
					}
				}

				src.close();
			}
		}

		dst.close();
	}

	return success;
}
Ejemplo n.º 2
0
void ADVBConfig::writetorecordlog(const char *fmt, ...) const
{
	ADateTime dt;
	AStdFile fp;

	if (fp.open(GetRecordLog(dt.GetDays()), "a")) {
		va_list ap;

		fp.printf("%s: ", dt.DateFormat("%Y-%M-%D %h:%m:%s.%S").str());

		va_start(ap, fmt);
		fp.vprintf(fmt, ap);
		va_end(ap);

		fp.printf("\n");

		fp.close();
	}
}
Ejemplo n.º 3
0
void ADVBConfig::vlogit(const char *fmt, va_list ap, bool show) const
{
	ADateTime dt;
	AString   filename = GetLogFile(dt.GetDays());
	AString   str;
	AStdFile  fp;

	str.vprintf(fmt, ap);

	if (fp.open(filename, "a")) {
		uint_t i, n = str.CountLines("\n", 0);

		for (i = 0; i < n; i++) {
			fp.printf("%s [%05u]: %s\n", dt.DateFormat("%Y-%M-%D %h:%m:%s.%S").str(), (uint_t)getpid(), str.Line(i, "\n", 0).str());
		}

		fp.close();
	}

	if (show && !webresponse) {
		Stdout->printf("%s\n", str.str());
	}
}
Ejemplo n.º 4
0
AString ADVBPatterns::ParsePattern(const AString& _line, PATTERN& pattern, const AString& user)
{
	const ADVBConfig& config = ADVBConfig::Get();
	ADataList& list   = pattern.list;
	AString&   errors = pattern.errors;
	AString    line   = config.ReplaceTerms(user, _line);
	TERM   *term;
	uint_t i;

	pattern.exclude    = false;
	pattern.enabled    = true;
	pattern.scorebased = false;
	pattern.pri        = 0;
	pattern.user       = user;
	pattern.pattern    = line;

	if (pattern.user.Valid()) {
		pattern.pri = (int)config.GetUserConfigItem(pattern.user, "pri");
	}

	list.DeleteList();
	list.SetDestructor(&__DeleteTerm);

	i = 0;
	while (IsWhiteSpace(line[i])) i++;
	if (line[i] == '#') {
		pattern.enabled = false;
		i++;
	}
	else if (line[i] == ';') {
		return errors;
	}

	while (IsWhiteSpace(line[i])) i++;

	if (line[i]) {
		while (line[i] && errors.Empty()) {
			if (!IsSymbolStart(line[i])) {
				errors.printf("Character '%c' (at %u) is not a legal field start character (term %u)", line[i], i, list.Count() + 1);
				break;
			}

			uint_t fieldstart = i++;
			while (IsSymbolChar(line[i])) i++;
			AString field = line.Mid(fieldstart, i - fieldstart).ToLower();

			while (IsWhiteSpace(line[i])) i++;

			if (field == "exclude") {
				pattern.exclude = true;
				continue;
			}

			const FIELD *fieldptr = (const FIELD *)ADVBProg::fieldhash.Read(field);
			if (!fieldptr) {
				uint_t nfields;
				const FIELD *fields = ADVBProg::GetFields(nfields);

				errors.printf("'%s' (at %u) is not a valid search field (term %u), valid search fields are: ", field.str(), fieldstart, list.Count() + 1);
				for (i = 0; i < nfields; i++) {
					const FIELD& field = fields[i];

					if (i) errors.printf(", ");
					errors.printf("'%s'", field.name);
				}
				break;
			}

			uint_t opstart = i;

			const char *str = line.str() + i;
			bool isassign = fieldptr->assignable;
			uint_t j;
			uint_t opindex = 0, opcode = Operator_EQ;
			for (j = 0; j < NUMBEROF(operators); j++) {
				if (((isassign == operators[j].assign) ||
					 (isassign && !operators[j].assign)) &&
					(operators[j].fieldtypes & (1U << fieldptr->type)) &&
					(strncmp(str, operators[j].str, operators[j].len) == 0)) {
					i      += operators[j].len;
					opindex = j;
					opcode  = operators[j].opcode;
					break;
				}
			}

			while (IsWhiteSpace(line[i])) i++;

			AString value;
			bool    implicitvalue = false;
			if (j == NUMBEROF(operators)) {
				if (!line[i] || IsSymbolStart(line[i])) {
					if (fieldptr->assignable) {
						switch (fieldptr->type) {
							case FieldType_string:
								break;

							case FieldType_date:
								value = "now";
								break;

							default:
								value = "1";
								break;
						}

						opcode = Operator_Assign;
					}
					else opcode = Operator_NE;

					for (j = 0; j < NUMBEROF(operators); j++) {
						if ((opcode == operators[j].opcode) &&
							((isassign == operators[j].assign) ||
							 (isassign && !operators[j].assign)) &&
							(operators[j].fieldtypes & (1U << fieldptr->type))) {
							opindex = j;
							break;
						}
					}

					implicitvalue = true;
				}
				else {
					errors.printf("Symbols at %u do not represent a legal operator (term %u), legal operators for the field '%s' are: ", opstart, list.Count() + 1, field.str());

					bool flag = false;
					for (j = 0; j < NUMBEROF(operators); j++) {
						if (((isassign == operators[j].assign) ||
							 (isassign && !operators[j].assign)) &&
							(operators[j].fieldtypes & (1U << fieldptr->type))) {
							if (flag) errors.printf(", ");
							errors.printf("'%s'", operators[j].str);
							flag = true;
						}
					}
					break;
				}
			}

			if (!implicitvalue) {
				char quote = 0;
				if (IsQuoteChar(line[i])) quote = line[i++];

				uint_t valuestart = i;
				while (line[i] && ((!quote && !IsWhiteSpace(line[i])) || (quote && (line[i] != quote)))) {
					if (line[i] == '\\') i++;
					i++;
				}

				value = line.Mid(valuestart, i - valuestart).DeEscapify();

				if (quote && (line[i] == quote)) i++;

				while (IsWhiteSpace(line[i])) i++;
			}

			bool orflag = false;
			if ((line.Mid(i, 2).ToLower() == "or") && IsWhiteSpace(line[i + 2])) {
				orflag = true;
				i += 2;

				while (IsWhiteSpace(line[i])) i++;
			}
			else if ((line[i] == '|') && IsWhiteSpace(line[i + 1])) {
				orflag = true;
				i += 1;

				while (IsWhiteSpace(line[i])) i++;
			}

			if ((term = new TERM) != NULL) {
				term->data.start   = fieldstart;
				term->data.length  = i - fieldstart;
				term->data.field   = fieldptr - ADVBProg::fields;
				term->data.opcode  = opcode;
				term->data.opindex = opindex;
				term->data.value   = value;
				term->data.orflag  = (orflag && !RANGE(opcode, Operator_First_Assignable, Operator_Last_Assignable));
				term->field    	   = fieldptr;
				term->datetype 	   = DateType_none;

				switch (term->field->type) {
					case FieldType_string:
#if DVBDATVERSION > 1
						if (fieldptr->offset == ADVBProg::GetTagsDataOffset()) {
							value = "|" + value + "|";
						}
#endif
						
						if ((opcode & ~Operator_Inverted) == Operator_Regex) {
							AString regexerrors;
							AString rvalue;

							rvalue = ParseRegex(value, regexerrors);
							if (regexerrors.Valid()) {
								errors.printf("Regex error in value '%s' (term %u): %s", value.str(), list.Count() + 1, regexerrors.str());
							}

							value = rvalue;
						}
						term->value.str = value.Steal();
						break;

					case FieldType_date: {
						ADateTime dt;
						uint_t specified;

						dt.StrToDate(value, ADateTime::Time_Relative_Local, &specified);

						//debug("Value '%s', specified %u\n", value.str(), specified);

						if (!specified) {
							errors.printf("Failed to parse date '%s' (term %u)", value.str(), list.Count() + 1);
							break;
						}
						else if (((specified == ADateTime::Specified_Day) && (stricmp(term->field->name, "on") == 0)) ||
								 (stricmp(term->field->name, "day") == 0)) {
							//debug("Date from '%s' is '%s' (week day only)\n", value.str(), dt.DateToStr().str());
							term->value.u64 = dt.GetWeekDay();
							term->datetype  = DateType_weekday;
						}
						else if (specified & ADateTime::Specified_Day) {
							specified |= ADateTime::Specified_Date;
						}

						if (term->datetype == DateType_none) {
							specified &= ADateTime::Specified_Date | ADateTime::Specified_Time;

							if (specified == (ADateTime::Specified_Date | ADateTime::Specified_Time)) {
								//debug("Date from '%s' is '%s' (full date and time)\n", value.str(), dt.DateToStr().str());
								term->value.u64 = (uint64_t)dt;
								term->datetype  = DateType_fulldate;
							}
							else if (specified == ADateTime::Specified_Date) {
								//debug("Date from '%s' is '%s' (date only)\n", value.str(), dt.DateToStr().str());
								term->value.u64 = dt.GetDays();
								term->datetype  = DateType_date;
							}
							else if (specified == ADateTime::Specified_Time) {
								//debug("Date from '%s' is '%s' (time only)\n", value.str(), dt.DateToStr().str());
								term->value.u64 = dt.GetMS();
								term->datetype  = DateType_time;
							}
							else {
								errors.printf("Unknown date specifier '%s' (term %u)", value.str(), list.Count() + 1);
							}
						}
						break;
					}

					case FieldType_span:
					case FieldType_age: {
						ADateTime dt;
						//ADateTime::EnableDebugStrToDate(true);
						term->value.u64 = (uint64_t)ADateTime(value, ADateTime::Time_Absolute);
						//ADateTime::EnableDebugStrToDate(false);
						break;
					}

					case FieldType_uint32_t:
					case FieldType_external_uint32_t:
						term->value.u32 = (uint32_t)value;
						break;

					case FieldType_sint32_t:
					case FieldType_external_sint32_t:
						term->value.s32 = (sint32_t)value;
						break;

					case FieldType_uint16_t:
						term->value.u16 = (uint16_t)value;
						break;

					case FieldType_sint16_t:
						term->value.s16 = (sint16_t)value;
						break;

					case FieldType_uint8_t:
						term->value.u8 = (uint8_t)(uint16_t)value;
						break;

					case FieldType_sint8_t:
						term->value.s8 = (sint8_t)(sint16_t)value;
						break;

					case FieldType_flag...FieldType_lastflag:
						term->value.u8 = ((uint32_t)value != 0);
						//debug("Setting test of flag to %u\n", (uint_t)term->value.u8);
						break;

					case FieldType_prog: {
						ADVBProg *prog;

						if ((prog = new ADVBProg) != NULL) {
							if (prog->Base64Decode(value)) {
								term->value.prog = prog;
							}
							else {
								errors.printf("Failed to decode base64 programme ('%s') for %s at %u (term %u)", value.str(), field.str(), fieldstart, list.Count() + 1);
								delete prog;
							}
						}
						else {
							errors.printf("Failed to allocate memory for base64 programme ('%s') for %s at %u (term %u)", value.str(), field.str(), fieldstart, list.Count() + 1);
						}
						break;
					}

					default:
						errors.printf("Unknown field '%s' type (%u) (term %u)", field.str(), (uint_t)term->field->type, list.Count() + 1);
						break;
				}

				//debug("term: field {name '%s', type %u, assignable %u, offset %u} type %u dateflags %u value '%s'\n", term->field->name, (uint_t)term->field->type, (uint_t)term->field->assignable, term->field->offset, (uint_t)term->data.opcode, (uint_t)term->dateflags, term->value.str);

				if (errors.Empty()) {
					pattern.scorebased |= (term->field->offset == ADVBProg::GetScoreDataOffset());
					list.Add((uptr_t)term);
				}
				else {
					__DeleteTerm((uptr_t)term, NULL);
					break;
				}
			}
		}
	}