// Copyright (C) 2009-2015 Internet Systems Consortium, Inc. ("ISC") // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. #ifndef TIME_UTILITIES_H #define TIME_UTILITIES_H 1 #include #include #include #include // // Note: this helper module isn't specific to the DNS protocol per se. // We should probably move this to somewhere else, possibly in some common // utility area. // namespace isc { namespace util { /// /// \brief A standard DNS (or ISC) module exception that is thrown if /// a time conversion function encounters bad input /// class InvalidTime : public Exception { public: InvalidTime(const char* file, size_t line, const char* what) : isc::Exception(file, line, what) {} }; namespace detail { /// Return the current time in seconds /// /// This function returns the "current" time in seconds from epoch /// (00:00:00 January 1, 1970) as a 64-bit signed integer. The return /// value can represent a point of time before epoch as a negative number. /// /// This function is provided to help test time conscious implementations /// such as DNSSEC and TSIG signatures. It is difficult to test them with /// an unusual or a specifically chosen "current" via system-provided /// library functions to get time. This function acts as a straightforward /// wrapper of such a library function, but provides test code with a hook /// to return an arbitrary time value: if \c isc::util::detail::gettimeFunction /// is set to a pointer of function that returns 64-bit signed integer, /// \c gettimeWrapper() calls that function instead of the system library. /// /// This hook variable is specifically intended for testing purposes, so, /// even if it's visible outside of this library, it's not even declared in a /// header file. /// /// If the implementation doesn't need to be tested with faked current time, /// it should simply use the system supplied library function instead of /// this one. int64_t gettimeWrapper(); } /// /// \name DNSSEC time conversion functions. /// /// These functions convert between times represented in seconds (in integer) /// since epoch and those in the textual form used in the RRSIG records. /// For integers we provide both 32-bit and 64-bit versions. /// The RRSIG expiration and inception fields are both 32-bit unsigned /// integers, so 32-bit versions would be more useful for protocol operations. /// However, with 32-bit integers we need to take into account wrap-around /// points and compare values using the serial number arithmetic as specified /// in RFC4034, which would be more error prone. We therefore provide 64-bit /// versions, too. /// /// The timezone is always UTC for these functions. //@{ /// Convert textual DNSSEC time to integer, 64-bit version. /// /// The textual form must only consist of digits and be in the form of /// YYYYMMDDHHmmSS, where: /// - YYYY must be between 1970 and 9999 /// - MM must be between 01 and 12 /// - DD must be between 01 and 31 and must be a valid day for the month /// represented in 'MM'. For example, if MM is 04, DD cannot be 31. /// DD can be 29 when MM is 02 only when YYYY is a leap year. /// - HH must be between 00 and 23 /// - mm must be between 00 and 59 /// - SS must be between 00 and 60 /// /// For all fields the range includes the begin and end values. Note that /// 60 is allowed for 'SS', intending a leap second, although in real operation /// it's unlikely to be specified. /// /// If the given text is valid, this function converts it to an unsigned /// 64-bit number of seconds since epoch (1 January 1970 00:00:00) and returns /// the converted value. 64 bits are sufficient to represent all possible /// values for the valid format uniquely, so there is no overflow. /// /// \note RFC4034 also defines the textual form of an unsigned decimal integer /// for the corresponding time in seconds. This function doesn't support /// this form, and if given it throws an exception of class \c InvalidTime. /// /// \exception InvalidTime The given textual representation is invalid. /// /// \param time_txt Textual time in the form of YYYYMMDDHHmmSS /// \return Seconds since epoch corresponding to \c time_txt uint64_t timeFromText64(const std::string& time_txt); /// Convert textual DNSSEC time to integer, 32-bit version. /// /// This version is the same as \c timeFromText64() except that the return /// value is wrapped around to an unsigned 32-bit integer, simply dropping /// the upper 32 bits. uint32_t timeFromText32(const std::string& time_txt); /// Convert integral DNSSEC time to textual form, 64-bit version. /// /// This function takes an integer that would be seconds since epoch and /// converts it in the form of YYYYMMDDHHmmSS. For example, if \c value is /// 0, it returns "19700101000000". If the value corresponds to a point /// of time on and after year 10,000, which cannot be represented in the /// YYYY... form, an exception of class \c InvalidTime will be thrown. /// /// \exception InvalidTime The given time specifies on or after year 10,000. /// \exception Other A standard exception, if resource allocation for the /// returned text fails. /// /// \param value Seconds since epoch to be converted. /// \return Textual representation of \c value in the form of YYYYMMDDHHmmSS. std::string timeToText64(uint64_t value); /// Convert integral DNSSEC time to textual form, 32-bit version. /// /// This version is the same as \c timeToText64(), but the time value /// is expected to be the lower 32 bits of the full 64-bit value. /// These two will be different on and after a certain point of time /// in year 2106, so this function internally resolves the ambiguity /// using the current system time at the time of function call; /// it first identifies the range of [N*2^32 - 2^31, N*2^32 + 2^31) /// that contains the current time, and interprets \c value in the context /// of that range. It then applies the same process as \c timeToText64(). /// /// There is one important exception in this processing, however. /// Until 19 Jan 2038 03:14:08 (2^31 seconds since epoch), this range /// would contain time before epoch. In order to ensure the returned /// value is also a valid input to \c timeFromText, this function uses /// a special range [0, 2^32) until that time. As a result, all upper /// half of the 32-bit values are treated as a future time. For example, /// 2^32-1 (the highest value in 32-bit unsigned integers) will be converted /// to "21060207062815", instead of "19691231235959". std::string timeToText32(const uint32_t value); //@} } } #endif // TIME_UTILITIES_H // Local Variables: // mode: c++ // End: