/* * X.509 Time Types * (C) 1999-2007 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include namespace Botan { /* * Create an X509_Time */ X509_Time::X509_Time(const std::string& time_str) { set_to(time_str); } /* * Create an X509_Time */ X509_Time::X509_Time(u64bit timer) { calendar_point cal = calendar_value(timer); year = cal.year; month = cal.month; day = cal.day; hour = cal.hour; minute = cal.minutes; second = cal.seconds; if(year >= 2050) tag = GENERALIZED_TIME; else tag = UTC_TIME; } /* * Create an X509_Time */ X509_Time::X509_Time(const std::string& t_spec, ASN1_Tag t) : tag(t) { set_to(t_spec, tag); } /* * Set the time with a human readable string */ void X509_Time::set_to(const std::string& time_str) { if(time_str == "") { year = month = day = hour = minute = second = 0; return; } std::vector params; std::string current; for(u32bit j = 0; j != time_str.size(); ++j) { if(Charset::is_digit(time_str[j])) current += time_str[j]; else { if(current != "") params.push_back(current); current.clear(); } } if(current != "") params.push_back(current); if(params.size() < 3 || params.size() > 6) throw Invalid_Argument("Invalid time specification " + time_str); year = to_u32bit(params[0]); month = to_u32bit(params[1]); day = to_u32bit(params[2]); hour = (params.size() >= 4) ? to_u32bit(params[3]) : 0; minute = (params.size() >= 5) ? to_u32bit(params[4]) : 0; second = (params.size() == 6) ? to_u32bit(params[5]) : 0; if(year >= 2050) tag = GENERALIZED_TIME; else tag = UTC_TIME; if(!passes_sanity_check()) throw Invalid_Argument("Invalid time specification " + time_str); } /* * Set the time with an ISO time format string */ void X509_Time::set_to(const std::string& t_spec, ASN1_Tag tag) { if(tag != GENERALIZED_TIME && tag != UTC_TIME) throw Invalid_Argument("X509_Time: Invalid tag " + to_string(tag)); if(tag == GENERALIZED_TIME && t_spec.size() != 13 && t_spec.size() != 15) throw Invalid_Argument("Invalid GeneralizedTime: " + t_spec); if(tag == UTC_TIME && t_spec.size() != 11 && t_spec.size() != 13) throw Invalid_Argument("Invalid UTCTime: " + t_spec); if(t_spec[t_spec.size()-1] != 'Z') throw Invalid_Argument("Invalid time encoding: " + t_spec); const u32bit YEAR_SIZE = (tag == UTC_TIME) ? 2 : 4; std::vector params; std::string current; for(u32bit j = 0; j != YEAR_SIZE; ++j) current += t_spec[j]; params.push_back(current); current.clear(); for(u32bit j = YEAR_SIZE; j != t_spec.size() - 1; ++j) { current += t_spec[j]; if(current.size() == 2) { params.push_back(current); current.clear(); } } year = to_u32bit(params[0]); month = to_u32bit(params[1]); day = to_u32bit(params[2]); hour = to_u32bit(params[3]); minute = to_u32bit(params[4]); second = (params.size() == 6) ? to_u32bit(params[5]) : 0; if(tag == UTC_TIME) { if(year >= 50) year += 1900; else year += 2000; } if(!passes_sanity_check()) throw Invalid_Argument("Invalid time specification " + t_spec); } /* * DER encode a X509_Time */ void X509_Time::encode_into(DER_Encoder& der) const { if(tag != GENERALIZED_TIME && tag != UTC_TIME) throw Invalid_Argument("X509_Time: Bad encoding tag"); der.add_object(tag, UNIVERSAL, Charset::transcode(as_string(), LOCAL_CHARSET, LATIN1_CHARSET)); } /* * Decode a BER encoded X509_Time */ void X509_Time::decode_from(BER_Decoder& source) { BER_Object ber_time = source.get_next_object(); set_to(Charset::transcode(ASN1::to_string(ber_time), LATIN1_CHARSET, LOCAL_CHARSET), ber_time.type_tag); } /* * Return a string representation of the time */ std::string X509_Time::as_string() const { if(time_is_set() == false) throw Invalid_State("X509_Time::as_string: No time set"); std::string asn1rep; if(tag == GENERALIZED_TIME) asn1rep = to_string(year, 4); else { if(year < 1950 || year >= 2050) throw Encoding_Error("X509_Time: The time " + readable_string() + " cannot be encoded as a UTCTime"); u32bit asn1year = (year >= 2000) ? (year - 2000) : (year - 1900); asn1rep = to_string(asn1year, 2); } asn1rep += to_string(month, 2) + to_string(day, 2); asn1rep += to_string(hour, 2) + to_string(minute, 2) + to_string(second, 2); asn1rep += "Z"; return asn1rep; } /* * Return if the time has been set somehow */ bool X509_Time::time_is_set() const { return (year != 0); } /* * Return a human readable string representation */ std::string X509_Time::readable_string() const { if(time_is_set() == false) throw Invalid_State("X509_Time::readable_string: No time set"); std::string readable; readable += to_string(year, 4) + "/"; readable += to_string(month ) + "/"; readable += to_string(day ) + " "; readable += to_string(hour ) + ":"; readable += to_string(minute, 2) + ":"; readable += to_string(second, 2) + " UTC"; return readable; } /* * Do a general sanity check on the time */ bool X509_Time::passes_sanity_check() const { if(year < 1950 || year > 2100) return false; if(month == 0 || month > 12) return false; if(day == 0 || day > 31) return false; if(hour >= 24 || minute > 60 || second > 60) return false; return true; } /* * Compare this time against another */ s32bit X509_Time::cmp(const X509_Time& other) const { if(time_is_set() == false) throw Invalid_State("X509_Time::cmp: No time set"); const s32bit EARLIER = -1, LATER = 1, SAME_TIME = 0; if(year < other.year) return EARLIER; if(year > other.year) return LATER; if(month < other.month) return EARLIER; if(month > other.month) return LATER; if(day < other.day) return EARLIER; if(day > other.day) return LATER; if(hour < other.hour) return EARLIER; if(hour > other.hour) return LATER; if(minute < other.minute) return EARLIER; if(minute > other.minute) return LATER; if(second < other.second) return EARLIER; if(second > other.second) return LATER; return SAME_TIME; } /* * Compare two X509_Times for in various ways */ bool operator==(const X509_Time& t1, const X509_Time& t2) { return (t1.cmp(t2) == 0); } bool operator!=(const X509_Time& t1, const X509_Time& t2) { return (t1.cmp(t2) != 0); } bool operator<=(const X509_Time& t1, const X509_Time& t2) { return (t1.cmp(t2) <= 0); } bool operator>=(const X509_Time& t1, const X509_Time& t2) { return (t1.cmp(t2) >= 0); } }