/* * EAC Time Types * (C) 2007 FlexSecure GmbH * 2008-2009 Jack Lloyd * * Distributed under the terms of the Botan license */ #include #include #include #include #include #include #include namespace Botan { namespace { SecureVector enc_two_digit(u32bit in) { SecureVector result; in %= 100; if(in < 10) result.append(0x00); else { u32bit y_first_pos = round_down(in, 10) / 10; result.append(static_cast(y_first_pos)); } u32bit y_sec_pos = in % 10; result.append(static_cast(y_sec_pos)); return result; } u32bit dec_two_digit(byte b1, byte b2) { u32bit upper = (u32bit)b1; u32bit lower = (u32bit)b2; if(upper > 9 || lower > 9) throw Invalid_Argument("CVC dec_two_digit value too large"); return upper*10 + lower; } } /* * Create an EAC_Time */ EAC_Time::EAC_Time(const std::chrono::system_clock::time_point& time, ASN1_Tag t) : tag(t) { calendar_point cal = calendar_value(time); year = cal.year; month = cal.month; day = cal.day; } /* * Create an EAC_Time */ EAC_Time::EAC_Time(const std::string& t_spec, ASN1_Tag t) : tag(t) { set_to(t_spec); } /* * Create an EAC_Time */ EAC_Time::EAC_Time(u32bit y, u32bit m, u32bit d, ASN1_Tag t) : year(y), month(m), day(d), tag(t) { } /* * Set the time with a human readable string */ void EAC_Time::set_to(const std::string& time_str) { if(time_str == "") { year = month = day = 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) throw Invalid_Argument("Invalid time specification " + time_str); year = to_u32bit(params[0]); month = to_u32bit(params[1]); day = to_u32bit(params[2]); if(!passes_sanity_check()) throw Invalid_Argument("Invalid time specification " + time_str); } /* * DER encode a EAC_Time */ void EAC_Time::encode_into(DER_Encoder& der) const { der.add_object(tag, APPLICATION, encoded_eac_time()); } /* * Return a string representation of the time */ std::string EAC_Time::as_string() const { if(time_is_set() == false) throw Invalid_State("EAC_Time::as_string: No time set"); return std::to_string(year * 10000 + month * 100 + day); } /* * Return if the time has been set somehow */ bool EAC_Time::time_is_set() const { return (year != 0); } /* * Return a human readable string representation */ std::string EAC_Time::readable_string() const { if(time_is_set() == false) throw Invalid_State("EAC_Time::readable_string: No time set"); std::string output(11, 0); std::sprintf(&output[0], "%04d/%02d/%02d", year, month, day); return output; } /* * Do a general sanity check on the time */ bool EAC_Time::passes_sanity_check() const { if(year < 2000 || year > 2099) return false; if(month == 0 || month > 12) return false; if(day == 0 || day > 31) return false; return true; } /* * modification functions */ void EAC_Time::add_years(u32bit years) { year += years; } void EAC_Time::add_months(u32bit months) { year += months/12; month += months % 12; if(month > 12) { year += 1; month -= 12; } } /* * Compare this time against another */ s32bit EAC_Time::cmp(const EAC_Time& other) const { if(time_is_set() == false) throw Invalid_State("EAC_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; return SAME_TIME; } /* * Compare two EAC_Times for in various ways */ bool operator==(const EAC_Time& t1, const EAC_Time& t2) { return (t1.cmp(t2) == 0); } bool operator!=(const EAC_Time& t1, const EAC_Time& t2) { return (t1.cmp(t2) != 0); } bool operator<=(const EAC_Time& t1, const EAC_Time& t2) { return (t1.cmp(t2) <= 0); } bool operator>=(const EAC_Time& t1, const EAC_Time& t2) { return (t1.cmp(t2) >= 0); } bool operator>(const EAC_Time& t1, const EAC_Time& t2) { return (t1.cmp(t2) > 0); } bool operator<(const EAC_Time& t1, const EAC_Time& t2) { return (t1.cmp(t2) < 0); } /* * Decode a BER encoded EAC_Time */ void EAC_Time::decode_from(BER_Decoder& source) { BER_Object obj = source.get_next_object(); if(obj.type_tag != this->tag) throw BER_Decoding_Error("Tag mismatch when decoding"); if(obj.value.size() != 6) { throw Decoding_Error("EAC_Time decoding failed"); } try { u32bit tmp_year = dec_two_digit(obj.value[0], obj.value[1]); u32bit tmp_mon = dec_two_digit(obj.value[2], obj.value[3]); u32bit tmp_day = dec_two_digit(obj.value[4], obj.value[5]); year = tmp_year + 2000; month = tmp_mon; day = tmp_day; } catch (Invalid_Argument) { throw Decoding_Error("EAC_Time decoding failed"); } } /* * make the value an octet string for encoding */ SecureVector EAC_Time::encoded_eac_time() const { SecureVector result; result.append(enc_two_digit(year)); result.append(enc_two_digit(month)); result.append(enc_two_digit(day)); return result; } }