/* * This file is part of libgim. * * libgim is free software: you can redistribute it and/or modify it under the * terms of the GNU General Public License as published by the Free Software * Foundation, either version 3 of the License, or (at your option) any later * version. * * libgim is distributed in the hope that it will be useful, but WITHOUT ANY * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with libgim. If not, see . * * Copyright 2011 Danny Robson */ #include "guid.hpp" #include "debug.hpp" #include "endian.hpp" #include "types.hpp" #include #include #include using namespace std; guid::guid (uint32_t _data1, uint16_t _data2, uint16_t _data3, uint8_t _data4[8]): data1 (_data1), data2 (_data2), data3 (_data3) { copy (_data4, _data4 + elems (data4), data4); } guid::guid (void) { ; } guid::guid (const char *str) { istringstream is (str); is >> *this; } guid::guid (const guid &rhs) { *this = rhs; } guid& guid::operator= (const guid &rhs) { data1 = rhs.data1; data2 = rhs.data2; data3 = rhs.data3; copy (rhs.data4 + 0, rhs.data4 + elems (rhs.data4), data4 + 0); return *this; } guid guid::from_bytes (const uint8_t *bytes) { guid g; g.data1 = *reinterpret_cast (bytes); bytes += sizeof (g.data1); g.data2 = *reinterpret_cast (bytes); bytes += sizeof (g.data2); g.data3 = *reinterpret_cast (bytes); bytes += sizeof (g.data3); for (signed i = 7; i >= 0; --i) g.data4[i] = *bytes++; return g; } guid guid::from_string (const char *bytes) { return guid (bytes); } guid::type guid::get_type (void) const { // Top three bits signal the type unsigned bits = data4[2] >> 5U; switch (bits) { case 0x0: case 0x1: case 0x2: case 0x3: return NCS_BACKWARD; case 0x4: case 0x5: return STANDARD; case 0x6: return COM_BACKWARD; case 0x7: return RESERVED; } unreachable (); } bool guid::operator< (const guid &rhs) const { if (data1 != rhs.data1) return data1 < rhs.data1; if (data2 != rhs.data2) return data2 < rhs.data2; if (data3 != rhs.data3) return data3 < rhs.data3; for (unsigned i = 0; i < elems (data4); ++i) { if (data4[i] == rhs.data4[i]) return data4[i] < rhs.data4[i]; } // All equal, so not less than return false; } bool guid::operator== (const guid &rhs) const { return data1 == rhs.data1 && data2 == rhs.data2 && data3 == rhs.data3 && data4[0] == rhs.data4[0] && data4[1] == rhs.data4[1] && data4[2] == rhs.data4[2] && data4[3] == rhs.data4[3] && data4[4] == rhs.data4[4] && data4[5] == rhs.data4[5] && data4[6] == rhs.data4[6] && data4[7] == rhs.data4[7]; } std::ostream& operator<< (std::ostream &os, const guid &g) { uint64_t data4_b = static_cast (g.data4[0]) << 0u | static_cast (g.data4[1]) << 8u | static_cast (g.data4[2]) << 16u | static_cast (g.data4[3]) << 24u | static_cast (g.data4[4]) << 32u | static_cast (g.data4[5]) << 40u; uint16_t data4_a = static_cast (g.data4[6]) << 0u | static_cast (g.data4[7]) << 8u; os << hex << setfill ('0') << setw (2 * sizeof (g.data1)) << g.data1 << "-" << setw (2 * sizeof (g.data2)) << g.data2 << "-" << setw (2 * sizeof (g.data3)) << g.data3 << "-" << setw (2 * 2) << data4_a << "-" << setw (2 * 6) << data4_b; os << dec; return os; } std::istream& operator>> (std::istream &is, guid &g) { bool braces = '{' == is.peek (); if (braces) is.get (); uint8_t dash1, dash2, dash3, dash4a; uint16_t data4_a; uint64_t data4_b; is >> hex >> g.data1 >> dash1 >> g.data2 >> dash2 >> g.data3 >> dash3 >> data4_a >> dash4a >> data4_b; uint64_t data4 = data4_b | (uint64_t)data4_a << 48; g.data4[0] = data4 & 0xFF; data4 >>= 8; g.data4[1] = data4 & 0xFF; data4 >>= 8; g.data4[2] = data4 & 0xFF; data4 >>= 8; g.data4[3] = data4 & 0xFF; data4 >>= 8; g.data4[4] = data4 & 0xFF; data4 >>= 8; g.data4[5] = data4 & 0xFF; data4 >>= 8; g.data4[6] = data4 & 0xFF; data4 >>= 8; g.data4[7] = data4 & 0xFF; if (braces) is.get (); return is; }