#ifndef NALL_DECODE_GZIP_HPP #define NALL_DECODE_GZIP_HPP #include #include namespace nall { namespace Decode { struct GZIP { inline ~GZIP(); inline auto decompress(const string& filename) -> bool; inline auto decompress(const uint8* data, uint size) -> bool; string filename; uint8* data = nullptr; uint size = 0; }; GZIP::~GZIP() { if(data) delete[] data; } auto GZIP::decompress(const string& filename) -> bool { if(auto memory = file::read(filename)) { return decompress(memory.data(), memory.size()); } return false; } auto GZIP::decompress(const uint8* data, uint size) -> bool { if(size < 18) return false; if(data[0] != 0x1f) return false; if(data[1] != 0x8b) return false; uint cm = data[2]; uint flg = data[3]; uint mtime = data[4]; mtime |= data[5] << 8; mtime |= data[6] << 16; mtime |= data[7] << 24; uint xfl = data[8]; uint os = data[9]; uint p = 10; uint isize = data[size - 4]; isize |= data[size - 3] << 8; isize |= data[size - 2] << 16; isize |= data[size - 1] << 24; filename = ""; if(flg & 0x04) { //FEXTRA uint xlen = data[p + 0]; xlen |= data[p + 1] << 8; p += 2 + xlen; } if(flg & 0x08) { //FNAME char buffer[PATH_MAX]; for(uint n = 0; n < PATH_MAX; n++, p++) { buffer[n] = data[p]; if(data[p] == 0) break; } if(data[p++]) return false; filename = buffer; } if(flg & 0x10) { //FCOMMENT while(data[p++]); } if(flg & 0x02) { //FHCRC p += 2; } this->size = isize; this->data = new uint8_t[this->size]; return inflate(this->data, this->size, data + p, size - p - 8); } }} #endif