#pragma once #include #include #include #include namespace nall { namespace Decode { struct ZIP { struct File { string name; const uint8_t* data; uint size; uint csize; uint cmode; //0 = uncompressed, 8 = deflate uint crc32; time_t timestamp; }; ~ZIP() { close(); } auto open(const string& filename) -> bool { close(); if(fm.open(filename, filemap::mode::read) == false) return false; if(open(fm.data(), fm.size()) == false) { fm.close(); return false; } return true; } auto open(const uint8_t* data, uint size) -> bool { if(size < 22) return false; filedata = data; filesize = size; file.reset(); const uint8_t* footer = data + size - 22; while(true) { if(footer <= data + 22) return false; if(read(footer, 4) == 0x06054b50) { uint commentlength = read(footer + 20, 2); if(footer + 22 + commentlength == data + size) break; } footer--; } const uint8_t* directory = data + read(footer + 16, 4); while(true) { uint signature = read(directory + 0, 4); if(signature != 0x02014b50) break; File file; file.cmode = read(directory + 10, 2); file.crc32 = read(directory + 16, 4); file.csize = read(directory + 20, 4); file.size = read(directory + 24, 4); uint16_t dosTime = read(directory + 12, 2); uint16_t dosDate = read(directory + 14, 2); tm info = {}; info.tm_sec = (dosTime >> 0 & 31) << 1; info.tm_min = (dosTime >> 5 & 63); info.tm_hour = (dosTime >> 11 & 31); info.tm_mday = (dosDate >> 0 & 31); info.tm_mon = (dosDate >> 5 & 15) - 1; info.tm_year = (dosDate >> 9 & 127) + 80; info.tm_isdst = -1; file.timestamp = mktime(&info); uint namelength = read(directory + 28, 2); uint extralength = read(directory + 30, 2); uint commentlength = read(directory + 32, 2); char* filename = new char[namelength + 1]; memcpy(filename, directory + 46, namelength); filename[namelength] = 0; file.name = filename; delete[] filename; uint offset = read(directory + 42, 4); uint offsetNL = read(data + offset + 26, 2); uint offsetEL = read(data + offset + 28, 2); file.data = data + offset + 30 + offsetNL + offsetEL; directory += 46 + namelength + extralength + commentlength; this->file.append(file); } return true; } auto extract(File& file) -> vector { vector buffer; if(file.cmode == 0) { buffer.resize(file.size); memcpy(buffer.data(), file.data, file.size); } if(file.cmode == 8) { buffer.resize(file.size); if(inflate(buffer.data(), buffer.size(), file.data, file.csize) == false) { buffer.reset(); } } return buffer; } auto close() -> void { if(fm.open()) fm.close(); } protected: filemap fm; const uint8_t* filedata; uint filesize; auto read(const uint8_t* data, uint size) -> uint { uint result = 0, shift = 0; while(size--) { result |= *data++ << shift; shift += 8; } return result; } public: vector file; }; }}